Locus_tag	OperonID	Description
STMDT12_C00010	operon_0001	NC_016860.1|gene0|STMDT12_C00010|thrA
STMDT12_C00020	operon_0001	NC_016860.1|gene1|STMDT12_C00020
STMDT12_C00030	operon_0001	NC_016860.1|gene2|STMDT12_C00030
STMDT12_C00040	operon_0002	NC_016860.1|gene3|STMDT12_C00040
STMDT12_C00050	operon_0002	NC_016860.1|gene4|STMDT12_C00050
STMDT12_C00060	operon_0003	NC_016860.1|gene5|STMDT12_C00060
STMDT12_C00070	operon_0003	NC_016860.1|gene6|STMDT12_C00070|mogA
STMDT12_C00080	operon_0004	NC_016860.1|gene7|STMDT12_C00080
STMDT12_C00090	operon_0004	NC_016860.1|gene8|STMDT12_C00090
STMDT12_C00100	operon_0004	NC_016860.1|gene9|STMDT12_C00100
STMDT12_C00120	operon_0005	NC_016860.1|gene10|STMDT12_C00120|dnaK
STMDT12_C00130	operon_0005	NC_016860.1|gene11|STMDT12_C00130
STMDT12_C00140	operon_0005	NC_016860.1|gene12|STMDT12_C00140
STMDT12_C00150	operon_0005	NC_016860.1|gene13|STMDT12_C00150
STMDT12_C00160	operon_0006	NC_016860.1|gene14|STMDT12_C00160
STMDT12_C00170	operon_0006	NC_016860.1|gene15|STMDT12_C00170
STMDT12_C00180	operon_0007	NC_016860.1|gene16|STMDT12_C00180
STMDT12_C00190	operon_0007	NC_016860.1|gene17|STMDT12_C00190
STMDT12_C00200	operon_0007	NC_016860.1|gene18|STMDT12_C00200
STMDT12_C00210	operon_0007	NC_016860.1|gene19|STMDT12_C00210
STMDT12_C00220	operon_0007	NC_016860.1|gene20|STMDT12_C00220
STMDT12_C00230	operon_0007	NC_016860.1|gene21|STMDT12_C00230
STMDT12_C00240	operon_0007	NC_016860.1|gene22|STMDT12_C00240
STMDT12_C00250	operon_0007	NC_016860.1|gene23|STMDT12_C00250
STMDT12_C00260	operon_0007	NC_016860.1|gene24|STMDT12_C00260
STMDT12_C00270	operon_0007	NC_016860.1|gene25|STMDT12_C00270
STMDT12_C00280	operon_0007	NC_016860.1|gene26|STMDT12_C00280
STMDT12_C00290	operon_0007	NC_016860.1|gene27|STMDT12_C00290
STMDT12_C00300	operon_0008	NC_016860.1|gene28|STMDT12_C00300
STMDT12_C00310	operon_0009	NC_016860.1|gene29|STMDT12_C00310
STMDT12_C00320	operon_0010	NC_016860.1|gene30|STMDT12_C00320
STMDT12_C00330	operon_0011	NC_016860.1|gene31|STMDT12_C00330
STMDT12_C00340	operon_0012	NC_016860.1|gene32|STMDT12_C00340
STMDT12_C00350	operon_0012	NC_016860.1|gene33|STMDT12_C00350
STMDT12_C00360	operon_0013	NC_016860.1|gene34|STMDT12_C00360
STMDT12_C00370	operon_0013	NC_016860.1|gene35|STMDT12_C00370
STMDT12_C00380	operon_0013	NC_016860.1|gene36|STMDT12_C00380
STMDT12_C00390	operon_0013	NC_016860.1|gene37|STMDT12_C00390
STMDT12_C00400	operon_0013	NC_016860.1|gene38|STMDT12_C00400|nhaA
STMDT12_C00410	operon_0013	NC_016860.1|gene39|STMDT12_C00410|nhaR
STMDT12_C00420	operon_0014	NC_016860.1|gene40|STMDT12_C00420
STMDT12_C00430	operon_0014	NC_016860.1|gene41|STMDT12_C00430
STMDT12_C00440	operon_0014	NC_016860.1|gene42|STMDT12_C00440|rpsT
STMDT12_C00450	operon_0015	NC_016860.1|gene43|STMDT12_C00450
STMDT12_C00460	operon_0015	NC_016860.1|gene44|STMDT12_C00460
STMDT12_C00470	operon_0015	NC_016860.1|gene45|STMDT12_C00470|ileS
STMDT12_C00480	operon_0015	NC_016860.1|gene46|STMDT12_C00480|lspA
STMDT12_C00490	operon_0015	NC_016860.1|gene47|STMDT12_C00490
STMDT12_C00500	operon_0015	NC_016860.1|gene48|STMDT12_C00500|ispH
STMDT12_C00510	operon_0015	NC_016860.1|gene49|STMDT12_C00510
STMDT12_C00520	operon_0015	NC_016860.1|gene50|STMDT12_C00520
STMDT12_C00530	operon_0016	NC_016860.1|gene51|STMDT12_C00530
STMDT12_C00540	operon_0016	NC_016860.1|gene52|STMDT12_C00540
STMDT12_C00550	operon_0016	NC_016860.1|gene53|STMDT12_C00550
STMDT12_C00560	operon_0016	NC_016860.1|gene54|STMDT12_C00560
STMDT12_C00570	operon_0016	NC_016860.1|gene55|STMDT12_C00570
STMDT12_C00580	operon_0016	NC_016860.1|gene56|STMDT12_C00580
STMDT12_C00590	operon_0017	NC_016860.1|gene57|STMDT12_C00590
STMDT12_C00600	operon_0017	NC_016860.1|gene58|STMDT12_C00600
STMDT12_C00610	operon_0017	NC_016860.1|gene59|STMDT12_C00610
STMDT12_C00620	operon_0017	NC_016860.1|gene60|STMDT12_C00620
STMDT12_C00630	operon_0017	NC_016860.1|gene61|STMDT12_C00630
STMDT12_C00640	operon_0017	NC_016860.1|gene62|STMDT12_C00640
STMDT12_C00650	operon_0017	NC_016860.1|gene63|STMDT12_C00650
STMDT12_C00660	operon_0018	NC_016860.1|gene64|STMDT12_C00660
STMDT12_C00670	operon_0019	NC_016860.1|gene65|STMDT12_C00670
STMDT12_C00680	operon_0019	NC_016860.1|gene66|STMDT12_C00680|carB
STMDT12_C00690	operon_0019	NC_016860.1|gene67|STMDT12_C00690
STMDT12_C00700	operon_0020	NC_016860.1|gene68|STMDT12_C00700
STMDT12_C00710	operon_0020	NC_016860.1|gene69|STMDT12_C00710
STMDT12_C00720	operon_0020	NC_016860.1|gene70|STMDT12_C00720|caiC
STMDT12_C00730	operon_0020	NC_016860.1|gene71|STMDT12_C00730
STMDT12_C00740	operon_0020	NC_016860.1|gene72|STMDT12_C00740
STMDT12_C00750	operon_0020	NC_016860.1|gene73|STMDT12_C00750
STMDT12_C00760	operon_0021	NC_016860.1|gene74|STMDT12_C00760
STMDT12_C00770	operon_0021	NC_016860.1|gene75|STMDT12_C00770
STMDT12_C00780	operon_0021	NC_016860.1|gene76|STMDT12_C00780|fixB
STMDT12_C00790	operon_0021	NC_016860.1|gene77|STMDT12_C00790
STMDT12_C00800	operon_0021	NC_016860.1|gene78|STMDT12_C00800
STMDT12_C00810	operon_0021	NC_016860.1|gene79|STMDT12_C00810
STMDT12_C00820	operon_0021	NC_016860.1|gene80|STMDT12_C00820
STMDT12_C00830	operon_0021	NC_016860.1|gene81|STMDT12_C00830
STMDT12_C00840	operon_0022	NC_016860.1|gene82|STMDT12_C00840
STMDT12_C00850	operon_0023	NC_016860.1|gene83|STMDT12_C00850
STMDT12_C00860	operon_0023	NC_016860.1|gene84|STMDT12_C00860
STMDT12_C00870	operon_0023	NC_016860.1|gene85|STMDT12_C00870
STMDT12_C00880	operon_0023	NC_016860.1|gene86|STMDT12_C00880|folA
STMDT12_C00890	operon_0024	NC_016860.1|gene87|STMDT12_C00890|apaH
STMDT12_C00900	operon_0024	NC_016860.1|gene88|STMDT12_C00900|apaG
STMDT12_C00910	operon_0024	NC_016860.1|gene89|STMDT12_C00910|ksgA
STMDT12_C00920	operon_0024	NC_016860.1|gene90|STMDT12_C00920|pdxA1
STMDT12_C00930	operon_0024	NC_016860.1|gene91|STMDT12_C00930|pdxA1
STMDT12_C00940	operon_0024	NC_016860.1|gene92|STMDT12_C00940
STMDT12_C00950	operon_0025	NC_016860.1|gene93|STMDT12_C00950|djlA
STMDT12_C00960	operon_0026	NC_016860.1|gene94|STMDT12_C00960
STMDT12_C00970	operon_0026	NC_016860.1|gene95|STMDT12_C00970
STMDT12_C00980	operon_0026	NC_016860.1|gene96|STMDT12_C00980
STMDT12_C00990	operon_0026	NC_016860.1|gene97|STMDT12_C00990
STMDT12_C01000	operon_0027	NC_016860.1|gene98|STMDT12_C01000
STMDT12_C01010	operon_0028	NC_016860.1|gene99|STMDT12_C01010|araD
STMDT12_C01020	operon_0028	NC_016860.1|gene100|STMDT12_C01020
STMDT12_C01030	operon_0028	NC_016860.1|gene101|STMDT12_C01030
STMDT12_C01040	operon_0029	NC_016860.1|gene102|STMDT12_C01040
STMDT12_C01050	operon_0029	NC_016860.1|gene103|STMDT12_C01050
STMDT12_C01060	operon_0030	NC_016860.1|gene104|STMDT12_C01060|thiQ
STMDT12_C01070	operon_0030	NC_016860.1|gene105|STMDT12_C01070|thiP
STMDT12_C01080	operon_0030	NC_016860.1|gene106|STMDT12_C01080|tbpA
STMDT12_C01090	operon_0030	NC_016860.1|gene107|STMDT12_C01090
STMDT12_C01100	operon_0031	NC_016860.1|gene108|STMDT12_C01100
STMDT12_C01110	operon_0032	NC_016860.1|gene109|STMDT12_C01110|leuD
STMDT12_C01120	operon_0032	NC_016860.1|gene110|STMDT12_C01120
STMDT12_C01130	operon_0032	NC_016860.1|gene111|STMDT12_C01130
STMDT12_C01140	operon_0032	NC_016860.1|gene112|STMDT12_C01140
STMDT12_C01150	operon_0033	NC_016860.1|gene113|STMDT12_C01150|leuO
STMDT12_C01160	operon_0033	NC_016860.1|gene114|STMDT12_C01160
STMDT12_C01170	operon_0033	NC_016860.1|gene115|STMDT12_C01170|ilvH
STMDT12_C01180	operon_0033	NC_016860.1|gene116|STMDT12_C01180
STMDT12_C01190	operon_0033	NC_016860.1|gene117|STMDT12_C01190
STMDT12_C01200	operon_0033	NC_016860.1|gene118|STMDT12_C01200|mraW
STMDT12_C01210	operon_0033	NC_016860.1|gene119|STMDT12_C01210|mraW
STMDT12_C01220	operon_0033	NC_016860.1|gene120|STMDT12_C01220
STMDT12_C01230	operon_0033	NC_016860.1|gene121|STMDT12_C01230|murE
STMDT12_C01240	operon_0033	NC_016860.1|gene122|STMDT12_C01240|murF
STMDT12_C01250	operon_0033	NC_016860.1|gene123|STMDT12_C01250|mraY
STMDT12_C01260	operon_0033	NC_016860.1|gene124|STMDT12_C01260|murD
STMDT12_C01270	operon_0033	NC_016860.1|gene125|STMDT12_C01270|murD
STMDT12_C01280	operon_0033	NC_016860.1|gene126|STMDT12_C01280|murG
STMDT12_C01290	operon_0033	NC_016860.1|gene127|STMDT12_C01290|murC
STMDT12_C01300	operon_0033	NC_016860.1|gene128|STMDT12_C01300|ddlB
STMDT12_C01310	operon_0033	NC_016860.1|gene129|STMDT12_C01310
STMDT12_C01320	operon_0033	NC_016860.1|gene130|STMDT12_C01320|ftsA
STMDT12_C01330	operon_0033	NC_016860.1|gene131|STMDT12_C01330
STMDT12_C01340	operon_0033	NC_016860.1|gene132|STMDT12_C01340|lpxC
STMDT12_C01350	operon_0033	NC_016860.1|gene133|STMDT12_C01350
STMDT12_C01360	operon_0033	NC_016860.1|gene134|STMDT12_C01360
STMDT12_C01370	operon_0033	NC_016860.1|gene135|STMDT12_C01370
STMDT12_C01380	operon_0034	NC_016860.1|gene136|STMDT12_C01380
STMDT12_C01390	operon_0034	NC_016860.1|gene137|STMDT12_C01390
STMDT12_C01400	operon_0034	NC_016860.1|gene138|STMDT12_C01400
STMDT12_C01410	operon_0034	NC_016860.1|gene139|STMDT12_C01410|coaE
STMDT12_C01420	operon_0035	NC_016860.1|gene140|STMDT12_C01420
STMDT12_C01430	operon_0036	NC_016860.1|gene141|STMDT12_C01430
STMDT12_C01440	operon_0036	NC_016860.1|gene142|STMDT12_C01440
STMDT12_C01450	operon_0036	NC_016860.1|gene143|STMDT12_C01450
STMDT12_C01460	operon_0036	NC_016860.1|gene144|STMDT12_C01460
STMDT12_C01470	operon_0037	NC_016860.1|gene145|STMDT12_C01470
STMDT12_C01480	operon_0037	NC_016860.1|gene146|STMDT12_C01480
STMDT12_C01490	operon_0038	NC_016860.1|gene147|STMDT12_C01490
STMDT12_C01500	operon_0038	NC_016860.1|gene148|STMDT12_C01500
STMDT12_C01510	operon_0038	NC_016860.1|gene149|STMDT12_C01510
STMDT12_C01520	operon_0039	NC_016860.1|gene150|STMDT12_C01520|pdhR
STMDT12_C01530	operon_0039	NC_016860.1|gene151|STMDT12_C01530|aceE
STMDT12_C01540	operon_0039	NC_016860.1|gene152|STMDT12_C01540|aceF
STMDT12_C01550	operon_0039	NC_016860.1|gene153|STMDT12_C01550
STMDT12_C01560	operon_0039	NC_016860.1|gene154|STMDT12_C01560
STMDT12_C01570	operon_0040	NC_016860.1|gene155|STMDT12_C01570
STMDT12_C01580	operon_0040	NC_016860.1|gene156|STMDT12_C01580
STMDT12_C01590	operon_0041	NC_016860.1|gene157|STMDT12_C01590
STMDT12_C01600	operon_0042	NC_016860.1|gene158|STMDT12_C01600
STMDT12_C01610	operon_0043	NC_016860.1|gene159|STMDT12_C01610
STMDT12_C01620	operon_0043	NC_016860.1|gene160|STMDT12_C01620
STMDT12_C01630	operon_0043	NC_016860.1|gene161|STMDT12_C01630
STMDT12_C01640	operon_0043	NC_016860.1|gene162|STMDT12_C01640|pdxA2
STMDT12_C01650	operon_0043	NC_016860.1|gene163|STMDT12_C01650
STMDT12_C01660	operon_0044	NC_016860.1|gene164|STMDT12_C01660
STMDT12_C01670	operon_0044	NC_016860.1|gene165|STMDT12_C01670
STMDT12_C01680	operon_0044	NC_016860.1|gene166|STMDT12_C01680
STMDT12_C01690	operon_0045	NC_016860.1|gene167|STMDT12_C01690
STMDT12_C01700	operon_0046	NC_016860.1|gene168|STMDT12_C01700
STMDT12_C01710	operon_0047	NC_016860.1|gene169|STMDT12_C01710
STMDT12_C01720	operon_0048	NC_016860.1|gene170|STMDT12_C01720
STMDT12_C01730	operon_0049	NC_016860.1|gene171|STMDT12_C01730
STMDT12_C01740	operon_0049	NC_016860.1|gene172|STMDT12_C01740
STMDT12_C01750	operon_0050	NC_016860.1|gene173|STMDT12_C01750
STMDT12_C01760	operon_0050	NC_016860.1|gene174|STMDT12_C01760
STMDT12_C01770	operon_0050	NC_016860.1|gene175|STMDT12_C01770
STMDT12_C01780	operon_0050	NC_016860.1|gene176|STMDT12_C01780
STMDT12_C01790	operon_0051	NC_016860.1|gene177|STMDT12_C01790
STMDT12_C01800	operon_0051	NC_016860.1|gene178|STMDT12_C01800
STMDT12_C01810	operon_0052	NC_016860.1|gene179|STMDT12_C01810
STMDT12_C01820	operon_0052	NC_016860.1|gene180|STMDT12_C01820|panC
STMDT12_C01830	operon_0052	NC_016860.1|gene181|STMDT12_C01830|panB
STMDT12_C01840	operon_0052	NC_016860.1|gene182|STMDT12_C01840
STMDT12_C01850	operon_0052	NC_016860.1|gene183|STMDT12_C01850|pcnB
STMDT12_C01860	operon_0052	NC_016860.1|gene184|STMDT12_C01860
STMDT12_C01870	operon_0052	NC_016860.1|gene185|STMDT12_C01870|dksA
STMDT12_C01880	operon_0052	NC_016860.1|gene186|STMDT12_C01880
STMDT12_C01890	operon_0052	NC_016860.1|gene187|STMDT12_C01890
STMDT12_C01900	operon_0053	NC_016860.1|gene188|STMDT12_C01900
STMDT12_C01910	operon_0053	NC_016860.1|gene189|STMDT12_C01910|mrcB
STMDT12_C01920	operon_0053	NC_016860.1|gene190|STMDT12_C01920
STMDT12_C01930	operon_0053	NC_016860.1|gene191|STMDT12_C01930
STMDT12_C01940	operon_0053	NC_016860.1|gene192|STMDT12_C01940
STMDT12_C01950	operon_0053	NC_016860.1|gene193|STMDT12_C01950
STMDT12_C01960	operon_0053	NC_016860.1|gene194|STMDT12_C01960
STMDT12_C01970	operon_0053	NC_016860.1|gene195|STMDT12_C01970
STMDT12_C01980	operon_0053	NC_016860.1|gene196|STMDT12_C01980
STMDT12_C01990	operon_0053	NC_016860.1|gene197|STMDT12_C01990
STMDT12_C02000	operon_0053	NC_016860.1|gene198|STMDT12_C02000
STMDT12_C02010	operon_0053	NC_016860.1|gene199|STMDT12_C02010
STMDT12_C02020	operon_0053	NC_016860.1|gene200|STMDT12_C02020
STMDT12_C02030	operon_0054	NC_016860.1|gene201|STMDT12_C02030
STMDT12_C02040	operon_0055	NC_016860.1|gene202|STMDT12_C02040
STMDT12_C02050	operon_0055	NC_016860.1|gene203|STMDT12_C02050
STMDT12_C02060	operon_0056	NC_016860.1|gene204|STMDT12_C02060
STMDT12_C02070	operon_0056	NC_016860.1|gene205|STMDT12_C02070
STMDT12_C02080	operon_0056	NC_016860.1|gene206|STMDT12_C02080
STMDT12_C02090	operon_0057	NC_016860.1|gene207|STMDT12_C02090|dgt
STMDT12_C02100	operon_0057	NC_016860.1|gene208|STMDT12_C02100
STMDT12_C02110	operon_0057	NC_016860.1|gene209|STMDT12_C02110
STMDT12_C02120	operon_0058	NC_016860.1|gene210|STMDT12_C02120
STMDT12_C02130	operon_0059	NC_016860.1|gene211|STMDT12_C02130
STMDT12_C02140	operon_0060	NC_016860.1|gene212|STMDT12_C02140|dapD
STMDT12_C02150	operon_0060	NC_016860.1|gene213|STMDT12_C02150
STMDT12_C02160	operon_0060	NC_016860.1|gene214|STMDT12_C02160
STMDT12_C02170	operon_0061	NC_016860.1|gene215|STMDT12_C02170|rpsB
STMDT12_C02180	operon_0061	NC_016860.1|gene216|STMDT12_C02180|tsf
STMDT12_C02190	operon_0061	NC_016860.1|gene217|STMDT12_C02190|pyrH
STMDT12_C02200	operon_0061	NC_016860.1|gene218|STMDT12_C02200|frr
STMDT12_C02210	operon_0061	NC_016860.1|gene219|STMDT12_C02210
STMDT12_C02220	operon_0061	NC_016860.1|gene220|STMDT12_C02220
STMDT12_C02230	operon_0061	NC_016860.1|gene221|STMDT12_C02230|cdsA
STMDT12_C02240	operon_0061	NC_016860.1|gene222|STMDT12_C02240
STMDT12_C02250	operon_0061	NC_016860.1|gene223|STMDT12_C02250
STMDT12_C02260	operon_0061	NC_016860.1|gene224|STMDT12_C02260
STMDT12_C02270	operon_0061	NC_016860.1|gene225|STMDT12_C02270|lpxD
STMDT12_C02280	operon_0061	NC_016860.1|gene226|STMDT12_C02280|fabZ
STMDT12_C02290	operon_0061	NC_016860.1|gene227|STMDT12_C02290
STMDT12_C02300	operon_0061	NC_016860.1|gene228|STMDT12_C02300|lpxB
STMDT12_C02310	operon_0061	NC_016860.1|gene229|STMDT12_C02310|rnhB
STMDT12_C02320	operon_0061	NC_016860.1|gene230|STMDT12_C02320|dnaE
STMDT12_C02330	operon_0061	NC_016860.1|gene231|STMDT12_C02330
STMDT12_C02340	operon_0061	NC_016860.1|gene232|STMDT12_C02340
STMDT12_C02350	operon_0061	NC_016860.1|gene233|STMDT12_C02350
STMDT12_C02360	operon_0061	NC_016860.1|gene234|STMDT12_C02360
STMDT12_C02370	operon_0061	NC_016860.1|gene235|STMDT12_C02370|tilS
STMDT12_C02380	operon_0062	NC_016860.1|gene236|STMDT12_C02380
STMDT12_C02390	operon_0062	NC_016860.1|gene237|STMDT12_C02390
STMDT12_C02400	operon_0063	NC_016860.1|gene238|STMDT12_C02400
STMDT12_C02410	operon_0063	NC_016860.1|gene239|STMDT12_C02410
STMDT12_C02420	operon_0063	NC_016860.1|gene240|STMDT12_C02420
STMDT12_C02430	operon_0063	NC_016860.1|gene241|STMDT12_C02430
STMDT12_C02440	operon_0064	NC_016860.1|gene242|STMDT12_C02440
STMDT12_C02450	operon_0064	NC_016860.1|gene243|STMDT12_C02450
STMDT12_C02460	operon_0064	NC_016860.1|gene244|STMDT12_C02460|rcsF
STMDT12_C02470	operon_0064	NC_016860.1|gene245|STMDT12_C02470|metQ
STMDT12_C02480	operon_0064	NC_016860.1|gene246|STMDT12_C02480
STMDT12_C02490	operon_0064	NC_016860.1|gene247|STMDT12_C02490|metN
STMDT12_C02500	operon_0065	NC_016860.1|gene248|STMDT12_C02500
STMDT12_Cr0010	operon_0065	NC_016860.1|gene249|STMDT12_Cr0010
STMDT12_Ct0010	operon_0065	NC_016860.1|gene250|STMDT12_Ct0010
STMDT12_Ct0020	operon_0065	NC_016860.1|gene251|STMDT12_Ct0020
STMDT12_Cr0020	operon_0065	NC_016860.1|gene252|STMDT12_Cr0020
STMDT12_Cr0030	operon_0065	NC_016860.1|gene253|STMDT12_Cr0030
STMDT12_Ct0030	operon_0065	NC_016860.1|gene254|STMDT12_Ct0030
STMDT12_C02510	operon_0065	NC_016860.1|gene255|STMDT12_C02510|dkgB
STMDT12_C02520	operon_0066	NC_016860.1|gene256|STMDT12_C02520
STMDT12_C02530	operon_0067	NC_016860.1|gene257|STMDT12_C02530
STMDT12_C02540	operon_0067	NC_016860.1|gene258|STMDT12_C02540
STMDT12_C02550	operon_0067	NC_016860.1|gene259|STMDT12_C02550
STMDT12_C02560	operon_0068	NC_016860.1|gene260|STMDT12_C02560|mltD
STMDT12_C02570	operon_0068	NC_016860.1|gene261|STMDT12_C02570
STMDT12_C02580	operon_0069	NC_016860.1|gene262|STMDT12_C02580
STMDT12_C02590	operon_0070	NC_016860.1|gene263|STMDT12_C02590|rnhA
STMDT12_C02600	operon_0071	NC_016860.1|gene264|STMDT12_C02600
STMDT12_Ct0040	operon_0071	NC_016860.1|gene265|STMDT12_Ct0040
STMDT12_C02610	operon_0071	NC_016860.1|gene266|STMDT12_C02610
STMDT12_C02620	operon_0072	NC_016860.1|gene267|STMDT12_C02620
STMDT12_C02630	operon_0072	NC_016860.1|gene268|STMDT12_C02630
STMDT12_C02640	operon_0072	NC_016860.1|gene269|STMDT12_C02640
STMDT12_C02650	operon_0072	NC_016860.1|gene270|STMDT12_C02650
STMDT12_C02660	operon_0072	NC_016860.1|gene271|STMDT12_C02660
STMDT12_C02670	operon_0072	NC_016860.1|gene272|STMDT12_C02670
STMDT12_C02680	operon_0073	NC_016860.1|gene273|STMDT12_C02680
STMDT12_C02690	operon_0073	NC_016860.1|gene274|STMDT12_C02690
STMDT12_C02700	operon_0073	NC_016860.1|gene275|STMDT12_C02700
STMDT12_C02710	operon_0073	NC_016860.1|gene276|STMDT12_C02710
STMDT12_C02720	operon_0073	NC_016860.1|gene277|STMDT12_C02720
STMDT12_C02730	operon_0073	NC_016860.1|gene278|STMDT12_C02730
STMDT12_C02740	operon_0073	NC_016860.1|gene279|STMDT12_C02740
STMDT12_C02750	operon_0073	NC_016860.1|gene280|STMDT12_C02750
STMDT12_C02760	operon_0073	NC_016860.1|gene281|STMDT12_C02760
STMDT12_C02770	operon_0073	NC_016860.1|gene282|STMDT12_C02770
STMDT12_C02780	operon_0073	NC_016860.1|gene283|STMDT12_C02780
STMDT12_C02790	operon_0073	NC_016860.1|gene284|STMDT12_C02790
STMDT12_C02800	operon_0073	NC_016860.1|gene285|STMDT12_C02800
STMDT12_C02810	operon_0073	NC_016860.1|gene286|STMDT12_C02810
STMDT12_C02820	operon_0073	NC_016860.1|gene287|STMDT12_C02820
STMDT12_C02830	operon_0073	NC_016860.1|gene288|STMDT12_C02830
STMDT12_C02840	operon_0073	NC_016860.1|gene289|STMDT12_C02840
STMDT12_C02850	operon_0073	NC_016860.1|gene290|STMDT12_C02850
STMDT12_C02860	operon_0073	NC_016860.1|gene291|STMDT12_C02860
STMDT12_C02870	operon_0073	NC_016860.1|gene292|STMDT12_C02870
STMDT12_C02880	operon_0073	NC_016860.1|gene293|STMDT12_C02880
STMDT12_C02890	operon_0073	NC_016860.1|gene294|STMDT12_C02890
STMDT12_C02900	operon_0073	NC_016860.1|gene295|STMDT12_C02900
STMDT12_C02910	operon_0073	NC_016860.1|gene296|STMDT12_C02910
STMDT12_C02920	operon_0074	NC_016860.1|gene297|STMDT12_C02920
STMDT12_C02930	operon_0075	NC_016860.1|gene298|STMDT12_C02930
STMDT12_C02940	operon_0076	NC_016860.1|gene299|STMDT12_C02940
STMDT12_C02950	operon_0076	NC_016860.1|gene300|STMDT12_C02950
STMDT12_C02960	operon_0077	NC_016860.1|gene301|STMDT12_C02960
STMDT12_C02970	operon_0077	NC_016860.1|gene302|STMDT12_C02970
STMDT12_C02980	operon_0077	NC_016860.1|gene303|STMDT12_C02980
STMDT12_C02990	operon_0077	NC_016860.1|gene304|STMDT12_C02990
STMDT12_C03000	operon_0077	NC_016860.1|gene305|STMDT12_C03000
STMDT12_C03010	operon_0077	NC_016860.1|gene306|STMDT12_C03010
STMDT12_C03020	operon_0077	NC_016860.1|gene307|STMDT12_C03020
STMDT12_C03030	operon_0077	NC_016860.1|gene308|STMDT12_C03030
STMDT12_C03040	operon_0077	NC_016860.1|gene309|STMDT12_C03040
STMDT12_C03050	operon_0077	NC_016860.1|gene310|STMDT12_C03050
STMDT12_C03060	operon_0078	NC_016860.1|gene311|STMDT12_C03060
STMDT12_C03070	operon_0078	NC_016860.1|gene312|STMDT12_C03070
STMDT12_C03080	operon_0078	NC_016860.1|gene313|STMDT12_C03080
STMDT12_C03090	operon_0078	NC_016860.1|gene314|STMDT12_C03090|fadE
STMDT12_C03100	operon_0079	NC_016860.1|gene315|STMDT12_C03100|gmhA
STMDT12_C03110	operon_0079	NC_016860.1|gene316|STMDT12_C03110
STMDT12_C03120	operon_0080	NC_016860.1|gene317|STMDT12_C03120
STMDT12_C03130	operon_0081	NC_016860.1|gene318|STMDT12_C03130
STMDT12_C03140	operon_0081	NC_016860.1|gene319|STMDT12_C03140
STMDT12_C03160	operon_0081	NC_016860.1|gene320|STMDT12_C03160|prfH
STMDT12_C03170	operon_0082	NC_016860.1|gene321|STMDT12_C03170
STMDT12_C03180	operon_0083	NC_016860.1|gene322|STMDT12_C03180
STMDT12_C03190	operon_0083	NC_016860.1|gene323|STMDT12_C03190|frsA
STMDT12_C03200	operon_0083	NC_016860.1|gene324|STMDT12_C03200
STMDT12_C03210	operon_0084	NC_016860.1|gene325|STMDT12_C03210
STMDT12_C03220	operon_0085	NC_016860.1|gene326|STMDT12_C03220
STMDT12_C03230	operon_0085	NC_016860.1|gene327|STMDT12_C03230|proA
STMDT12_Ct0050	operon_0085	NC_016860.1|gene328|STMDT12_Ct0050
STMDT12_C03240	operon_0086	NC_016860.1|gene329|STMDT12_C03240
STMDT12_C03250	operon_0086	NC_016860.1|gene330|STMDT12_C03250
STMDT12_C03260	operon_0086	NC_016860.1|gene331|STMDT12_C03260
STMDT12_C03270	operon_0086	NC_016860.1|gene332|STMDT12_C03270
STMDT12_C03280	operon_0086	NC_016860.1|gene333|STMDT12_C03280
STMDT12_C03290	operon_0086	NC_016860.1|gene334|STMDT12_C03290
STMDT12_C03300	operon_0086	NC_016860.1|gene335|STMDT12_C03300
STMDT12_C03310	operon_0086	NC_016860.1|gene336|STMDT12_C03310
STMDT12_C03320	operon_0086	NC_016860.1|gene337|STMDT12_C03320
STMDT12_C03330	operon_0086	NC_016860.1|gene338|STMDT12_C03330
STMDT12_C03340	operon_0086	NC_016860.1|gene339|STMDT12_C03340
STMDT12_C03350	operon_0086	NC_016860.1|gene340|STMDT12_C03350
STMDT12_C03360	operon_0086	NC_016860.1|gene341|STMDT12_C03360
STMDT12_C03370	operon_0086	NC_016860.1|gene342|STMDT12_C03370
STMDT12_C03380	operon_0086	NC_016860.1|gene343|STMDT12_C03380
STMDT12_C03390	operon_0086	NC_016860.1|gene344|STMDT12_C03390
STMDT12_C03400	operon_0086	NC_016860.1|gene345|STMDT12_C03400
STMDT12_C03410	operon_0086	NC_016860.1|gene346|STMDT12_C03410
STMDT12_C03420	operon_0087	NC_016860.1|gene347|STMDT12_C03420
STMDT12_C03430	operon_0088	NC_016860.1|gene348|STMDT12_C03430
STMDT12_C03440	operon_0089	NC_016860.1|gene349|STMDT12_C03440
STMDT12_C03450	operon_0090	NC_016860.1|gene350|STMDT12_C03450
STMDT12_C03460	operon_0091	NC_016860.1|gene351|STMDT12_C03460
STMDT12_C03470	operon_0092	NC_016860.1|gene352|STMDT12_C03470
STMDT12_C03480	operon_0092	NC_016860.1|gene353|STMDT12_C03480
STMDT12_C03490	operon_0093	NC_016860.1|gene354|STMDT12_C03490
STMDT12_C03500	operon_0093	NC_016860.1|gene355|STMDT12_C03500
STMDT12_C03510	operon_0093	NC_016860.1|gene356|STMDT12_C03510
STMDT12_C03520	operon_0093	NC_016860.1|gene357|STMDT12_C03520
STMDT12_C03530	operon_0093	NC_016860.1|gene358|STMDT12_C03530
STMDT12_C03540	operon_0093	NC_016860.1|gene359|STMDT12_C03540
STMDT12_C03550	operon_0093	NC_016860.1|gene360|STMDT12_C03550
STMDT12_C03560	operon_0093	NC_016860.1|gene361|STMDT12_C03560
STMDT12_C03570	operon_0093	NC_016860.1|gene362|STMDT12_C03570
STMDT12_C03580	operon_0093	NC_016860.1|gene363|STMDT12_C03580
STMDT12_C03590	operon_0093	NC_016860.1|gene364|STMDT12_C03590
STMDT12_C03600	operon_0093	NC_016860.1|gene365|STMDT12_C03600
STMDT12_C03610	operon_0093	NC_016860.1|gene366|STMDT12_C03610
STMDT12_C03620	operon_0093	NC_016860.1|gene367|STMDT12_C03620
STMDT12_C03630	operon_0093	NC_016860.1|gene368|STMDT12_C03630
STMDT12_C03640	operon_0093	NC_016860.1|gene369|STMDT12_C03640
STMDT12_C03650	operon_0093	NC_016860.1|gene370|STMDT12_C03650
STMDT12_C03660	operon_0093	NC_016860.1|gene371|STMDT12_C03660
STMDT12_C03670	operon_0093	NC_016860.1|gene372|STMDT12_C03670
STMDT12_C03680	operon_0093	NC_016860.1|gene373|STMDT12_C03680
STMDT12_C03690	operon_0093	NC_016860.1|gene374|STMDT12_C03690
STMDT12_C03700	operon_0093	NC_016860.1|gene375|STMDT12_C03700
STMDT12_C03710	operon_0093	NC_016860.1|gene376|STMDT12_C03710
STMDT12_C03720	operon_0093	NC_016860.1|gene377|STMDT12_C03720
STMDT12_C03730	operon_0093	NC_016860.1|gene378|STMDT12_C03730
STMDT12_C03740	operon_0093	NC_016860.1|gene379|STMDT12_C03740
STMDT12_C03750	operon_0093	NC_016860.1|gene380|STMDT12_C03750
STMDT12_C03760	operon_0093	NC_016860.1|gene381|STMDT12_C03760
STMDT12_C03770	operon_0093	NC_016860.1|gene382|STMDT12_C03770
STMDT12_C03780	operon_0093	NC_016860.1|gene383|STMDT12_C03780
STMDT12_C03790	operon_0093	NC_016860.1|gene384|STMDT12_C03790
STMDT12_C03800	operon_0093	NC_016860.1|gene385|STMDT12_C03800
STMDT12_C03810	operon_0093	NC_016860.1|gene386|STMDT12_C03810
STMDT12_C03820	operon_0093	NC_016860.1|gene387|STMDT12_C03820
STMDT12_C03830	operon_0094	NC_016860.1|gene388|STMDT12_C03830
STMDT12_C03840	operon_0095	NC_016860.1|gene389|STMDT12_C03840
STMDT12_C03850	operon_0096	NC_016860.1|gene390|STMDT12_C03850
STMDT12_C03860	operon_0096	NC_016860.1|gene391|STMDT12_C03860
STMDT12_C03870	operon_0096	NC_016860.1|gene392|STMDT12_C03870
STMDT12_C03880	operon_0096	NC_016860.1|gene393|STMDT12_C03880
STMDT12_C03890	operon_0097	NC_016860.1|gene394|STMDT12_C03890
STMDT12_C03900	operon_0097	NC_016860.1|gene395|STMDT12_C03900
STMDT12_C03910	operon_0097	NC_016860.1|gene396|STMDT12_C03910
STMDT12_C03920	operon_0097	NC_016860.1|gene397|STMDT12_C03920
STMDT12_C03930	operon_0097	NC_016860.1|gene398|STMDT12_C03930
STMDT12_C03940	operon_0097	NC_016860.1|gene399|STMDT12_C03940
STMDT12_C03950	operon_0097	NC_016860.1|gene400|STMDT12_C03950
STMDT12_C03960	operon_0097	NC_016860.1|gene401|STMDT12_C03960
STMDT12_C03970	operon_0097	NC_016860.1|gene402|STMDT12_C03970
STMDT12_C03980	operon_0097	NC_016860.1|gene403|STMDT12_C03980
STMDT12_C03990	operon_0098	NC_016860.1|gene404|STMDT12_C03990
STMDT12_C04000	operon_0098	NC_016860.1|gene405|STMDT12_C04000
STMDT12_C04010	operon_0098	NC_016860.1|gene406|STMDT12_C04010
STMDT12_C04020	operon_0098	NC_016860.1|gene407|STMDT12_C04020
STMDT12_C04030	operon_0098	NC_016860.1|gene408|STMDT12_C04030
STMDT12_C04040	operon_0098	NC_016860.1|gene409|STMDT12_C04040
STMDT12_C04050	operon_0099	NC_016860.1|gene410|STMDT12_C04050
STMDT12_C04060	operon_0099	NC_016860.1|gene411|STMDT12_C04060
STMDT12_C04070	operon_0099	NC_016860.1|gene412|STMDT12_C04070
STMDT12_C04080	operon_0099	NC_016860.1|gene413|STMDT12_C04080
STMDT12_C04090	operon_0099	NC_016860.1|gene414|STMDT12_C04090
STMDT12_C04100	operon_0099	NC_016860.1|gene415|STMDT12_C04100
STMDT12_C04110	operon_0099	NC_016860.1|gene416|STMDT12_C04110
STMDT12_C04120	operon_0100	NC_016860.1|gene417|STMDT12_C04120
STMDT12_C04130	operon_0100	NC_016860.1|gene418|STMDT12_C04130
STMDT12_C04140	operon_0100	NC_016860.1|gene419|STMDT12_C04140
STMDT12_C04150	operon_0101	NC_016860.1|gene420|STMDT12_C04150
STMDT12_C04160	operon_0101	NC_016860.1|gene421|STMDT12_C04160
STMDT12_C04170	operon_0101	NC_016860.1|gene422|STMDT12_C04170
STMDT12_C04180	operon_0101	NC_016860.1|gene423|STMDT12_C04180
STMDT12_C04190	operon_0101	NC_016860.1|gene424|STMDT12_C04190
STMDT12_C04200	operon_0101	NC_016860.1|gene425|STMDT12_C04200
STMDT12_C04210	operon_0101	NC_016860.1|gene426|STMDT12_C04210
STMDT12_C04220	operon_0101	NC_016860.1|gene427|STMDT12_C04220
STMDT12_C04230	operon_0101	NC_016860.1|gene428|STMDT12_C04230
STMDT12_C04240	operon_0101	NC_016860.1|gene429|STMDT12_C04240
STMDT12_C04250	operon_0101	NC_016860.1|gene430|STMDT12_C04250
STMDT12_C04260	operon_0101	NC_016860.1|gene431|STMDT12_C04260
STMDT12_C04270	operon_0102	NC_016860.1|gene432|STMDT12_C04270
STMDT12_C04280	operon_0103	NC_016860.1|gene433|STMDT12_C04280
STMDT12_C04290	operon_0104	NC_016860.1|gene434|STMDT12_C04290
STMDT12_C04300	operon_0105	NC_016860.1|gene435|STMDT12_C04300|prpB
STMDT12_C04310	operon_0105	NC_016860.1|gene436|STMDT12_C04310
STMDT12_C04320	operon_0105	NC_016860.1|gene437|STMDT12_C04320|prpD
STMDT12_C04330	operon_0105	NC_016860.1|gene438|STMDT12_C04330|prpE
STMDT12_C04340	operon_0106	NC_016860.1|gene439|STMDT12_C04340
STMDT12_C04350	operon_0107	NC_016860.1|gene440|STMDT12_C04350
STMDT12_C04360	operon_0107	NC_016860.1|gene441|STMDT12_C04360
STMDT12_C04370	operon_0108	NC_016860.1|gene442|STMDT12_C04370
STMDT12_C04380	operon_0109	NC_016860.1|gene443|STMDT12_C04380
STMDT12_C04390	operon_0109	NC_016860.1|gene444|STMDT12_C04390
STMDT12_C04400	operon_0110	NC_016860.1|gene445|STMDT12_C04400
STMDT12_C04410	operon_0111	NC_016860.1|gene446|STMDT12_C04410
STMDT12_C04420	operon_0112	NC_016860.1|gene447|STMDT12_C04420|ddlA
STMDT12_C04430	operon_0113	NC_016860.1|gene448|STMDT12_C04430
STMDT12_C04440	operon_0113	NC_016860.1|gene449|STMDT12_C04440
STMDT12_C04450	operon_0113	NC_016860.1|gene450|STMDT12_C04450
STMDT12_C04460	operon_0113	NC_016860.1|gene451|STMDT12_C04460
STMDT12_C04470	operon_0113	NC_016860.1|gene452|STMDT12_C04470|adrA
STMDT12_C04480	operon_0114	NC_016860.1|gene453|STMDT12_C04480
STMDT12_C04490	operon_0115	NC_016860.1|gene454|STMDT12_C04490
STMDT12_C04500	operon_0115	NC_016860.1|gene455|STMDT12_C04500|aroL
STMDT12_C04510	operon_0115	NC_016860.1|gene456|STMDT12_C04510
STMDT12_C04520	operon_0115	NC_016860.1|gene457|STMDT12_C04520
STMDT12_C04530	operon_0115	NC_016860.1|gene458|STMDT12_C04530
STMDT12_C04540	operon_0116	NC_016860.1|gene459|STMDT12_C04540|rdgC
STMDT12_C04550	operon_0117	NC_016860.1|gene460|STMDT12_C04550
STMDT12_C04560	operon_0117	NC_016860.1|gene461|STMDT12_C04560
STMDT12_C04570	operon_0118	NC_016860.1|gene462|STMDT12_C04570
STMDT12_C04580	operon_0118	NC_016860.1|gene463|STMDT12_C04580
STMDT12_C04590	operon_0118	NC_016860.1|gene464|STMDT12_C04590
STMDT12_C04600	operon_0118	NC_016860.1|gene465|STMDT12_C04600
STMDT12_C04610	operon_0119	NC_016860.1|gene466|STMDT12_C04610
STMDT12_C04620	operon_0119	NC_016860.1|gene467|STMDT12_C04620|phoR
STMDT12_C04630	operon_0119	NC_016860.1|gene468|STMDT12_C04630
STMDT12_C04640	operon_0119	NC_016860.1|gene469|STMDT12_C04640|proY
STMDT12_C04650	operon_0119	NC_016860.1|gene470|STMDT12_C04650
STMDT12_C04660	operon_0120	NC_016860.1|gene471|STMDT12_C04660
STMDT12_C04670	operon_0120	NC_016860.1|gene472|STMDT12_C04670|acpH
STMDT12_C04680	operon_0121	NC_016860.1|gene473|STMDT12_C04680|queA
STMDT12_C04690	operon_0121	NC_016860.1|gene474|STMDT12_C04690|tgt
STMDT12_C04700	operon_0121	NC_016860.1|gene475|STMDT12_C04700|yajC
STMDT12_C04710	operon_0121	NC_016860.1|gene476|STMDT12_C04710|secD
STMDT12_C04720	operon_0121	NC_016860.1|gene477|STMDT12_C04720|secF
STMDT12_C04730	operon_0121	NC_016860.1|gene478|STMDT12_C04730
STMDT12_C04740	operon_0121	NC_016860.1|gene479|STMDT12_C04740
STMDT12_C04750	operon_0121	NC_016860.1|gene480|STMDT12_C04750
STMDT12_C04760	operon_0121	NC_016860.1|gene481|STMDT12_C04760
STMDT12_C04770	operon_0122	NC_016860.1|gene482|STMDT12_C04770
STMDT12_C04780	operon_0122	NC_016860.1|gene483|STMDT12_C04780
STMDT12_C04790	operon_0123	NC_016860.1|gene484|STMDT12_C04790|nrdR
STMDT12_C04800	operon_0123	NC_016860.1|gene485|STMDT12_C04800|ribD
STMDT12_C04810	operon_0123	NC_016860.1|gene486|STMDT12_C04810|ribH
STMDT12_C04820	operon_0123	NC_016860.1|gene487|STMDT12_C04820|nusB
STMDT12_C04830	operon_0123	NC_016860.1|gene488|STMDT12_C04830
STMDT12_C04840	operon_0123	NC_016860.1|gene489|STMDT12_C04840
STMDT12_C04850	operon_0124	NC_016860.1|gene490|STMDT12_C04850
STMDT12_C04860	operon_0124	NC_016860.1|gene491|STMDT12_C04860
STMDT12_C04870	operon_0124	NC_016860.1|gene492|STMDT12_C04870
STMDT12_C04880	operon_0124	NC_016860.1|gene493|STMDT12_C04880
STMDT12_C04890	operon_0125	NC_016860.1|gene494|STMDT12_C04890
STMDT12_C04900	operon_0126	NC_016860.1|gene495|STMDT12_C04900
STMDT12_C04910	operon_0126	NC_016860.1|gene496|STMDT12_C04910
STMDT12_C04920	operon_0126	NC_016860.1|gene497|STMDT12_C04920
STMDT12_C04930	operon_0126	NC_016860.1|gene498|STMDT12_C04930
STMDT12_C04940	operon_0126	NC_016860.1|gene499|STMDT12_C04940
STMDT12_C04950	operon_0127	NC_016860.1|gene500|STMDT12_C04950
STMDT12_C04960	operon_0127	NC_016860.1|gene501|STMDT12_C04960
STMDT12_C04970	operon_0128	NC_016860.1|gene502|STMDT12_C04970
STMDT12_C04980	operon_0128	NC_016860.1|gene503|STMDT12_C04980
STMDT12_C04990	operon_0129	NC_016860.1|gene504|STMDT12_C04990
STMDT12_C05000	operon_0130	NC_016860.1|gene505|STMDT12_C05000
STMDT12_C05010	operon_0131	NC_016860.1|gene506|STMDT12_C05010
STMDT12_C05020	operon_0131	NC_016860.1|gene507|STMDT12_C05020
STMDT12_C05030	operon_0132	NC_016860.1|gene508|STMDT12_C05030
STMDT12_C05040	operon_0132	NC_016860.1|gene509|STMDT12_C05040
STMDT12_C05050	operon_0132	NC_016860.1|gene510|STMDT12_C05050
STMDT12_C05060	operon_0132	NC_016860.1|gene511|STMDT12_C05060
STMDT12_C05070	operon_0132	NC_016860.1|gene512|STMDT12_C05070
STMDT12_C05080	operon_0132	NC_016860.1|gene513|STMDT12_C05080|ampG
STMDT12_C05090	operon_0132	NC_016860.1|gene514|STMDT12_C05090
STMDT12_C05100	operon_0133	NC_016860.1|gene515|STMDT12_C05100
STMDT12_C05110	operon_0133	NC_016860.1|gene516|STMDT12_C05110|tig
STMDT12_C05120	operon_0133	NC_016860.1|gene517|STMDT12_C05120
STMDT12_C05130	operon_0133	NC_016860.1|gene518|STMDT12_C05130|clpX
STMDT12_C05140	operon_0133	NC_016860.1|gene519|STMDT12_C05140
STMDT12_C05150	operon_0133	NC_016860.1|gene520|STMDT12_C05150
STMDT12_C05160	operon_0133	NC_016860.1|gene521|STMDT12_C05160|ppiD
STMDT12_C05170	operon_0133	NC_016860.1|gene522|STMDT12_C05170
STMDT12_C05180	operon_0133	NC_016860.1|gene523|STMDT12_C05180
STMDT12_C05190	operon_0134	NC_016860.1|gene524|STMDT12_C05190
STMDT12_C05200	operon_0134	NC_016860.1|gene525|STMDT12_C05200
STMDT12_C05210	operon_0135	NC_016860.1|gene526|STMDT12_C05210
STMDT12_C05220	operon_0136	NC_016860.1|gene527|STMDT12_C05220
STMDT12_C05230	operon_0137	NC_016860.1|gene528|STMDT12_C05230
STMDT12_C05240	operon_0137	NC_016860.1|gene529|STMDT12_C05240
STMDT12_C05250	operon_0137	NC_016860.1|gene530|STMDT12_C05250
STMDT12_C05260	operon_0137	NC_016860.1|gene531|STMDT12_C05260
STMDT12_C05270	operon_0137	NC_016860.1|gene532|STMDT12_C05270
STMDT12_C05280	operon_0138	NC_016860.1|gene533|STMDT12_C05280
STMDT12_C05290	operon_0139	NC_016860.1|gene534|STMDT12_C05290
STMDT12_C05300	operon_0140	NC_016860.1|gene535|STMDT12_C05300
STMDT12_C05310	operon_0140	NC_016860.1|gene536|STMDT12_C05310
STMDT12_C05320	operon_0141	NC_016860.1|gene537|STMDT12_C05320|rpmE2
STMDT12_C05330	operon_0141	NC_016860.1|gene538|STMDT12_C05330|rpmJ2
STMDT12_C05340	operon_0142	NC_016860.1|gene539|STMDT12_C05340
STMDT12_C05350	operon_0142	NC_016860.1|gene540|STMDT12_C05350
STMDT12_C05360	operon_0142	NC_016860.1|gene541|STMDT12_C05360
STMDT12_C05370	operon_0142	NC_016860.1|gene542|STMDT12_C05370
STMDT12_C05380	operon_0142	NC_016860.1|gene543|STMDT12_C05380
STMDT12_C05390	operon_0142	NC_016860.1|gene544|STMDT12_C05390
STMDT12_C05400	operon_0143	NC_016860.1|gene545|STMDT12_C05400
STMDT12_C05410	operon_0143	NC_016860.1|gene546|STMDT12_C05410
STMDT12_C05420	operon_0144	NC_016860.1|gene547|STMDT12_C05420
STMDT12_C05430	operon_0144	NC_016860.1|gene548|STMDT12_C05430
STMDT12_C05440	operon_0144	NC_016860.1|gene549|STMDT12_C05440
STMDT12_C05450	operon_0145	NC_016860.1|gene550|STMDT12_C05450
STMDT12_C05460	operon_0145	NC_016860.1|gene551|STMDT12_C05460
STMDT12_C05470	operon_0145	NC_016860.1|gene552|STMDT12_C05470
STMDT12_C05480	operon_0145	NC_016860.1|gene553|STMDT12_C05480
STMDT12_C05490	operon_0145	NC_016860.1|gene554|STMDT12_C05490|recR
STMDT12_C05500	operon_0145	NC_016860.1|gene555|STMDT12_C05500
STMDT12_C05510	operon_0145	NC_016860.1|gene556|STMDT12_C05510|adk
STMDT12_C05520	operon_0145	NC_016860.1|gene557|STMDT12_C05520|hemH
STMDT12_C05530	operon_0146	NC_016860.1|gene558|STMDT12_C05530|hemH
STMDT12_C05540	operon_0147	NC_016860.1|gene559|STMDT12_C05540
STMDT12_C05550	operon_0148	NC_016860.1|gene560|STMDT12_C05550
STMDT12_C05560	operon_0149	NC_016860.1|gene561|STMDT12_C05560
STMDT12_C05570	operon_0150	NC_016860.1|gene562|STMDT12_C05570
STMDT12_C05580	operon_0151	NC_016860.1|gene563|STMDT12_C05580|ushA
STMDT12_C05590	operon_0152	NC_016860.1|gene564|STMDT12_C05590
STMDT12_C05600	operon_0152	NC_016860.1|gene565|STMDT12_C05600
STMDT12_C05610	operon_0152	NC_016860.1|gene566|STMDT12_C05610
STMDT12_C05620	operon_0152	NC_016860.1|gene567|STMDT12_C05620|copA
STMDT12_C05630	operon_0153	NC_016860.1|gene568|STMDT12_C05630
STMDT12_C05640	operon_0154	NC_016860.1|gene569|STMDT12_C05640
STMDT12_C05650	operon_0154	NC_016860.1|gene570|STMDT12_C05650
STMDT12_C05660	operon_0155	NC_016860.1|gene571|STMDT12_C05660
STMDT12_C05670	operon_0155	NC_016860.1|gene572|STMDT12_C05670
STMDT12_C05680	operon_0156	NC_016860.1|gene573|STMDT12_C05680
STMDT12_C05690	operon_0156	NC_016860.1|gene574|STMDT12_C05690
STMDT12_C05700	operon_0156	NC_016860.1|gene575|STMDT12_C05700
STMDT12_C05710	operon_0157	NC_016860.1|gene576|STMDT12_C05710
STMDT12_C05720	operon_0157	NC_016860.1|gene577|STMDT12_C05720
STMDT12_C05730	operon_0157	NC_016860.1|gene578|STMDT12_C05730
STMDT12_C05740	operon_0157	NC_016860.1|gene579|STMDT12_C05740
STMDT12_C05750	operon_0157	NC_016860.1|gene580|STMDT12_C05750
STMDT12_C05760	operon_0157	NC_016860.1|gene581|STMDT12_C05760
STMDT12_C05770	operon_0157	NC_016860.1|gene582|STMDT12_C05770
STMDT12_C05780	operon_0158	NC_016860.1|gene583|STMDT12_C05780
STMDT12_C05790	operon_0158	NC_016860.1|gene584|STMDT12_C05790
STMDT12_C05800	operon_0159	NC_016860.1|gene585|STMDT12_C05800
STMDT12_C05810	operon_0159	NC_016860.1|gene586|STMDT12_C05810
STMDT12_C05820	operon_0159	NC_016860.1|gene587|STMDT12_C05820
STMDT12_C05830	operon_0159	NC_016860.1|gene588|STMDT12_C05830
STMDT12_C05840	operon_0159	NC_016860.1|gene589|STMDT12_C05840
STMDT12_C05850	operon_0159	NC_016860.1|gene590|STMDT12_C05850
STMDT12_C05860	operon_0159	NC_016860.1|gene591|STMDT12_C05860
STMDT12_C05870	operon_0159	NC_016860.1|gene592|STMDT12_C05870
STMDT12_C05880	operon_0159	NC_016860.1|gene593|STMDT12_C05880
STMDT12_C05890	operon_0159	NC_016860.1|gene594|STMDT12_C05890
STMDT12_C05900	operon_0160	NC_016860.1|gene595|STMDT12_C05900
STMDT12_C05910	operon_0160	NC_016860.1|gene596|STMDT12_C05910
STMDT12_C05920	operon_0160	NC_016860.1|gene597|STMDT12_C05920
STMDT12_C05930	operon_0161	NC_016860.1|gene598|STMDT12_C05930
STMDT12_C05940	operon_0161	NC_016860.1|gene599|STMDT12_C05940
STMDT12_C05950	operon_0161	NC_016860.1|gene600|STMDT12_C05950
STMDT12_C05960	operon_0161	NC_016860.1|gene601|STMDT12_C05960
STMDT12_C05970	operon_0162	NC_016860.1|gene602|STMDT12_C05970
STMDT12_C05980	operon_0162	NC_016860.1|gene603|STMDT12_C05980
STMDT12_C05990	operon_0162	NC_016860.1|gene604|STMDT12_C05990
STMDT12_C06000	operon_0162	NC_016860.1|gene605|STMDT12_C06000|ppiB
STMDT12_C06010	operon_0163	NC_016860.1|gene606|STMDT12_C06010|cysS
STMDT12_C06020	operon_0164	NC_016860.1|gene607|STMDT12_C06020
STMDT12_C06030	operon_0164	NC_016860.1|gene608|STMDT12_C06030
STMDT12_C06040	operon_0164	NC_016860.1|gene609|STMDT12_C06040
STMDT12_C06050	operon_0164	NC_016860.1|gene610|STMDT12_C06050
STMDT12_C06060	operon_0164	NC_016860.1|gene611|STMDT12_C06060
STMDT12_C06070	operon_0165	NC_016860.1|gene612|STMDT12_C06070
STMDT12_C06080	operon_0165	NC_016860.1|gene613|STMDT12_C06080
STMDT12_C06090	operon_0165	NC_016860.1|gene614|STMDT12_C06090
STMDT12_C06100	operon_0165	NC_016860.1|gene615|STMDT12_C06100
STMDT12_C06110	operon_0165	NC_016860.1|gene616|STMDT12_C06110
STMDT12_C06120	operon_0165	NC_016860.1|gene617|STMDT12_C06120
STMDT12_C06130	operon_0166	NC_016860.1|gene618|STMDT12_C06130
STMDT12_C06140	operon_0166	NC_016860.1|gene619|STMDT12_C06140
STMDT12_C06150	operon_0166	NC_016860.1|gene620|STMDT12_C06150
STMDT12_C06160	operon_0166	NC_016860.1|gene621|STMDT12_C06160
STMDT12_Ct0060	operon_0167	NC_016860.1|gene622|STMDT12_Ct0060
STMDT12_C06170	operon_0168	NC_016860.1|gene623|STMDT12_C06170
STMDT12_C06180	operon_0169	NC_016860.1|gene624|STMDT12_C06180
STMDT12_C06190	operon_0170	NC_016860.1|gene625|STMDT12_C06190
STMDT12_C06200	operon_0170	NC_016860.1|gene626|STMDT12_C06200
STMDT12_C06210	operon_0170	NC_016860.1|gene627|STMDT12_C06210
STMDT12_Ct0070	operon_0171	NC_016860.1|gene628|STMDT12_Ct0070
STMDT12_C06220	operon_0172	NC_016860.1|gene629|STMDT12_C06220
STMDT12_C06230	operon_0172	NC_016860.1|gene630|STMDT12_C06230
STMDT12_C06240	operon_0173	NC_016860.1|gene631|STMDT12_C06240
STMDT12_C06250	operon_0174	NC_016860.1|gene632|STMDT12_C06250
STMDT12_C06260	operon_0175	NC_016860.1|gene633|STMDT12_C06260
STMDT12_C06270	operon_0175	NC_016860.1|gene634|STMDT12_C06270
STMDT12_C06280	operon_0175	NC_016860.1|gene635|STMDT12_C06280
STMDT12_C06290	operon_0176	NC_016860.1|gene636|STMDT12_C06290
STMDT12_C06300	operon_0177	NC_016860.1|gene637|STMDT12_C06300
STMDT12_C06310	operon_0178	NC_016860.1|gene638|STMDT12_C06310
STMDT12_C06320	operon_0179	NC_016860.1|gene639|STMDT12_C06320
STMDT12_C06330	operon_0179	NC_016860.1|gene640|STMDT12_C06330
STMDT12_C06340	operon_0180	NC_016860.1|gene641|STMDT12_C06340
STMDT12_C06350	operon_0180	NC_016860.1|gene642|STMDT12_C06350
STMDT12_C06360	operon_0180	NC_016860.1|gene643|STMDT12_C06360
STMDT12_C06370	operon_0180	NC_016860.1|gene644|STMDT12_C06370
STMDT12_C06380	operon_0180	NC_016860.1|gene645|STMDT12_C06380
STMDT12_C06390	operon_0180	NC_016860.1|gene646|STMDT12_C06390
STMDT12_C06400	operon_0180	NC_016860.1|gene647|STMDT12_C06400
STMDT12_C06410	operon_0180	NC_016860.1|gene648|STMDT12_C06410
STMDT12_C06420	operon_0180	NC_016860.1|gene649|STMDT12_C06420
STMDT12_C06430	operon_0181	NC_016860.1|gene650|STMDT12_C06430
STMDT12_C06440	operon_0182	NC_016860.1|gene651|STMDT12_C06440
STMDT12_C06450	operon_0182	NC_016860.1|gene652|STMDT12_C06450
STMDT12_C06460	operon_0182	NC_016860.1|gene653|STMDT12_C06460
STMDT12_C06470	operon_0182	NC_016860.1|gene654|STMDT12_C06470
STMDT12_C06480	operon_0183	NC_016860.1|gene655|STMDT12_C06480
STMDT12_C06490	operon_0183	NC_016860.1|gene656|STMDT12_C06490
STMDT12_C06500	operon_0183	NC_016860.1|gene657|STMDT12_C06500|entF
STMDT12_C06510	operon_0183	NC_016860.1|gene658|STMDT12_C06510
STMDT12_C06520	operon_0184	NC_016860.1|gene659|STMDT12_C06520
STMDT12_C06530	operon_0184	NC_016860.1|gene660|STMDT12_C06530
STMDT12_C06540	operon_0184	NC_016860.1|gene661|STMDT12_C06540
STMDT12_C06550	operon_0185	NC_016860.1|gene662|STMDT12_C06550
STMDT12_C06560	operon_0186	NC_016860.1|gene663|STMDT12_C06560
STMDT12_C06570	operon_0187	NC_016860.1|gene664|STMDT12_C06570
STMDT12_C06580	operon_0187	NC_016860.1|gene665|STMDT12_C06580|entE
STMDT12_C06590	operon_0187	NC_016860.1|gene666|STMDT12_C06590
STMDT12_C06600	operon_0187	NC_016860.1|gene667|STMDT12_C06600
STMDT12_C06610	operon_0187	NC_016860.1|gene668|STMDT12_C06610
STMDT12_C06620	operon_0187	NC_016860.1|gene669|STMDT12_C06620
STMDT12_C06630	operon_0187	NC_016860.1|gene670|STMDT12_C06630
STMDT12_C06640	operon_0188	NC_016860.1|gene671|STMDT12_C06640
STMDT12_C06650	operon_0189	NC_016860.1|gene672|STMDT12_C06650
STMDT12_C06660	operon_0190	NC_016860.1|gene673|STMDT12_C06660
STMDT12_C06670	operon_0190	NC_016860.1|gene674|STMDT12_C06670
STMDT12_C06680	operon_0190	NC_016860.1|gene675|STMDT12_C06680
STMDT12_C06690	operon_0190	NC_016860.1|gene676|STMDT12_C06690|dsbG
STMDT12_C06700	operon_0191	NC_016860.1|gene677|STMDT12_C06700
STMDT12_C06710	operon_0191	NC_016860.1|gene678|STMDT12_C06710
STMDT12_C06720	operon_0191	NC_016860.1|gene679|STMDT12_C06720
STMDT12_C06730	operon_0191	NC_016860.1|gene680|STMDT12_C06730
STMDT12_C06740	operon_0191	NC_016860.1|gene681|STMDT12_C06740
STMDT12_C06750	operon_0191	NC_016860.1|gene682|STMDT12_C06750
STMDT12_C06760	operon_0192	NC_016860.1|gene683|STMDT12_C06760
STMDT12_C06770	operon_0193	NC_016860.1|gene684|STMDT12_C06770
STMDT12_C06780	operon_0194	NC_016860.1|gene685|STMDT12_C06780
STMDT12_C06790	operon_0194	NC_016860.1|gene686|STMDT12_C06790
STMDT12_C06800	operon_0194	NC_016860.1|gene687|STMDT12_C06800
STMDT12_C06810	operon_0194	NC_016860.1|gene688|STMDT12_C06810|citG
STMDT12_C06820	operon_0194	NC_016860.1|gene689|STMDT12_C06820|citX
STMDT12_C06830	operon_0194	NC_016860.1|gene690|STMDT12_C06830
STMDT12_C06840	operon_0194	NC_016860.1|gene691|STMDT12_C06840
STMDT12_C06850	operon_0194	NC_016860.1|gene692|STMDT12_C06850
STMDT12_C06860	operon_0194	NC_016860.1|gene693|STMDT12_C06860|citC
STMDT12_C06870	operon_0195	NC_016860.1|gene694|STMDT12_C06870
STMDT12_C06880	operon_0195	NC_016860.1|gene695|STMDT12_C06880|dpiA
STMDT12_C06890	operon_0196	NC_016860.1|gene696|STMDT12_C06890|dcuC
STMDT12_C06900	operon_0197	NC_016860.1|gene697|STMDT12_C06900|pagP
STMDT12_C06910	operon_0197	NC_016860.1|gene698|STMDT12_C06910|cspE
STMDT12_C06920	operon_0198	NC_016860.1|gene699|STMDT12_C06920
STMDT12_C06930	operon_0199	NC_016860.1|gene700|STMDT12_C06930
STMDT12_C06940	operon_0199	NC_016860.1|gene701|STMDT12_C06940|tatE
STMDT12_C06950	operon_0200	NC_016860.1|gene702|STMDT12_C06950
STMDT12_C06960	operon_0200	NC_016860.1|gene703|STMDT12_C06960
STMDT12_C06970	operon_0200	NC_016860.1|gene704|STMDT12_C06970
STMDT12_C06980	operon_0200	NC_016860.1|gene705|STMDT12_C06980
STMDT12_C06990	operon_0200	NC_016860.1|gene706|STMDT12_C06990
STMDT12_C07000	operon_0200	NC_016860.1|gene707|STMDT12_C07000
STMDT12_C07010	operon_0200	NC_016860.1|gene708|STMDT12_C07010
STMDT12_C07020	operon_0200	NC_016860.1|gene709|STMDT12_C07020
STMDT12_C07030	operon_0200	NC_016860.1|gene710|STMDT12_C07030
STMDT12_C07040	operon_0200	NC_016860.1|gene711|STMDT12_C07040
STMDT12_C07050	operon_0200	NC_016860.1|gene712|STMDT12_C07050
STMDT12_C07060	operon_0200	NC_016860.1|gene713|STMDT12_C07060
STMDT12_C07070	operon_0201	NC_016860.1|gene714|STMDT12_C07070|cobD
STMDT12_C07080	operon_0202	NC_016860.1|gene715|STMDT12_C07080|nadD
STMDT12_C07090	operon_0202	NC_016860.1|gene716|STMDT12_C07090|holA
STMDT12_C07100	operon_0202	NC_016860.1|gene717|STMDT12_C07100|holA
STMDT12_C07110	operon_0202	NC_016860.1|gene718|STMDT12_C07110|leuS
STMDT12_C07120	operon_0203	NC_016860.1|gene719|STMDT12_C07120
STMDT12_C07130	operon_0203	NC_016860.1|gene720|STMDT12_C07130
STMDT12_C07140	operon_0203	NC_016860.1|gene721|STMDT12_C07140
STMDT12_C07150	operon_0203	NC_016860.1|gene722|STMDT12_C07150
STMDT12_C07160	operon_0203	NC_016860.1|gene723|STMDT12_C07160
STMDT12_C07170	operon_0204	NC_016860.1|gene724|STMDT12_C07170
STMDT12_C07180	operon_0205	NC_016860.1|gene725|STMDT12_C07180
STMDT12_C07190	operon_0205	NC_016860.1|gene726|STMDT12_C07190
STMDT12_C07200	operon_0205	NC_016860.1|gene727|STMDT12_C07200
STMDT12_C07210	operon_0205	NC_016860.1|gene728|STMDT12_C07210
STMDT12_C07220	operon_0206	NC_016860.1|gene729|STMDT12_C07220
STMDT12_C07230	operon_0206	NC_016860.1|gene730|STMDT12_C07230
STMDT12_C07240	operon_0206	NC_016860.1|gene731|STMDT12_C07240|rihA
STMDT12_C07250	operon_0206	NC_016860.1|gene732|STMDT12_C07250
STMDT12_C07260	operon_0206	NC_016860.1|gene733|STMDT12_C07260
STMDT12_C07270	operon_0206	NC_016860.1|gene734|STMDT12_C07270
STMDT12_C07280	operon_0206	NC_016860.1|gene735|STMDT12_C07280
STMDT12_C07290	operon_0206	NC_016860.1|gene736|STMDT12_C07290|lnt
STMDT12_C07300	operon_0206	NC_016860.1|gene737|STMDT12_C07300
STMDT12_C07310	operon_0206	NC_016860.1|gene738|STMDT12_C07310
STMDT12_C07320	operon_0206	NC_016860.1|gene739|STMDT12_C07320
STMDT12_C07330	operon_0206	NC_016860.1|gene740|STMDT12_C07330
STMDT12_C07340	operon_0207	NC_016860.1|gene741|STMDT12_C07340|ubiF
STMDT12_C07350	operon_0208	NC_016860.1|gene742|STMDT12_C07350
STMDT12_Ct0080	operon_0208	NC_016860.1|gene743|STMDT12_Ct0080
STMDT12_Ct0090	operon_0208	NC_016860.1|gene744|STMDT12_Ct0090
STMDT12_Ct0100	operon_0208	NC_016860.1|gene745|STMDT12_Ct0100
STMDT12_Ct0110	operon_0208	NC_016860.1|gene746|STMDT12_Ct0110
STMDT12_Ct0120	operon_0208	NC_016860.1|gene747|STMDT12_Ct0120
STMDT12_Ct0130	operon_0208	NC_016860.1|gene748|STMDT12_Ct0130
STMDT12_Ct0140	operon_0208	NC_016860.1|gene749|STMDT12_Ct0140
STMDT12_C07360	operon_0208	NC_016860.1|gene750|STMDT12_C07360|asnB
STMDT12_C07370	operon_0208	NC_016860.1|gene751|STMDT12_C07370
STMDT12_C07380	operon_0208	NC_016860.1|gene752|STMDT12_C07380
STMDT12_C07390	operon_0208	NC_016860.1|gene753|STMDT12_C07390|nagA
STMDT12_C07400	operon_0208	NC_016860.1|gene754|STMDT12_C07400|nagB
STMDT12_C07410	operon_0209	NC_016860.1|gene755|STMDT12_C07410
STMDT12_C07420	operon_0209	NC_016860.1|gene756|STMDT12_C07420|glnS
STMDT12_C07430	operon_0209	NC_016860.1|gene757|STMDT12_C07430
STMDT12_C07440	operon_0209	NC_016860.1|gene758|STMDT12_C07440
STMDT12_C07450	operon_0210	NC_016860.1|gene759|STMDT12_C07450
STMDT12_C07460	operon_0210	NC_016860.1|gene760|STMDT12_C07460
STMDT12_C07470	operon_0210	NC_016860.1|gene761|STMDT12_C07470
STMDT12_C07480	operon_0210	NC_016860.1|gene762|STMDT12_C07480
STMDT12_C07490	operon_0210	NC_016860.1|gene763|STMDT12_C07490|fur
STMDT12_C07500	operon_0210	NC_016860.1|gene764|STMDT12_C07500
STMDT12_C07510	operon_0210	NC_016860.1|gene765|STMDT12_C07510
STMDT12_C07520	operon_0210	NC_016860.1|gene766|STMDT12_C07520
STMDT12_C07530	operon_0211	NC_016860.1|gene767|STMDT12_C07530
STMDT12_C07540	operon_0211	NC_016860.1|gene768|STMDT12_C07540
STMDT12_C07550	operon_0212	NC_016860.1|gene769|STMDT12_C07550
STMDT12_C07560	operon_0212	NC_016860.1|gene770|STMDT12_C07560|potE
STMDT12_C07570	operon_0212	NC_016860.1|gene771|STMDT12_C07570|potE
STMDT12_C07580	operon_0213	NC_016860.1|gene772|STMDT12_C07580
STMDT12_C07590	operon_0214	NC_016860.1|gene773|STMDT12_C07590
STMDT12_C07600	operon_0214	NC_016860.1|gene774|STMDT12_C07600
STMDT12_C07610	operon_0214	NC_016860.1|gene775|STMDT12_C07610
STMDT12_C07620	operon_0214	NC_016860.1|gene776|STMDT12_C07620
STMDT12_C07630	operon_0214	NC_016860.1|gene777|STMDT12_C07630
STMDT12_C07640	operon_0215	NC_016860.1|gene778|STMDT12_C07640
STMDT12_C07650	operon_0215	NC_016860.1|gene779|STMDT12_C07650
STMDT12_C07660	operon_0216	NC_016860.1|gene780|STMDT12_C07660
STMDT12_C07670	operon_0217	NC_016860.1|gene781|STMDT12_C07670
STMDT12_C07680	operon_0217	NC_016860.1|gene782|STMDT12_C07680
STMDT12_C07690	operon_0217	NC_016860.1|gene783|STMDT12_C07690
STMDT12_C07700	operon_0217	NC_016860.1|gene784|STMDT12_C07700
STMDT12_C07710	operon_0217	NC_016860.1|gene785|STMDT12_C07710
STMDT12_C07720	operon_0217	NC_016860.1|gene786|STMDT12_C07720
STMDT12_C07730	operon_0218	NC_016860.1|gene787|STMDT12_C07730
STMDT12_C07740	operon_0219	NC_016860.1|gene788|STMDT12_C07740
STMDT12_C07750	operon_0219	NC_016860.1|gene789|STMDT12_C07750
STMDT12_C07760	operon_0219	NC_016860.1|gene790|STMDT12_C07760
STMDT12_C07770	operon_0219	NC_016860.1|gene791|STMDT12_C07770
STMDT12_C07780	operon_0219	NC_016860.1|gene792|STMDT12_C07780
STMDT12_C07790	operon_0219	NC_016860.1|gene793|STMDT12_C07790
STMDT12_C07800	operon_0219	NC_016860.1|gene794|STMDT12_C07800
STMDT12_C07810	operon_0219	NC_016860.1|gene795|STMDT12_C07810
STMDT12_C07820	operon_0219	NC_016860.1|gene796|STMDT12_C07820
STMDT12_C07830	operon_0219	NC_016860.1|gene797|STMDT12_C07830
STMDT12_C07840	operon_0219	NC_016860.1|gene798|STMDT12_C07840
STMDT12_C07850	operon_0219	NC_016860.1|gene799|STMDT12_C07850
STMDT12_C07860	operon_0219	NC_016860.1|gene800|STMDT12_C07860
STMDT12_C07870	operon_0220	NC_016860.1|gene801|STMDT12_C07870
STMDT12_C07880	operon_0220	NC_016860.1|gene802|STMDT12_C07880|gltA
STMDT12_C07890	operon_0221	NC_016860.1|gene803|STMDT12_C07890|sdhC
STMDT12_C07900	operon_0221	NC_016860.1|gene804|STMDT12_C07900|sdhD
STMDT12_C07910	operon_0221	NC_016860.1|gene805|STMDT12_C07910|sdhA
STMDT12_C07920	operon_0221	NC_016860.1|gene806|STMDT12_C07920|sdhB
STMDT12_C07930	operon_0221	NC_016860.1|gene807|STMDT12_C07930|sucA
STMDT12_C07940	operon_0221	NC_016860.1|gene808|STMDT12_C07940
STMDT12_C07950	operon_0221	NC_016860.1|gene809|STMDT12_C07950|sucC
STMDT12_C07960	operon_0221	NC_016860.1|gene810|STMDT12_C07960|sucC
STMDT12_C07970	operon_0221	NC_016860.1|gene811|STMDT12_C07970
STMDT12_C07980	operon_0221	NC_016860.1|gene812|STMDT12_C07980
STMDT12_C07990	operon_0221	NC_016860.1|gene813|STMDT12_C07990
STMDT12_C08000	operon_0221	NC_016860.1|gene814|STMDT12_C08000
STMDT12_C08010	operon_0221	NC_016860.1|gene815|STMDT12_C08010
STMDT12_C08020	operon_0221	NC_016860.1|gene816|STMDT12_C08020
STMDT12_C08030	operon_0221	NC_016860.1|gene817|STMDT12_C08030
STMDT12_C08040	operon_0221	NC_016860.1|gene818|STMDT12_C08040
STMDT12_C08050	operon_0221	NC_016860.1|gene819|STMDT12_C08050|tolA
STMDT12_C08060	operon_0221	NC_016860.1|gene820|STMDT12_C08060|tolB
STMDT12_C08070	operon_0221	NC_016860.1|gene821|STMDT12_C08070
STMDT12_C08080	operon_0221	NC_016860.1|gene822|STMDT12_C08080
STMDT12_Ct0150	operon_0221	NC_016860.1|gene823|STMDT12_Ct0150
STMDT12_Ct0160	operon_0221	NC_016860.1|gene824|STMDT12_Ct0160
STMDT12_Ct0170	operon_0221	NC_016860.1|gene825|STMDT12_Ct0170
STMDT12_Ct0180	operon_0221	NC_016860.1|gene826|STMDT12_Ct0180
STMDT12_Ct0190	operon_0221	NC_016860.1|gene827|STMDT12_Ct0190
STMDT12_C08090	operon_0221	NC_016860.1|gene828|STMDT12_C08090
STMDT12_C08100	operon_0221	NC_016860.1|gene829|STMDT12_C08100
STMDT12_C08110	operon_0222	NC_016860.1|gene830|STMDT12_C08110
STMDT12_C08120	operon_0222	NC_016860.1|gene831|STMDT12_C08120
STMDT12_C08130	operon_0223	NC_016860.1|gene832|STMDT12_C08130
STMDT12_C08140	operon_0224	NC_016860.1|gene833|STMDT12_C08140
STMDT12_C08150	operon_0224	NC_016860.1|gene834|STMDT12_C08150
STMDT12_C08160	operon_0225	NC_016860.1|gene835|STMDT12_C08160
STMDT12_C08170	operon_0226	NC_016860.1|gene836|STMDT12_C08170
STMDT12_C08180	operon_0227	NC_016860.1|gene837|STMDT12_C08180
STMDT12_C08190	operon_0227	NC_016860.1|gene838|STMDT12_C08190
STMDT12_C08200	operon_0227	NC_016860.1|gene839|STMDT12_C08200
STMDT12_C08210	operon_0227	NC_016860.1|gene840|STMDT12_C08210
STMDT12_C08220	operon_0227	NC_016860.1|gene841|STMDT12_C08220
STMDT12_C08230	operon_0227	NC_016860.1|gene842|STMDT12_C08230
STMDT12_C08240	operon_0227	NC_016860.1|gene843|STMDT12_C08240
STMDT12_C08250	operon_0228	NC_016860.1|gene844|STMDT12_C08250|gpmA
STMDT12_C08260	operon_0228	NC_016860.1|gene845|STMDT12_C08260|galM
STMDT12_C08270	operon_0228	NC_016860.1|gene846|STMDT12_C08270|galM
STMDT12_C08280	operon_0228	NC_016860.1|gene847|STMDT12_C08280
STMDT12_C08290	operon_0228	NC_016860.1|gene848|STMDT12_C08290
STMDT12_C08300	operon_0228	NC_016860.1|gene849|STMDT12_C08300
STMDT12_C08310	operon_0228	NC_016860.1|gene850|STMDT12_C08310
STMDT12_C08320	operon_0228	NC_016860.1|gene851|STMDT12_C08320
STMDT12_C08330	operon_0229	NC_016860.1|gene852|STMDT12_C08330
STMDT12_C08340	operon_0229	NC_016860.1|gene853|STMDT12_C08340|modA
STMDT12_C08350	operon_0229	NC_016860.1|gene854|STMDT12_C08350|modB
STMDT12_C08360	operon_0229	NC_016860.1|gene855|STMDT12_C08360|modC
STMDT12_C08370	operon_0230	NC_016860.1|gene856|STMDT12_C08370
STMDT12_C08380	operon_0231	NC_016860.1|gene857|STMDT12_C08380
STMDT12_C08390	operon_0232	NC_016860.1|gene858|STMDT12_C08390
STMDT12_C08400	operon_0233	NC_016860.1|gene859|STMDT12_C08400
STMDT12_C08410	operon_0233	NC_016860.1|gene860|STMDT12_C08410
STMDT12_C08420	operon_0233	NC_016860.1|gene861|STMDT12_C08420
STMDT12_C08430	operon_0233	NC_016860.1|gene862|STMDT12_C08430
STMDT12_C08440	operon_0233	NC_016860.1|gene863|STMDT12_C08440
STMDT12_C08450	operon_0233	NC_016860.1|gene864|STMDT12_C08450
STMDT12_C08460	operon_0234	NC_016860.1|gene865|STMDT12_C08460
STMDT12_C08470	operon_0234	NC_016860.1|gene866|STMDT12_C08470
STMDT12_C08480	operon_0235	NC_016860.1|gene867|STMDT12_C08480
STMDT12_C08490	operon_0235	NC_016860.1|gene868|STMDT12_C08490
STMDT12_C08500	operon_0235	NC_016860.1|gene869|STMDT12_C08500
STMDT12_C08510	operon_0235	NC_016860.1|gene870|STMDT12_C08510|bioD
STMDT12_C08520	operon_0235	NC_016860.1|gene871|STMDT12_C08520|uvrB
STMDT12_C08530	operon_0235	NC_016860.1|gene872|STMDT12_C08530
STMDT12_C08540	operon_0236	NC_016860.1|gene873|STMDT12_C08540
STMDT12_C08550	operon_0237	NC_016860.1|gene874|STMDT12_C08550|moaA
STMDT12_C08560	operon_0237	NC_016860.1|gene875|STMDT12_C08560
STMDT12_C08570	operon_0237	NC_016860.1|gene876|STMDT12_C08570|moaC
STMDT12_C08580	operon_0237	NC_016860.1|gene877|STMDT12_C08580|moaD
STMDT12_C08590	operon_0237	NC_016860.1|gene878|STMDT12_C08590|moaE
STMDT12_C08600	operon_0237	NC_016860.1|gene879|STMDT12_C08600
STMDT12_C08610	operon_0237	NC_016860.1|gene880|STMDT12_C08610
STMDT12_C08620	operon_0237	NC_016860.1|gene881|STMDT12_C08620
STMDT12_C08630	operon_0237	NC_016860.1|gene882|STMDT12_C08630
STMDT12_C08640	operon_0238	NC_016860.1|gene883|STMDT12_C08640
STMDT12_C08650	operon_0238	NC_016860.1|gene884|STMDT12_C08650
STMDT12_C08660	operon_0238	NC_016860.1|gene885|STMDT12_C08660
STMDT12_C08670	operon_0238	NC_016860.1|gene886|STMDT12_C08670
STMDT12_C08680	operon_0238	NC_016860.1|gene887|STMDT12_C08680
STMDT12_C08690	operon_0239	NC_016860.1|gene888|STMDT12_C08690
STMDT12_C08700	operon_0240	NC_016860.1|gene889|STMDT12_C08700
STMDT12_C08710	operon_0240	NC_016860.1|gene890|STMDT12_C08710
STMDT12_C08720	operon_0240	NC_016860.1|gene891|STMDT12_C08720
STMDT12_C08730	operon_0240	NC_016860.1|gene892|STMDT12_C08730
STMDT12_C08740	operon_0240	NC_016860.1|gene893|STMDT12_C08740
STMDT12_C08750	operon_0241	NC_016860.1|gene894|STMDT12_C08750
STMDT12_C08760	operon_0241	NC_016860.1|gene895|STMDT12_C08760|dinG
STMDT12_C08770	operon_0241	NC_016860.1|gene896|STMDT12_C08770
STMDT12_C08780	operon_0242	NC_016860.1|gene897|STMDT12_C08780
STMDT12_C08790	operon_0242	NC_016860.1|gene898|STMDT12_C08790
STMDT12_C08800	operon_0243	NC_016860.1|gene899|STMDT12_C08800
STMDT12_C08810	operon_0244	NC_016860.1|gene900|STMDT12_C08810
STMDT12_C08820	operon_0244	NC_016860.1|gene901|STMDT12_C08820|glnQ
STMDT12_C08830	operon_0244	NC_016860.1|gene902|STMDT12_C08830|glnP
STMDT12_C08840	operon_0244	NC_016860.1|gene903|STMDT12_C08840|glnH
STMDT12_C08850	operon_0244	NC_016860.1|gene904|STMDT12_C08850|dps
STMDT12_C08860	operon_0244	NC_016860.1|gene905|STMDT12_C08860|rhtA
STMDT12_C08870	operon_0245	NC_016860.1|gene906|STMDT12_C08870|ompX
STMDT12_C08880	operon_0246	NC_016860.1|gene907|STMDT12_C08880
STMDT12_C08890	operon_0246	NC_016860.1|gene908|STMDT12_C08890
STMDT12_C08900	operon_0247	NC_016860.1|gene909|STMDT12_C08900
STMDT12_C08910	operon_0247	NC_016860.1|gene910|STMDT12_C08910
STMDT12_C08920	operon_0248	NC_016860.1|gene911|STMDT12_C08920
STMDT12_C08930	operon_0249	NC_016860.1|gene912|STMDT12_C08930
STMDT12_C08940	operon_0249	NC_016860.1|gene913|STMDT12_C08940
STMDT12_C08950	operon_0250	NC_016860.1|gene914|STMDT12_C08950
STMDT12_C08960	operon_0250	NC_016860.1|gene915|STMDT12_C08960
STMDT12_C08970	operon_0251	NC_016860.1|gene916|STMDT12_C08970
STMDT12_C08980	operon_0252	NC_016860.1|gene917|STMDT12_C08980
STMDT12_C08990	operon_0252	NC_016860.1|gene918|STMDT12_C08990
STMDT12_C09000	operon_0252	NC_016860.1|gene919|STMDT12_C09000
STMDT12_C09010	operon_0252	NC_016860.1|gene920|STMDT12_C09010
STMDT12_C09020	operon_0253	NC_016860.1|gene921|STMDT12_C09020
STMDT12_C09030	operon_0253	NC_016860.1|gene922|STMDT12_C09030
STMDT12_C09040	operon_0253	NC_016860.1|gene923|STMDT12_C09040
STMDT12_C09050	operon_0253	NC_016860.1|gene924|STMDT12_C09050
STMDT12_C09060	operon_0253	NC_016860.1|gene925|STMDT12_C09060
STMDT12_C09070	operon_0254	NC_016860.1|gene926|STMDT12_C09070
STMDT12_C09080	operon_0255	NC_016860.1|gene927|STMDT12_C09080|bssR
STMDT12_C09090	operon_0255	NC_016860.1|gene928|STMDT12_C09090
STMDT12_C09100	operon_0255	NC_016860.1|gene929|STMDT12_C09100
STMDT12_C09110	operon_0255	NC_016860.1|gene930|STMDT12_C09110
STMDT12_C09120	operon_0255	NC_016860.1|gene931|STMDT12_C09120
STMDT12_C09130	operon_0255	NC_016860.1|gene932|STMDT12_C09130
STMDT12_C09140	operon_0255	NC_016860.1|gene933|STMDT12_C09140
STMDT12_C09150	operon_0256	NC_016860.1|gene934|STMDT12_C09150
STMDT12_C09160	operon_0256	NC_016860.1|gene935|STMDT12_C09160
STMDT12_C09170	operon_0257	NC_016860.1|gene936|STMDT12_C09170
STMDT12_C09180	operon_0258	NC_016860.1|gene937|STMDT12_C09180
STMDT12_C09190	operon_0259	NC_016860.1|gene938|STMDT12_C09190
STMDT12_C09200	operon_0260	NC_016860.1|gene939|STMDT12_C09200
STMDT12_C09210	operon_0260	NC_016860.1|gene940|STMDT12_C09210
STMDT12_C09220	operon_0261	NC_016860.1|gene941|STMDT12_C09220
STMDT12_C09230	operon_0262	NC_016860.1|gene942|STMDT12_C09230
STMDT12_C09240	operon_0262	NC_016860.1|gene943|STMDT12_C09240
STMDT12_C09250	operon_0263	NC_016860.1|gene944|STMDT12_C09250
STMDT12_C09260	operon_0264	NC_016860.1|gene945|STMDT12_C09260
STMDT12_C09270	operon_0265	NC_016860.1|gene946|STMDT12_C09270
STMDT12_C09280	operon_0266	NC_016860.1|gene947|STMDT12_C09280|grxA
STMDT12_C09290	operon_0267	NC_016860.1|gene948|STMDT12_C09290
STMDT12_C09300	operon_0267	NC_016860.1|gene949|STMDT12_C09300
STMDT12_C09310	operon_0268	NC_016860.1|gene950|STMDT12_C09310
STMDT12_C09320	operon_0268	NC_016860.1|gene951|STMDT12_C09320
STMDT12_C09330	operon_0269	NC_016860.1|gene952|STMDT12_C09330
STMDT12_C09340	operon_0269	NC_016860.1|gene953|STMDT12_C09340
STMDT12_C09350	operon_0269	NC_016860.1|gene954|STMDT12_C09350
STMDT12_C09360	operon_0269	NC_016860.1|gene955|STMDT12_C09360
STMDT12_C09370	operon_0269	NC_016860.1|gene956|STMDT12_C09370|potG
STMDT12_C09380	operon_0269	NC_016860.1|gene957|STMDT12_C09380
STMDT12_C09390	operon_0269	NC_016860.1|gene958|STMDT12_C09390
STMDT12_C09400	operon_0269	NC_016860.1|gene959|STMDT12_C09400
STMDT12_C09410	operon_0269	NC_016860.1|gene960|STMDT12_C09410|rumB
STMDT12_C09420	operon_0269	NC_016860.1|gene961|STMDT12_C09420
STMDT12_C09430	operon_0269	NC_016860.1|gene962|STMDT12_C09430
STMDT12_C09440	operon_0269	NC_016860.1|gene963|STMDT12_C09440
STMDT12_C09450	operon_0270	NC_016860.1|gene964|STMDT12_C09450
STMDT12_C09460	operon_0270	NC_016860.1|gene965|STMDT12_C09460|artM
STMDT12_C09470	operon_0270	NC_016860.1|gene966|STMDT12_C09470|artM
STMDT12_C09480	operon_0270	NC_016860.1|gene967|STMDT12_C09480
STMDT12_C09490	operon_0270	NC_016860.1|gene968|STMDT12_C09490|artP
STMDT12_C09500	operon_0270	NC_016860.1|gene969|STMDT12_C09500
STMDT12_C09510	operon_0271	NC_016860.1|gene970|STMDT12_C09510
STMDT12_C09520	operon_0271	NC_016860.1|gene971|STMDT12_C09520
STMDT12_C09530	operon_0272	NC_016860.1|gene972|STMDT12_C09530
STMDT12_C09540	operon_0272	NC_016860.1|gene973|STMDT12_C09540
STMDT12_C09550	operon_0272	NC_016860.1|gene974|STMDT12_C09550
STMDT12_C09560	operon_0272	NC_016860.1|gene975|STMDT12_C09560
STMDT12_C09570	operon_0272	NC_016860.1|gene976|STMDT12_C09570
STMDT12_C09580	operon_0272	NC_016860.1|gene977|STMDT12_C09580
STMDT12_C09590	operon_0272	NC_016860.1|gene978|STMDT12_C09590
STMDT12_C09600	operon_0273	NC_016860.1|gene979|STMDT12_C09600
STMDT12_C09610	operon_0274	NC_016860.1|gene980|STMDT12_C09610
STMDT12_C09620	operon_0275	NC_016860.1|gene981|STMDT12_C09620
STMDT12_C09630	operon_0275	NC_016860.1|gene982|STMDT12_C09630
STMDT12_C09640	operon_0276	NC_016860.1|gene983|STMDT12_C09640
STMDT12_C09650	operon_0277	NC_016860.1|gene984|STMDT12_C09650|clpS
STMDT12_C09660	operon_0277	NC_016860.1|gene985|STMDT12_C09660|clpA
STMDT12_C09670	operon_0277	NC_016860.1|gene986|STMDT12_C09670
STMDT12_C09680	operon_0278	NC_016860.1|gene987|STMDT12_C09680
STMDT12_C09690	operon_0278	NC_016860.1|gene988|STMDT12_C09690
STMDT12_Ct0200	operon_0278	NC_016860.1|gene989|STMDT12_Ct0200
STMDT12_C09700	operon_0278	NC_016860.1|gene990|STMDT12_C09700
STMDT12_C09710	operon_0278	NC_016860.1|gene991|STMDT12_C09710
STMDT12_C09720	operon_0279	NC_016860.1|gene992|STMDT12_C09720
STMDT12_C09730	operon_0280	NC_016860.1|gene993|STMDT12_C09730|infA
STMDT12_C09740	operon_0280	NC_016860.1|gene994|STMDT12_C09740|aat
STMDT12_C09750	operon_0280	NC_016860.1|gene995|STMDT12_C09750
STMDT12_C09760	operon_0280	NC_016860.1|gene996|STMDT12_C09760
STMDT12_C09770	operon_0280	NC_016860.1|gene997|STMDT12_C09770
STMDT12_C09780	operon_0281	NC_016860.1|gene998|STMDT12_C09780
STMDT12_C09790	operon_0281	NC_016860.1|gene999|STMDT12_C09790
STMDT12_C09800	operon_0281	NC_016860.1|gene1000|STMDT12_C09800|lolA
STMDT12_C09810	operon_0281	NC_016860.1|gene1001|STMDT12_C09810
STMDT12_C09820	operon_0281	NC_016860.1|gene1002|STMDT12_C09820
STMDT12_C09830	operon_0281	NC_016860.1|gene1003|STMDT12_C09830
STMDT12_C09840	operon_0281	NC_016860.1|gene1004|STMDT12_C09840
STMDT12_C09850	operon_0281	NC_016860.1|gene1005|STMDT12_C09850
STMDT12_C09860	operon_0281	NC_016860.1|gene1006|STMDT12_C09860
STMDT12_C09870	operon_0281	NC_016860.1|gene1007|STMDT12_C09870
STMDT12_C09880	operon_0282	NC_016860.1|gene1008|STMDT12_C09880|pflA
STMDT12_C09890	operon_0283	NC_016860.1|gene1009|STMDT12_C09890
STMDT12_C09900	operon_0284	NC_016860.1|gene1010|STMDT12_C09900
STMDT12_C09910	operon_0284	NC_016860.1|gene1011|STMDT12_C09910
STMDT12_C09920	operon_0284	NC_016860.1|gene1012|STMDT12_C09920
STMDT12_C09930	operon_0285	NC_016860.1|gene1013|STMDT12_C09930
STMDT12_C09940	operon_0285	NC_016860.1|gene1014|STMDT12_C09940
STMDT12_C09950	operon_0285	NC_016860.1|gene1015|STMDT12_C09950
STMDT12_C09960	operon_0285	NC_016860.1|gene1016|STMDT12_C09960
STMDT12_C09970	operon_0285	NC_016860.1|gene1017|STMDT12_C09970|cmk
STMDT12_C09980	operon_0285	NC_016860.1|gene1018|STMDT12_C09980|rpsA
STMDT12_C09990	operon_0285	NC_016860.1|gene1019|STMDT12_C09990|ihfB
STMDT12_C10000	operon_0285	NC_016860.1|gene1020|STMDT12_C10000
STMDT12_C10010	operon_0285	NC_016860.1|gene1021|STMDT12_C10010
STMDT12_C10020	operon_0285	NC_016860.1|gene1022|STMDT12_C10020|lpxK
STMDT12_C10030	operon_0285	NC_016860.1|gene1023|STMDT12_C10030
STMDT12_C10040	operon_0285	NC_016860.1|gene1024|STMDT12_C10040
STMDT12_C10050	operon_0285	NC_016860.1|gene1025|STMDT12_C10050
STMDT12_C10060	operon_0285	NC_016860.1|gene1026|STMDT12_C10060
STMDT12_C10070	operon_0286	NC_016860.1|gene1027|STMDT12_C10070
STMDT12_C10080	operon_0287	NC_016860.1|gene1028|STMDT12_C10080
STMDT12_C10090	operon_0287	NC_016860.1|gene1029|STMDT12_C10090
STMDT12_C10100	operon_0287	NC_016860.1|gene1030|STMDT12_C10100
STMDT12_C10110	operon_0287	NC_016860.1|gene1031|STMDT12_C10110|mukB
STMDT12_C10120	operon_0287	NC_016860.1|gene1032|STMDT12_C10120
STMDT12_C10130	operon_0287	NC_016860.1|gene1033|STMDT12_C10130
STMDT12_C10140	operon_0287	NC_016860.1|gene1034|STMDT12_C10140
STMDT12_C10150	operon_0288	NC_016860.1|gene1035|STMDT12_C10150
STMDT12_C10160	operon_0288	NC_016860.1|gene1036|STMDT12_C10160
STMDT12_C10170	operon_0288	NC_016860.1|gene1037|STMDT12_C10170|asnC
STMDT12_C10180	operon_0288	NC_016860.1|gene1038|STMDT12_C10180
STMDT12_C10190	operon_0288	NC_016860.1|gene1039|STMDT12_C10190
STMDT12_C10200	operon_0289	NC_016860.1|gene1040|STMDT12_C10200
STMDT12_C10210	operon_0289	NC_016860.1|gene1041|STMDT12_C10210
STMDT12_C10220	operon_0290	NC_016860.1|gene1042|STMDT12_C10220
STMDT12_C10230	operon_0290	NC_016860.1|gene1043|STMDT12_C10230
STMDT12_C10240	operon_0290	NC_016860.1|gene1044|STMDT12_C10240
STMDT12_C10250	operon_0290	NC_016860.1|gene1045|STMDT12_C10250
STMDT12_C10260	operon_0290	NC_016860.1|gene1046|STMDT12_C10260
STMDT12_C10270	operon_0290	NC_016860.1|gene1047|STMDT12_C10270
STMDT12_C10280	operon_0290	NC_016860.1|gene1048|STMDT12_C10280
STMDT12_C10290	operon_0290	NC_016860.1|gene1049|STMDT12_C10290
STMDT12_C10300	operon_0290	NC_016860.1|gene1050|STMDT12_C10300
STMDT12_C10310	operon_0290	NC_016860.1|gene1051|STMDT12_C10310
STMDT12_C10320	operon_0291	NC_016860.1|gene1052|STMDT12_C10320
STMDT12_C10330	operon_0291	NC_016860.1|gene1053|STMDT12_C10330
STMDT12_C10340	operon_0291	NC_016860.1|gene1054|STMDT12_C10340
STMDT12_C10350	operon_0291	NC_016860.1|gene1055|STMDT12_C10350
STMDT12_C10360	operon_0291	NC_016860.1|gene1056|STMDT12_C10360
STMDT12_C10370	operon_0291	NC_016860.1|gene1057|STMDT12_C10370
STMDT12_C10380	operon_0291	NC_016860.1|gene1058|STMDT12_C10380
STMDT12_C10390	operon_0291	NC_016860.1|gene1059|STMDT12_C10390
STMDT12_C10400	operon_0291	NC_016860.1|gene1060|STMDT12_C10400
STMDT12_C10410	operon_0291	NC_016860.1|gene1061|STMDT12_C10410
STMDT12_C10420	operon_0291	NC_016860.1|gene1062|STMDT12_C10420
STMDT12_C10430	operon_0291	NC_016860.1|gene1063|STMDT12_C10430
STMDT12_C10440	operon_0291	NC_016860.1|gene1064|STMDT12_C10440
STMDT12_C10450	operon_0292	NC_016860.1|gene1065|STMDT12_C10450
STMDT12_C10460	operon_0292	NC_016860.1|gene1066|STMDT12_C10460
STMDT12_C10470	operon_0293	NC_016860.1|gene1067|STMDT12_C10470
STMDT12_C10480	operon_0293	NC_016860.1|gene1068|STMDT12_C10480
STMDT12_C10490	operon_0293	NC_016860.1|gene1069|STMDT12_C10490
STMDT12_C10500	operon_0293	NC_016860.1|gene1070|STMDT12_C10500
STMDT12_C10510	operon_0293	NC_016860.1|gene1071|STMDT12_C10510
STMDT12_C10520	operon_0293	NC_016860.1|gene1072|STMDT12_C10520
STMDT12_C10530	operon_0293	NC_016860.1|gene1073|STMDT12_C10530
STMDT12_C10540	operon_0293	NC_016860.1|gene1074|STMDT12_C10540
STMDT12_C10550	operon_0293	NC_016860.1|gene1075|STMDT12_C10550
STMDT12_C10560	operon_0293	NC_016860.1|gene1076|STMDT12_C10560
STMDT12_C10570	operon_0293	NC_016860.1|gene1077|STMDT12_C10570
STMDT12_C10580	operon_0293	NC_016860.1|gene1078|STMDT12_C10580
STMDT12_C10590	operon_0293	NC_016860.1|gene1079|STMDT12_C10590
STMDT12_C10600	operon_0293	NC_016860.1|gene1080|STMDT12_C10600
STMDT12_C10610	operon_0293	NC_016860.1|gene1081|STMDT12_C10610
STMDT12_C10620	operon_0293	NC_016860.1|gene1082|STMDT12_C10620
STMDT12_C10630	operon_0293	NC_016860.1|gene1083|STMDT12_C10630
STMDT12_C10640	operon_0293	NC_016860.1|gene1084|STMDT12_C10640
STMDT12_C10650	operon_0294	NC_016860.1|gene1085|STMDT12_C10650
STMDT12_C10660	operon_0295	NC_016860.1|gene1086|STMDT12_C10660
STMDT12_C10670	operon_0295	NC_016860.1|gene1087|STMDT12_C10670
STMDT12_C10680	operon_0295	NC_016860.1|gene1088|STMDT12_C10680
STMDT12_C10690	operon_0295	NC_016860.1|gene1089|STMDT12_C10690
STMDT12_C10700	operon_0295	NC_016860.1|gene1090|STMDT12_C10700
STMDT12_C10710	operon_0295	NC_016860.1|gene1091|STMDT12_C10710
STMDT12_C10720	operon_0295	NC_016860.1|gene1092|STMDT12_C10720
STMDT12_C10730	operon_0295	NC_016860.1|gene1093|STMDT12_C10730
STMDT12_C10740	operon_0295	NC_016860.1|gene1094|STMDT12_C10740
STMDT12_C10750	operon_0295	NC_016860.1|gene1095|STMDT12_C10750
STMDT12_C10760	operon_0296	NC_016860.1|gene1096|STMDT12_C10760
STMDT12_C10770	operon_0296	NC_016860.1|gene1097|STMDT12_C10770
STMDT12_C10780	operon_0296	NC_016860.1|gene1098|STMDT12_C10780
STMDT12_C10790	operon_0297	NC_016860.1|gene1099|STMDT12_C10790|pepN
STMDT12_C10800	operon_0297	NC_016860.1|gene1100|STMDT12_C10800
STMDT12_C10810	operon_0297	NC_016860.1|gene1101|STMDT12_C10810
STMDT12_C10820	operon_0298	NC_016860.1|gene1102|STMDT12_C10820
STMDT12_C10830	operon_0299	NC_016860.1|gene1103|STMDT12_C10830|rlmL
STMDT12_C10840	operon_0299	NC_016860.1|gene1104|STMDT12_C10840
STMDT12_C10850	operon_0299	NC_016860.1|gene1105|STMDT12_C10850
STMDT12_C10860	operon_0299	NC_016860.1|gene1106|STMDT12_C10860
STMDT12_C10870	operon_0299	NC_016860.1|gene1107|STMDT12_C10870
STMDT12_C10880	operon_0299	NC_016860.1|gene1108|STMDT12_C10880
STMDT12_C10890	operon_0300	NC_016860.1|gene1109|STMDT12_C10890|fabA
STMDT12_C10900	operon_0300	NC_016860.1|gene1110|STMDT12_C10900
STMDT12_C10910	operon_0301	NC_016860.1|gene1111|STMDT12_C10910
STMDT12_C10920	operon_0302	NC_016860.1|gene1112|STMDT12_C10920
STMDT12_C10930	operon_0302	NC_016860.1|gene1113|STMDT12_C10930
STMDT12_C10940	operon_0303	NC_016860.1|gene1114|STMDT12_C10940
STMDT12_C10950	operon_0304	NC_016860.1|gene1115|STMDT12_C10950
STMDT12_C10960	operon_0304	NC_016860.1|gene1116|STMDT12_C10960
STMDT12_C10970	operon_0305	NC_016860.1|gene1117|STMDT12_C10970|helD
STMDT12_C10980	operon_0306	NC_016860.1|gene1118|STMDT12_C10980|mgsA
STMDT12_C10990	operon_0306	NC_016860.1|gene1119|STMDT12_C10990
STMDT12_C11000	operon_0307	NC_016860.1|gene1120|STMDT12_C11000
STMDT12_C11010	operon_0308	NC_016860.1|gene1121|STMDT12_C11010
STMDT12_C11020	operon_0308	NC_016860.1|gene1122|STMDT12_C11020
STMDT12_C11030	operon_0309	NC_016860.1|gene1123|STMDT12_C11030
STMDT12_C11040	operon_0309	NC_016860.1|gene1124|STMDT12_C11040
STMDT12_C11050	operon_0309	NC_016860.1|gene1125|STMDT12_C11050
STMDT12_C11060	operon_0309	NC_016860.1|gene1126|STMDT12_C11060
STMDT12_C11070	operon_0310	NC_016860.1|gene1127|STMDT12_C11070
STMDT12_C11080	operon_0310	NC_016860.1|gene1128|STMDT12_C11080
STMDT12_Ct0210	operon_0311	NC_016860.1|gene1129|STMDT12_Ct0210
STMDT12_C11090	operon_0312	NC_016860.1|gene1130|STMDT12_C11090
STMDT12_C11100	operon_0312	NC_016860.1|gene1131|STMDT12_C11100
STMDT12_C11110	operon_0312	NC_016860.1|gene1132|STMDT12_C11110
STMDT12_C11120	operon_0312	NC_016860.1|gene1133|STMDT12_C11120
STMDT12_C11130	operon_0312	NC_016860.1|gene1134|STMDT12_C11130
STMDT12_C11140	operon_0312	NC_016860.1|gene1135|STMDT12_C11140
STMDT12_C11150	operon_0312	NC_016860.1|gene1136|STMDT12_C11150
STMDT12_C11160	operon_0313	NC_016860.1|gene1137|STMDT12_C11160
STMDT12_C11170	operon_0314	NC_016860.1|gene1138|STMDT12_C11170
STMDT12_C11180	operon_0314	NC_016860.1|gene1139|STMDT12_C11180
STMDT12_C11190	operon_0314	NC_016860.1|gene1140|STMDT12_C11190
STMDT12_C11200	operon_0315	NC_016860.1|gene1141|STMDT12_C11200
STMDT12_C11210	operon_0315	NC_016860.1|gene1142|STMDT12_C11210
STMDT12_C11220	operon_0315	NC_016860.1|gene1143|STMDT12_C11220
STMDT12_C11230	operon_0315	NC_016860.1|gene1144|STMDT12_C11230
STMDT12_C11240	operon_0315	NC_016860.1|gene1145|STMDT12_C11240
STMDT12_C11250	operon_0315	NC_016860.1|gene1146|STMDT12_C11250
STMDT12_C11260	operon_0315	NC_016860.1|gene1147|STMDT12_C11260
STMDT12_C11270	operon_0315	NC_016860.1|gene1148|STMDT12_C11270
STMDT12_C11280	operon_0315	NC_016860.1|gene1149|STMDT12_C11280
STMDT12_C11290	operon_0316	NC_016860.1|gene1150|STMDT12_C11290
STMDT12_C11300	operon_0317	NC_016860.1|gene1151|STMDT12_C11300
STMDT12_C11310	operon_0318	NC_016860.1|gene1152|STMDT12_C11310
STMDT12_C11320	operon_0318	NC_016860.1|gene1153|STMDT12_C11320
STMDT12_C11330	operon_0319	NC_016860.1|gene1154|STMDT12_C11330
STMDT12_C11340	operon_0319	NC_016860.1|gene1155|STMDT12_C11340
STMDT12_C11350	operon_0319	NC_016860.1|gene1156|STMDT12_C11350
STMDT12_C11360	operon_0319	NC_016860.1|gene1157|STMDT12_C11360
STMDT12_C11370	operon_0319	NC_016860.1|gene1158|STMDT12_C11370
STMDT12_C11380	operon_0320	NC_016860.1|gene1159|STMDT12_C11380
STMDT12_C11390	operon_0320	NC_016860.1|gene1160|STMDT12_C11390
STMDT12_C11400	operon_0321	NC_016860.1|gene1161|STMDT12_C11400
STMDT12_C11410	operon_0322	NC_016860.1|gene1162|STMDT12_C11410
STMDT12_C11420	operon_0322	NC_016860.1|gene1163|STMDT12_C11420|putA
STMDT12_C11430	operon_0323	NC_016860.1|gene1164|STMDT12_C11430
STMDT12_C11440	operon_0323	NC_016860.1|gene1165|STMDT12_C11440
STMDT12_C11450	operon_0323	NC_016860.1|gene1166|STMDT12_C11450
STMDT12_C11460	operon_0324	NC_016860.1|gene1167|STMDT12_C11460
STMDT12_C11470	operon_0324	NC_016860.1|gene1168|STMDT12_C11470
STMDT12_C11480	operon_0324	NC_016860.1|gene1169|STMDT12_C11480
STMDT12_C11490	operon_0325	NC_016860.1|gene1170|STMDT12_C11490
STMDT12_C11500	operon_0325	NC_016860.1|gene1171|STMDT12_C11500
STMDT12_C11510	operon_0325	NC_016860.1|gene1172|STMDT12_C11510
STMDT12_C11520	operon_0325	NC_016860.1|gene1173|STMDT12_C11520
STMDT12_Ct0220	operon_0326	NC_016860.1|gene1174|STMDT12_Ct0220
STMDT12_C11530	operon_0327	NC_016860.1|gene1175|STMDT12_C11530
STMDT12_C11540	operon_0327	NC_016860.1|gene1176|STMDT12_C11540
STMDT12_C11550	operon_0327	NC_016860.1|gene1177|STMDT12_C11550
STMDT12_C11560	operon_0327	NC_016860.1|gene1178|STMDT12_C11560
STMDT12_C11570	operon_0328	NC_016860.1|gene1179|STMDT12_C11570
STMDT12_C11580	operon_0328	NC_016860.1|gene1180|STMDT12_C11580
STMDT12_C11590	operon_0328	NC_016860.1|gene1181|STMDT12_C11590
STMDT12_C11600	operon_0328	NC_016860.1|gene1182|STMDT12_C11600
STMDT12_C11610	operon_0329	NC_016860.1|gene1183|STMDT12_C11610|csgB
STMDT12_C11620	operon_0329	NC_016860.1|gene1184|STMDT12_C11620|csgA
STMDT12_C11630	operon_0329	NC_016860.1|gene1185|STMDT12_C11630|csgC
STMDT12_C11640	operon_0329	NC_016860.1|gene1186|STMDT12_C11640
STMDT12_C11650	operon_0329	NC_016860.1|gene1187|STMDT12_C11650
STMDT12_C11660	operon_0329	NC_016860.1|gene1188|STMDT12_C11660
STMDT12_C11670	operon_0330	NC_016860.1|gene1189|STMDT12_C11670|mdoC
STMDT12_C11680	operon_0331	NC_016860.1|gene1190|STMDT12_C11680|mdoG
STMDT12_C11690	operon_0331	NC_016860.1|gene1191|STMDT12_C11690|mdoG
STMDT12_C11700	operon_0331	NC_016860.1|gene1192|STMDT12_C11700
STMDT12_C11710	operon_0332	NC_016860.1|gene1193|STMDT12_C11710
STMDT12_C11720	operon_0332	NC_016860.1|gene1194|STMDT12_C11720
STMDT12_C11730	operon_0332	NC_016860.1|gene1195|STMDT12_C11730
STMDT12_C11740	operon_0333	NC_016860.1|gene1196|STMDT12_C11740
STMDT12_C11750	operon_0334	NC_016860.1|gene1197|STMDT12_C11750
STMDT12_C11760	operon_0334	NC_016860.1|gene1198|STMDT12_C11760
STMDT12_C11770	operon_0334	NC_016860.1|gene1199|STMDT12_C11770
STMDT12_C11780	operon_0334	NC_016860.1|gene1200|STMDT12_C11780|solA
STMDT12_C11790	operon_0334	NC_016860.1|gene1201|STMDT12_C11790|bssS
STMDT12_C11800	operon_0334	NC_016860.1|gene1202|STMDT12_C11800
STMDT12_C11810	operon_0334	NC_016860.1|gene1203|STMDT12_C11810
STMDT12_C11820	operon_0334	NC_016860.1|gene1204|STMDT12_C11820
STMDT12_C11830	operon_0334	NC_016860.1|gene1205|STMDT12_C11830
STMDT12_C11840	operon_0334	NC_016860.1|gene1206|STMDT12_C11840
STMDT12_C11850	operon_0335	NC_016860.1|gene1207|STMDT12_C11850
STMDT12_C11860	operon_0335	NC_016860.1|gene1208|STMDT12_C11860
STMDT12_C11870	operon_0335	NC_016860.1|gene1209|STMDT12_C11870
STMDT12_C11880	operon_0335	NC_016860.1|gene1210|STMDT12_C11880
STMDT12_C11890	operon_0336	NC_016860.1|gene1211|STMDT12_C11890
STMDT12_C11900	operon_0336	NC_016860.1|gene1212|STMDT12_C11900|flgM
STMDT12_C11910	operon_0336	NC_016860.1|gene1213|STMDT12_C11910|flgA
STMDT12_C11920	operon_0337	NC_016860.1|gene1214|STMDT12_C11920|flgB
STMDT12_C11930	operon_0337	NC_016860.1|gene1215|STMDT12_C11930|flgC
STMDT12_C11940	operon_0337	NC_016860.1|gene1216|STMDT12_C11940|flgD
STMDT12_C11950	operon_0337	NC_016860.1|gene1217|STMDT12_C11950|flgE
STMDT12_C11960	operon_0337	NC_016860.1|gene1218|STMDT12_C11960|flgF
STMDT12_C11970	operon_0337	NC_016860.1|gene1219|STMDT12_C11970|flgG
STMDT12_C11980	operon_0337	NC_016860.1|gene1220|STMDT12_C11980|flgH
STMDT12_C11990	operon_0337	NC_016860.1|gene1221|STMDT12_C11990|flgI
STMDT12_C12000	operon_0337	NC_016860.1|gene1222|STMDT12_C12000|flgJ
STMDT12_C12010	operon_0337	NC_016860.1|gene1223|STMDT12_C12010|flgK
STMDT12_C12020	operon_0337	NC_016860.1|gene1224|STMDT12_C12020|flgL
STMDT12_C12030	operon_0338	NC_016860.1|gene1225|STMDT12_C12030|rne
STMDT12_C12040	operon_0339	NC_016860.1|gene1226|STMDT12_C12040
STMDT12_C12050	operon_0339	NC_016860.1|gene1227|STMDT12_C12050
STMDT12_C12060	operon_0339	NC_016860.1|gene1228|STMDT12_C12060
STMDT12_C12070	operon_0339	NC_016860.1|gene1229|STMDT12_C12070
STMDT12_C12080	operon_0340	NC_016860.1|gene1230|STMDT12_C12080
STMDT12_C12090	operon_0341	NC_016860.1|gene1231|STMDT12_C12090
STMDT12_C12100	operon_0341	NC_016860.1|gene1232|STMDT12_C12100|rpmF
STMDT12_C12110	operon_0341	NC_016860.1|gene1233|STMDT12_C12110
STMDT12_C12120	operon_0341	NC_016860.1|gene1234|STMDT12_C12120|fabH
STMDT12_C12130	operon_0341	NC_016860.1|gene1235|STMDT12_C12130|fabD
STMDT12_C12140	operon_0341	NC_016860.1|gene1236|STMDT12_C12140|fabG
STMDT12_C12150	operon_0341	NC_016860.1|gene1237|STMDT12_C12150
STMDT12_C12160	operon_0341	NC_016860.1|gene1238|STMDT12_C12160|fabF
STMDT12_C12170	operon_0341	NC_016860.1|gene1239|STMDT12_C12170
STMDT12_C12180	operon_0341	NC_016860.1|gene1240|STMDT12_C12180
STMDT12_C12190	operon_0341	NC_016860.1|gene1241|STMDT12_C12190|tmk
STMDT12_C12200	operon_0341	NC_016860.1|gene1242|STMDT12_C12200|tmk
STMDT12_C12210	operon_0341	NC_016860.1|gene1243|STMDT12_C12210
STMDT12_C12220	operon_0341	NC_016860.1|gene1244|STMDT12_C12220
STMDT12_C12230	operon_0342	NC_016860.1|gene1245|STMDT12_C12230
STMDT12_C12240	operon_0343	NC_016860.1|gene1246|STMDT12_C12240
STMDT12_C12250	operon_0343	NC_016860.1|gene1247|STMDT12_C12250
STMDT12_C12260	operon_0343	NC_016860.1|gene1248|STMDT12_C12260
STMDT12_C12270	operon_0343	NC_016860.1|gene1249|STMDT12_C12270|thiK
STMDT12_C12280	operon_0343	NC_016860.1|gene1250|STMDT12_C12280
STMDT12_C12290	operon_0343	NC_016860.1|gene1251|STMDT12_C12290
STMDT12_C12300	operon_0343	NC_016860.1|gene1252|STMDT12_C12300
STMDT12_C12310	operon_0343	NC_016860.1|gene1253|STMDT12_C12310
STMDT12_C12320	operon_0344	NC_016860.1|gene1254|STMDT12_C12320
STMDT12_C12330	operon_0345	NC_016860.1|gene1255|STMDT12_C12330
STMDT12_C12340	operon_0346	NC_016860.1|gene1256|STMDT12_C12340
STMDT12_C12350	operon_0346	NC_016860.1|gene1257|STMDT12_C12350
STMDT12_C12360	operon_0347	NC_016860.1|gene1258|STMDT12_C12360
STMDT12_C12370	operon_0347	NC_016860.1|gene1259|STMDT12_C12370|lolD
STMDT12_C12380	operon_0347	NC_016860.1|gene1260|STMDT12_C12380|lolD
STMDT12_C12390	operon_0347	NC_016860.1|gene1261|STMDT12_C12390
STMDT12_C12400	operon_0347	NC_016860.1|gene1262|STMDT12_C12400
STMDT12_C12410	operon_0348	NC_016860.1|gene1263|STMDT12_C12410|potD
STMDT12_C12420	operon_0348	NC_016860.1|gene1264|STMDT12_C12420|potC
STMDT12_C12430	operon_0348	NC_016860.1|gene1265|STMDT12_C12430|sifA
STMDT12_C12440	operon_0348	NC_016860.1|gene1266|STMDT12_C12440|potB
STMDT12_C12450	operon_0348	NC_016860.1|gene1267|STMDT12_C12450|potA
STMDT12_C12460	operon_0349	NC_016860.1|gene1268|STMDT12_C12460
STMDT12_C12470	operon_0349	NC_016860.1|gene1269|STMDT12_C12470
STMDT12_C12480	operon_0350	NC_016860.1|gene1270|STMDT12_C12480
STMDT12_C12490	operon_0350	NC_016860.1|gene1271|STMDT12_C12490
STMDT12_C12500	operon_0350	NC_016860.1|gene1272|STMDT12_C12500
STMDT12_C12510	operon_0350	NC_016860.1|gene1273|STMDT12_C12510
STMDT12_C12520	operon_0350	NC_016860.1|gene1274|STMDT12_C12520
STMDT12_C12530	operon_0350	NC_016860.1|gene1275|STMDT12_C12530|mnmA
STMDT12_C12540	operon_0350	NC_016860.1|gene1276|STMDT12_C12540
STMDT12_C12550	operon_0350	NC_016860.1|gene1277|STMDT12_C12550
STMDT12_C12560	operon_0350	NC_016860.1|gene1278|STMDT12_C12560
STMDT12_C12570	operon_0351	NC_016860.1|gene1279|STMDT12_C12570
STMDT12_C12580	operon_0351	NC_016860.1|gene1280|STMDT12_C12580
STMDT12_C12590	operon_0352	NC_016860.1|gene1281|STMDT12_C12590
STMDT12_C12600	operon_0352	NC_016860.1|gene1282|STMDT12_C12600
STMDT12_C12610	operon_0352	NC_016860.1|gene1283|STMDT12_C12610
STMDT12_C12620	operon_0352	NC_016860.1|gene1284|STMDT12_C12620
STMDT12_C12630	operon_0352	NC_016860.1|gene1285|STMDT12_C12630|cspH
STMDT12_C12640	operon_0353	NC_016860.1|gene1286|STMDT12_C12640
STMDT12_Ct0230	operon_0353	NC_016860.1|gene1287|STMDT12_Ct0230
STMDT12_C12650	operon_0354	NC_016860.1|gene1288|STMDT12_C12650
STMDT12_C12660	operon_0355	NC_016860.1|gene1289|STMDT12_C12660
STMDT12_C12670	operon_0355	NC_016860.1|gene1290|STMDT12_C12670
STMDT12_C12680	operon_0355	NC_016860.1|gene1291|STMDT12_C12680
STMDT12_C12690	operon_0355	NC_016860.1|gene1292|STMDT12_C12690
STMDT12_C12700	operon_0356	NC_016860.1|gene1293|STMDT12_C12700
STMDT12_C12710	operon_0356	NC_016860.1|gene1294|STMDT12_C12710
STMDT12_C12720	operon_0357	NC_016860.1|gene1295|STMDT12_C12720
STMDT12_C12730	operon_0357	NC_016860.1|gene1296|STMDT12_C12730
STMDT12_C12740	operon_0357	NC_016860.1|gene1297|STMDT12_C12740
STMDT12_C12750	operon_0357	NC_016860.1|gene1298|STMDT12_C12750
STMDT12_C12760	operon_0357	NC_016860.1|gene1299|STMDT12_C12760
STMDT12_C12770	operon_0358	NC_016860.1|gene1300|STMDT12_C12770
STMDT12_C12780	operon_0359	NC_016860.1|gene1301|STMDT12_C12780
STMDT12_Ct0240	operon_0359	NC_016860.1|gene1302|STMDT12_Ct0240
STMDT12_C12790	operon_0359	NC_016860.1|gene1303|STMDT12_C12790
STMDT12_C12800	operon_0359	NC_016860.1|gene1304|STMDT12_C12800
STMDT12_C12810	operon_0359	NC_016860.1|gene1305|STMDT12_C12810
STMDT12_C12820	operon_0359	NC_016860.1|gene1306|STMDT12_C12820
STMDT12_C12830	operon_0360	NC_016860.1|gene1307|STMDT12_C12830
STMDT12_C12840	operon_0360	NC_016860.1|gene1308|STMDT12_C12840
STMDT12_C12850	operon_0361	NC_016860.1|gene1309|STMDT12_C12850
STMDT12_C12860	operon_0361	NC_016860.1|gene1310|STMDT12_C12860
STMDT12_C12870	operon_0361	NC_016860.1|gene1311|STMDT12_C12870
STMDT12_C12880	operon_0361	NC_016860.1|gene1312|STMDT12_C12880
STMDT12_C12890	operon_0361	NC_016860.1|gene1313|STMDT12_C12890
STMDT12_C12900	operon_0361	NC_016860.1|gene1314|STMDT12_C12900
STMDT12_C12910	operon_0361	NC_016860.1|gene1315|STMDT12_C12910
STMDT12_C12920	operon_0361	NC_016860.1|gene1316|STMDT12_C12920
STMDT12_C12930	operon_0362	NC_016860.1|gene1317|STMDT12_C12930
STMDT12_C12940	operon_0362	NC_016860.1|gene1318|STMDT12_C12940
STMDT12_C12950	operon_0363	NC_016860.1|gene1319|STMDT12_C12950
STMDT12_C12960	operon_0364	NC_016860.1|gene1320|STMDT12_C12960
STMDT12_C12970	operon_0365	NC_016860.1|gene1321|STMDT12_C12970
STMDT12_C12980	operon_0366	NC_016860.1|gene1322|STMDT12_C12980
STMDT12_C12990	operon_0366	NC_016860.1|gene1323|STMDT12_C12990
STMDT12_C13000	operon_0366	NC_016860.1|gene1324|STMDT12_C13000
STMDT12_C13010	operon_0366	NC_016860.1|gene1325|STMDT12_C13010
STMDT12_C13020	operon_0367	NC_016860.1|gene1326|STMDT12_C13020
STMDT12_C13030	operon_0367	NC_016860.1|gene1327|STMDT12_C13030
STMDT12_C13040	operon_0367	NC_016860.1|gene1328|STMDT12_C13040
STMDT12_C13050	operon_0368	NC_016860.1|gene1329|STMDT12_C13050
STMDT12_C13060	operon_0368	NC_016860.1|gene1330|STMDT12_C13060
STMDT12_C13070	operon_0368	NC_016860.1|gene1331|STMDT12_C13070
STMDT12_C13080	operon_0369	NC_016860.1|gene1332|STMDT12_C13080
STMDT12_C13090	operon_0369	NC_016860.1|gene1333|STMDT12_C13090
STMDT12_C13100	operon_0370	NC_016860.1|gene1334|STMDT12_C13100
STMDT12_C13110	operon_0370	NC_016860.1|gene1335|STMDT12_C13110|ansA
STMDT12_C13120	operon_0370	NC_016860.1|gene1336|STMDT12_C13120
STMDT12_C13130	operon_0371	NC_016860.1|gene1337|STMDT12_C13130
STMDT12_C13140	operon_0371	NC_016860.1|gene1338|STMDT12_C13140
STMDT12_C13150	operon_0371	NC_016860.1|gene1339|STMDT12_C13150
STMDT12_C13160	operon_0372	NC_016860.1|gene1340|STMDT12_C13160
STMDT12_C13170	operon_0373	NC_016860.1|gene1341|STMDT12_C13170
STMDT12_C13180	operon_0374	NC_016860.1|gene1342|STMDT12_C13180
STMDT12_C13190	operon_0374	NC_016860.1|gene1343|STMDT12_C13190
STMDT12_C13200	operon_0375	NC_016860.1|gene1344|STMDT12_C13200
STMDT12_C13210	operon_0375	NC_016860.1|gene1345|STMDT12_C13210
STMDT12_C13220	operon_0375	NC_016860.1|gene1346|STMDT12_C13220|astD
STMDT12_C13230	operon_0375	NC_016860.1|gene1347|STMDT12_C13230|astD
STMDT12_C13240	operon_0375	NC_016860.1|gene1348|STMDT12_C13240
STMDT12_C13250	operon_0375	NC_016860.1|gene1349|STMDT12_C13250
STMDT12_C13260	operon_0376	NC_016860.1|gene1350|STMDT12_C13260
STMDT12_C13270	operon_0376	NC_016860.1|gene1351|STMDT12_C13270|nadE
STMDT12_C13280	operon_0377	NC_016860.1|gene1352|STMDT12_C13280
STMDT12_C13290	operon_0377	NC_016860.1|gene1353|STMDT12_C13290
STMDT12_C13300	operon_0377	NC_016860.1|gene1354|STMDT12_C13300
STMDT12_C13310	operon_0377	NC_016860.1|gene1355|STMDT12_C13310
STMDT12_C13320	operon_0377	NC_016860.1|gene1356|STMDT12_C13320
STMDT12_C13330	operon_0377	NC_016860.1|gene1357|STMDT12_C13330
STMDT12_C13340	operon_0377	NC_016860.1|gene1358|STMDT12_C13340
STMDT12_C13350	operon_0378	NC_016860.1|gene1359|STMDT12_C13350|katE
STMDT12_C13360	operon_0379	NC_016860.1|gene1360|STMDT12_C13360
STMDT12_C13370	operon_0380	NC_016860.1|gene1361|STMDT12_C13370
STMDT12_C13380	operon_0380	NC_016860.1|gene1362|STMDT12_C13380
STMDT12_C13390	operon_0380	NC_016860.1|gene1363|STMDT12_C13390
STMDT12_C13400	operon_0381	NC_016860.1|gene1364|STMDT12_C13400
STMDT12_C13410	operon_0382	NC_016860.1|gene1365|STMDT12_C13410
STMDT12_C13420	operon_0382	NC_016860.1|gene1366|STMDT12_C13420
STMDT12_C13430	operon_0382	NC_016860.1|gene1367|STMDT12_C13430
STMDT12_C13440	operon_0383	NC_016860.1|gene1368|STMDT12_C13440
STMDT12_C13450	operon_0384	NC_016860.1|gene1369|STMDT12_C13450
STMDT12_C13460	operon_0385	NC_016860.1|gene1370|STMDT12_C13460
STMDT12_C13470	operon_0385	NC_016860.1|gene1371|STMDT12_C13470
STMDT12_C13480	operon_0386	NC_016860.1|gene1372|STMDT12_C13480
STMDT12_C13490	operon_0387	NC_016860.1|gene1373|STMDT12_C13490
STMDT12_C13500	operon_0387	NC_016860.1|gene1374|STMDT12_C13500|infC
STMDT12_C13510	operon_0387	NC_016860.1|gene1375|STMDT12_C13510|rpmI
STMDT12_C13520	operon_0387	NC_016860.1|gene1376|STMDT12_C13520|rplT
STMDT12_C13530	operon_0387	NC_016860.1|gene1377|STMDT12_C13530|pheS
STMDT12_C13540	operon_0387	NC_016860.1|gene1378|STMDT12_C13540|pheT
STMDT12_C13550	operon_0387	NC_016860.1|gene1379|STMDT12_C13550|ihfA
STMDT12_C13560	operon_0387	NC_016860.1|gene1380|STMDT12_C13560
STMDT12_C13570	operon_0387	NC_016860.1|gene1381|STMDT12_C13570|btuE
STMDT12_C13580	operon_0387	NC_016860.1|gene1382|STMDT12_C13580|btuE
STMDT12_C13590	operon_0387	NC_016860.1|gene1383|STMDT12_C13590|nlpC
STMDT12_C13600	operon_0387	NC_016860.1|gene1384|STMDT12_C13600
STMDT12_C13610	operon_0387	NC_016860.1|gene1385|STMDT12_C13610
STMDT12_C13620	operon_0388	NC_016860.1|gene1386|STMDT12_C13620
STMDT12_C13630	operon_0388	NC_016860.1|gene1387|STMDT12_C13630
STMDT12_C13640	operon_0388	NC_016860.1|gene1388|STMDT12_C13640
STMDT12_C13650	operon_0388	NC_016860.1|gene1389|STMDT12_C13650
STMDT12_C13660	operon_0389	NC_016860.1|gene1390|STMDT12_C13660
STMDT12_C13670	operon_0390	NC_016860.1|gene1391|STMDT12_C13670
STMDT12_C13680	operon_0390	NC_016860.1|gene1392|STMDT12_C13680
STMDT12_C13690	operon_0390	NC_016860.1|gene1393|STMDT12_C13690
STMDT12_C13700	operon_0390	NC_016860.1|gene1394|STMDT12_C13700
STMDT12_C13710	operon_0390	NC_016860.1|gene1395|STMDT12_C13710
STMDT12_C13720	operon_0391	NC_016860.1|gene1396|STMDT12_C13720
STMDT12_C13730	operon_0392	NC_016860.1|gene1397|STMDT12_C13730
STMDT12_C13740	operon_0392	NC_016860.1|gene1398|STMDT12_C13740
STMDT12_C13750	operon_0392	NC_016860.1|gene1399|STMDT12_C13750|aroD
STMDT12_C13760	operon_0392	NC_016860.1|gene1400|STMDT12_C13760
STMDT12_C13770	operon_0392	NC_016860.1|gene1401|STMDT12_C13770
STMDT12_C13780	operon_0392	NC_016860.1|gene1402|STMDT12_C13780
STMDT12_C13790	operon_0392	NC_016860.1|gene1403|STMDT12_C13790
STMDT12_C13800	operon_0392	NC_016860.1|gene1404|STMDT12_C13800
STMDT12_C13810	operon_0393	NC_016860.1|gene1405|STMDT12_C13810
STMDT12_C13820	operon_0393	NC_016860.1|gene1406|STMDT12_C13820
STMDT12_C13830	operon_0393	NC_016860.1|gene1407|STMDT12_C13830
STMDT12_C13840	operon_0394	NC_016860.1|gene1408|STMDT12_C13840
STMDT12_C13850	operon_0395	NC_016860.1|gene1409|STMDT12_C13850|sufA
STMDT12_C13860	operon_0395	NC_016860.1|gene1410|STMDT12_C13860
STMDT12_C13870	operon_0395	NC_016860.1|gene1411|STMDT12_C13870|sufC
STMDT12_C13880	operon_0395	NC_016860.1|gene1412|STMDT12_C13880|sufC
STMDT12_C13890	operon_0395	NC_016860.1|gene1413|STMDT12_C13890
STMDT12_C13900	operon_0395	NC_016860.1|gene1414|STMDT12_C13900
STMDT12_C13910	operon_0395	NC_016860.1|gene1415|STMDT12_C13910
STMDT12_C13920	operon_0396	NC_016860.1|gene1416|STMDT12_C13920
STMDT12_C13930	operon_0396	NC_016860.1|gene1417|STMDT12_C13930
STMDT12_C13940	operon_0396	NC_016860.1|gene1418|STMDT12_C13940
STMDT12_C13950	operon_0396	NC_016860.1|gene1419|STMDT12_C13950
STMDT12_C13960	operon_0396	NC_016860.1|gene1420|STMDT12_C13960
STMDT12_C13970	operon_0396	NC_016860.1|gene1421|STMDT12_C13970
STMDT12_C13980	operon_0396	NC_016860.1|gene1422|STMDT12_C13980
STMDT12_C13990	operon_0396	NC_016860.1|gene1423|STMDT12_C13990
STMDT12_C14000	operon_0396	NC_016860.1|gene1424|STMDT12_C14000
STMDT12_C14010	operon_0396	NC_016860.1|gene1425|STMDT12_C14010
STMDT12_C14020	operon_0397	NC_016860.1|gene1426|STMDT12_C14020
STMDT12_C14030	operon_0397	NC_016860.1|gene1427|STMDT12_C14030
STMDT12_C14040	operon_0397	NC_016860.1|gene1428|STMDT12_C14040
STMDT12_C14050	operon_0398	NC_016860.1|gene1429|STMDT12_C14050
STMDT12_C14060	operon_0398	NC_016860.1|gene1430|STMDT12_C14060
STMDT12_C14070	operon_0398	NC_016860.1|gene1431|STMDT12_C14070
STMDT12_C14080	operon_0398	NC_016860.1|gene1432|STMDT12_C14080
STMDT12_C14090	operon_0399	NC_016860.1|gene1433|STMDT12_C14090
STMDT12_C14100	operon_0399	NC_016860.1|gene1434|STMDT12_C14100
STMDT12_C14110	operon_0399	NC_016860.1|gene1435|STMDT12_C14110
STMDT12_C14120	operon_0399	NC_016860.1|gene1436|STMDT12_C14120
STMDT12_C14130	operon_0399	NC_016860.1|gene1437|STMDT12_C14130
STMDT12_C14140	operon_0399	NC_016860.1|gene1438|STMDT12_C14140
STMDT12_C14150	operon_0399	NC_016860.1|gene1439|STMDT12_C14150
STMDT12_C14160	operon_0399	NC_016860.1|gene1440|STMDT12_C14160
STMDT12_C14170	operon_0399	NC_016860.1|gene1441|STMDT12_C14170
STMDT12_C14180	operon_0399	NC_016860.1|gene1442|STMDT12_C14180
STMDT12_C14190	operon_0399	NC_016860.1|gene1443|STMDT12_C14190
STMDT12_C14200	operon_0399	NC_016860.1|gene1444|STMDT12_C14200
STMDT12_C14210	operon_0399	NC_016860.1|gene1445|STMDT12_C14210
STMDT12_C14220	operon_0399	NC_016860.1|gene1446|STMDT12_C14220
STMDT12_C14230	operon_0399	NC_016860.1|gene1447|STMDT12_C14230
STMDT12_C14240	operon_0399	NC_016860.1|gene1448|STMDT12_C14240
STMDT12_C14250	operon_0399	NC_016860.1|gene1449|STMDT12_C14250
STMDT12_C14260	operon_0399	NC_016860.1|gene1450|STMDT12_C14260
STMDT12_C14270	operon_0399	NC_016860.1|gene1451|STMDT12_C14270
STMDT12_C14280	operon_0399	NC_016860.1|gene1452|STMDT12_C14280
STMDT12_C14290	operon_0399	NC_016860.1|gene1453|STMDT12_C14290
STMDT12_C14300	operon_0399	NC_016860.1|gene1454|STMDT12_C14300
STMDT12_C14310	operon_0399	NC_016860.1|gene1455|STMDT12_C14310
STMDT12_C14320	operon_0399	NC_016860.1|gene1456|STMDT12_C14320
STMDT12_C14330	operon_0399	NC_016860.1|gene1457|STMDT12_C14330
STMDT12_C14340	operon_0399	NC_016860.1|gene1458|STMDT12_C14340
STMDT12_C14350	operon_0399	NC_016860.1|gene1459|STMDT12_C14350
STMDT12_C14360	operon_0399	NC_016860.1|gene1460|STMDT12_C14360
STMDT12_C14370	operon_0399	NC_016860.1|gene1461|STMDT12_C14370
STMDT12_C14380	operon_0399	NC_016860.1|gene1462|STMDT12_C14380
STMDT12_Ct0250	operon_0400	NC_016860.1|gene1463|STMDT12_Ct0250
STMDT12_Ct0260	operon_0400	NC_016860.1|gene1464|STMDT12_Ct0260
STMDT12_C14390	operon_0400	NC_016860.1|gene1465|STMDT12_C14390
STMDT12_C14400	operon_0401	NC_016860.1|gene1466|STMDT12_C14400
STMDT12_C14410	operon_0402	NC_016860.1|gene1467|STMDT12_C14410
STMDT12_C14420	operon_0402	NC_016860.1|gene1468|STMDT12_C14420
STMDT12_C14430	operon_0403	NC_016860.1|gene1469|STMDT12_C14430
STMDT12_C14440	operon_0404	NC_016860.1|gene1470|STMDT12_C14440
STMDT12_C14450	operon_0404	NC_016860.1|gene1471|STMDT12_C14450
STMDT12_C14460	operon_0404	NC_016860.1|gene1472|STMDT12_C14460
STMDT12_C14470	operon_0405	NC_016860.1|gene1473|STMDT12_C14470
STMDT12_C14480	operon_0406	NC_016860.1|gene1474|STMDT12_C14480
STMDT12_C14490	operon_0406	NC_016860.1|gene1475|STMDT12_C14490
STMDT12_C14500	operon_0406	NC_016860.1|gene1476|STMDT12_C14500
STMDT12_C14510	operon_0406	NC_016860.1|gene1477|STMDT12_C14510
STMDT12_C14520	operon_0407	NC_016860.1|gene1478|STMDT12_C14520
STMDT12_C14530	operon_0407	NC_016860.1|gene1479|STMDT12_C14530
STMDT12_C14540	operon_0407	NC_016860.1|gene1480|STMDT12_C14540
STMDT12_C14550	operon_0408	NC_016860.1|gene1481|STMDT12_C14550
STMDT12_C14560	operon_0408	NC_016860.1|gene1482|STMDT12_C14560
STMDT12_C14570	operon_0408	NC_016860.1|gene1483|STMDT12_C14570
STMDT12_C14580	operon_0409	NC_016860.1|gene1484|STMDT12_C14580
STMDT12_C14590	operon_0410	NC_016860.1|gene1485|STMDT12_C14590
STMDT12_C14600	operon_0411	NC_016860.1|gene1486|STMDT12_C14600|anmK
STMDT12_C14610	operon_0411	NC_016860.1|gene1487|STMDT12_C14610
STMDT12_C14620	operon_0411	NC_016860.1|gene1488|STMDT12_C14620
STMDT12_C14630	operon_0411	NC_016860.1|gene1489|STMDT12_C14630
STMDT12_C14640	operon_0411	NC_016860.1|gene1490|STMDT12_C14640
STMDT12_C14650	operon_0412	NC_016860.1|gene1491|STMDT12_C14650|gst
STMDT12_C14660	operon_0412	NC_016860.1|gene1492|STMDT12_C14660|tppB
STMDT12_C14670	operon_0412	NC_016860.1|gene1493|STMDT12_C14670
STMDT12_C14680	operon_0412	NC_016860.1|gene1494|STMDT12_C14680
STMDT12_C14690	operon_0412	NC_016860.1|gene1495|STMDT12_C14690|rnfG
STMDT12_C14700	operon_0412	NC_016860.1|gene1496|STMDT12_C14700|rnfD
STMDT12_C14710	operon_0412	NC_016860.1|gene1497|STMDT12_C14710|rnfC
STMDT12_C14720	operon_0412	NC_016860.1|gene1498|STMDT12_C14720|rnfB
STMDT12_C14730	operon_0412	NC_016860.1|gene1499|STMDT12_C14730|rnfA
STMDT12_C14740	operon_0412	NC_016860.1|gene1500|STMDT12_C14740
STMDT12_C14750	operon_0412	NC_016860.1|gene1501|STMDT12_C14750
STMDT12_C14760	operon_0413	NC_016860.1|gene1502|STMDT12_C14760
STMDT12_C14770	operon_0414	NC_016860.1|gene1503|STMDT12_C14770
STMDT12_C14780	operon_0414	NC_016860.1|gene1504|STMDT12_C14780
STMDT12_C14790	operon_0414	NC_016860.1|gene1505|STMDT12_C14790
STMDT12_C14800	operon_0414	NC_016860.1|gene1506|STMDT12_C14800
STMDT12_C14810	operon_0415	NC_016860.1|gene1507|STMDT12_C14810
STMDT12_C14820	operon_0415	NC_016860.1|gene1508|STMDT12_C14820|fumC
STMDT12_C14830	operon_0416	NC_016860.1|gene1509|STMDT12_C14830|fumC
STMDT12_C14840	operon_0416	NC_016860.1|gene1510|STMDT12_C14840
STMDT12_C14850	operon_0416	NC_016860.1|gene1511|STMDT12_C14850
STMDT12_C14860	operon_0416	NC_016860.1|gene1512|STMDT12_C14860
STMDT12_C14870	operon_0417	NC_016860.1|gene1513|STMDT12_C14870
STMDT12_C14880	operon_0418	NC_016860.1|gene1514|STMDT12_C14880
STMDT12_C14890	operon_0419	NC_016860.1|gene1515|STMDT12_C14890
STMDT12_C14900	operon_0420	NC_016860.1|gene1516|STMDT12_C14900
STMDT12_C14910	operon_0420	NC_016860.1|gene1517|STMDT12_C14910
STMDT12_C14920	operon_0421	NC_016860.1|gene1518|STMDT12_C14920|pntA
STMDT12_C14930	operon_0421	NC_016860.1|gene1519|STMDT12_C14930|pntB
STMDT12_C14940	operon_0422	NC_016860.1|gene1520|STMDT12_C14940|tqsA
STMDT12_C14950	operon_0423	NC_016860.1|gene1521|STMDT12_C14950
STMDT12_C14960	operon_0423	NC_016860.1|gene1522|STMDT12_C14960
STMDT12_C14970	operon_0424	NC_016860.1|gene1523|STMDT12_C14970
STMDT12_C14980	operon_0424	NC_016860.1|gene1524|STMDT12_C14980
STMDT12_C14990	operon_0425	NC_016860.1|gene1525|STMDT12_C14990
STMDT12_C15000	operon_0426	NC_016860.1|gene1526|STMDT12_C15000
STMDT12_C15010	operon_0427	NC_016860.1|gene1527|STMDT12_C15010
STMDT12_C15020	operon_0427	NC_016860.1|gene1528|STMDT12_C15020
STMDT12_C15030	operon_0427	NC_016860.1|gene1529|STMDT12_C15030
STMDT12_C15040	operon_0428	NC_016860.1|gene1530|STMDT12_C15040
STMDT12_C15050	operon_0428	NC_016860.1|gene1531|STMDT12_C15050
STMDT12_C15060	operon_0428	NC_016860.1|gene1532|STMDT12_C15060
STMDT12_C15070	operon_0428	NC_016860.1|gene1533|STMDT12_C15070
STMDT12_C15080	operon_0428	NC_016860.1|gene1534|STMDT12_C15080
STMDT12_C15090	operon_0428	NC_016860.1|gene1535|STMDT12_C15090
STMDT12_C15100	operon_0428	NC_016860.1|gene1536|STMDT12_C15100
STMDT12_C15110	operon_0428	NC_016860.1|gene1537|STMDT12_C15110
STMDT12_C15120	operon_0428	NC_016860.1|gene1538|STMDT12_C15120
STMDT12_C15130	operon_0428	NC_016860.1|gene1539|STMDT12_C15130
STMDT12_C15140	operon_0428	NC_016860.1|gene1540|STMDT12_C15140
STMDT12_C15150	operon_0429	NC_016860.1|gene1541|STMDT12_C15150
STMDT12_C15160	operon_0430	NC_016860.1|gene1542|STMDT12_C15160
STMDT12_C15170	operon_0430	NC_016860.1|gene1543|STMDT12_C15170
STMDT12_C15180	operon_0431	NC_016860.1|gene1544|STMDT12_C15180
STMDT12_C15190	operon_0431	NC_016860.1|gene1545|STMDT12_C15190
STMDT12_C15200	operon_0431	NC_016860.1|gene1546|STMDT12_C15200
STMDT12_C15210	operon_0431	NC_016860.1|gene1547|STMDT12_C15210
STMDT12_C15220	operon_0431	NC_016860.1|gene1548|STMDT12_C15220
STMDT12_C15230	operon_0431	NC_016860.1|gene1549|STMDT12_C15230
STMDT12_C15240	operon_0432	NC_016860.1|gene1550|STMDT12_C15240
STMDT12_C15250	operon_0432	NC_016860.1|gene1551|STMDT12_C15250
STMDT12_C15260	operon_0432	NC_016860.1|gene1552|STMDT12_C15260
STMDT12_C15270	operon_0433	NC_016860.1|gene1553|STMDT12_C15270
STMDT12_C15280	operon_0433	NC_016860.1|gene1554|STMDT12_C15280
STMDT12_C15290	operon_0434	NC_016860.1|gene1555|STMDT12_C15290
STMDT12_C15300	operon_0435	NC_016860.1|gene1556|STMDT12_C15300
STMDT12_C15310	operon_0436	NC_016860.1|gene1557|STMDT12_C15310
STMDT12_C15320	operon_0436	NC_016860.1|gene1558|STMDT12_C15320
STMDT12_C15330	operon_0437	NC_016860.1|gene1559|STMDT12_C15330
STMDT12_C15340	operon_0438	NC_016860.1|gene1560|STMDT12_C15340
STMDT12_C15350	operon_0438	NC_016860.1|gene1561|STMDT12_C15350
STMDT12_C15360	operon_0438	NC_016860.1|gene1562|STMDT12_C15360
STMDT12_C15370	operon_0439	NC_016860.1|gene1563|STMDT12_C15370
STMDT12_C15380	operon_0440	NC_016860.1|gene1564|STMDT12_C15380
STMDT12_C15390	operon_0440	NC_016860.1|gene1565|STMDT12_C15390
STMDT12_C15400	operon_0441	NC_016860.1|gene1566|STMDT12_C15400
STMDT12_C15410	operon_0441	NC_016860.1|gene1567|STMDT12_C15410
STMDT12_C15420	operon_0441	NC_016860.1|gene1568|STMDT12_C15420
STMDT12_C15430	operon_0441	NC_016860.1|gene1569|STMDT12_C15430
STMDT12_C15440	operon_0442	NC_016860.1|gene1570|STMDT12_C15440
STMDT12_C15450	operon_0443	NC_016860.1|gene1571|STMDT12_C15450
STMDT12_C15460	operon_0444	NC_016860.1|gene1572|STMDT12_C15460
STMDT12_C15470	operon_0444	NC_016860.1|gene1573|STMDT12_C15470
STMDT12_C15480	operon_0444	NC_016860.1|gene1574|STMDT12_C15480
STMDT12_C15490	operon_0444	NC_016860.1|gene1575|STMDT12_C15490
STMDT12_C15500	operon_0444	NC_016860.1|gene1576|STMDT12_C15500
STMDT12_C15510	operon_0444	NC_016860.1|gene1577|STMDT12_C15510
STMDT12_C15520	operon_0444	NC_016860.1|gene1578|STMDT12_C15520
STMDT12_C15530	operon_0444	NC_016860.1|gene1579|STMDT12_C15530
STMDT12_C15540	operon_0444	NC_016860.1|gene1580|STMDT12_C15540
STMDT12_C15550	operon_0444	NC_016860.1|gene1581|STMDT12_C15550
STMDT12_C15560	operon_0445	NC_016860.1|gene1582|STMDT12_C15560
STMDT12_C15570	operon_0445	NC_016860.1|gene1583|STMDT12_C15570
STMDT12_C15580	operon_0446	NC_016860.1|gene1584|STMDT12_C15580
STMDT12_C15590	operon_0446	NC_016860.1|gene1585|STMDT12_C15590
STMDT12_C15600	operon_0446	NC_016860.1|gene1586|STMDT12_C15600
STMDT12_C15610	operon_0446	NC_016860.1|gene1587|STMDT12_C15610
STMDT12_C15620	operon_0446	NC_016860.1|gene1588|STMDT12_C15620
STMDT12_C15630	operon_0447	NC_016860.1|gene1589|STMDT12_C15630
STMDT12_C15640	operon_0447	NC_016860.1|gene1590|STMDT12_C15640
STMDT12_C15650	operon_0448	NC_016860.1|gene1591|STMDT12_C15650
STMDT12_C15660	operon_0448	NC_016860.1|gene1592|STMDT12_C15660
STMDT12_C15670	operon_0448	NC_016860.1|gene1593|STMDT12_C15670
STMDT12_C15680	operon_0449	NC_016860.1|gene1594|STMDT12_C15680
STMDT12_C15690	operon_0449	NC_016860.1|gene1595|STMDT12_C15690
STMDT12_C15700	operon_0450	NC_016860.1|gene1596|STMDT12_C15700
STMDT12_C15710	operon_0450	NC_016860.1|gene1597|STMDT12_C15710
STMDT12_C15720	operon_0450	NC_016860.1|gene1598|STMDT12_C15720
STMDT12_C15730	operon_0450	NC_016860.1|gene1599|STMDT12_C15730
STMDT12_C15740	operon_0451	NC_016860.1|gene1600|STMDT12_C15740
STMDT12_C15750	operon_0451	NC_016860.1|gene1601|STMDT12_C15750
STMDT12_C15760	operon_0451	NC_016860.1|gene1602|STMDT12_C15760
STMDT12_C15770	operon_0452	NC_016860.1|gene1603|STMDT12_C15770
STMDT12_C15780	operon_0452	NC_016860.1|gene1604|STMDT12_C15780
STMDT12_C15790	operon_0452	NC_016860.1|gene1605|STMDT12_C15790
STMDT12_C15800	operon_0452	NC_016860.1|gene1606|STMDT12_C15800
STMDT12_C15810	operon_0452	NC_016860.1|gene1607|STMDT12_C15810|hdeB
STMDT12_C15820	operon_0452	NC_016860.1|gene1608|STMDT12_C15820
STMDT12_C15830	operon_0453	NC_016860.1|gene1609|STMDT12_C15830
STMDT12_C15840	operon_0453	NC_016860.1|gene1610|STMDT12_C15840|rpsV
STMDT12_C15850	operon_0453	NC_016860.1|gene1611|STMDT12_C15850
STMDT12_C15860	operon_0453	NC_016860.1|gene1612|STMDT12_C15860
STMDT12_C15870	operon_0454	NC_016860.1|gene1613|STMDT12_C15870
STMDT12_C15880	operon_0454	NC_016860.1|gene1614|STMDT12_C15880
STMDT12_C15890	operon_0454	NC_016860.1|gene1615|STMDT12_C15890
STMDT12_C15900	operon_0455	NC_016860.1|gene1616|STMDT12_C15900
STMDT12_C15910	operon_0455	NC_016860.1|gene1617|STMDT12_C15910
STMDT12_C15920	operon_0455	NC_016860.1|gene1618|STMDT12_C15920
STMDT12_C15930	operon_0456	NC_016860.1|gene1619|STMDT12_C15930
STMDT12_C15940	operon_0457	NC_016860.1|gene1620|STMDT12_C15940
STMDT12_C15950	operon_0457	NC_016860.1|gene1621|STMDT12_C15950
STMDT12_C15960	operon_0457	NC_016860.1|gene1622|STMDT12_C15960
STMDT12_C15970	operon_0457	NC_016860.1|gene1623|STMDT12_C15970
STMDT12_C15980	operon_0457	NC_016860.1|gene1624|STMDT12_C15980
STMDT12_C15990	operon_0457	NC_016860.1|gene1625|STMDT12_C15990
STMDT12_C16000	operon_0457	NC_016860.1|gene1626|STMDT12_C16000
STMDT12_C16010	operon_0458	NC_016860.1|gene1627|STMDT12_C16010
STMDT12_C16020	operon_0458	NC_016860.1|gene1628|STMDT12_C16020
STMDT12_C16030	operon_0459	NC_016860.1|gene1629|STMDT12_C16030
STMDT12_C16040	operon_0460	NC_016860.1|gene1630|STMDT12_C16040
STMDT12_C16050	operon_0460	NC_016860.1|gene1631|STMDT12_C16050
STMDT12_C16060	operon_0461	NC_016860.1|gene1632|STMDT12_C16060
STMDT12_C16070	operon_0462	NC_016860.1|gene1633|STMDT12_C16070
STMDT12_C16080	operon_0462	NC_016860.1|gene1634|STMDT12_C16080
STMDT12_C16090	operon_0463	NC_016860.1|gene1635|STMDT12_C16090
STMDT12_C16100	operon_0463	NC_016860.1|gene1636|STMDT12_C16100
STMDT12_C16110	operon_0464	NC_016860.1|gene1637|STMDT12_C16110
STMDT12_C16120	operon_0465	NC_016860.1|gene1638|STMDT12_C16120
STMDT12_C16130	operon_0465	NC_016860.1|gene1639|STMDT12_C16130
STMDT12_C16140	operon_0465	NC_016860.1|gene1640|STMDT12_C16140
STMDT12_C16150	operon_0466	NC_016860.1|gene1641|STMDT12_C16150
STMDT12_C16160	operon_0467	NC_016860.1|gene1642|STMDT12_C16160
STMDT12_C16170	operon_0468	NC_016860.1|gene1643|STMDT12_C16170
STMDT12_C16180	operon_0468	NC_016860.1|gene1644|STMDT12_C16180
STMDT12_C16190	operon_0468	NC_016860.1|gene1645|STMDT12_C16190
STMDT12_C16200	operon_0468	NC_016860.1|gene1646|STMDT12_C16200
STMDT12_C16210	operon_0469	NC_016860.1|gene1647|STMDT12_C16210|sifB
STMDT12_C16220	operon_0469	NC_016860.1|gene1648|STMDT12_C16220
STMDT12_C16230	operon_0470	NC_016860.1|gene1649|STMDT12_C16230
STMDT12_C16240	operon_0470	NC_016860.1|gene1650|STMDT12_C16240
STMDT12_C16250	operon_0471	NC_016860.1|gene1651|STMDT12_C16250
STMDT12_C16260	operon_0472	NC_016860.1|gene1652|STMDT12_C16260
STMDT12_C16270	operon_0472	NC_016860.1|gene1653|STMDT12_C16270
STMDT12_C16280	operon_0472	NC_016860.1|gene1654|STMDT12_C16280
STMDT12_C16290	operon_0473	NC_016860.1|gene1655|STMDT12_C16290
STMDT12_C16300	operon_0474	NC_016860.1|gene1656|STMDT12_C16300
STMDT12_C16310	operon_0475	NC_016860.1|gene1657|STMDT12_C16310
STMDT12_C16320	operon_0475	NC_016860.1|gene1658|STMDT12_C16320
STMDT12_C16330	operon_0475	NC_016860.1|gene1659|STMDT12_C16330
STMDT12_C16340	operon_0475	NC_016860.1|gene1660|STMDT12_C16340
STMDT12_C16350	operon_0475	NC_016860.1|gene1661|STMDT12_C16350
STMDT12_C16360	operon_0475	NC_016860.1|gene1662|STMDT12_C16360
STMDT12_C16370	operon_0475	NC_016860.1|gene1663|STMDT12_C16370
STMDT12_C16380	operon_0475	NC_016860.1|gene1664|STMDT12_C16380
STMDT12_C16390	operon_0476	NC_016860.1|gene1665|STMDT12_C16390
STMDT12_C16400	operon_0476	NC_016860.1|gene1666|STMDT12_C16400
STMDT12_C16410	operon_0476	NC_016860.1|gene1667|STMDT12_C16410|mdoD
STMDT12_C16420	operon_0476	NC_016860.1|gene1668|STMDT12_C16420
STMDT12_C16430	operon_0476	NC_016860.1|gene1669|STMDT12_C16430
STMDT12_C16440	operon_0477	NC_016860.1|gene1670|STMDT12_C16440
STMDT12_C16450	operon_0478	NC_016860.1|gene1671|STMDT12_C16450
STMDT12_C16460	operon_0478	NC_016860.1|gene1672|STMDT12_C16460
STMDT12_C16470	operon_0478	NC_016860.1|gene1673|STMDT12_C16470
STMDT12_C16480	operon_0478	NC_016860.1|gene1674|STMDT12_C16480
STMDT12_C16490	operon_0478	NC_016860.1|gene1675|STMDT12_C16490
STMDT12_C16500	operon_0479	NC_016860.1|gene1676|STMDT12_C16500
STMDT12_C16510	operon_0480	NC_016860.1|gene1677|STMDT12_C16510
STMDT12_C16520	operon_0481	NC_016860.1|gene1678|STMDT12_C16520
STMDT12_C16530	operon_0481	NC_016860.1|gene1679|STMDT12_C16530
STMDT12_C16540	operon_0481	NC_016860.1|gene1680|STMDT12_C16540
STMDT12_C16550	operon_0481	NC_016860.1|gene1681|STMDT12_C16550
STMDT12_C16560	operon_0481	NC_016860.1|gene1682|STMDT12_C16560
STMDT12_C16570	operon_0482	NC_016860.1|gene1683|STMDT12_C16570
STMDT12_C16580	operon_0483	NC_016860.1|gene1684|STMDT12_C16580
STMDT12_C16590	operon_0484	NC_016860.1|gene1685|STMDT12_C16590
STMDT12_C16600	operon_0484	NC_016860.1|gene1686|STMDT12_C16600
STMDT12_C16610	operon_0484	NC_016860.1|gene1687|STMDT12_C16610
STMDT12_C16620	operon_0485	NC_016860.1|gene1688|STMDT12_C16620
STMDT12_C16630	operon_0486	NC_016860.1|gene1689|STMDT12_C16630
STMDT12_C16640	operon_0486	NC_016860.1|gene1690|STMDT12_C16640
STMDT12_C16650	operon_0486	NC_016860.1|gene1691|STMDT12_C16650
STMDT12_C16660	operon_0486	NC_016860.1|gene1692|STMDT12_C16660
STMDT12_C16670	operon_0487	NC_016860.1|gene1693|STMDT12_C16670
STMDT12_C16680	operon_0487	NC_016860.1|gene1694|STMDT12_C16680
STMDT12_C16690	operon_0488	NC_016860.1|gene1695|STMDT12_C16690
STMDT12_C16700	operon_0489	NC_016860.1|gene1696|STMDT12_C16700
STMDT12_C16710	operon_0490	NC_016860.1|gene1697|STMDT12_C16710
STMDT12_C16720	operon_0491	NC_016860.1|gene1698|STMDT12_C16720
STMDT12_C16730	operon_0492	NC_016860.1|gene1699|STMDT12_C16730
STMDT12_C16740	operon_0492	NC_016860.1|gene1700|STMDT12_C16740
STMDT12_C16750	operon_0493	NC_016860.1|gene1701|STMDT12_C16750
STMDT12_C16760	operon_0493	NC_016860.1|gene1702|STMDT12_C16760
STMDT12_C16770	operon_0494	NC_016860.1|gene1703|STMDT12_C16770
STMDT12_C16780	operon_0494	NC_016860.1|gene1704|STMDT12_C16780|zntB
STMDT12_C16790	operon_0494	NC_016860.1|gene1705|STMDT12_C16790
STMDT12_C16800	operon_0494	NC_016860.1|gene1706|STMDT12_C16800
STMDT12_C16810	operon_0495	NC_016860.1|gene1707|STMDT12_C16810
STMDT12_C16820	operon_0495	NC_016860.1|gene1708|STMDT12_C16820
STMDT12_C16830	operon_0495	NC_016860.1|gene1709|STMDT12_C16830
STMDT12_C16840	operon_0496	NC_016860.1|gene1710|STMDT12_C16840
STMDT12_C16850	operon_0497	NC_016860.1|gene1711|STMDT12_C16850
STMDT12_C16860	operon_0498	NC_016860.1|gene1712|STMDT12_C16860
STMDT12_C16870	operon_0499	NC_016860.1|gene1713|STMDT12_C16870
STMDT12_C16880	operon_0499	NC_016860.1|gene1714|STMDT12_C16880
STMDT12_C16890	operon_0500	NC_016860.1|gene1715|STMDT12_C16890
STMDT12_C16900	operon_0500	NC_016860.1|gene1716|STMDT12_C16900
STMDT12_C16910	operon_0500	NC_016860.1|gene1717|STMDT12_C16910
STMDT12_C16920	operon_0500	NC_016860.1|gene1718|STMDT12_C16920
STMDT12_C16930	operon_0501	NC_016860.1|gene1719|STMDT12_C16930
STMDT12_C16940	operon_0501	NC_016860.1|gene1720|STMDT12_C16940
STMDT12_C16950	operon_0502	NC_016860.1|gene1721|STMDT12_C16950
STMDT12_C16960	operon_0502	NC_016860.1|gene1722|STMDT12_C16960
STMDT12_C16970	operon_0503	NC_016860.1|gene1723|STMDT12_C16970
STMDT12_C16980	operon_0504	NC_016860.1|gene1724|STMDT12_C16980
STMDT12_C16990	operon_0504	NC_016860.1|gene1725|STMDT12_C16990
STMDT12_C17000	operon_0505	NC_016860.1|gene1726|STMDT12_C17000
STMDT12_C17010	operon_0506	NC_016860.1|gene1727|STMDT12_C17010
STMDT12_C17020	operon_0507	NC_016860.1|gene1728|STMDT12_C17020
STMDT12_C17030	operon_0508	NC_016860.1|gene1729|STMDT12_C17030
STMDT12_C17040	operon_0509	NC_016860.1|gene1730|STMDT12_C17040|tpx
STMDT12_C17050	operon_0510	NC_016860.1|gene1731|STMDT12_C17050
STMDT12_C17060	operon_0510	NC_016860.1|gene1732|STMDT12_C17060
STMDT12_C17070	operon_0510	NC_016860.1|gene1733|STMDT12_C17070
STMDT12_C17080	operon_0510	NC_016860.1|gene1734|STMDT12_C17080
STMDT12_C17090	operon_0510	NC_016860.1|gene1735|STMDT12_C17090
STMDT12_C17100	operon_0510	NC_016860.1|gene1736|STMDT12_C17100
STMDT12_C17110	operon_0510	NC_016860.1|gene1737|STMDT12_C17110|pspB
STMDT12_C17120	operon_0510	NC_016860.1|gene1738|STMDT12_C17120
STMDT12_C17130	operon_0511	NC_016860.1|gene1739|STMDT12_C17130|pspF
STMDT12_C17140	operon_0511	NC_016860.1|gene1740|STMDT12_C17140
STMDT12_C17150	operon_0511	NC_016860.1|gene1741|STMDT12_C17150
STMDT12_C17160	operon_0511	NC_016860.1|gene1742|STMDT12_C17160
STMDT12_C17170	operon_0511	NC_016860.1|gene1743|STMDT12_C17170
STMDT12_C17180	operon_0511	NC_016860.1|gene1744|STMDT12_C17180
STMDT12_C17190	operon_0512	NC_016860.1|gene1745|STMDT12_C17190
STMDT12_C17200	operon_0512	NC_016860.1|gene1746|STMDT12_C17200
STMDT12_C17210	operon_0513	NC_016860.1|gene1747|STMDT12_C17210|fabI
STMDT12_C17220	operon_0513	NC_016860.1|gene1748|STMDT12_C17220
STMDT12_C17230	operon_0513	NC_016860.1|gene1749|STMDT12_C17230
STMDT12_C17240	operon_0513	NC_016860.1|gene1750|STMDT12_C17240
STMDT12_C17250	operon_0513	NC_016860.1|gene1751|STMDT12_C17250
STMDT12_C17260	operon_0513	NC_016860.1|gene1752|STMDT12_C17260
STMDT12_C17270	operon_0513	NC_016860.1|gene1753|STMDT12_C17270
STMDT12_C17280	operon_0514	NC_016860.1|gene1754|STMDT12_C17280
STMDT12_C17290	operon_0514	NC_016860.1|gene1755|STMDT12_C17290
STMDT12_C17300	operon_0514	NC_016860.1|gene1756|STMDT12_C17300
STMDT12_C17310	operon_0514	NC_016860.1|gene1757|STMDT12_C17310
STMDT12_C17320	operon_0514	NC_016860.1|gene1758|STMDT12_C17320
STMDT12_C17330	operon_0515	NC_016860.1|gene1759|STMDT12_C17330|ribA
STMDT12_C17340	operon_0516	NC_016860.1|gene1760|STMDT12_C17340
STMDT12_C17350	operon_0516	NC_016860.1|gene1761|STMDT12_C17350
STMDT12_C17360	operon_0516	NC_016860.1|gene1762|STMDT12_C17360
STMDT12_C17370	operon_0516	NC_016860.1|gene1763|STMDT12_C17370|cysB
STMDT12_C17380	operon_0516	NC_016860.1|gene1764|STMDT12_C17380
STMDT12_C17390	operon_0517	NC_016860.1|gene1765|STMDT12_C17390
STMDT12_C17400	operon_0518	NC_016860.1|gene1766|STMDT12_C17400
STMDT12_C17410	operon_0519	NC_016860.1|gene1767|STMDT12_C17410
STMDT12_C17420	operon_0519	NC_016860.1|gene1768|STMDT12_C17420
STMDT12_C17430	operon_0520	NC_016860.1|gene1769|STMDT12_C17430
STMDT12_C17440	operon_0520	NC_016860.1|gene1770|STMDT12_C17440
STMDT12_C17450	operon_0520	NC_016860.1|gene1771|STMDT12_C17450
STMDT12_C17460	operon_0521	NC_016860.1|gene1772|STMDT12_C17460
STMDT12_C17470	operon_0521	NC_016860.1|gene1773|STMDT12_C17470
STMDT12_C17480	operon_0521	NC_016860.1|gene1774|STMDT12_C17480
STMDT12_C17490	operon_0521	NC_016860.1|gene1775|STMDT12_C17490
STMDT12_C17500	operon_0521	NC_016860.1|gene1776|STMDT12_C17500|trpA
STMDT12_C17510	operon_0521	NC_016860.1|gene1777|STMDT12_C17510
STMDT12_C17520	operon_0521	NC_016860.1|gene1778|STMDT12_C17520
STMDT12_C17530	operon_0521	NC_016860.1|gene1779|STMDT12_C17530
STMDT12_C17540	operon_0522	NC_016860.1|gene1780|STMDT12_C17540
STMDT12_C17550	operon_0523	NC_016860.1|gene1781|STMDT12_C17550
STMDT12_C17560	operon_0523	NC_016860.1|gene1782|STMDT12_C17560
STMDT12_C17570	operon_0523	NC_016860.1|gene1783|STMDT12_C17570
STMDT12_C17580	operon_0523	NC_016860.1|gene1784|STMDT12_C17580
STMDT12_C17590	operon_0524	NC_016860.1|gene1785|STMDT12_C17590
STMDT12_C17600	operon_0525	NC_016860.1|gene1786|STMDT12_C17600
STMDT12_C17610	operon_0526	NC_016860.1|gene1787|STMDT12_C17610
STMDT12_C17620	operon_0527	NC_016860.1|gene1788|STMDT12_C17620|cls
STMDT12_C17630	operon_0527	NC_016860.1|gene1789|STMDT12_C17630
STMDT12_C17640	operon_0528	NC_016860.1|gene1790|STMDT12_C17640
STMDT12_C17650	operon_0528	NC_016860.1|gene1791|STMDT12_C17650
STMDT12_C17660	operon_0528	NC_016860.1|gene1792|STMDT12_C17660|oppD
STMDT12_C17670	operon_0528	NC_016860.1|gene1793|STMDT12_C17670
STMDT12_C17680	operon_0528	NC_016860.1|gene1794|STMDT12_C17680|oppB
STMDT12_C17690	operon_0528	NC_016860.1|gene1795|STMDT12_C17690
STMDT12_C17700	operon_0528	NC_016860.1|gene1796|STMDT12_C17700
STMDT12_C17710	operon_0529	NC_016860.1|gene1797|STMDT12_C17710
STMDT12_C17720	operon_0530	NC_016860.1|gene1798|STMDT12_C17720
STMDT12_C17730	operon_0531	NC_016860.1|gene1799|STMDT12_C17730
STMDT12_C17740	operon_0532	NC_016860.1|gene1800|STMDT12_C17740
STMDT12_C17750	operon_0532	NC_016860.1|gene1801|STMDT12_C17750
STMDT12_C17760	operon_0532	NC_016860.1|gene1802|STMDT12_C17760
STMDT12_C17770	operon_0533	NC_016860.1|gene1803|STMDT12_C17770
STMDT12_C17780	operon_0533	NC_016860.1|gene1804|STMDT12_C17780|purU
STMDT12_Ct0270	operon_0533	NC_016860.1|gene1805|STMDT12_Ct0270
STMDT12_Ct0280	operon_0533	NC_016860.1|gene1806|STMDT12_Ct0280
STMDT12_C17790	operon_0534	NC_016860.1|gene1807|STMDT12_C17790
STMDT12_C17800	operon_0535	NC_016860.1|gene1808|STMDT12_C17800
STMDT12_C17810	operon_0536	NC_016860.1|gene1809|STMDT12_C17810
STMDT12_C17820	operon_0536	NC_016860.1|gene1810|STMDT12_C17820
STMDT12_C17830	operon_0536	NC_016860.1|gene1811|STMDT12_C17830
STMDT12_C17840	operon_0536	NC_016860.1|gene1812|STMDT12_C17840
STMDT12_C17850	operon_0536	NC_016860.1|gene1813|STMDT12_C17850
STMDT12_C17860	operon_0537	NC_016860.1|gene1814|STMDT12_C17860
STMDT12_C17870	operon_0537	NC_016860.1|gene1815|STMDT12_C17870
STMDT12_C17880	operon_0538	NC_016860.1|gene1816|STMDT12_C17880
STMDT12_C17890	operon_0539	NC_016860.1|gene1817|STMDT12_C17890
STMDT12_C17900	operon_0540	NC_016860.1|gene1818|STMDT12_C17900|chaB
STMDT12_C17910	operon_0541	NC_016860.1|gene1819|STMDT12_C17910
STMDT12_C17920	operon_0542	NC_016860.1|gene1820|STMDT12_C17920
STMDT12_C17930	operon_0542	NC_016860.1|gene1821|STMDT12_C17930
STMDT12_C17940	operon_0542	NC_016860.1|gene1822|STMDT12_C17940
STMDT12_C17950	operon_0542	NC_016860.1|gene1823|STMDT12_C17950
STMDT12_C17960	operon_0542	NC_016860.1|gene1824|STMDT12_C17960|prfA
STMDT12_C17970	operon_0542	NC_016860.1|gene1825|STMDT12_C17970|hemA
STMDT12_C17980	operon_0542	NC_016860.1|gene1826|STMDT12_C17980
STMDT12_C17990	operon_0543	NC_016860.1|gene1827|STMDT12_C17990|lolB
STMDT12_C18000	operon_0543	NC_016860.1|gene1828|STMDT12_C18000|ipk
STMDT12_C18010	operon_0543	NC_016860.1|gene1829|STMDT12_C18010
STMDT12_C18020	operon_0543	NC_016860.1|gene1830|STMDT12_C18020
STMDT12_C18030	operon_0544	NC_016860.1|gene1831|STMDT12_C18030
STMDT12_C18040	operon_0545	NC_016860.1|gene1832|STMDT12_C18040
STMDT12_C18050	operon_0545	NC_016860.1|gene1833|STMDT12_C18050
STMDT12_C18060	operon_0546	NC_016860.1|gene1834|STMDT12_C18060
STMDT12_C18070	operon_0547	NC_016860.1|gene1835|STMDT12_C18070
STMDT12_C18080	operon_0547	NC_016860.1|gene1836|STMDT12_C18080
STMDT12_C18090	operon_0547	NC_016860.1|gene1837|STMDT12_C18090
STMDT12_C18100	operon_0547	NC_016860.1|gene1838|STMDT12_C18100
STMDT12_C18110	operon_0547	NC_016860.1|gene1839|STMDT12_C18110
STMDT12_C18120	operon_0547	NC_016860.1|gene1840|STMDT12_C18120
STMDT12_C18130	operon_0547	NC_016860.1|gene1841|STMDT12_C18130
STMDT12_C18140	operon_0547	NC_016860.1|gene1842|STMDT12_C18140
STMDT12_C18150	operon_0547	NC_016860.1|gene1843|STMDT12_C18150
STMDT12_C18160	operon_0547	NC_016860.1|gene1844|STMDT12_C18160
STMDT12_C18170	operon_0547	NC_016860.1|gene1845|STMDT12_C18170|treA
STMDT12_C18180	operon_0548	NC_016860.1|gene1846|STMDT12_C18180
STMDT12_C18190	operon_0549	NC_016860.1|gene1847|STMDT12_C18190
STMDT12_C18200	operon_0550	NC_016860.1|gene1848|STMDT12_C18200
STMDT12_C18210	operon_0551	NC_016860.1|gene1849|STMDT12_C18210|ldcA
STMDT12_C18220	operon_0551	NC_016860.1|gene1850|STMDT12_C18220
STMDT12_C18230	operon_0552	NC_016860.1|gene1851|STMDT12_C18230|dadX
STMDT12_C18240	operon_0552	NC_016860.1|gene1852|STMDT12_C18240
STMDT12_C18250	operon_0553	NC_016860.1|gene1853|STMDT12_C18250
STMDT12_C18260	operon_0554	NC_016860.1|gene1854|STMDT12_C18260
STMDT12_C18270	operon_0555	NC_016860.1|gene1855|STMDT12_C18270|nhaB
STMDT12_C18280	operon_0555	NC_016860.1|gene1856|STMDT12_C18280
STMDT12_C18290	operon_0555	NC_016860.1|gene1857|STMDT12_C18290
STMDT12_C18300	operon_0556	NC_016860.1|gene1858|STMDT12_C18300
STMDT12_C18310	operon_0556	NC_016860.1|gene1859|STMDT12_C18310
STMDT12_C18320	operon_0556	NC_016860.1|gene1860|STMDT12_C18320
STMDT12_C18330	operon_0556	NC_016860.1|gene1861|STMDT12_C18330
STMDT12_C18340	operon_0556	NC_016860.1|gene1862|STMDT12_C18340
STMDT12_C18350	operon_0557	NC_016860.1|gene1863|STMDT12_C18350|minC
STMDT12_C18360	operon_0557	NC_016860.1|gene1864|STMDT12_C18360
STMDT12_C18370	operon_0557	NC_016860.1|gene1865|STMDT12_C18370|minE
STMDT12_C18380	operon_0558	NC_016860.1|gene1866|STMDT12_C18380
STMDT12_C18390	operon_0558	NC_016860.1|gene1867|STMDT12_C18390
STMDT12_C18400	operon_0558	NC_016860.1|gene1868|STMDT12_C18400
STMDT12_C18410	operon_0558	NC_016860.1|gene1869|STMDT12_C18410
STMDT12_C18420	operon_0558	NC_016860.1|gene1870|STMDT12_C18420
STMDT12_C18430	operon_0559	NC_016860.1|gene1871|STMDT12_C18430
STMDT12_C18440	operon_0560	NC_016860.1|gene1872|STMDT12_C18440
STMDT12_C18450	operon_0561	NC_016860.1|gene1873|STMDT12_C18450
STMDT12_C18460	operon_0561	NC_016860.1|gene1874|STMDT12_C18460
STMDT12_C18470	operon_0561	NC_016860.1|gene1875|STMDT12_C18470
STMDT12_C18480	operon_0561	NC_016860.1|gene1876|STMDT12_C18480
STMDT12_C18490	operon_0562	NC_016860.1|gene1877|STMDT12_C18490
STMDT12_C18500	operon_0563	NC_016860.1|gene1878|STMDT12_C18500
STMDT12_C18510	operon_0563	NC_016860.1|gene1879|STMDT12_C18510
STMDT12_C18520	operon_0563	NC_016860.1|gene1880|STMDT12_C18520
STMDT12_C18530	operon_0563	NC_016860.1|gene1881|STMDT12_C18530
STMDT12_C18540	operon_0563	NC_016860.1|gene1882|STMDT12_C18540
STMDT12_C18550	operon_0564	NC_016860.1|gene1883|STMDT12_C18550|rrmA
STMDT12_C18560	operon_0564	NC_016860.1|gene1884|STMDT12_C18560
STMDT12_C18570	operon_0564	NC_016860.1|gene1885|STMDT12_C18570
STMDT12_C18580	operon_0564	NC_016860.1|gene1886|STMDT12_C18580
STMDT12_C18590	operon_0564	NC_016860.1|gene1887|STMDT12_C18590
STMDT12_C18600	operon_0564	NC_016860.1|gene1888|STMDT12_C18600
STMDT12_C18610	operon_0565	NC_016860.1|gene1889|STMDT12_C18610
STMDT12_C18620	operon_0566	NC_016860.1|gene1890|STMDT12_C18620
STMDT12_C18630	operon_0566	NC_016860.1|gene1891|STMDT12_C18630
STMDT12_C18640	operon_0567	NC_016860.1|gene1892|STMDT12_C18640
STMDT12_C18650	operon_0568	NC_016860.1|gene1893|STMDT12_C18650
STMDT12_C18660	operon_0568	NC_016860.1|gene1894|STMDT12_C18660
STMDT12_C18670	operon_0568	NC_016860.1|gene1895|STMDT12_C18670
STMDT12_C18680	operon_0568	NC_016860.1|gene1896|STMDT12_C18680
STMDT12_C18690	operon_0569	NC_016860.1|gene1897|STMDT12_C18690
STMDT12_C18700	operon_0569	NC_016860.1|gene1898|STMDT12_C18700
STMDT12_C18710	operon_0569	NC_016860.1|gene1899|STMDT12_C18710|rsmF
STMDT12_C18720	operon_0569	NC_016860.1|gene1900|STMDT12_C18720
STMDT12_C18730	operon_0569	NC_016860.1|gene1901|STMDT12_C18730
STMDT12_C18740	operon_0570	NC_016860.1|gene1902|STMDT12_C18740|pphA
STMDT12_C18750	operon_0570	NC_016860.1|gene1903|STMDT12_C18750|pphA
STMDT12_C18760	operon_0570	NC_016860.1|gene1904|STMDT12_C18760
STMDT12_C18770	operon_0570	NC_016860.1|gene1905|STMDT12_C18770|sopE
STMDT12_C18780	operon_0571	NC_016860.1|gene1906|STMDT12_C18780
STMDT12_C18790	operon_0571	NC_016860.1|gene1907|STMDT12_C18790
STMDT12_C18800	operon_0572	NC_016860.1|gene1908|STMDT12_C18800
STMDT12_C18810	operon_0573	NC_016860.1|gene1909|STMDT12_C18810
STMDT12_C18820	operon_0574	NC_016860.1|gene1910|STMDT12_C18820
STMDT12_C18830	operon_0574	NC_016860.1|gene1911|STMDT12_C18830
STMDT12_C18840	operon_0574	NC_016860.1|gene1912|STMDT12_C18840
STMDT12_C18850	operon_0575	NC_016860.1|gene1913|STMDT12_C18850
STMDT12_C18860	operon_0576	NC_016860.1|gene1914|STMDT12_C18860
STMDT12_C18870	operon_0577	NC_016860.1|gene1915|STMDT12_C18870
STMDT12_C18880	operon_0577	NC_016860.1|gene1916|STMDT12_C18880
STMDT12_C18890	operon_0577	NC_016860.1|gene1917|STMDT12_C18890
STMDT12_C18900	operon_0578	NC_016860.1|gene1918|STMDT12_C18900
STMDT12_C18910	operon_0579	NC_016860.1|gene1919|STMDT12_C18910
STMDT12_C18920	operon_0579	NC_016860.1|gene1920|STMDT12_C18920
STMDT12_C18930	operon_0580	NC_016860.1|gene1921|STMDT12_C18930
STMDT12_C18940	operon_0580	NC_016860.1|gene1922|STMDT12_C18940
STMDT12_C18950	operon_0581	NC_016860.1|gene1923|STMDT12_C18950
STMDT12_C18960	operon_0581	NC_016860.1|gene1924|STMDT12_C18960
STMDT12_C18970	operon_0582	NC_016860.1|gene1925|STMDT12_C18970
STMDT12_C18980	operon_0582	NC_016860.1|gene1926|STMDT12_C18980
STMDT12_C18990	operon_0582	NC_016860.1|gene1927|STMDT12_C18990
STMDT12_C19000	operon_0583	NC_016860.1|gene1928|STMDT12_C19000
STMDT12_C19010	operon_0583	NC_016860.1|gene1929|STMDT12_C19010
STMDT12_C19020	operon_0583	NC_016860.1|gene1930|STMDT12_C19020
STMDT12_C19030	operon_0584	NC_016860.1|gene1931|STMDT12_C19030
STMDT12_C19040	operon_0584	NC_016860.1|gene1932|STMDT12_C19040
STMDT12_C19050	operon_0584	NC_016860.1|gene1933|STMDT12_C19050
STMDT12_C19060	operon_0584	NC_016860.1|gene1934|STMDT12_C19060
STMDT12_C19070	operon_0585	NC_016860.1|gene1935|STMDT12_C19070|purT
STMDT12_C19080	operon_0585	NC_016860.1|gene1936|STMDT12_C19080|purT
STMDT12_C19090	operon_0586	NC_016860.1|gene1937|STMDT12_C19090
STMDT12_C19100	operon_0586	NC_016860.1|gene1938|STMDT12_C19100
STMDT12_C19110	operon_0586	NC_016860.1|gene1939|STMDT12_C19110
STMDT12_C19120	operon_0587	NC_016860.1|gene1940|STMDT12_C19120
STMDT12_C19130	operon_0587	NC_016860.1|gene1941|STMDT12_C19130
STMDT12_C19140	operon_0588	NC_016860.1|gene1942|STMDT12_C19140|msbB
STMDT12_C19150	operon_0588	NC_016860.1|gene1943|STMDT12_C19150
STMDT12_C19160	operon_0588	NC_016860.1|gene1944|STMDT12_C19160|znuA
STMDT12_C19170	operon_0589	NC_016860.1|gene1945|STMDT12_C19170|znuC
STMDT12_C19180	operon_0589	NC_016860.1|gene1946|STMDT12_C19180|znuB
STMDT12_C19190	operon_0590	NC_016860.1|gene1947|STMDT12_C19190|ruvB
STMDT12_C19200	operon_0590	NC_016860.1|gene1948|STMDT12_C19200|ruvA
STMDT12_C19210	operon_0591	NC_016860.1|gene1949|STMDT12_C19210
STMDT12_C19220	operon_0591	NC_016860.1|gene1950|STMDT12_C19220
STMDT12_C19230	operon_0592	NC_016860.1|gene1951|STMDT12_C19230|ruvC
STMDT12_C19240	operon_0592	NC_016860.1|gene1952|STMDT12_C19240
STMDT12_C19250	operon_0592	NC_016860.1|gene1953|STMDT12_C19250|ntpA
STMDT12_C19260	operon_0592	NC_016860.1|gene1954|STMDT12_C19260|aspS
STMDT12_C19270	operon_0593	NC_016860.1|gene1955|STMDT12_C19270
STMDT12_C19280	operon_0593	NC_016860.1|gene1956|STMDT12_C19280
STMDT12_C19290	operon_0593	NC_016860.1|gene1957|STMDT12_C19290
STMDT12_C19300	operon_0593	NC_016860.1|gene1958|STMDT12_C19300
STMDT12_C19310	operon_0593	NC_016860.1|gene1959|STMDT12_C19310
STMDT12_C19320	operon_0594	NC_016860.1|gene1960|STMDT12_C19320
STMDT12_C19330	operon_0594	NC_016860.1|gene1961|STMDT12_C19330
STMDT12_C19340	operon_0595	NC_016860.1|gene1962|STMDT12_C19340|argS
STMDT12_C19350	operon_0595	NC_016860.1|gene1963|STMDT12_C19350
STMDT12_C19360	operon_0596	NC_016860.1|gene1964|STMDT12_C19360
STMDT12_C19370	operon_0596	NC_016860.1|gene1965|STMDT12_C19370
STMDT12_C19380	operon_0596	NC_016860.1|gene1966|STMDT12_C19380|flhA
STMDT12_C19390	operon_0596	NC_016860.1|gene1967|STMDT12_C19390|flhB
STMDT12_C19400	operon_0596	NC_016860.1|gene1968|STMDT12_C19400
STMDT12_C19410	operon_0596	NC_016860.1|gene1969|STMDT12_C19410
STMDT12_C19420	operon_0596	NC_016860.1|gene1970|STMDT12_C19420
STMDT12_C19430	operon_0596	NC_016860.1|gene1971|STMDT12_C19430
STMDT12_C19440	operon_0596	NC_016860.1|gene1972|STMDT12_C19440
STMDT12_C19450	operon_0596	NC_016860.1|gene1973|STMDT12_C19450
STMDT12_C19460	operon_0596	NC_016860.1|gene1974|STMDT12_C19460
STMDT12_C19470	operon_0596	NC_016860.1|gene1975|STMDT12_C19470|motB
STMDT12_C19480	operon_0596	NC_016860.1|gene1976|STMDT12_C19480|motB
STMDT12_C19490	operon_0596	NC_016860.1|gene1977|STMDT12_C19490
STMDT12_C19500	operon_0596	NC_016860.1|gene1978|STMDT12_C19500
STMDT12_C19510	operon_0597	NC_016860.1|gene1979|STMDT12_C19510
STMDT12_C19520	operon_0598	NC_016860.1|gene1980|STMDT12_C19520
STMDT12_C19530	operon_0598	NC_016860.1|gene1981|STMDT12_C19530
STMDT12_C19540	operon_0598	NC_016860.1|gene1982|STMDT12_C19540
STMDT12_C19550	operon_0598	NC_016860.1|gene1983|STMDT12_C19550
STMDT12_C19560	operon_0599	NC_016860.1|gene1984|STMDT12_C19560
STMDT12_C19570	operon_0600	NC_016860.1|gene1985|STMDT12_C19570
STMDT12_C19580	operon_0601	NC_016860.1|gene1986|STMDT12_C19580
STMDT12_C19590	operon_0601	NC_016860.1|gene1987|STMDT12_C19590
STMDT12_C19600	operon_0602	NC_016860.1|gene1988|STMDT12_C19600
STMDT12_C19610	operon_0603	NC_016860.1|gene1989|STMDT12_C19610
STMDT12_C19620	operon_0604	NC_016860.1|gene1990|STMDT12_C19620
STMDT12_C19630	operon_0604	NC_016860.1|gene1991|STMDT12_C19630
STMDT12_C19640	operon_0604	NC_016860.1|gene1992|STMDT12_C19640
STMDT12_C19650	operon_0604	NC_016860.1|gene1993|STMDT12_C19650
STMDT12_Ct0290	operon_0604	NC_016860.1|gene1994|STMDT12_Ct0290
STMDT12_Ct0300	operon_0604	NC_016860.1|gene1995|STMDT12_Ct0300
STMDT12_Ct0310	operon_0604	NC_016860.1|gene1996|STMDT12_Ct0310
STMDT12_C19660	operon_0604	NC_016860.1|gene1997|STMDT12_C19660
STMDT12_C19670	operon_0604	NC_016860.1|gene1998|STMDT12_C19670|uvrC
STMDT12_C19680	operon_0604	NC_016860.1|gene1999|STMDT12_C19680|uvrC
STMDT12_C19690	operon_0605	NC_016860.1|gene2000|STMDT12_C19690
STMDT12_C19700	operon_0605	NC_016860.1|gene2001|STMDT12_C19700
STMDT12_C19710	operon_0606	NC_016860.1|gene2002|STMDT12_C19710
STMDT12_C19720	operon_0606	NC_016860.1|gene2003|STMDT12_C19720
STMDT12_C19730	operon_0606	NC_016860.1|gene2004|STMDT12_C19730
STMDT12_C19740	operon_0606	NC_016860.1|gene2005|STMDT12_C19740
STMDT12_C19750	operon_0606	NC_016860.1|gene2006|STMDT12_C19750
STMDT12_C19760	operon_0606	NC_016860.1|gene2007|STMDT12_C19760
STMDT12_C19770	operon_0606	NC_016860.1|gene2008|STMDT12_C19770|fliA
STMDT12_C19780	operon_0606	NC_016860.1|gene2009|STMDT12_C19780
STMDT12_C19790	operon_0606	NC_016860.1|gene2010|STMDT12_C19790
STMDT12_C19800	operon_0606	NC_016860.1|gene2011|STMDT12_C19800
STMDT12_C19810	operon_0607	NC_016860.1|gene2012|STMDT12_C19810|fliD
STMDT12_C19820	operon_0607	NC_016860.1|gene2013|STMDT12_C19820|fliS
STMDT12_C19830	operon_0607	NC_016860.1|gene2014|STMDT12_C19830|fliS
STMDT12_C19840	operon_0607	NC_016860.1|gene2015|STMDT12_C19840
STMDT12_C19850	operon_0608	NC_016860.1|gene2016|STMDT12_C19850
STMDT12_C19860	operon_0609	NC_016860.1|gene2017|STMDT12_C19860
STMDT12_C19870	operon_0609	NC_016860.1|gene2018|STMDT12_C19870
STMDT12_C19880	operon_0609	NC_016860.1|gene2019|STMDT12_C19880
STMDT12_C19890	operon_0610	NC_016860.1|gene2020|STMDT12_C19890|fliE
STMDT12_C19900	operon_0611	NC_016860.1|gene2021|STMDT12_C19900|fliF
STMDT12_C19910	operon_0611	NC_016860.1|gene2022|STMDT12_C19910|fliG
STMDT12_C19920	operon_0611	NC_016860.1|gene2023|STMDT12_C19920|fliH
STMDT12_C19930	operon_0611	NC_016860.1|gene2024|STMDT12_C19930|fliI
STMDT12_C19940	operon_0611	NC_016860.1|gene2025|STMDT12_C19940|fliJ
STMDT12_C19950	operon_0611	NC_016860.1|gene2026|STMDT12_C19950|fliJ
STMDT12_C19960	operon_0611	NC_016860.1|gene2027|STMDT12_C19960|fliL
STMDT12_C19970	operon_0611	NC_016860.1|gene2028|STMDT12_C19970|fliM
STMDT12_C19980	operon_0611	NC_016860.1|gene2029|STMDT12_C19980|fliN
STMDT12_C19990	operon_0611	NC_016860.1|gene2030|STMDT12_C19990|fliN
STMDT12_C20000	operon_0611	NC_016860.1|gene2031|STMDT12_C20000|fliP
STMDT12_C20010	operon_0611	NC_016860.1|gene2032|STMDT12_C20010|fliQ
STMDT12_C20020	operon_0611	NC_016860.1|gene2033|STMDT12_C20020|fliR
STMDT12_C20030	operon_0611	NC_016860.1|gene2034|STMDT12_C20030
STMDT12_C20040	operon_0612	NC_016860.1|gene2035|STMDT12_C20040
STMDT12_C20050	operon_0613	NC_016860.1|gene2036|STMDT12_C20050
STMDT12_C20060	operon_0613	NC_016860.1|gene2037|STMDT12_C20060
STMDT12_C20070	operon_0614	NC_016860.1|gene2038|STMDT12_C20070
STMDT12_C20080	operon_0614	NC_016860.1|gene2039|STMDT12_C20080
STMDT12_C20090	operon_0614	NC_016860.1|gene2040|STMDT12_C20090
STMDT12_C20100	operon_0615	NC_016860.1|gene2041|STMDT12_C20100
STMDT12_C20110	operon_0616	NC_016860.1|gene2042|STMDT12_C20110
STMDT12_C20120	operon_0616	NC_016860.1|gene2043|STMDT12_C20120
STMDT12_C20130	operon_0616	NC_016860.1|gene2044|STMDT12_C20130
STMDT12_C20140	operon_0616	NC_016860.1|gene2045|STMDT12_C20140
STMDT12_C20150	operon_0617	NC_016860.1|gene2046|STMDT12_C20150
STMDT12_C20160	operon_0617	NC_016860.1|gene2047|STMDT12_C20160
STMDT12_C20170	operon_0618	NC_016860.1|gene2048|STMDT12_C20170
STMDT12_C20180	operon_0618	NC_016860.1|gene2049|STMDT12_C20180|umuC
STMDT12_C20190	operon_0618	NC_016860.1|gene2050|STMDT12_C20190
STMDT12_C20200	operon_0618	NC_016860.1|gene2051|STMDT12_C20200
STMDT12_Ct0320	operon_0618	NC_016860.1|gene2052|STMDT12_Ct0320
STMDT12_C20210	operon_0619	NC_016860.1|gene2053|STMDT12_C20210
STMDT12_Ct0330	operon_0619	NC_016860.1|gene2054|STMDT12_Ct0330
STMDT12_C20220	operon_0619	NC_016860.1|gene2055|STMDT12_C20220
STMDT12_C20230	operon_0619	NC_016860.1|gene2056|STMDT12_C20230
STMDT12_C20240	operon_0620	NC_016860.1|gene2057|STMDT12_C20240
STMDT12_Ct0340	operon_0621	NC_016860.1|gene2058|STMDT12_Ct0340
STMDT12_C20250	operon_0621	NC_016860.1|gene2059|STMDT12_C20250
STMDT12_C20260	operon_0621	NC_016860.1|gene2060|STMDT12_C20260
STMDT12_C20270	operon_0621	NC_016860.1|gene2061|STMDT12_C20270
STMDT12_C20280	operon_0621	NC_016860.1|gene2062|STMDT12_C20280
STMDT12_C20290	operon_0621	NC_016860.1|gene2063|STMDT12_C20290
STMDT12_C20300	operon_0621	NC_016860.1|gene2064|STMDT12_C20300
STMDT12_C20310	operon_0621	NC_016860.1|gene2065|STMDT12_C20310
STMDT12_C20320	operon_0621	NC_016860.1|gene2066|STMDT12_C20320
STMDT12_C20330	operon_0621	NC_016860.1|gene2067|STMDT12_C20330
STMDT12_C20340	operon_0622	NC_016860.1|gene2068|STMDT12_C20340
STMDT12_C20350	operon_0622	NC_016860.1|gene2069|STMDT12_C20350
STMDT12_Ct0350	operon_0622	NC_016860.1|gene2070|STMDT12_Ct0350
STMDT12_C20360	operon_0622	NC_016860.1|gene2071|STMDT12_C20360
STMDT12_Ct0360	operon_0623	NC_016860.1|gene2072|STMDT12_Ct0360
STMDT12_C20370	operon_0624	NC_016860.1|gene2073|STMDT12_C20370
STMDT12_C20380	operon_0624	NC_016860.1|gene2074|STMDT12_C20380|cobT
STMDT12_C20390	operon_0624	NC_016860.1|gene2075|STMDT12_C20390|cobS
STMDT12_C20400	operon_0624	NC_016860.1|gene2076|STMDT12_C20400|cobU
STMDT12_C20410	operon_0624	NC_016860.1|gene2077|STMDT12_C20410|cobU
STMDT12_C20420	operon_0624	NC_016860.1|gene2078|STMDT12_C20420|cbiO
STMDT12_C20430	operon_0624	NC_016860.1|gene2079|STMDT12_C20430
STMDT12_C20440	operon_0624	NC_016860.1|gene2080|STMDT12_C20440
STMDT12_C20450	operon_0624	NC_016860.1|gene2081|STMDT12_C20450
STMDT12_C20460	operon_0624	NC_016860.1|gene2082|STMDT12_C20460
STMDT12_C20470	operon_0624	NC_016860.1|gene2083|STMDT12_C20470
STMDT12_C20480	operon_0624	NC_016860.1|gene2084|STMDT12_C20480
STMDT12_C20490	operon_0624	NC_016860.1|gene2085|STMDT12_C20490
STMDT12_C20500	operon_0624	NC_016860.1|gene2086|STMDT12_C20500
STMDT12_C20510	operon_0624	NC_016860.1|gene2087|STMDT12_C20510
STMDT12_C20520	operon_0624	NC_016860.1|gene2088|STMDT12_C20520
STMDT12_C20530	operon_0624	NC_016860.1|gene2089|STMDT12_C20530
STMDT12_C20540	operon_0624	NC_016860.1|gene2090|STMDT12_C20540|cbiD
STMDT12_C20550	operon_0624	NC_016860.1|gene2091|STMDT12_C20550|cbiC
STMDT12_C20560	operon_0624	NC_016860.1|gene2092|STMDT12_C20560|cobD
STMDT12_C20570	operon_0624	NC_016860.1|gene2093|STMDT12_C20570|cobD
STMDT12_C20580	operon_0624	NC_016860.1|gene2094|STMDT12_C20580
STMDT12_C20590	operon_0624	NC_016860.1|gene2095|STMDT12_C20590
STMDT12_C20600	operon_0625	NC_016860.1|gene2096|STMDT12_C20600
STMDT12_C20610	operon_0625	NC_016860.1|gene2097|STMDT12_C20610
STMDT12_C20620	operon_0625	NC_016860.1|gene2098|STMDT12_C20620
STMDT12_C20630	operon_0625	NC_016860.1|gene2099|STMDT12_C20630
STMDT12_C20640	operon_0625	NC_016860.1|gene2100|STMDT12_C20640
STMDT12_C20650	operon_0625	NC_016860.1|gene2101|STMDT12_C20650
STMDT12_C20660	operon_0625	NC_016860.1|gene2102|STMDT12_C20660
STMDT12_C20670	operon_0625	NC_016860.1|gene2103|STMDT12_C20670
STMDT12_C20680	operon_0625	NC_016860.1|gene2104|STMDT12_C20680
STMDT12_C20690	operon_0625	NC_016860.1|gene2105|STMDT12_C20690
STMDT12_C20700	operon_0625	NC_016860.1|gene2106|STMDT12_C20700
STMDT12_C20710	operon_0625	NC_016860.1|gene2107|STMDT12_C20710
STMDT12_C20720	operon_0625	NC_016860.1|gene2108|STMDT12_C20720
STMDT12_C20730	operon_0625	NC_016860.1|gene2109|STMDT12_C20730
STMDT12_C20740	operon_0625	NC_016860.1|gene2110|STMDT12_C20740
STMDT12_C20750	operon_0625	NC_016860.1|gene2111|STMDT12_C20750
STMDT12_C20760	operon_0625	NC_016860.1|gene2112|STMDT12_C20760
STMDT12_C20770	operon_0625	NC_016860.1|gene2113|STMDT12_C20770
STMDT12_C20780	operon_0625	NC_016860.1|gene2114|STMDT12_C20780
STMDT12_C20790	operon_0625	NC_016860.1|gene2115|STMDT12_C20790
STMDT12_C20800	operon_0625	NC_016860.1|gene2116|STMDT12_C20800
STMDT12_C20810	operon_0626	NC_016860.1|gene2117|STMDT12_C20810
STMDT12_C20820	operon_0626	NC_016860.1|gene2118|STMDT12_C20820
STMDT12_C20830	operon_0626	NC_016860.1|gene2119|STMDT12_C20830
STMDT12_C20840	operon_0626	NC_016860.1|gene2120|STMDT12_C20840|dacD
STMDT12_C20850	operon_0626	NC_016860.1|gene2121|STMDT12_C20850
STMDT12_C20860	operon_0626	NC_016860.1|gene2122|STMDT12_C20860
STMDT12_C20870	operon_0626	NC_016860.1|gene2123|STMDT12_C20870
STMDT12_C20880	operon_0627	NC_016860.1|gene2124|STMDT12_C20880
STMDT12_C20890	operon_0627	NC_016860.1|gene2125|STMDT12_C20890|sbcB
STMDT12_C20900	operon_0628	NC_016860.1|gene2126|STMDT12_C20900
STMDT12_C20910	operon_0628	NC_016860.1|gene2127|STMDT12_C20910
STMDT12_C20920	operon_0628	NC_016860.1|gene2128|STMDT12_C20920
STMDT12_C20930	operon_0629	NC_016860.1|gene2129|STMDT12_C20930|hisG
STMDT12_C20940	operon_0629	NC_016860.1|gene2130|STMDT12_C20940|hisD
STMDT12_C20950	operon_0629	NC_016860.1|gene2131|STMDT12_C20950|hisD
STMDT12_C20960	operon_0629	NC_016860.1|gene2132|STMDT12_C20960
STMDT12_C20970	operon_0629	NC_016860.1|gene2133|STMDT12_C20970|hisH
STMDT12_C20980	operon_0629	NC_016860.1|gene2134|STMDT12_C20980|hisH
STMDT12_C20990	operon_0629	NC_016860.1|gene2135|STMDT12_C20990
STMDT12_C21000	operon_0629	NC_016860.1|gene2136|STMDT12_C21000
STMDT12_C21010	operon_0630	NC_016860.1|gene2137|STMDT12_C21010
STMDT12_C21020	operon_0630	NC_016860.1|gene2138|STMDT12_C21020
STMDT12_C21030	operon_0630	NC_016860.1|gene2139|STMDT12_C21030
STMDT12_C21040	operon_0630	NC_016860.1|gene2140|STMDT12_C21040
STMDT12_C21050	operon_0630	NC_016860.1|gene2141|STMDT12_C21050
STMDT12_C21060	operon_0630	NC_016860.1|gene2142|STMDT12_C21060
STMDT12_C21070	operon_0630	NC_016860.1|gene2143|STMDT12_C21070
STMDT12_C21080	operon_0630	NC_016860.1|gene2144|STMDT12_C21080
STMDT12_C21090	operon_0630	NC_016860.1|gene2145|STMDT12_C21090
STMDT12_C21100	operon_0630	NC_016860.1|gene2146|STMDT12_C21100
STMDT12_C21110	operon_0630	NC_016860.1|gene2147|STMDT12_C21110
STMDT12_C21120	operon_0630	NC_016860.1|gene2148|STMDT12_C21120
STMDT12_C21130	operon_0630	NC_016860.1|gene2149|STMDT12_C21130
STMDT12_C21140	operon_0630	NC_016860.1|gene2150|STMDT12_C21140
STMDT12_C21150	operon_0630	NC_016860.1|gene2151|STMDT12_C21150
STMDT12_C21160	operon_0630	NC_016860.1|gene2152|STMDT12_C21160
STMDT12_C21170	operon_0630	NC_016860.1|gene2153|STMDT12_C21170
STMDT12_C21180	operon_0630	NC_016860.1|gene2154|STMDT12_C21180
STMDT12_C21190	operon_0630	NC_016860.1|gene2155|STMDT12_C21190
STMDT12_C21200	operon_0630	NC_016860.1|gene2156|STMDT12_C21200
STMDT12_C21210	operon_0630	NC_016860.1|gene2157|STMDT12_C21210|wcaM
STMDT12_C21220	operon_0630	NC_016860.1|gene2158|STMDT12_C21220
STMDT12_C21230	operon_0630	NC_016860.1|gene2159|STMDT12_C21230
STMDT12_C21240	operon_0630	NC_016860.1|gene2160|STMDT12_C21240
STMDT12_C21250	operon_0630	NC_016860.1|gene2161|STMDT12_C21250
STMDT12_C21260	operon_0630	NC_016860.1|gene2162|STMDT12_C21260
STMDT12_C21270	operon_0630	NC_016860.1|gene2163|STMDT12_C21270
STMDT12_C21280	operon_0630	NC_016860.1|gene2164|STMDT12_C21280
STMDT12_C21290	operon_0630	NC_016860.1|gene2165|STMDT12_C21290
STMDT12_C21300	operon_0630	NC_016860.1|gene2166|STMDT12_C21300
STMDT12_C21310	operon_0630	NC_016860.1|gene2167|STMDT12_C21310
STMDT12_C21320	operon_0630	NC_016860.1|gene2168|STMDT12_C21320
STMDT12_C21330	operon_0630	NC_016860.1|gene2169|STMDT12_C21330
STMDT12_C21340	operon_0630	NC_016860.1|gene2170|STMDT12_C21340|wcaD
STMDT12_C21350	operon_0630	NC_016860.1|gene2171|STMDT12_C21350|wcaD
STMDT12_C21360	operon_0630	NC_016860.1|gene2172|STMDT12_C21360
STMDT12_C21370	operon_0630	NC_016860.1|gene2173|STMDT12_C21370
STMDT12_C21380	operon_0630	NC_016860.1|gene2174|STMDT12_C21380
STMDT12_C21390	operon_0630	NC_016860.1|gene2175|STMDT12_C21390
STMDT12_C21400	operon_0630	NC_016860.1|gene2176|STMDT12_C21400
STMDT12_C21410	operon_0631	NC_016860.1|gene2177|STMDT12_C21410
STMDT12_C21420	operon_0632	NC_016860.1|gene2178|STMDT12_C21420
STMDT12_C21430	operon_0632	NC_016860.1|gene2179|STMDT12_C21430|dcd
STMDT12_C21440	operon_0632	NC_016860.1|gene2180|STMDT12_C21440
STMDT12_C21450	operon_0632	NC_016860.1|gene2181|STMDT12_C21450
STMDT12_C21460	operon_0633	NC_016860.1|gene2182|STMDT12_C21460
STMDT12_C21470	operon_0634	NC_016860.1|gene2183|STMDT12_C21470
STMDT12_C21480	operon_0635	NC_016860.1|gene2184|STMDT12_C21480
STMDT12_C21490	operon_0635	NC_016860.1|gene2185|STMDT12_C21490
STMDT12_C21500	operon_0635	NC_016860.1|gene2186|STMDT12_C21500
STMDT12_C21510	operon_0635	NC_016860.1|gene2187|STMDT12_C21510
STMDT12_C21520	operon_0635	NC_016860.1|gene2188|STMDT12_C21520
STMDT12_C21530	operon_0635	NC_016860.1|gene2189|STMDT12_C21530
STMDT12_C21540	operon_0635	NC_016860.1|gene2190|STMDT12_C21540
STMDT12_C21550	operon_0635	NC_016860.1|gene2191|STMDT12_C21550
STMDT12_C21560	operon_0635	NC_016860.1|gene2192|STMDT12_C21560
STMDT12_C21570	operon_0635	NC_016860.1|gene2193|STMDT12_C21570
STMDT12_C21580	operon_0635	NC_016860.1|gene2194|STMDT12_C21580
STMDT12_C21590	operon_0635	NC_016860.1|gene2195|STMDT12_C21590
STMDT12_C21600	operon_0636	NC_016860.1|gene2196|STMDT12_C21600
STMDT12_C21610	operon_0637	NC_016860.1|gene2197|STMDT12_C21610
STMDT12_C21620	operon_0638	NC_016860.1|gene2198|STMDT12_C21620
STMDT12_C21630	operon_0639	NC_016860.1|gene2199|STMDT12_C21630
STMDT12_C21640	operon_0639	NC_016860.1|gene2200|STMDT12_C21640
STMDT12_C21650	operon_0639	NC_016860.1|gene2201|STMDT12_C21650
STMDT12_C21660	operon_0640	NC_016860.1|gene2202|STMDT12_C21660
STMDT12_C21670	operon_0640	NC_016860.1|gene2203|STMDT12_C21670
STMDT12_C21680	operon_0640	NC_016860.1|gene2204|STMDT12_C21680
STMDT12_C21690	operon_0641	NC_016860.1|gene2205|STMDT12_C21690
STMDT12_C21700	operon_0642	NC_016860.1|gene2206|STMDT12_C21700
STMDT12_C21710	operon_0642	NC_016860.1|gene2207|STMDT12_C21710
STMDT12_C21720	operon_0642	NC_016860.1|gene2208|STMDT12_C21720
STMDT12_C21730	operon_0642	NC_016860.1|gene2209|STMDT12_C21730
STMDT12_C21740	operon_0642	NC_016860.1|gene2210|STMDT12_C21740
STMDT12_C21750	operon_0642	NC_016860.1|gene2211|STMDT12_C21750
STMDT12_C21760	operon_0643	NC_016860.1|gene2212|STMDT12_C21760|metG
STMDT12_C21770	operon_0643	NC_016860.1|gene2213|STMDT12_C21770
STMDT12_C21780	operon_0643	NC_016860.1|gene2214|STMDT12_C21780
STMDT12_C21790	operon_0644	NC_016860.1|gene2215|STMDT12_C21790
STMDT12_C21800	operon_0644	NC_016860.1|gene2216|STMDT12_C21800
STMDT12_C21810	operon_0644	NC_016860.1|gene2217|STMDT12_C21810
STMDT12_C21820	operon_0645	NC_016860.1|gene2218|STMDT12_C21820
STMDT12_C21830	operon_0645	NC_016860.1|gene2219|STMDT12_C21830
STMDT12_C21840	operon_0646	NC_016860.1|gene2220|STMDT12_C21840
STMDT12_C21850	operon_0646	NC_016860.1|gene2221|STMDT12_C21850
STMDT12_C21860	operon_0646	NC_016860.1|gene2222|STMDT12_C21860
STMDT12_C21870	operon_0646	NC_016860.1|gene2223|STMDT12_C21870
STMDT12_C21880	operon_0646	NC_016860.1|gene2224|STMDT12_C21880
STMDT12_C21890	operon_0647	NC_016860.1|gene2225|STMDT12_C21890
STMDT12_C21900	operon_0648	NC_016860.1|gene2226|STMDT12_C21900|pbpG
STMDT12_C21910	operon_0648	NC_016860.1|gene2227|STMDT12_C21910
STMDT12_C21920	operon_0649	NC_016860.1|gene2228|STMDT12_C21920
STMDT12_C21930	operon_0650	NC_016860.1|gene2229|STMDT12_C21930
STMDT12_C21940	operon_0650	NC_016860.1|gene2230|STMDT12_C21940
STMDT12_C21950	operon_0650	NC_016860.1|gene2231|STMDT12_C21950
STMDT12_C21960	operon_0650	NC_016860.1|gene2232|STMDT12_C21960
STMDT12_C21970	operon_0650	NC_016860.1|gene2233|STMDT12_C21970
STMDT12_C21980	operon_0650	NC_016860.1|gene2234|STMDT12_C21980
STMDT12_C21990	operon_0650	NC_016860.1|gene2235|STMDT12_C21990
STMDT12_C22000	operon_0650	NC_016860.1|gene2236|STMDT12_C22000
STMDT12_C22010	operon_0651	NC_016860.1|gene2237|STMDT12_C22010
STMDT12_C22020	operon_0651	NC_016860.1|gene2238|STMDT12_C22020
STMDT12_C22030	operon_0651	NC_016860.1|gene2239|STMDT12_C22030
STMDT12_C22040	operon_0651	NC_016860.1|gene2240|STMDT12_C22040
STMDT12_C22050	operon_0651	NC_016860.1|gene2241|STMDT12_C22050
STMDT12_C22060	operon_0651	NC_016860.1|gene2242|STMDT12_C22060
STMDT12_C22070	operon_0651	NC_016860.1|gene2243|STMDT12_C22070
STMDT12_C22080	operon_0651	NC_016860.1|gene2244|STMDT12_C22080
STMDT12_C22090	operon_0652	NC_016860.1|gene2245|STMDT12_C22090|mglC
STMDT12_C22100	operon_0652	NC_016860.1|gene2246|STMDT12_C22100
STMDT12_C22110	operon_0652	NC_016860.1|gene2247|STMDT12_C22110
STMDT12_C22120	operon_0652	NC_016860.1|gene2248|STMDT12_C22120
STMDT12_C22130	operon_0652	NC_016860.1|gene2249|STMDT12_C22130
STMDT12_C22140	operon_0652	NC_016860.1|gene2250|STMDT12_C22140|folE
STMDT12_C22150	operon_0653	NC_016860.1|gene2251|STMDT12_C22150
STMDT12_C22160	operon_0654	NC_016860.1|gene2252|STMDT12_C22160
STMDT12_C22170	operon_0654	NC_016860.1|gene2253|STMDT12_C22170
STMDT12_C22180	operon_0655	NC_016860.1|gene2254|STMDT12_C22180
STMDT12_C22190	operon_0655	NC_016860.1|gene2255|STMDT12_C22190
STMDT12_C22200	operon_0656	NC_016860.1|gene2256|STMDT12_C22200
STMDT12_C22210	operon_0656	NC_016860.1|gene2257|STMDT12_C22210
STMDT12_C22220	operon_0656	NC_016860.1|gene2258|STMDT12_C22220
STMDT12_C22230	operon_0657	NC_016860.1|gene2259|STMDT12_C22230
STMDT12_C22240	operon_0657	NC_016860.1|gene2260|STMDT12_C22240
STMDT12_C22250	operon_0658	NC_016860.1|gene2261|STMDT12_C22250
STMDT12_C22260	operon_0658	NC_016860.1|gene2262|STMDT12_C22260|fruK
STMDT12_C22270	operon_0658	NC_016860.1|gene2263|STMDT12_C22270|fruK
STMDT12_C22280	operon_0659	NC_016860.1|gene2264|STMDT12_C22280
STMDT12_C22290	operon_0660	NC_016860.1|gene2265|STMDT12_C22290
STMDT12_C22300	operon_0660	NC_016860.1|gene2266|STMDT12_C22300
STMDT12_C22310	operon_0661	NC_016860.1|gene2267|STMDT12_C22310
STMDT12_C22320	operon_0661	NC_016860.1|gene2268|STMDT12_C22320
STMDT12_C22330	operon_0661	NC_016860.1|gene2269|STMDT12_C22330
STMDT12_C22340	operon_0661	NC_016860.1|gene2270|STMDT12_C22340|spr
STMDT12_C22350	operon_0661	NC_016860.1|gene2271|STMDT12_C22350
STMDT12_C22360	operon_0661	NC_016860.1|gene2272|STMDT12_C22360
STMDT12_C22370	operon_0661	NC_016860.1|gene2273|STMDT12_C22370
STMDT12_C22380	operon_0661	NC_016860.1|gene2274|STMDT12_C22380
STMDT12_C22390	operon_0661	NC_016860.1|gene2275|STMDT12_C22390
STMDT12_C22400	operon_0662	NC_016860.1|gene2276|STMDT12_C22400
STMDT12_C22410	operon_0662	NC_016860.1|gene2277|STMDT12_C22410
STMDT12_C22420	operon_0662	NC_016860.1|gene2278|STMDT12_C22420
STMDT12_C22430	operon_0662	NC_016860.1|gene2279|STMDT12_C22430
STMDT12_C22440	operon_0663	NC_016860.1|gene2280|STMDT12_C22440
STMDT12_C22450	operon_0663	NC_016860.1|gene2281|STMDT12_C22450|rplY
STMDT12_C22460	operon_0664	NC_016860.1|gene2282|STMDT12_C22460
STMDT12_C22470	operon_0664	NC_016860.1|gene2283|STMDT12_C22470
STMDT12_C22480	operon_0665	NC_016860.1|gene2284|STMDT12_C22480
STMDT12_C22490	operon_0665	NC_016860.1|gene2285|STMDT12_C22490
STMDT12_Ct0370	operon_0665	NC_016860.1|gene2286|STMDT12_Ct0370
STMDT12_C22500	operon_0666	NC_016860.1|gene2287|STMDT12_C22500
STMDT12_C22510	operon_0667	NC_016860.1|gene2288|STMDT12_C22510
STMDT12_C22520	operon_0668	NC_016860.1|gene2289|STMDT12_C22520
STMDT12_C22530	operon_0669	NC_016860.1|gene2290|STMDT12_C22530
STMDT12_C22540	operon_0670	NC_016860.1|gene2291|STMDT12_C22540
STMDT12_C22550	operon_0670	NC_016860.1|gene2292|STMDT12_C22550
STMDT12_C22560	operon_0670	NC_016860.1|gene2293|STMDT12_C22560
STMDT12_C22570	operon_0670	NC_016860.1|gene2294|STMDT12_C22570
STMDT12_C22580	operon_0670	NC_016860.1|gene2295|STMDT12_C22580
STMDT12_C22590	operon_0671	NC_016860.1|gene2296|STMDT12_C22590
STMDT12_C22600	operon_0672	NC_016860.1|gene2297|STMDT12_C22600
STMDT12_C22610	operon_0672	NC_016860.1|gene2298|STMDT12_C22610
STMDT12_C22620	operon_0672	NC_016860.1|gene2299|STMDT12_C22620
STMDT12_C22630	operon_0672	NC_016860.1|gene2300|STMDT12_C22630
STMDT12_C22640	operon_0672	NC_016860.1|gene2301|STMDT12_C22640
STMDT12_C22650	operon_0672	NC_016860.1|gene2302|STMDT12_C22650
STMDT12_C22660	operon_0673	NC_016860.1|gene2303|STMDT12_C22660
STMDT12_C22670	operon_0674	NC_016860.1|gene2304|STMDT12_C22670
STMDT12_C22680	operon_0675	NC_016860.1|gene2305|STMDT12_C22680
STMDT12_C22690	operon_0676	NC_016860.1|gene2306|STMDT12_C22690
STMDT12_C22700	operon_0676	NC_016860.1|gene2307|STMDT12_C22700
STMDT12_C22710	operon_0676	NC_016860.1|gene2308|STMDT12_C22710
STMDT12_C22720	operon_0676	NC_016860.1|gene2309|STMDT12_C22720
STMDT12_C22730	operon_0676	NC_016860.1|gene2310|STMDT12_C22730
STMDT12_C22740	operon_0676	NC_016860.1|gene2311|STMDT12_C22740
STMDT12_C22750	operon_0676	NC_016860.1|gene2312|STMDT12_C22750
STMDT12_C22760	operon_0676	NC_016860.1|gene2313|STMDT12_C22760
STMDT12_C22770	operon_0676	NC_016860.1|gene2314|STMDT12_C22770
STMDT12_C22780	operon_0676	NC_016860.1|gene2315|STMDT12_C22780|napB
STMDT12_C22790	operon_0676	NC_016860.1|gene2316|STMDT12_C22790|napH
STMDT12_C22800	operon_0676	NC_016860.1|gene2317|STMDT12_C22800|napG
STMDT12_C22810	operon_0676	NC_016860.1|gene2318|STMDT12_C22810
STMDT12_C22820	operon_0676	NC_016860.1|gene2319|STMDT12_C22820
STMDT12_C22830	operon_0676	NC_016860.1|gene2320|STMDT12_C22830
STMDT12_C22840	operon_0677	NC_016860.1|gene2321|STMDT12_C22840
STMDT12_C22850	operon_0678	NC_016860.1|gene2322|STMDT12_C22850
STMDT12_C22860	operon_0678	NC_016860.1|gene2323|STMDT12_C22860|alkB
STMDT12_C22870	operon_0678	NC_016860.1|gene2324|STMDT12_C22870
STMDT12_C22880	operon_0678	NC_016860.1|gene2325|STMDT12_C22880
STMDT12_C22890	operon_0678	NC_016860.1|gene2326|STMDT12_C22890
STMDT12_C22900	operon_0679	NC_016860.1|gene2327|STMDT12_C22900
STMDT12_C22910	operon_0679	NC_016860.1|gene2328|STMDT12_C22910
STMDT12_C22920	operon_0680	NC_016860.1|gene2329|STMDT12_C22920
STMDT12_C22930	operon_0680	NC_016860.1|gene2330|STMDT12_C22930
STMDT12_C22940	operon_0680	NC_016860.1|gene2331|STMDT12_C22940
STMDT12_C22950	operon_0680	NC_016860.1|gene2332|STMDT12_C22950
STMDT12_C22960	operon_0681	NC_016860.1|gene2333|STMDT12_C22960
STMDT12_C22970	operon_0681	NC_016860.1|gene2334|STMDT12_C22970
STMDT12_C22980	operon_0681	NC_016860.1|gene2335|STMDT12_C22980
STMDT12_C22990	operon_0681	NC_016860.1|gene2336|STMDT12_C22990|nrdB
STMDT12_C23000	operon_0681	NC_016860.1|gene2337|STMDT12_C23000|nrdB
STMDT12_C23010	operon_0682	NC_016860.1|gene2338|STMDT12_C23010
STMDT12_C23020	operon_0683	NC_016860.1|gene2339|STMDT12_C23020
STMDT12_C23030	operon_0684	NC_016860.1|gene2340|STMDT12_C23030|glpQ
STMDT12_C23040	operon_0684	NC_016860.1|gene2341|STMDT12_C23040|glpT
STMDT12_C23050	operon_0685	NC_016860.1|gene2342|STMDT12_C23050|glpA
STMDT12_C23060	operon_0685	NC_016860.1|gene2343|STMDT12_C23060|glpA
STMDT12_C23070	operon_0685	NC_016860.1|gene2344|STMDT12_C23070|glpC
STMDT12_C23080	operon_0685	NC_016860.1|gene2345|STMDT12_C23080
STMDT12_C23090	operon_0686	NC_016860.1|gene2346|STMDT12_C23090
STMDT12_C23100	operon_0686	NC_016860.1|gene2347|STMDT12_C23100
STMDT12_C23110	operon_0686	NC_016860.1|gene2348|STMDT12_C23110
STMDT12_C23120	operon_0686	NC_016860.1|gene2349|STMDT12_C23120
STMDT12_C23130	operon_0686	NC_016860.1|gene2350|STMDT12_C23130
STMDT12_C23140	operon_0686	NC_016860.1|gene2351|STMDT12_C23140
STMDT12_C23150	operon_0686	NC_016860.1|gene2352|STMDT12_C23150
STMDT12_C23160	operon_0687	NC_016860.1|gene2353|STMDT12_C23160
STMDT12_C23170	operon_0688	NC_016860.1|gene2354|STMDT12_C23170
STMDT12_C23180	operon_0689	NC_016860.1|gene2355|STMDT12_C23180
STMDT12_C23190	operon_0689	NC_016860.1|gene2356|STMDT12_C23190
STMDT12_C23200	operon_0689	NC_016860.1|gene2357|STMDT12_C23200
STMDT12_C23210	operon_0689	NC_016860.1|gene2358|STMDT12_C23210
STMDT12_C23220	operon_0689	NC_016860.1|gene2359|STMDT12_C23220|arnT
STMDT12_C23230	operon_0689	NC_016860.1|gene2360|STMDT12_C23230|arnT
STMDT12_C23240	operon_0689	NC_016860.1|gene2361|STMDT12_C23240
STMDT12_C23250	operon_0690	NC_016860.1|gene2362|STMDT12_C23250
STMDT12_C23260	operon_0690	NC_016860.1|gene2363|STMDT12_C23260
STMDT12_C23270	operon_0690	NC_016860.1|gene2364|STMDT12_C23270
STMDT12_C23280	operon_0690	NC_016860.1|gene2365|STMDT12_C23280
STMDT12_C23290	operon_0690	NC_016860.1|gene2366|STMDT12_C23290
STMDT12_C23300	operon_0690	NC_016860.1|gene2367|STMDT12_C23300
STMDT12_C23310	operon_0690	NC_016860.1|gene2368|STMDT12_C23310
STMDT12_C23320	operon_0690	NC_016860.1|gene2369|STMDT12_C23320
STMDT12_C23330	operon_0690	NC_016860.1|gene2370|STMDT12_C23330
STMDT12_C23340	operon_0691	NC_016860.1|gene2371|STMDT12_C23340
STMDT12_C23350	operon_0691	NC_016860.1|gene2372|STMDT12_C23350
STMDT12_C23360	operon_0692	NC_016860.1|gene2373|STMDT12_C23360
STMDT12_C23370	operon_0692	NC_016860.1|gene2374|STMDT12_C23370
STMDT12_C23380	operon_0692	NC_016860.1|gene2375|STMDT12_C23380
STMDT12_C23390	operon_0692	NC_016860.1|gene2376|STMDT12_C23390
STMDT12_C23400	operon_0692	NC_016860.1|gene2377|STMDT12_C23400
STMDT12_C23410	operon_0692	NC_016860.1|gene2378|STMDT12_C23410
STMDT12_C23420	operon_0692	NC_016860.1|gene2379|STMDT12_C23420
STMDT12_C23430	operon_0692	NC_016860.1|gene2380|STMDT12_C23430
STMDT12_C23440	operon_0692	NC_016860.1|gene2381|STMDT12_C23440
STMDT12_C23450	operon_0692	NC_016860.1|gene2382|STMDT12_C23450
STMDT12_C23460	operon_0692	NC_016860.1|gene2383|STMDT12_C23460
STMDT12_C23470	operon_0692	NC_016860.1|gene2384|STMDT12_C23470
STMDT12_C23480	operon_0692	NC_016860.1|gene2385|STMDT12_C23480
STMDT12_C23490	operon_0692	NC_016860.1|gene2386|STMDT12_C23490
STMDT12_C23500	operon_0692	NC_016860.1|gene2387|STMDT12_C23500
STMDT12_C23510	operon_0692	NC_016860.1|gene2388|STMDT12_C23510
STMDT12_C23520	operon_0693	NC_016860.1|gene2389|STMDT12_C23520
STMDT12_C23530	operon_0693	NC_016860.1|gene2390|STMDT12_C23530
STMDT12_C23540	operon_0694	NC_016860.1|gene2391|STMDT12_C23540
STMDT12_C23550	operon_0694	NC_016860.1|gene2392|STMDT12_C23550
STMDT12_C23560	operon_0694	NC_016860.1|gene2393|STMDT12_C23560
STMDT12_C23570	operon_0694	NC_016860.1|gene2394|STMDT12_C23570
STMDT12_C23580	operon_0695	NC_016860.1|gene2395|STMDT12_C23580
STMDT12_C23590	operon_0695	NC_016860.1|gene2396|STMDT12_C23590
STMDT12_C23600	operon_0695	NC_016860.1|gene2397|STMDT12_C23600
STMDT12_C23610	operon_0696	NC_016860.1|gene2398|STMDT12_C23610
STMDT12_C23620	operon_0696	NC_016860.1|gene2399|STMDT12_C23620
STMDT12_C23630	operon_0696	NC_016860.1|gene2400|STMDT12_C23630|ulaA1
STMDT12_C23640	operon_0696	NC_016860.1|gene2401|STMDT12_C23640
STMDT12_C23650	operon_0696	NC_016860.1|gene2402|STMDT12_C23650
STMDT12_C23660	operon_0697	NC_016860.1|gene2403|STMDT12_C23660
STMDT12_C23670	operon_0697	NC_016860.1|gene2404|STMDT12_C23670
STMDT12_C23680	operon_0698	NC_016860.1|gene2405|STMDT12_C23680
STMDT12_C23690	operon_0698	NC_016860.1|gene2406|STMDT12_C23690
STMDT12_C23700	operon_0698	NC_016860.1|gene2407|STMDT12_C23700
STMDT12_C23710	operon_0699	NC_016860.1|gene2408|STMDT12_C23710
STMDT12_C23720	operon_0699	NC_016860.1|gene2409|STMDT12_C23720
STMDT12_C23730	operon_0700	NC_016860.1|gene2410|STMDT12_C23730
STMDT12_C23740	operon_0700	NC_016860.1|gene2411|STMDT12_C23740
STMDT12_C23750	operon_0700	NC_016860.1|gene2412|STMDT12_C23750
STMDT12_C23760	operon_0700	NC_016860.1|gene2413|STMDT12_C23760
STMDT12_C23770	operon_0700	NC_016860.1|gene2414|STMDT12_C23770
STMDT12_C23780	operon_0700	NC_016860.1|gene2415|STMDT12_C23780
STMDT12_C23790	operon_0700	NC_016860.1|gene2416|STMDT12_C23790
STMDT12_C23800	operon_0700	NC_016860.1|gene2417|STMDT12_C23800
STMDT12_C23810	operon_0700	NC_016860.1|gene2418|STMDT12_C23810
STMDT12_C23820	operon_0700	NC_016860.1|gene2419|STMDT12_C23820
STMDT12_C23830	operon_0701	NC_016860.1|gene2420|STMDT12_C23830
STMDT12_C23840	operon_0702	NC_016860.1|gene2421|STMDT12_C23840
STMDT12_C23850	operon_0702	NC_016860.1|gene2422|STMDT12_C23850
STMDT12_C23860	operon_0702	NC_016860.1|gene2423|STMDT12_C23860
STMDT12_C23870	operon_0702	NC_016860.1|gene2424|STMDT12_C23870
STMDT12_C23880	operon_0702	NC_016860.1|gene2425|STMDT12_C23880
STMDT12_C23890	operon_0702	NC_016860.1|gene2426|STMDT12_C23890
STMDT12_C23900	operon_0702	NC_016860.1|gene2427|STMDT12_C23900|truA
STMDT12_C23910	operon_0702	NC_016860.1|gene2428|STMDT12_C23910|truA
STMDT12_C23920	operon_0702	NC_016860.1|gene2429|STMDT12_C23920
STMDT12_C23930	operon_0703	NC_016860.1|gene2430|STMDT12_C23930|flk
STMDT12_C23940	operon_0704	NC_016860.1|gene2431|STMDT12_C23940|flk
STMDT12_C23950	operon_0704	NC_016860.1|gene2432|STMDT12_C23950
STMDT12_C23960	operon_0705	NC_016860.1|gene2433|STMDT12_C23960
STMDT12_C23970	operon_0705	NC_016860.1|gene2434|STMDT12_C23970
STMDT12_C23980	operon_0705	NC_016860.1|gene2435|STMDT12_C23980
STMDT12_C23990	operon_0706	NC_016860.1|gene2436|STMDT12_C23990
STMDT12_C24000	operon_0706	NC_016860.1|gene2437|STMDT12_C24000|fabB
STMDT12_C24010	operon_0707	NC_016860.1|gene2438|STMDT12_C24010|mnmC
STMDT12_C24020	operon_0708	NC_016860.1|gene2439|STMDT12_C24020
STMDT12_C24030	operon_0708	NC_016860.1|gene2440|STMDT12_C24030
STMDT12_C24040	operon_0708	NC_016860.1|gene2441|STMDT12_C24040
STMDT12_C24050	operon_0708	NC_016860.1|gene2442|STMDT12_C24050|mepA
STMDT12_C24060	operon_0708	NC_016860.1|gene2443|STMDT12_C24060
STMDT12_C24070	operon_0708	NC_016860.1|gene2444|STMDT12_C24070
STMDT12_C24080	operon_0709	NC_016860.1|gene2445|STMDT12_C24080
STMDT12_C24090	operon_0710	NC_016860.1|gene2446|STMDT12_C24090
STMDT12_C24100	operon_0710	NC_016860.1|gene2447|STMDT12_C24100|fadJ
STMDT12_C24110	operon_0710	NC_016860.1|gene2448|STMDT12_C24110|fadI
STMDT12_C24120	operon_0710	NC_016860.1|gene2449|STMDT12_C24120
STMDT12_C24130	operon_0711	NC_016860.1|gene2450|STMDT12_C24130
STMDT12_C24140	operon_0712	NC_016860.1|gene2451|STMDT12_C24140|vacJ
STMDT12_C24150	operon_0713	NC_016860.1|gene2452|STMDT12_C24150
STMDT12_Ct0380	operon_0713	NC_016860.1|gene2453|STMDT12_Ct0380
STMDT12_C24160	operon_0714	NC_016860.1|gene2454|STMDT12_C24160
STMDT12_C24170	operon_0714	NC_016860.1|gene2455|STMDT12_C24170
STMDT12_C24180	operon_0714	NC_016860.1|gene2456|STMDT12_C24180
STMDT12_C24190	operon_0714	NC_016860.1|gene2457|STMDT12_C24190
STMDT12_C24200	operon_0715	NC_016860.1|gene2458|STMDT12_C24200
STMDT12_C24210	operon_0715	NC_016860.1|gene2459|STMDT12_C24210
STMDT12_C24220	operon_0716	NC_016860.1|gene2460|STMDT12_C24220
STMDT12_C24230	operon_0716	NC_016860.1|gene2461|STMDT12_C24230
STMDT12_C24240	operon_0717	NC_016860.1|gene2462|STMDT12_C24240
STMDT12_C24250	operon_0718	NC_016860.1|gene2463|STMDT12_C24250
STMDT12_C24260	operon_0718	NC_016860.1|gene2464|STMDT12_C24260|glk
STMDT12_C24270	operon_0719	NC_016860.1|gene2465|STMDT12_C24270
STMDT12_C24280	operon_0720	NC_016860.1|gene2466|STMDT12_C24280
STMDT12_C24290	operon_0721	NC_016860.1|gene2467|STMDT12_C24290
STMDT12_C24300	operon_0721	NC_016860.1|gene2468|STMDT12_C24300
STMDT12_C24310	operon_0722	NC_016860.1|gene2469|STMDT12_C24310
STMDT12_C24320	operon_0723	NC_016860.1|gene2470|STMDT12_C24320
STMDT12_C24330	operon_0724	NC_016860.1|gene2471|STMDT12_C24330
STMDT12_Ct0390	operon_0724	NC_016860.1|gene2472|STMDT12_Ct0390
STMDT12_C24340	operon_0725	NC_016860.1|gene2473|STMDT12_C24340
STMDT12_C24350	operon_0725	NC_016860.1|gene2474|STMDT12_C24350
STMDT12_C24360	operon_0726	NC_016860.1|gene2475|STMDT12_C24360|gltX
STMDT12_Ct0400	operon_0727	NC_016860.1|gene2476|STMDT12_Ct0400
STMDT12_Ct0410	operon_0727	NC_016860.1|gene2477|STMDT12_Ct0410
STMDT12_Ct0420	operon_0727	NC_016860.1|gene2478|STMDT12_Ct0420
STMDT12_Ct0430	operon_0727	NC_016860.1|gene2479|STMDT12_Ct0430
STMDT12_C24370	operon_0728	NC_016860.1|gene2480|STMDT12_C24370
STMDT12_C24380	operon_0728	NC_016860.1|gene2481|STMDT12_C24380
STMDT12_C24390	operon_0728	NC_016860.1|gene2482|STMDT12_C24390
STMDT12_C24400	operon_0728	NC_016860.1|gene2483|STMDT12_C24400
STMDT12_C24410	operon_0729	NC_016860.1|gene2484|STMDT12_C24410
STMDT12_C24420	operon_0730	NC_016860.1|gene2485|STMDT12_C24420
STMDT12_C24430	operon_0731	NC_016860.1|gene2486|STMDT12_C24430
STMDT12_C24440	operon_0732	NC_016860.1|gene2487|STMDT12_C24440
STMDT12_C24450	operon_0732	NC_016860.1|gene2488|STMDT12_C24450|ligA
STMDT12_C24460	operon_0732	NC_016860.1|gene2489|STMDT12_C24460
STMDT12_C24470	operon_0733	NC_016860.1|gene2490|STMDT12_C24470
STMDT12_C24480	operon_0733	NC_016860.1|gene2491|STMDT12_C24480
STMDT12_C24490	operon_0734	NC_016860.1|gene2492|STMDT12_C24490
STMDT12_C24500	operon_0735	NC_016860.1|gene2493|STMDT12_C24500|ptsH
STMDT12_C24510	operon_0735	NC_016860.1|gene2494|STMDT12_C24510
STMDT12_C24520	operon_0735	NC_016860.1|gene2495|STMDT12_C24520
STMDT12_C24530	operon_0736	NC_016860.1|gene2496|STMDT12_C24530
STMDT12_C24540	operon_0736	NC_016860.1|gene2497|STMDT12_C24540|pdxK
STMDT12_C24550	operon_0737	NC_016860.1|gene2498|STMDT12_C24550
STMDT12_C24560	operon_0737	NC_016860.1|gene2499|STMDT12_C24560
STMDT12_C24570	operon_0737	NC_016860.1|gene2500|STMDT12_C24570
STMDT12_C24580	operon_0737	NC_016860.1|gene2501|STMDT12_C24580
STMDT12_C24590	operon_0738	NC_016860.1|gene2502|STMDT12_C24590|cysM
STMDT12_C24600	operon_0738	NC_016860.1|gene2503|STMDT12_C24600
STMDT12_C24610	operon_0738	NC_016860.1|gene2504|STMDT12_C24610|cysW
STMDT12_C24620	operon_0738	NC_016860.1|gene2505|STMDT12_C24620|cysW
STMDT12_C24630	operon_0738	NC_016860.1|gene2506|STMDT12_C24630
STMDT12_C24640	operon_0738	NC_016860.1|gene2507|STMDT12_C24640
STMDT12_C24650	operon_0738	NC_016860.1|gene2508|STMDT12_C24650
STMDT12_C24660	operon_0738	NC_016860.1|gene2509|STMDT12_C24660
STMDT12_C24670	operon_0738	NC_016860.1|gene2510|STMDT12_C24670
STMDT12_C24680	operon_0738	NC_016860.1|gene2511|STMDT12_C24680
STMDT12_C24690	operon_0739	NC_016860.1|gene2512|STMDT12_C24690
STMDT12_C24700	operon_0739	NC_016860.1|gene2513|STMDT12_C24700
STMDT12_C24710	operon_0739	NC_016860.1|gene2514|STMDT12_C24710
STMDT12_C24720	operon_0739	NC_016860.1|gene2515|STMDT12_C24720
STMDT12_C24730	operon_0740	NC_016860.1|gene2516|STMDT12_C24730
STMDT12_C24740	operon_0740	NC_016860.1|gene2517|STMDT12_C24740
STMDT12_C24750	operon_0740	NC_016860.1|gene2518|STMDT12_C24750
STMDT12_C24760	operon_0740	NC_016860.1|gene2519|STMDT12_C24760
STMDT12_C24770	operon_0740	NC_016860.1|gene2520|STMDT12_C24770
STMDT12_C24780	operon_0740	NC_016860.1|gene2521|STMDT12_C24780|eutA
STMDT12_C24790	operon_0740	NC_016860.1|gene2522|STMDT12_C24790|eutA
STMDT12_C24800	operon_0740	NC_016860.1|gene2523|STMDT12_C24800
STMDT12_C24810	operon_0740	NC_016860.1|gene2524|STMDT12_C24810
STMDT12_C24820	operon_0740	NC_016860.1|gene2525|STMDT12_C24820
STMDT12_C24830	operon_0740	NC_016860.1|gene2526|STMDT12_C24830
STMDT12_C24840	operon_0740	NC_016860.1|gene2527|STMDT12_C24840
STMDT12_C24850	operon_0740	NC_016860.1|gene2528|STMDT12_C24850|eutD
STMDT12_C24860	operon_0740	NC_016860.1|gene2529|STMDT12_C24860|eutD
STMDT12_C24870	operon_0740	NC_016860.1|gene2530|STMDT12_C24870
STMDT12_C24880	operon_0740	NC_016860.1|gene2531|STMDT12_C24880
STMDT12_C24890	operon_0740	NC_016860.1|gene2532|STMDT12_C24890
STMDT12_C24900	operon_0740	NC_016860.1|gene2533|STMDT12_C24900
STMDT12_C24910	operon_0740	NC_016860.1|gene2534|STMDT12_C24910
STMDT12_C24920	operon_0741	NC_016860.1|gene2535|STMDT12_C24920
STMDT12_C24930	operon_0741	NC_016860.1|gene2536|STMDT12_C24930
STMDT12_C24940	operon_0742	NC_016860.1|gene2537|STMDT12_C24940
STMDT12_C24950	operon_0742	NC_016860.1|gene2538|STMDT12_C24950
STMDT12_C24960	operon_0742	NC_016860.1|gene2539|STMDT12_C24960
STMDT12_C24970	operon_0743	NC_016860.1|gene2540|STMDT12_C24970
STMDT12_C24980	operon_0744	NC_016860.1|gene2541|STMDT12_C24980
STMDT12_C24990	operon_0745	NC_016860.1|gene2542|STMDT12_C24990
STMDT12_C25000	operon_0745	NC_016860.1|gene2543|STMDT12_C25000
STMDT12_C25010	operon_0745	NC_016860.1|gene2544|STMDT12_C25010
STMDT12_C25020	operon_0745	NC_016860.1|gene2545|STMDT12_C25020
STMDT12_C25030	operon_0745	NC_016860.1|gene2546|STMDT12_C25030
STMDT12_C25040	operon_0746	NC_016860.1|gene2547|STMDT12_C25040
STMDT12_C25050	operon_0746	NC_016860.1|gene2548|STMDT12_C25050
STMDT12_C25060	operon_0746	NC_016860.1|gene2549|STMDT12_C25060
STMDT12_C25070	operon_0746	NC_016860.1|gene2550|STMDT12_C25070
STMDT12_C25080	operon_0746	NC_016860.1|gene2551|STMDT12_C25080
STMDT12_C25090	operon_0747	NC_016860.1|gene2552|STMDT12_C25090|gcvR
STMDT12_C25100	operon_0747	NC_016860.1|gene2553|STMDT12_C25100|bcp
STMDT12_C25110	operon_0748	NC_016860.1|gene2554|STMDT12_C25110
STMDT12_C25120	operon_0748	NC_016860.1|gene2555|STMDT12_C25120
STMDT12_C25130	operon_0749	NC_016860.1|gene2556|STMDT12_C25130
STMDT12_C25140	operon_0749	NC_016860.1|gene2557|STMDT12_C25140
STMDT12_C25150	operon_0750	NC_016860.1|gene2558|STMDT12_C25150
STMDT12_C25160	operon_0750	NC_016860.1|gene2559|STMDT12_C25160
STMDT12_C25170	operon_0750	NC_016860.1|gene2560|STMDT12_C25170|upp
STMDT12_C25180	operon_0751	NC_016860.1|gene2561|STMDT12_C25180
STMDT12_C25190	operon_0751	NC_016860.1|gene2562|STMDT12_C25190|purN
STMDT12_C25200	operon_0751	NC_016860.1|gene2563|STMDT12_C25200
STMDT12_C25210	operon_0751	NC_016860.1|gene2564|STMDT12_C25210
STMDT12_C25220	operon_0752	NC_016860.1|gene2565|STMDT12_C25220
STMDT12_C25230	operon_0753	NC_016860.1|gene2566|STMDT12_C25230
STMDT12_C25240	operon_0753	NC_016860.1|gene2567|STMDT12_C25240
STMDT12_C25250	operon_0753	NC_016860.1|gene2568|STMDT12_C25250
STMDT12_C25260	operon_0754	NC_016860.1|gene2569|STMDT12_C25260
STMDT12_C25270	operon_0754	NC_016860.1|gene2570|STMDT12_C25270|guaA
STMDT12_C25280	operon_0754	NC_016860.1|gene2571|STMDT12_C25280
STMDT12_C25290	operon_0755	NC_016860.1|gene2572|STMDT12_C25290|xseA
STMDT12_C25300	operon_0756	NC_016860.1|gene2573|STMDT12_C25300
STMDT12_C25310	operon_0756	NC_016860.1|gene2574|STMDT12_C25310
STMDT12_C25320	operon_0756	NC_016860.1|gene2575|STMDT12_C25320
STMDT12_C25330	operon_0756	NC_016860.1|gene2576|STMDT12_C25330
STMDT12_C25340	operon_0756	NC_016860.1|gene2577|STMDT12_C25340
STMDT12_C25350	operon_0756	NC_016860.1|gene2578|STMDT12_C25350
STMDT12_C25360	operon_0756	NC_016860.1|gene2579|STMDT12_C25360
STMDT12_C25370	operon_0756	NC_016860.1|gene2580|STMDT12_C25370|engA
STMDT12_C25380	operon_0756	NC_016860.1|gene2581|STMDT12_C25380
STMDT12_C25390	operon_0756	NC_016860.1|gene2582|STMDT12_C25390
STMDT12_C25400	operon_0756	NC_016860.1|gene2583|STMDT12_C25400|hisS
STMDT12_C25410	operon_0756	NC_016860.1|gene2584|STMDT12_C25410|ispG
STMDT12_C25420	operon_0756	NC_016860.1|gene2585|STMDT12_C25420
STMDT12_C25430	operon_0756	NC_016860.1|gene2586|STMDT12_C25430
STMDT12_C25440	operon_0756	NC_016860.1|gene2587|STMDT12_C25440|ndk
STMDT12_C25450	operon_0756	NC_016860.1|gene2588|STMDT12_C25450
STMDT12_C25460	operon_0756	NC_016860.1|gene2589|STMDT12_C25460
STMDT12_C25470	operon_0756	NC_016860.1|gene2590|STMDT12_C25470
STMDT12_C25480	operon_0756	NC_016860.1|gene2591|STMDT12_C25480
STMDT12_C25490	operon_0756	NC_016860.1|gene2592|STMDT12_C25490
STMDT12_C25500	operon_0756	NC_016860.1|gene2593|STMDT12_C25500
STMDT12_C25510	operon_0757	NC_016860.1|gene2594|STMDT12_C25510|sseA
STMDT12_C25520	operon_0758	NC_016860.1|gene2595|STMDT12_C25520
STMDT12_C25530	operon_0759	NC_016860.1|gene2596|STMDT12_C25530
STMDT12_C25540	operon_0760	NC_016860.1|gene2597|STMDT12_C25540
STMDT12_C25550	operon_0760	NC_016860.1|gene2598|STMDT12_C25550
STMDT12_C25560	operon_0760	NC_016860.1|gene2599|STMDT12_C25560
STMDT12_C25570	operon_0760	NC_016860.1|gene2600|STMDT12_C25570
STMDT12_C25580	operon_0760	NC_016860.1|gene2601|STMDT12_C25580
STMDT12_C25590	operon_0760	NC_016860.1|gene2602|STMDT12_C25590|hscA
STMDT12_C25600	operon_0760	NC_016860.1|gene2603|STMDT12_C25600|hscB
STMDT12_C25610	operon_0760	NC_016860.1|gene2604|STMDT12_C25610|iscA
STMDT12_C25620	operon_0760	NC_016860.1|gene2605|STMDT12_C25620
STMDT12_C25630	operon_0760	NC_016860.1|gene2606|STMDT12_C25630
STMDT12_C25640	operon_0760	NC_016860.1|gene2607|STMDT12_C25640
STMDT12_C25650	operon_0760	NC_016860.1|gene2608|STMDT12_C25650
STMDT12_C25660	operon_0761	NC_016860.1|gene2609|STMDT12_C25660
STMDT12_C25670	operon_0761	NC_016860.1|gene2610|STMDT12_C25670
STMDT12_C25680	operon_0761	NC_016860.1|gene2611|STMDT12_C25680
STMDT12_C25690	operon_0761	NC_016860.1|gene2612|STMDT12_C25690
STMDT12_C25700	operon_0761	NC_016860.1|gene2613|STMDT12_C25700
STMDT12_C25710	operon_0762	NC_016860.1|gene2614|STMDT12_C25710
STMDT12_C25720	operon_0762	NC_016860.1|gene2615|STMDT12_C25720
STMDT12_C25730	operon_0763	NC_016860.1|gene2616|STMDT12_C25730
STMDT12_C25740	operon_0764	NC_016860.1|gene2617|STMDT12_C25740
STMDT12_C25750	operon_0764	NC_016860.1|gene2618|STMDT12_C25750|glyA
STMDT12_C25760	operon_0765	NC_016860.1|gene2619|STMDT12_C25760
STMDT12_C25770	operon_0765	NC_016860.1|gene2620|STMDT12_C25770
STMDT12_C25780	operon_0765	NC_016860.1|gene2621|STMDT12_C25780|cadB
STMDT12_C25790	operon_0765	NC_016860.1|gene2622|STMDT12_C25790
STMDT12_C25800	operon_0765	NC_016860.1|gene2623|STMDT12_C25800
STMDT12_C25810	operon_0766	NC_016860.1|gene2624|STMDT12_C25810
STMDT12_C25820	operon_0766	NC_016860.1|gene2625|STMDT12_C25820
STMDT12_C25830	operon_0766	NC_016860.1|gene2626|STMDT12_C25830
STMDT12_C25840	operon_0766	NC_016860.1|gene2627|STMDT12_C25840
STMDT12_C25850	operon_0766	NC_016860.1|gene2628|STMDT12_C25850
STMDT12_C25860	operon_0767	NC_016860.1|gene2629|STMDT12_C25860
STMDT12_C25870	operon_0767	NC_016860.1|gene2630|STMDT12_C25870
STMDT12_C25880	operon_0768	NC_016860.1|gene2631|STMDT12_C25880
STMDT12_C25890	operon_0768	NC_016860.1|gene2632|STMDT12_C25890
STMDT12_C25900	operon_0768	NC_016860.1|gene2633|STMDT12_C25900
STMDT12_C25910	operon_0768	NC_016860.1|gene2634|STMDT12_C25910|murQ
STMDT12_C25920	operon_0769	NC_016860.1|gene2635|STMDT12_C25920
STMDT12_C25930	operon_0770	NC_016860.1|gene2636|STMDT12_C25930
STMDT12_C25940	operon_0770	NC_016860.1|gene2637|STMDT12_C25940
STMDT12_C25950	operon_0771	NC_016860.1|gene2638|STMDT12_C25950
STMDT12_C25960	operon_0771	NC_016860.1|gene2639|STMDT12_C25960
STMDT12_C25970	operon_0772	NC_016860.1|gene2640|STMDT12_C25970|acpS
STMDT12_C25980	operon_0772	NC_016860.1|gene2641|STMDT12_C25980|acpS
STMDT12_C25990	operon_0772	NC_016860.1|gene2642|STMDT12_C25990|recO
STMDT12_C26000	operon_0772	NC_016860.1|gene2643|STMDT12_C26000|era
STMDT12_C26010	operon_0772	NC_016860.1|gene2644|STMDT12_C26010|rnc
STMDT12_C26020	operon_0772	NC_016860.1|gene2645|STMDT12_C26020
STMDT12_C26030	operon_0772	NC_016860.1|gene2646|STMDT12_C26030
STMDT12_C26040	operon_0773	NC_016860.1|gene2647|STMDT12_C26040
STMDT12_C26060	operon_0774	NC_016860.1|gene2648|STMDT12_C26060
STMDT12_C26070	operon_0775	NC_016860.1|gene2649|STMDT12_C26070
STMDT12_C26080	operon_0776	NC_016860.1|gene2650|STMDT12_C26080
STMDT12_C26090	operon_0776	NC_016860.1|gene2651|STMDT12_C26090
STMDT12_C26100	operon_0776	NC_016860.1|gene2652|STMDT12_C26100
STMDT12_C26110	operon_0776	NC_016860.1|gene2653|STMDT12_C26110
STMDT12_C26120	operon_0776	NC_016860.1|gene2654|STMDT12_C26120
STMDT12_C26130	operon_0776	NC_016860.1|gene2655|STMDT12_C26130
STMDT12_C26140	operon_0776	NC_016860.1|gene2656|STMDT12_C26140
STMDT12_C26150	operon_0776	NC_016860.1|gene2657|STMDT12_C26150
STMDT12_C26160	operon_0776	NC_016860.1|gene2658|STMDT12_C26160
STMDT12_C26170	operon_0776	NC_016860.1|gene2659|STMDT12_C26170
STMDT12_C26180	operon_0776	NC_016860.1|gene2660|STMDT12_C26180
STMDT12_C26190	operon_0776	NC_016860.1|gene2661|STMDT12_C26190
STMDT12_C26200	operon_0776	NC_016860.1|gene2662|STMDT12_C26200
STMDT12_C26210	operon_0776	NC_016860.1|gene2663|STMDT12_C26210
STMDT12_C26220	operon_0776	NC_016860.1|gene2664|STMDT12_C26220
STMDT12_C26230	operon_0777	NC_016860.1|gene2665|STMDT12_C26230
STMDT12_C26240	operon_0778	NC_016860.1|gene2666|STMDT12_C26240
STMDT12_C26250	operon_0778	NC_016860.1|gene2667|STMDT12_C26250
STMDT12_C26260	operon_0778	NC_016860.1|gene2668|STMDT12_C26260
STMDT12_C26270	operon_0778	NC_016860.1|gene2669|STMDT12_C26270
STMDT12_C26280	operon_0778	NC_016860.1|gene2670|STMDT12_C26280
STMDT12_C26290	operon_0778	NC_016860.1|gene2671|STMDT12_C26290
STMDT12_C26300	operon_0778	NC_016860.1|gene2672|STMDT12_C26300
STMDT12_C26310	operon_0778	NC_016860.1|gene2673|STMDT12_C26310
STMDT12_C26320	operon_0778	NC_016860.1|gene2674|STMDT12_C26320
STMDT12_C26330	operon_0778	NC_016860.1|gene2675|STMDT12_C26330
STMDT12_C26340	operon_0779	NC_016860.1|gene2676|STMDT12_C26340
STMDT12_C26350	operon_0780	NC_016860.1|gene2677|STMDT12_C26350
STMDT12_C26360	operon_0780	NC_016860.1|gene2678|STMDT12_C26360
STMDT12_C26370	operon_0780	NC_016860.1|gene2679|STMDT12_C26370
STMDT12_C26380	operon_0781	NC_016860.1|gene2680|STMDT12_C26380
STMDT12_C26390	operon_0782	NC_016860.1|gene2681|STMDT12_C26390
STMDT12_Ct0440	operon_0782	NC_016860.1|gene2682|STMDT12_Ct0440
STMDT12_C26400	operon_0782	NC_016860.1|gene2683|STMDT12_C26400
STMDT12_C26410	operon_0782	NC_016860.1|gene2684|STMDT12_C26410
STMDT12_C26420	operon_0782	NC_016860.1|gene2685|STMDT12_C26420
STMDT12_C26430	operon_0782	NC_016860.1|gene2686|STMDT12_C26430
STMDT12_C26440	operon_0782	NC_016860.1|gene2687|STMDT12_C26440
STMDT12_C26450	operon_0782	NC_016860.1|gene2688|STMDT12_C26450
STMDT12_C26460	operon_0782	NC_016860.1|gene2689|STMDT12_C26460
STMDT12_C26470	operon_0782	NC_016860.1|gene2690|STMDT12_C26470
STMDT12_C26480	operon_0782	NC_016860.1|gene2691|STMDT12_C26480
STMDT12_C26490	operon_0782	NC_016860.1|gene2692|STMDT12_C26490
STMDT12_C26500	operon_0782	NC_016860.1|gene2693|STMDT12_C26500
STMDT12_C26510	operon_0782	NC_016860.1|gene2694|STMDT12_C26510
STMDT12_C26520	operon_0782	NC_016860.1|gene2695|STMDT12_C26520
STMDT12_C26530	operon_0782	NC_016860.1|gene2696|STMDT12_C26530
STMDT12_C26540	operon_0783	NC_016860.1|gene2697|STMDT12_C26540
STMDT12_C26550	operon_0783	NC_016860.1|gene2698|STMDT12_C26550
STMDT12_C26560	operon_0783	NC_016860.1|gene2699|STMDT12_C26560
STMDT12_C26570	operon_0783	NC_016860.1|gene2700|STMDT12_C26570
STMDT12_C26580	operon_0783	NC_016860.1|gene2701|STMDT12_C26580
STMDT12_C26590	operon_0783	NC_016860.1|gene2702|STMDT12_C26590
STMDT12_C26600	operon_0783	NC_016860.1|gene2703|STMDT12_C26600
STMDT12_C26610	operon_0784	NC_016860.1|gene2704|STMDT12_C26610
STMDT12_C26620	operon_0784	NC_016860.1|gene2705|STMDT12_C26620
STMDT12_C26630	operon_0784	NC_016860.1|gene2706|STMDT12_C26630|rseB
STMDT12_C26640	operon_0784	NC_016860.1|gene2707|STMDT12_C26640|rseB
STMDT12_C26650	operon_0784	NC_016860.1|gene2708|STMDT12_C26650
STMDT12_C26660	operon_0785	NC_016860.1|gene2709|STMDT12_C26660
STMDT12_C26670	operon_0786	NC_016860.1|gene2710|STMDT12_C26670
STMDT12_C26680	operon_0787	NC_016860.1|gene2711|STMDT12_C26680
STMDT12_C26690	operon_0788	NC_016860.1|gene2712|STMDT12_C26690
STMDT12_C26700	operon_0789	NC_016860.1|gene2713|STMDT12_C26700
STMDT12_C26710	operon_0790	NC_016860.1|gene2714|STMDT12_C26710
STMDT12_C26720	operon_0791	NC_016860.1|gene2715|STMDT12_C26720
STMDT12_C26730	operon_0792	NC_016860.1|gene2716|STMDT12_C26730
STMDT12_C26740	operon_0793	NC_016860.1|gene2717|STMDT12_C26740
STMDT12_C26750	operon_0793	NC_016860.1|gene2718|STMDT12_C26750
STMDT12_C26760	operon_0793	NC_016860.1|gene2719|STMDT12_C26760
STMDT12_C26770	operon_0793	NC_016860.1|gene2720|STMDT12_C26770|pssA
STMDT12_C26780	operon_0793	NC_016860.1|gene2721|STMDT12_C26780
STMDT12_C26790	operon_0794	NC_016860.1|gene2722|STMDT12_C26790
STMDT12_C26800	operon_0794	NC_016860.1|gene2723|STMDT12_C26800
STMDT12_Cr0040	operon_0794	NC_016860.1|gene2724|STMDT12_Cr0040
STMDT12_Cr0050	operon_0794	NC_016860.1|gene2725|STMDT12_Cr0050
STMDT12_Ct0450	operon_0794	NC_016860.1|gene2726|STMDT12_Ct0450
STMDT12_Cr0060	operon_0794	NC_016860.1|gene2727|STMDT12_Cr0060
STMDT12_C26810	operon_0794	NC_016860.1|gene2728|STMDT12_C26810
STMDT12_C26820	operon_0794	NC_016860.1|gene2729|STMDT12_C26820
STMDT12_C26830	operon_0794	NC_016860.1|gene2730|STMDT12_C26830|rluD
STMDT12_C26840	operon_0795	NC_016860.1|gene2731|STMDT12_C26840
STMDT12_C26850	operon_0795	NC_016860.1|gene2732|STMDT12_C26850
STMDT12_C26860	operon_0795	NC_016860.1|gene2733|STMDT12_C26860
STMDT12_C26870	operon_0796	NC_016860.1|gene2734|STMDT12_C26870
STMDT12_C26880	operon_0796	NC_016860.1|gene2735|STMDT12_C26880
STMDT12_C26890	operon_0796	NC_016860.1|gene2736|STMDT12_C26890
STMDT12_C26900	operon_0796	NC_016860.1|gene2737|STMDT12_C26900
STMDT12_C26910	operon_0796	NC_016860.1|gene2738|STMDT12_C26910
STMDT12_C26920	operon_0796	NC_016860.1|gene2739|STMDT12_C26920
STMDT12_C26930	operon_0796	NC_016860.1|gene2740|STMDT12_C26930
STMDT12_C26940	operon_0796	NC_016860.1|gene2741|STMDT12_C26940
STMDT12_C26950	operon_0796	NC_016860.1|gene2742|STMDT12_C26950
STMDT12_C26960	operon_0796	NC_016860.1|gene2743|STMDT12_C26960
STMDT12_C26970	operon_0796	NC_016860.1|gene2744|STMDT12_C26970
STMDT12_C26980	operon_0796	NC_016860.1|gene2745|STMDT12_C26980
STMDT12_C26990	operon_0796	NC_016860.1|gene2746|STMDT12_C26990
STMDT12_C27000	operon_0796	NC_016860.1|gene2747|STMDT12_C27000
STMDT12_C27010	operon_0796	NC_016860.1|gene2748|STMDT12_C27010
STMDT12_C27020	operon_0796	NC_016860.1|gene2749|STMDT12_C27020
STMDT12_C27030	operon_0796	NC_016860.1|gene2750|STMDT12_C27030
STMDT12_C27040	operon_0796	NC_016860.1|gene2751|STMDT12_C27040
STMDT12_C27050	operon_0796	NC_016860.1|gene2752|STMDT12_C27050
STMDT12_C27060	operon_0796	NC_016860.1|gene2753|STMDT12_C27060
STMDT12_C27070	operon_0796	NC_016860.1|gene2754|STMDT12_C27070
STMDT12_C27080	operon_0796	NC_016860.1|gene2755|STMDT12_C27080
STMDT12_C27090	operon_0796	NC_016860.1|gene2756|STMDT12_C27090
STMDT12_C27100	operon_0796	NC_016860.1|gene2757|STMDT12_C27100
STMDT12_C27110	operon_0796	NC_016860.1|gene2758|STMDT12_C27110
STMDT12_C27120	operon_0797	NC_016860.1|gene2759|STMDT12_C27120
STMDT12_C27130	operon_0797	NC_016860.1|gene2760|STMDT12_C27130
STMDT12_C27140	operon_0797	NC_016860.1|gene2761|STMDT12_C27140
STMDT12_C27150	operon_0798	NC_016860.1|gene2762|STMDT12_C27150
STMDT12_C27160	operon_0798	NC_016860.1|gene2763|STMDT12_C27160
STMDT12_C27170	operon_0798	NC_016860.1|gene2764|STMDT12_C27170
STMDT12_C27180	operon_0798	NC_016860.1|gene2765|STMDT12_C27180
STMDT12_C27190	operon_0799	NC_016860.1|gene2766|STMDT12_C27190
STMDT12_C27200	operon_0799	NC_016860.1|gene2767|STMDT12_C27200
STMDT12_C27210	operon_0799	NC_016860.1|gene2768|STMDT12_C27210|pheA
STMDT12_C27220	operon_0800	NC_016860.1|gene2769|STMDT12_C27220|pheA
STMDT12_C27230	operon_0800	NC_016860.1|gene2770|STMDT12_C27230|tyrA
STMDT12_C27240	operon_0800	NC_016860.1|gene2771|STMDT12_C27240
STMDT12_C27250	operon_0801	NC_016860.1|gene2772|STMDT12_C27250
STMDT12_C27260	operon_0801	NC_016860.1|gene2773|STMDT12_C27260
STMDT12_C27270	operon_0802	NC_016860.1|gene2774|STMDT12_C27270|rplS
STMDT12_C27280	operon_0802	NC_016860.1|gene2775|STMDT12_C27280|trmD
STMDT12_C27290	operon_0802	NC_016860.1|gene2776|STMDT12_C27290|rimM
STMDT12_C27300	operon_0802	NC_016860.1|gene2777|STMDT12_C27300|rpsP
STMDT12_C27310	operon_0802	NC_016860.1|gene2778|STMDT12_C27310
STMDT12_C27320	operon_0803	NC_016860.1|gene2779|STMDT12_C27320
STMDT12_C27330	operon_0803	NC_016860.1|gene2780|STMDT12_C27330
STMDT12_C27340	operon_0803	NC_016860.1|gene2781|STMDT12_C27340
STMDT12_C27350	operon_0804	NC_016860.1|gene2782|STMDT12_C27350
STMDT12_C27360	operon_0805	NC_016860.1|gene2783|STMDT12_C27360|ppnK
STMDT12_C27370	operon_0805	NC_016860.1|gene2784|STMDT12_C27370
STMDT12_C27380	operon_0805	NC_016860.1|gene2785|STMDT12_C27380
STMDT12_C27390	operon_0806	NC_016860.1|gene2786|STMDT12_C27390
STMDT12_C27400	operon_0806	NC_016860.1|gene2787|STMDT12_C27400
STMDT12_C27410	operon_0807	NC_016860.1|gene2788|STMDT12_C27410|smpB
STMDT12_C27420	operon_0807	NC_016860.1|gene2789|STMDT12_C27420
STMDT12_C27430	operon_0807	NC_016860.1|gene2790|STMDT12_C27430
STMDT12_C27440	operon_0807	NC_016860.1|gene2791|STMDT12_C27440
STMDT12_C27450	operon_0807	NC_016860.1|gene2792|STMDT12_C27450
STMDT12_C27460	operon_0808	NC_016860.1|gene2793|STMDT12_C27460
STMDT12_C27470	operon_0808	NC_016860.1|gene2794|STMDT12_C27470
STMDT12_C27480	operon_0808	NC_016860.1|gene2795|STMDT12_C27480
STMDT12_C27490	operon_0808	NC_016860.1|gene2796|STMDT12_C27490
STMDT12_C27500	operon_0808	NC_016860.1|gene2797|STMDT12_C27500
STMDT12_C27510	operon_0808	NC_016860.1|gene2798|STMDT12_C27510
STMDT12_C27520	operon_0808	NC_016860.1|gene2799|STMDT12_C27520
STMDT12_C27530	operon_0808	NC_016860.1|gene2800|STMDT12_C27530
STMDT12_C27540	operon_0808	NC_016860.1|gene2801|STMDT12_C27540
STMDT12_C27550	operon_0809	NC_016860.1|gene2802|STMDT12_C27550
STMDT12_C27560	operon_0809	NC_016860.1|gene2803|STMDT12_C27560
STMDT12_C27570	operon_0810	NC_016860.1|gene2804|STMDT12_C27570
STMDT12_C27580	operon_0810	NC_016860.1|gene2805|STMDT12_C27580
STMDT12_C27590	operon_0810	NC_016860.1|gene2806|STMDT12_C27590
STMDT12_C27600	operon_0810	NC_016860.1|gene2807|STMDT12_C27600
STMDT12_C27610	operon_0810	NC_016860.1|gene2808|STMDT12_C27610
STMDT12_C27620	operon_0810	NC_016860.1|gene2809|STMDT12_C27620
STMDT12_C27630	operon_0810	NC_016860.1|gene2810|STMDT12_C27630
STMDT12_C27640	operon_0810	NC_016860.1|gene2811|STMDT12_C27640
STMDT12_C27650	operon_0810	NC_016860.1|gene2812|STMDT12_C27650
STMDT12_C27660	operon_0810	NC_016860.1|gene2813|STMDT12_C27660
STMDT12_C27670	operon_0810	NC_016860.1|gene2814|STMDT12_C27670
STMDT12_C27680	operon_0810	NC_016860.1|gene2815|STMDT12_C27680
STMDT12_C27690	operon_0810	NC_016860.1|gene2816|STMDT12_C27690
STMDT12_C27700	operon_0810	NC_016860.1|gene2817|STMDT12_C27700
STMDT12_C27710	operon_0810	NC_016860.1|gene2818|STMDT12_C27710
STMDT12_C27720	operon_0810	NC_016860.1|gene2819|STMDT12_C27720
STMDT12_C27730	operon_0810	NC_016860.1|gene2820|STMDT12_C27730
STMDT12_C27740	operon_0811	NC_016860.1|gene2821|STMDT12_C27740
STMDT12_C27750	operon_0811	NC_016860.1|gene2822|STMDT12_C27750
STMDT12_C27760	operon_0812	NC_016860.1|gene2823|STMDT12_C27760
STMDT12_C27770	operon_0812	NC_016860.1|gene2824|STMDT12_C27770
STMDT12_C27780	operon_0812	NC_016860.1|gene2825|STMDT12_C27780
STMDT12_C27790	operon_0812	NC_016860.1|gene2826|STMDT12_C27790
STMDT12_C27800	operon_0812	NC_016860.1|gene2827|STMDT12_C27800
STMDT12_C27810	operon_0812	NC_016860.1|gene2828|STMDT12_C27810
STMDT12_C27820	operon_0812	NC_016860.1|gene2829|STMDT12_C27820
STMDT12_C27830	operon_0812	NC_016860.1|gene2830|STMDT12_C27830
STMDT12_C27840	operon_0812	NC_016860.1|gene2831|STMDT12_C27840
STMDT12_C27850	operon_0813	NC_016860.1|gene2832|STMDT12_C27850
STMDT12_C27860	operon_0814	NC_016860.1|gene2833|STMDT12_C27860
STMDT12_C27870	operon_0814	NC_016860.1|gene2834|STMDT12_C27870
STMDT12_C27880	operon_0814	NC_016860.1|gene2835|STMDT12_C27880
STMDT12_C27890	operon_0815	NC_016860.1|gene2836|STMDT12_C27890
STMDT12_C27900	operon_0815	NC_016860.1|gene2837|STMDT12_C27900
STMDT12_C27910	operon_0815	NC_016860.1|gene2838|STMDT12_C27910
STMDT12_C27930	operon_0815	NC_016860.1|gene2839|STMDT12_C27930
STMDT12_C27940	operon_0815	NC_016860.1|gene2840|STMDT12_C27940
STMDT12_C27950	operon_0816	NC_016860.1|gene2841|STMDT12_C27950
STMDT12_C27960	operon_0817	NC_016860.1|gene2842|STMDT12_C27960
STMDT12_C27970	operon_0817	NC_016860.1|gene2843|STMDT12_C27970
STMDT12_C27980	operon_0817	NC_016860.1|gene2844|STMDT12_C27980
STMDT12_C27990	operon_0817	NC_016860.1|gene2845|STMDT12_C27990
STMDT12_C28000	operon_0818	NC_016860.1|gene2846|STMDT12_C28000
STMDT12_C28010	operon_0819	NC_016860.1|gene2847|STMDT12_C28010
STMDT12_C28020	operon_0819	NC_016860.1|gene2848|STMDT12_C28020
STMDT12_C28030	operon_0819	NC_016860.1|gene2849|STMDT12_C28030
STMDT12_C28040	operon_0819	NC_016860.1|gene2850|STMDT12_C28040
STMDT12_C28050	operon_0819	NC_016860.1|gene2851|STMDT12_C28050
STMDT12_C28060	operon_0819	NC_016860.1|gene2852|STMDT12_C28060
STMDT12_C28070	operon_0820	NC_016860.1|gene2853|STMDT12_C28070
STMDT12_C28080	operon_0820	NC_016860.1|gene2854|STMDT12_C28080
STMDT12_C28090	operon_0820	NC_016860.1|gene2855|STMDT12_C28090
STMDT12_C28100	operon_0820	NC_016860.1|gene2856|STMDT12_C28100
STMDT12_C28110	operon_0821	NC_016860.1|gene2857|STMDT12_C28110
STMDT12_C28120	operon_0821	NC_016860.1|gene2858|STMDT12_C28120
STMDT12_C28130	operon_0821	NC_016860.1|gene2859|STMDT12_C28130
STMDT12_C28140	operon_0822	NC_016860.1|gene2860|STMDT12_C28140
STMDT12_C28150	operon_0823	NC_016860.1|gene2861|STMDT12_C28150
STMDT12_C28160	operon_0824	NC_016860.1|gene2862|STMDT12_C28160
STMDT12_C28170	operon_0824	NC_016860.1|gene2863|STMDT12_C28170
STMDT12_C28180	operon_0824	NC_016860.1|gene2864|STMDT12_C28180
STMDT12_C28190	operon_0824	NC_016860.1|gene2865|STMDT12_C28190
STMDT12_C28200	operon_0825	NC_016860.1|gene2866|STMDT12_C28200
STMDT12_C28210	operon_0825	NC_016860.1|gene2867|STMDT12_C28210
STMDT12_C28220	operon_0826	NC_016860.1|gene2868|STMDT12_C28220
STMDT12_C28230	operon_0826	NC_016860.1|gene2869|STMDT12_C28230
STMDT12_C28240	operon_0826	NC_016860.1|gene2870|STMDT12_C28240
STMDT12_C28250	operon_0826	NC_016860.1|gene2871|STMDT12_C28250
STMDT12_C28260	operon_0827	NC_016860.1|gene2872|STMDT12_C28260
STMDT12_C28270	operon_0827	NC_016860.1|gene2873|STMDT12_C28270
STMDT12_C28280	operon_0827	NC_016860.1|gene2874|STMDT12_C28280
STMDT12_C28290	operon_0827	NC_016860.1|gene2875|STMDT12_C28290
STMDT12_C28300	operon_0827	NC_016860.1|gene2876|STMDT12_C28300
STMDT12_C28310	operon_0828	NC_016860.1|gene2877|STMDT12_C28310
STMDT12_C28320	operon_0828	NC_016860.1|gene2878|STMDT12_C28320
STMDT12_C28330	operon_0829	NC_016860.1|gene2879|STMDT12_C28330
STMDT12_C28340	operon_0829	NC_016860.1|gene2880|STMDT12_C28340
STMDT12_C28350	operon_0829	NC_016860.1|gene2881|STMDT12_C28350
STMDT12_C28360	operon_0830	NC_016860.1|gene2882|STMDT12_C28360
STMDT12_C28370	operon_0830	NC_016860.1|gene2883|STMDT12_C28370
STMDT12_C28380	operon_0830	NC_016860.1|gene2884|STMDT12_C28380
STMDT12_C28390	operon_0831	NC_016860.1|gene2885|STMDT12_C28390
STMDT12_C28400	operon_0831	NC_016860.1|gene2886|STMDT12_C28400
STMDT12_C28410	operon_0831	NC_016860.1|gene2887|STMDT12_C28410
STMDT12_C28420	operon_0831	NC_016860.1|gene2888|STMDT12_C28420
STMDT12_C28430	operon_0831	NC_016860.1|gene2889|STMDT12_C28430
STMDT12_C28440	operon_0831	NC_016860.1|gene2890|STMDT12_C28440|gabD
STMDT12_C28450	operon_0831	NC_016860.1|gene2891|STMDT12_C28450
STMDT12_C28460	operon_0831	NC_016860.1|gene2892|STMDT12_C28460
STMDT12_C28470	operon_0831	NC_016860.1|gene2893|STMDT12_C28470
STMDT12_C28480	operon_0832	NC_016860.1|gene2894|STMDT12_C28480
STMDT12_C28490	operon_0832	NC_016860.1|gene2895|STMDT12_C28490
STMDT12_C28500	operon_0833	NC_016860.1|gene2896|STMDT12_C28500
STMDT12_C28510	operon_0833	NC_016860.1|gene2897|STMDT12_C28510
STMDT12_C28520	operon_0833	NC_016860.1|gene2898|STMDT12_C28520
STMDT12_C28530	operon_0834	NC_016860.1|gene2899|STMDT12_C28530
STMDT12_C28540	operon_0835	NC_016860.1|gene2900|STMDT12_C28540
STMDT12_C28550	operon_0836	NC_016860.1|gene2901|STMDT12_C28550
STMDT12_C28560	operon_0837	NC_016860.1|gene2902|STMDT12_C28560
STMDT12_C28570	operon_0838	NC_016860.1|gene2903|STMDT12_C28570
STMDT12_C28580	operon_0839	NC_016860.1|gene2904|STMDT12_C28580
STMDT12_C28590	operon_0839	NC_016860.1|gene2905|STMDT12_C28590
STMDT12_C28600	operon_0839	NC_016860.1|gene2906|STMDT12_C28600|nrdI
STMDT12_C28610	operon_0839	NC_016860.1|gene2907|STMDT12_C28610|nrdI
STMDT12_C28620	operon_0839	NC_016860.1|gene2908|STMDT12_C28620|nrdF
STMDT12_C28630	operon_0839	NC_016860.1|gene2909|STMDT12_C28630
STMDT12_C28640	operon_0839	NC_016860.1|gene2910|STMDT12_C28640
STMDT12_C28650	operon_0839	NC_016860.1|gene2911|STMDT12_C28650|proX
STMDT12_C28660	operon_0839	NC_016860.1|gene2912|STMDT12_C28660
STMDT12_C28670	operon_0839	NC_016860.1|gene2913|STMDT12_C28670
STMDT12_C28680	operon_0839	NC_016860.1|gene2914|STMDT12_C28680
STMDT12_C28690	operon_0839	NC_016860.1|gene2915|STMDT12_C28690
STMDT12_C28700	operon_0840	NC_016860.1|gene2916|STMDT12_C28700
STMDT12_C28710	operon_0840	NC_016860.1|gene2917|STMDT12_C28710
STMDT12_C28720	operon_0840	NC_016860.1|gene2918|STMDT12_C28720
STMDT12_C28730	operon_0840	NC_016860.1|gene2919|STMDT12_C28730
STMDT12_C28740	operon_0840	NC_016860.1|gene2920|STMDT12_C28740
STMDT12_Ct0460	operon_0840	NC_016860.1|gene2921|STMDT12_Ct0460
STMDT12_Ct0470	operon_0840	NC_016860.1|gene2922|STMDT12_Ct0470
STMDT12_Ct0480	operon_0840	NC_016860.1|gene2923|STMDT12_Ct0480
STMDT12_Ct0490	operon_0840	NC_016860.1|gene2924|STMDT12_Ct0490
STMDT12_C28750	operon_0840	NC_016860.1|gene2925|STMDT12_C28750
STMDT12_C28760	operon_0840	NC_016860.1|gene2926|STMDT12_C28760|alaS
STMDT12_C28770	operon_0840	NC_016860.1|gene2927|STMDT12_C28770|recX
STMDT12_C28780	operon_0840	NC_016860.1|gene2928|STMDT12_C28780|recA
STMDT12_C28790	operon_0840	NC_016860.1|gene2929|STMDT12_C28790
STMDT12_C28800	operon_0840	NC_016860.1|gene2930|STMDT12_C28800
STMDT12_C28810	operon_0841	NC_016860.1|gene2931|STMDT12_C28810
STMDT12_C28820	operon_0841	NC_016860.1|gene2932|STMDT12_C28820
STMDT12_C28830	operon_0841	NC_016860.1|gene2933|STMDT12_C28830
STMDT12_C28840	operon_0841	NC_016860.1|gene2934|STMDT12_C28840
STMDT12_C28850	operon_0841	NC_016860.1|gene2935|STMDT12_C28850
STMDT12_C28860	operon_0841	NC_016860.1|gene2936|STMDT12_C28860|srlR
STMDT12_C28870	operon_0841	NC_016860.1|gene2937|STMDT12_C28870|gutQ
STMDT12_C28880	operon_0842	NC_016860.1|gene2938|STMDT12_C28880|gutQ
STMDT12_C28890	operon_0843	NC_016860.1|gene2939|STMDT12_C28890
STMDT12_C28900	operon_0843	NC_016860.1|gene2940|STMDT12_C28900
STMDT12_C28910	operon_0844	NC_016860.1|gene2941|STMDT12_C28910
STMDT12_C28920	operon_0844	NC_016860.1|gene2942|STMDT12_C28920
STMDT12_C28930	operon_0844	NC_016860.1|gene2943|STMDT12_C28930
STMDT12_C28940	operon_0844	NC_016860.1|gene2944|STMDT12_C28940|hycI
STMDT12_C28950	operon_0844	NC_016860.1|gene2945|STMDT12_C28950|hycI
STMDT12_C28960	operon_0844	NC_016860.1|gene2946|STMDT12_C28960
STMDT12_C28970	operon_0844	NC_016860.1|gene2947|STMDT12_C28970
STMDT12_C28980	operon_0844	NC_016860.1|gene2948|STMDT12_C28980
STMDT12_C28990	operon_0844	NC_016860.1|gene2949|STMDT12_C28990
STMDT12_C29000	operon_0844	NC_016860.1|gene2950|STMDT12_C29000
STMDT12_C29010	operon_0844	NC_016860.1|gene2951|STMDT12_C29010
STMDT12_C29020	operon_0844	NC_016860.1|gene2952|STMDT12_C29020
STMDT12_C29030	operon_0845	NC_016860.1|gene2953|STMDT12_C29030|hypA
STMDT12_C29040	operon_0845	NC_016860.1|gene2954|STMDT12_C29040
STMDT12_C29050	operon_0845	NC_016860.1|gene2955|STMDT12_C29050
STMDT12_C29060	operon_0845	NC_016860.1|gene2956|STMDT12_C29060
STMDT12_C29070	operon_0845	NC_016860.1|gene2957|STMDT12_C29070
STMDT12_C29080	operon_0845	NC_016860.1|gene2958|STMDT12_C29080
STMDT12_C29090	operon_0846	NC_016860.1|gene2959|STMDT12_C29090
STMDT12_C29100	operon_0847	NC_016860.1|gene2960|STMDT12_C29100
STMDT12_C29110	operon_0847	NC_016860.1|gene2961|STMDT12_C29110
STMDT12_C29120	operon_0847	NC_016860.1|gene2962|STMDT12_C29120
STMDT12_C29130	operon_0847	NC_016860.1|gene2963|STMDT12_C29130
STMDT12_C29140	operon_0848	NC_016860.1|gene2964|STMDT12_C29140
STMDT12_C29150	operon_0848	NC_016860.1|gene2965|STMDT12_C29150
STMDT12_C29160	operon_0848	NC_016860.1|gene2966|STMDT12_C29160
STMDT12_C29170	operon_0848	NC_016860.1|gene2967|STMDT12_C29170
STMDT12_C29180	operon_0848	NC_016860.1|gene2968|STMDT12_C29180
STMDT12_C29190	operon_0848	NC_016860.1|gene2969|STMDT12_C29190
STMDT12_C29200	operon_0848	NC_016860.1|gene2970|STMDT12_C29200
STMDT12_C29210	operon_0848	NC_016860.1|gene2971|STMDT12_C29210
STMDT12_C29220	operon_0848	NC_016860.1|gene2972|STMDT12_C29220
STMDT12_C29230	operon_0848	NC_016860.1|gene2973|STMDT12_C29230
STMDT12_C29240	operon_0849	NC_016860.1|gene2974|STMDT12_C29240
STMDT12_C29250	operon_0849	NC_016860.1|gene2975|STMDT12_C29250
STMDT12_C29260	operon_0849	NC_016860.1|gene2976|STMDT12_C29260
STMDT12_C29270	operon_0850	NC_016860.1|gene2977|STMDT12_C29270
STMDT12_C29280	operon_0850	NC_016860.1|gene2978|STMDT12_C29280
STMDT12_C29290	operon_0850	NC_016860.1|gene2979|STMDT12_C29290
STMDT12_C29300	operon_0850	NC_016860.1|gene2980|STMDT12_C29300
STMDT12_C29310	operon_0850	NC_016860.1|gene2981|STMDT12_C29310
STMDT12_C29320	operon_0850	NC_016860.1|gene2982|STMDT12_C29320
STMDT12_C29330	operon_0850	NC_016860.1|gene2983|STMDT12_C29330
STMDT12_C29340	operon_0850	NC_016860.1|gene2984|STMDT12_C29340
STMDT12_C29350	operon_0850	NC_016860.1|gene2985|STMDT12_C29350
STMDT12_C29360	operon_0850	NC_016860.1|gene2986|STMDT12_C29360
STMDT12_C29370	operon_0850	NC_016860.1|gene2987|STMDT12_C29370
STMDT12_C29380	operon_0850	NC_016860.1|gene2988|STMDT12_C29380
STMDT12_C29390	operon_0850	NC_016860.1|gene2989|STMDT12_C29390|spaP
STMDT12_C29400	operon_0850	NC_016860.1|gene2990|STMDT12_C29400|spaP
STMDT12_C29410	operon_0850	NC_016860.1|gene2991|STMDT12_C29410
STMDT12_C29420	operon_0850	NC_016860.1|gene2992|STMDT12_C29420|spaM
STMDT12_C29430	operon_0850	NC_016860.1|gene2993|STMDT12_C29430|spaM
STMDT12_C29440	operon_0850	NC_016860.1|gene2994|STMDT12_C29440
STMDT12_C29450	operon_0850	NC_016860.1|gene2995|STMDT12_C29450
STMDT12_C29460	operon_0850	NC_016860.1|gene2996|STMDT12_C29460
STMDT12_C29470	operon_0850	NC_016860.1|gene2997|STMDT12_C29470
STMDT12_C29480	operon_0850	NC_016860.1|gene2998|STMDT12_C29480
STMDT12_C29490	operon_0851	NC_016860.1|gene2999|STMDT12_C29490
STMDT12_C29500	operon_0851	NC_016860.1|gene3000|STMDT12_C29500
STMDT12_C29510	operon_0851	NC_016860.1|gene3001|STMDT12_C29510
STMDT12_C29520	operon_0852	NC_016860.1|gene3002|STMDT12_C29520
STMDT12_C29530	operon_0853	NC_016860.1|gene3003|STMDT12_C29530
STMDT12_C29540	operon_0853	NC_016860.1|gene3004|STMDT12_C29540
STMDT12_C29550	operon_0854	NC_016860.1|gene3005|STMDT12_C29550
STMDT12_C29560	operon_0855	NC_016860.1|gene3006|STMDT12_C29560
STMDT12_C29570	operon_0856	NC_016860.1|gene3007|STMDT12_C29570
STMDT12_C29580	operon_0857	NC_016860.1|gene3008|STMDT12_C29580|mutS
STMDT12_C29590	operon_0858	NC_016860.1|gene3009|STMDT12_C29590
STMDT12_C29600	operon_0858	NC_016860.1|gene3010|STMDT12_C29600
STMDT12_C29610	operon_0859	NC_016860.1|gene3011|STMDT12_C29610
STMDT12_C29620	operon_0860	NC_016860.1|gene3012|STMDT12_C29620
STMDT12_C29630	operon_0860	NC_016860.1|gene3013|STMDT12_C29630
STMDT12_C29640	operon_0860	NC_016860.1|gene3014|STMDT12_C29640
STMDT12_C29650	operon_0860	NC_016860.1|gene3015|STMDT12_C29650
STMDT12_C29660	operon_0860	NC_016860.1|gene3016|STMDT12_C29660
STMDT12_C29670	operon_0860	NC_016860.1|gene3017|STMDT12_C29670
STMDT12_C29680	operon_0861	NC_016860.1|gene3018|STMDT12_C29680
STMDT12_C29690	operon_0862	NC_016860.1|gene3019|STMDT12_C29690
STMDT12_C29700	operon_0863	NC_016860.1|gene3020|STMDT12_C29700
STMDT12_C29710	operon_0863	NC_016860.1|gene3021|STMDT12_C29710
STMDT12_C29720	operon_0863	NC_016860.1|gene3022|STMDT12_C29720
STMDT12_C29730	operon_0864	NC_016860.1|gene3023|STMDT12_C29730
STMDT12_C29740	operon_0864	NC_016860.1|gene3024|STMDT12_C29740|nlpD
STMDT12_C29750	operon_0864	NC_016860.1|gene3025|STMDT12_C29750|pcm
STMDT12_C29760	operon_0864	NC_016860.1|gene3026|STMDT12_C29760|surE
STMDT12_C29770	operon_0864	NC_016860.1|gene3027|STMDT12_C29770|truD
STMDT12_C29780	operon_0864	NC_016860.1|gene3028|STMDT12_C29780|ispF
STMDT12_C29790	operon_0864	NC_016860.1|gene3029|STMDT12_C29790|ispD
STMDT12_C29800	operon_0864	NC_016860.1|gene3030|STMDT12_C29800|ftsB
STMDT12_C29810	operon_0864	NC_016860.1|gene3031|STMDT12_C29810
STMDT12_C29820	operon_0864	NC_016860.1|gene3032|STMDT12_C29820
STMDT12_C29830	operon_0864	NC_016860.1|gene3033|STMDT12_C29830|cysN
STMDT12_C29840	operon_0864	NC_016860.1|gene3034|STMDT12_C29840
STMDT12_C29850	operon_0865	NC_016860.1|gene3035|STMDT12_C29850
STMDT12_C29860	operon_0865	NC_016860.1|gene3036|STMDT12_C29860
STMDT12_C29870	operon_0866	NC_016860.1|gene3037|STMDT12_C29870
STMDT12_C29880	operon_0866	NC_016860.1|gene3038|STMDT12_C29880
STMDT12_C29890	operon_0866	NC_016860.1|gene3039|STMDT12_C29890
STMDT12_C29900	operon_0866	NC_016860.1|gene3040|STMDT12_C29900
STMDT12_C29910	operon_0866	NC_016860.1|gene3041|STMDT12_C29910
STMDT12_C29920	operon_0866	NC_016860.1|gene3042|STMDT12_C29920
STMDT12_C29930	operon_0866	NC_016860.1|gene3043|STMDT12_C29930
STMDT12_C29940	operon_0866	NC_016860.1|gene3044|STMDT12_C29940
STMDT12_C29950	operon_0867	NC_016860.1|gene3045|STMDT12_C29950
STMDT12_C29960	operon_0868	NC_016860.1|gene3046|STMDT12_C29960
STMDT12_C29970	operon_0868	NC_016860.1|gene3047|STMDT12_C29970
STMDT12_C29980	operon_0868	NC_016860.1|gene3048|STMDT12_C29980|cysJ
STMDT12_C29990	operon_0869	NC_016860.1|gene3049|STMDT12_C29990
STMDT12_C30000	operon_0870	NC_016860.1|gene3050|STMDT12_C30000
STMDT12_C30010	operon_0871	NC_016860.1|gene3051|STMDT12_C30010
STMDT12_C30020	operon_0871	NC_016860.1|gene3052|STMDT12_C30020
STMDT12_C30030	operon_0872	NC_016860.1|gene3053|STMDT12_C30030
STMDT12_C30040	operon_0872	NC_016860.1|gene3054|STMDT12_C30040|eno
STMDT12_C30050	operon_0872	NC_016860.1|gene3055|STMDT12_C30050|pyrG
STMDT12_C30060	operon_0872	NC_016860.1|gene3056|STMDT12_C30060|mazG
STMDT12_C30070	operon_0872	NC_016860.1|gene3057|STMDT12_C30070
STMDT12_C30080	operon_0872	NC_016860.1|gene3058|STMDT12_C30080
STMDT12_C30090	operon_0872	NC_016860.1|gene3059|STMDT12_C30090|relA
STMDT12_C30100	operon_0872	NC_016860.1|gene3060|STMDT12_C30100|rumA
STMDT12_C30110	operon_0873	NC_016860.1|gene3061|STMDT12_C30110
STMDT12_C30120	operon_0874	NC_016860.1|gene3062|STMDT12_C30120
STMDT12_C30130	operon_0874	NC_016860.1|gene3063|STMDT12_C30130
STMDT12_C30140	operon_0874	NC_016860.1|gene3064|STMDT12_C30140
STMDT12_C30150	operon_0874	NC_016860.1|gene3065|STMDT12_C30150
STMDT12_C30160	operon_0874	NC_016860.1|gene3066|STMDT12_C30160
STMDT12_C30170	operon_0874	NC_016860.1|gene3067|STMDT12_C30170|truC
STMDT12_C30180	operon_0874	NC_016860.1|gene3068|STMDT12_C30180|truC
STMDT12_C30190	operon_0874	NC_016860.1|gene3069|STMDT12_C30190
STMDT12_C30200	operon_0875	NC_016860.1|gene3070|STMDT12_C30200|queF
STMDT12_C30210	operon_0875	NC_016860.1|gene3071|STMDT12_C30210
STMDT12_C30220	operon_0875	NC_016860.1|gene3072|STMDT12_C30220
STMDT12_C30230	operon_0875	NC_016860.1|gene3073|STMDT12_C30230
STMDT12_C30240	operon_0875	NC_016860.1|gene3074|STMDT12_C30240|xni
STMDT12_C30250	operon_0876	NC_016860.1|gene3075|STMDT12_C30250
STMDT12_C30260	operon_0876	NC_016860.1|gene3076|STMDT12_C30260
STMDT12_C30270	operon_0877	NC_016860.1|gene3077|STMDT12_C30270
STMDT12_C30280	operon_0877	NC_016860.1|gene3078|STMDT12_C30280|fucI
STMDT12_C30290	operon_0877	NC_016860.1|gene3079|STMDT12_C30290
STMDT12_C30300	operon_0877	NC_016860.1|gene3080|STMDT12_C30300
STMDT12_C30310	operon_0877	NC_016860.1|gene3081|STMDT12_C30310
STMDT12_C30320	operon_0878	NC_016860.1|gene3082|STMDT12_C30320
STMDT12_C30330	operon_0878	NC_016860.1|gene3083|STMDT12_C30330
STMDT12_C30340	operon_0878	NC_016860.1|gene3084|STMDT12_C30340
STMDT12_C30350	operon_0878	NC_016860.1|gene3085|STMDT12_C30350
STMDT12_C30360	operon_0879	NC_016860.1|gene3086|STMDT12_C30360
STMDT12_C30370	operon_0879	NC_016860.1|gene3087|STMDT12_C30370
STMDT12_C30380	operon_0879	NC_016860.1|gene3088|STMDT12_C30380
STMDT12_C30390	operon_0880	NC_016860.1|gene3089|STMDT12_C30390
STMDT12_C30400	operon_0880	NC_016860.1|gene3090|STMDT12_C30400|mltA
STMDT12_Ct0500	operon_0881	NC_016860.1|gene3091|STMDT12_Ct0500
STMDT12_Ct0510	operon_0881	NC_016860.1|gene3092|STMDT12_Ct0510
STMDT12_C30410	operon_0882	NC_016860.1|gene3093|STMDT12_C30410
STMDT12_C30420	operon_0883	NC_016860.1|gene3094|STMDT12_C30420
STMDT12_C30430	operon_0884	NC_016860.1|gene3095|STMDT12_C30430|recD
STMDT12_C30440	operon_0884	NC_016860.1|gene3096|STMDT12_C30440|recB
STMDT12_C30450	operon_0884	NC_016860.1|gene3097|STMDT12_C30450|recB
STMDT12_C30460	operon_0884	NC_016860.1|gene3098|STMDT12_C30460|recC
STMDT12_C30470	operon_0884	NC_016860.1|gene3099|STMDT12_C30470
STMDT12_C30480	operon_0884	NC_016860.1|gene3100|STMDT12_C30480
STMDT12_C30490	operon_0884	NC_016860.1|gene3101|STMDT12_C30490
STMDT12_C30500	operon_0884	NC_016860.1|gene3102|STMDT12_C30500
STMDT12_C30510	operon_0884	NC_016860.1|gene3103|STMDT12_C30510|thyA
STMDT12_C30520	operon_0884	NC_016860.1|gene3104|STMDT12_C30520
STMDT12_C30530	operon_0884	NC_016860.1|gene3105|STMDT12_C30530|ptsP
STMDT12_C30540	operon_0884	NC_016860.1|gene3106|STMDT12_C30540
STMDT12_C30550	operon_0885	NC_016860.1|gene3107|STMDT12_C30550|mutH
STMDT12_C30560	operon_0885	NC_016860.1|gene3108|STMDT12_C30560
STMDT12_C30570	operon_0885	NC_016860.1|gene3109|STMDT12_C30570
STMDT12_C30580	operon_0885	NC_016860.1|gene3110|STMDT12_C30580|tas
STMDT12_C30590	operon_0886	NC_016860.1|gene3111|STMDT12_C30590
STMDT12_C30600	operon_0886	NC_016860.1|gene3112|STMDT12_C30600
STMDT12_C30610	operon_0887	NC_016860.1|gene3113|STMDT12_C30610
STMDT12_C30620	operon_0887	NC_016860.1|gene3114|STMDT12_C30620
STMDT12_C30630	operon_0888	NC_016860.1|gene3115|STMDT12_C30630
STMDT12_C30640	operon_0889	NC_016860.1|gene3116|STMDT12_C30640
STMDT12_C30650	operon_0890	NC_016860.1|gene3117|STMDT12_C30650
STMDT12_C30660	operon_0890	NC_016860.1|gene3118|STMDT12_C30660
STMDT12_C30670	operon_0890	NC_016860.1|gene3119|STMDT12_C30670
STMDT12_C30680	operon_0890	NC_016860.1|gene3120|STMDT12_C30680
STMDT12_C30690	operon_0890	NC_016860.1|gene3121|STMDT12_C30690
STMDT12_C30700	operon_0890	NC_016860.1|gene3122|STMDT12_C30700
STMDT12_C30710	operon_0891	NC_016860.1|gene3123|STMDT12_C30710
STMDT12_C30720	operon_0891	NC_016860.1|gene3124|STMDT12_C30720
STMDT12_C30730	operon_0892	NC_016860.1|gene3125|STMDT12_C30730
STMDT12_C30740	operon_0893	NC_016860.1|gene3126|STMDT12_C30740
STMDT12_C30750	operon_0894	NC_016860.1|gene3127|STMDT12_C30750
STMDT12_C30760	operon_0894	NC_016860.1|gene3128|STMDT12_C30760
STMDT12_C30770	operon_0894	NC_016860.1|gene3129|STMDT12_C30770
STMDT12_C30780	operon_0894	NC_016860.1|gene3130|STMDT12_C30780
STMDT12_C30790	operon_0894	NC_016860.1|gene3131|STMDT12_C30790
STMDT12_C30800	operon_0894	NC_016860.1|gene3132|STMDT12_C30800
STMDT12_C30810	operon_0894	NC_016860.1|gene3133|STMDT12_C30810
STMDT12_C30820	operon_0894	NC_016860.1|gene3134|STMDT12_C30820
STMDT12_C30830	operon_0894	NC_016860.1|gene3135|STMDT12_C30830
STMDT12_C30840	operon_0894	NC_016860.1|gene3136|STMDT12_C30840
STMDT12_C30850	operon_0894	NC_016860.1|gene3137|STMDT12_C30850
STMDT12_C30860	operon_0895	NC_016860.1|gene3138|STMDT12_C30860
STMDT12_C30870	operon_0895	NC_016860.1|gene3139|STMDT12_C30870
STMDT12_C30880	operon_0895	NC_016860.1|gene3140|STMDT12_C30880
STMDT12_C30890	operon_0895	NC_016860.1|gene3141|STMDT12_C30890
STMDT12_Ct0520	operon_0896	NC_016860.1|gene3142|STMDT12_Ct0520
STMDT12_C30900	operon_0896	NC_016860.1|gene3143|STMDT12_C30900
STMDT12_C30910	operon_0897	NC_016860.1|gene3144|STMDT12_C30910
STMDT12_C30920	operon_0898	NC_016860.1|gene3145|STMDT12_C30920|lysS
STMDT12_C30930	operon_0898	NC_016860.1|gene3146|STMDT12_C30930|prfB
STMDT12_C30940	operon_0898	NC_016860.1|gene3147|STMDT12_C30940
STMDT12_C30950	operon_0898	NC_016860.1|gene3148|STMDT12_C30950
STMDT12_C30960	operon_0898	NC_016860.1|gene3149|STMDT12_C30960|xerD
STMDT12_C30970	operon_0899	NC_016860.1|gene3150|STMDT12_C30970
STMDT12_C30980	operon_0900	NC_016860.1|gene3151|STMDT12_C30980
STMDT12_C30990	operon_0900	NC_016860.1|gene3152|STMDT12_C30990
STMDT12_C31000	operon_0901	NC_016860.1|gene3153|STMDT12_C31000
STMDT12_C31010	operon_0901	NC_016860.1|gene3154|STMDT12_C31010
STMDT12_C31020	operon_0902	NC_016860.1|gene3155|STMDT12_C31020
STMDT12_C31030	operon_0902	NC_016860.1|gene3156|STMDT12_C31030
STMDT12_C31040	operon_0903	NC_016860.1|gene3157|STMDT12_C31040
STMDT12_C31050	operon_0904	NC_016860.1|gene3158|STMDT12_C31050
STMDT12_C31060	operon_0904	NC_016860.1|gene3159|STMDT12_C31060
STMDT12_C31070	operon_0904	NC_016860.1|gene3160|STMDT12_C31070
STMDT12_C31080	operon_0904	NC_016860.1|gene3161|STMDT12_C31080|gcvT
STMDT12_C31090	operon_0904	NC_016860.1|gene3162|STMDT12_C31090
STMDT12_C31100	operon_0904	NC_016860.1|gene3163|STMDT12_C31100
STMDT12_C31110	operon_0904	NC_016860.1|gene3164|STMDT12_C31110
STMDT12_C31120	operon_0904	NC_016860.1|gene3165|STMDT12_C31120
STMDT12_C31130	operon_0905	NC_016860.1|gene3166|STMDT12_C31130
STMDT12_C31140	operon_0905	NC_016860.1|gene3167|STMDT12_C31140
STMDT12_C31150	operon_0906	NC_016860.1|gene3168|STMDT12_C31150
STMDT12_C31160	operon_0906	NC_016860.1|gene3169|STMDT12_C31160
STMDT12_C31170	operon_0907	NC_016860.1|gene3170|STMDT12_C31170
STMDT12_C31180	operon_0908	NC_016860.1|gene3171|STMDT12_C31180
STMDT12_C31190	operon_0908	NC_016860.1|gene3172|STMDT12_C31190
STMDT12_C31200	operon_0908	NC_016860.1|gene3173|STMDT12_C31200
STMDT12_C31210	operon_0908	NC_016860.1|gene3174|STMDT12_C31210
STMDT12_C31220	operon_0908	NC_016860.1|gene3175|STMDT12_C31220|pgk
STMDT12_C31230	operon_0908	NC_016860.1|gene3176|STMDT12_C31230
STMDT12_C31240	operon_0909	NC_016860.1|gene3177|STMDT12_C31240
STMDT12_C31250	operon_0909	NC_016860.1|gene3178|STMDT12_C31250
STMDT12_C31260	operon_0909	NC_016860.1|gene3179|STMDT12_C31260
STMDT12_C31270	operon_0909	NC_016860.1|gene3180|STMDT12_C31270
STMDT12_C31280	operon_0909	NC_016860.1|gene3181|STMDT12_C31280
STMDT12_C31290	operon_0910	NC_016860.1|gene3182|STMDT12_C31290
STMDT12_C31300	operon_0911	NC_016860.1|gene3183|STMDT12_C31300
STMDT12_C31310	operon_0912	NC_016860.1|gene3184|STMDT12_C31310
STMDT12_C31320	operon_0912	NC_016860.1|gene3185|STMDT12_C31320
STMDT12_C31330	operon_0912	NC_016860.1|gene3186|STMDT12_C31330
STMDT12_C31340	operon_0912	NC_016860.1|gene3187|STMDT12_C31340
STMDT12_C31350	operon_0912	NC_016860.1|gene3188|STMDT12_C31350
STMDT12_C31360	operon_0912	NC_016860.1|gene3189|STMDT12_C31360
STMDT12_C31370	operon_0913	NC_016860.1|gene3190|STMDT12_C31370
STMDT12_C31380	operon_0914	NC_016860.1|gene3191|STMDT12_C31380
STMDT12_C31390	operon_0914	NC_016860.1|gene3192|STMDT12_C31390
STMDT12_C31400	operon_0914	NC_016860.1|gene3193|STMDT12_C31400
STMDT12_C31410	operon_0914	NC_016860.1|gene3194|STMDT12_C31410
STMDT12_C31420	operon_0914	NC_016860.1|gene3195|STMDT12_C31420
STMDT12_C31430	operon_0915	NC_016860.1|gene3196|STMDT12_C31430
STMDT12_C31440	operon_0915	NC_016860.1|gene3197|STMDT12_C31440
STMDT12_C31450	operon_0915	NC_016860.1|gene3198|STMDT12_C31450
STMDT12_C31460	operon_0915	NC_016860.1|gene3199|STMDT12_C31460
STMDT12_C31470	operon_0915	NC_016860.1|gene3200|STMDT12_C31470|rsmE
STMDT12_C31480	operon_0915	NC_016860.1|gene3201|STMDT12_C31480
STMDT12_C31490	operon_0915	NC_016860.1|gene3202|STMDT12_C31490
STMDT12_C31500	operon_0915	NC_016860.1|gene3203|STMDT12_C31500
STMDT12_C31510	operon_0916	NC_016860.1|gene3204|STMDT12_C31510
STMDT12_C31520	operon_0916	NC_016860.1|gene3205|STMDT12_C31520
STMDT12_C31530	operon_0917	NC_016860.1|gene3206|STMDT12_C31530
STMDT12_C31540	operon_0917	NC_016860.1|gene3207|STMDT12_C31540
STMDT12_C31550	operon_0917	NC_016860.1|gene3208|STMDT12_C31550
STMDT12_C31560	operon_0917	NC_016860.1|gene3209|STMDT12_C31560
STMDT12_C31570	operon_0917	NC_016860.1|gene3210|STMDT12_C31570
STMDT12_C31580	operon_0918	NC_016860.1|gene3211|STMDT12_C31580
STMDT12_C31590	operon_0918	NC_016860.1|gene3212|STMDT12_C31590|ansB
STMDT12_C31600	operon_0918	NC_016860.1|gene3213|STMDT12_C31600
STMDT12_C31610	operon_0918	NC_016860.1|gene3214|STMDT12_C31610
STMDT12_C31620	operon_0918	NC_016860.1|gene3215|STMDT12_C31620|trmB
STMDT12_C31630	operon_0919	NC_016860.1|gene3216|STMDT12_C31630
STMDT12_C31640	operon_0919	NC_016860.1|gene3217|STMDT12_C31640
STMDT12_C31650	operon_0919	NC_016860.1|gene3218|STMDT12_C31650|mltC
STMDT12_C31660	operon_0919	NC_016860.1|gene3219|STMDT12_C31660|nupG
STMDT12_C31670	operon_0920	NC_016860.1|gene3220|STMDT12_C31670
STMDT12_C31680	operon_0921	NC_016860.1|gene3221|STMDT12_C31680
STMDT12_C31690	operon_0921	NC_016860.1|gene3222|STMDT12_C31690
STMDT12_Ct0530	operon_0921	NC_016860.1|gene3223|STMDT12_Ct0530
STMDT12_C31700	operon_0922	NC_016860.1|gene3224|STMDT12_C31700
STMDT12_C31710	operon_0922	NC_016860.1|gene3225|STMDT12_C31710
STMDT12_C31720	operon_0922	NC_016860.1|gene3226|STMDT12_C31720
STMDT12_C31730	operon_0922	NC_016860.1|gene3227|STMDT12_C31730
STMDT12_C31740	operon_0923	NC_016860.1|gene3228|STMDT12_C31740
STMDT12_C31750	operon_0924	NC_016860.1|gene3229|STMDT12_C31750
STMDT12_C31760	operon_0924	NC_016860.1|gene3230|STMDT12_C31760
STMDT12_C31770	operon_0925	NC_016860.1|gene3231|STMDT12_C31770
STMDT12_C31780	operon_0926	NC_016860.1|gene3232|STMDT12_C31780
STMDT12_C31790	operon_0926	NC_016860.1|gene3233|STMDT12_C31790
STMDT12_C31800	operon_0926	NC_016860.1|gene3234|STMDT12_C31800
STMDT12_C31810	operon_0926	NC_016860.1|gene3235|STMDT12_C31810
STMDT12_C31820	operon_0926	NC_016860.1|gene3236|STMDT12_C31820
STMDT12_C31830	operon_0927	NC_016860.1|gene3237|STMDT12_C31830
STMDT12_C31840	operon_0928	NC_016860.1|gene3238|STMDT12_C31840|iraD
STMDT12_C31850	operon_0928	NC_016860.1|gene3239|STMDT12_C31850|iraD
STMDT12_C31860	operon_0929	NC_016860.1|gene3240|STMDT12_C31860
STMDT12_C31870	operon_0930	NC_016860.1|gene3241|STMDT12_C31870
STMDT12_C31880	operon_0930	NC_016860.1|gene3242|STMDT12_C31880
STMDT12_C31890	operon_0930	NC_016860.1|gene3243|STMDT12_C31890
STMDT12_C31900	operon_0931	NC_016860.1|gene3244|STMDT12_C31900
STMDT12_C31910	operon_0931	NC_016860.1|gene3245|STMDT12_C31910
STMDT12_C31920	operon_0931	NC_016860.1|gene3246|STMDT12_C31920
STMDT12_C31930	operon_0932	NC_016860.1|gene3247|STMDT12_C31930
STMDT12_C31940	operon_0932	NC_016860.1|gene3248|STMDT12_C31940
STMDT12_C31950	operon_0933	NC_016860.1|gene3249|STMDT12_C31950
STMDT12_C31960	operon_0934	NC_016860.1|gene3250|STMDT12_C31960
STMDT12_C31970	operon_0934	NC_016860.1|gene3251|STMDT12_C31970
STMDT12_C31980	operon_0934	NC_016860.1|gene3252|STMDT12_C31980
STMDT12_C31990	operon_0934	NC_016860.1|gene3253|STMDT12_C31990
STMDT12_C32000	operon_0934	NC_016860.1|gene3254|STMDT12_C32000
STMDT12_C32010	operon_0934	NC_016860.1|gene3255|STMDT12_C32010|hybD
STMDT12_C32020	operon_0934	NC_016860.1|gene3256|STMDT12_C32020|hybD
STMDT12_C32030	operon_0934	NC_016860.1|gene3257|STMDT12_C32030
STMDT12_C32040	operon_0934	NC_016860.1|gene3258|STMDT12_C32040
STMDT12_C32050	operon_0934	NC_016860.1|gene3259|STMDT12_C32050
STMDT12_C32060	operon_0934	NC_016860.1|gene3260|STMDT12_C32060
STMDT12_C32070	operon_0934	NC_016860.1|gene3261|STMDT12_C32070
STMDT12_C32080	operon_0934	NC_016860.1|gene3262|STMDT12_C32080
STMDT12_C32090	operon_0934	NC_016860.1|gene3263|STMDT12_C32090
STMDT12_C32100	operon_0935	NC_016860.1|gene3264|STMDT12_C32100
STMDT12_C32110	operon_0935	NC_016860.1|gene3265|STMDT12_C32110
STMDT12_C32120	operon_0935	NC_016860.1|gene3266|STMDT12_C32120
STMDT12_C32130	operon_0936	NC_016860.1|gene3267|STMDT12_C32130
STMDT12_C32140	operon_0936	NC_016860.1|gene3268|STMDT12_C32140
STMDT12_C32150	operon_0936	NC_016860.1|gene3269|STMDT12_C32150
STMDT12_C32160	operon_0937	NC_016860.1|gene3270|STMDT12_C32160
STMDT12_C32170	operon_0937	NC_016860.1|gene3271|STMDT12_C32170
STMDT12_C32180	operon_0938	NC_016860.1|gene3272|STMDT12_C32180
STMDT12_C32190	operon_0939	NC_016860.1|gene3273|STMDT12_C32190
STMDT12_C32200	operon_0939	NC_016860.1|gene3274|STMDT12_C32200|dkgA
STMDT12_C32210	operon_0939	NC_016860.1|gene3275|STMDT12_C32210
STMDT12_C32220	operon_0939	NC_016860.1|gene3276|STMDT12_C32220
STMDT12_C32230	operon_0940	NC_016860.1|gene3277|STMDT12_C32230
STMDT12_C32240	operon_0940	NC_016860.1|gene3278|STMDT12_C32240
STMDT12_C32250	operon_0941	NC_016860.1|gene3279|STMDT12_C32250
STMDT12_C32260	operon_0941	NC_016860.1|gene3280|STMDT12_C32260
STMDT12_C32270	operon_0941	NC_016860.1|gene3281|STMDT12_C32270
STMDT12_C32280	operon_0942	NC_016860.1|gene3282|STMDT12_C32280
STMDT12_C32290	operon_0942	NC_016860.1|gene3283|STMDT12_C32290
STMDT12_C32300	operon_0942	NC_016860.1|gene3284|STMDT12_C32300
STMDT12_C32310	operon_0942	NC_016860.1|gene3285|STMDT12_C32310
STMDT12_C32320	operon_0942	NC_016860.1|gene3286|STMDT12_C32320
STMDT12_C32330	operon_0943	NC_016860.1|gene3287|STMDT12_C32330
STMDT12_C32340	operon_0943	NC_016860.1|gene3288|STMDT12_C32340
STMDT12_C32350	operon_0943	NC_016860.1|gene3289|STMDT12_C32350
STMDT12_C32360	operon_0943	NC_016860.1|gene3290|STMDT12_C32360
STMDT12_C32370	operon_0944	NC_016860.1|gene3291|STMDT12_C32370
STMDT12_C32380	operon_0944	NC_016860.1|gene3292|STMDT12_C32380
STMDT12_C32390	operon_0944	NC_016860.1|gene3293|STMDT12_C32390
STMDT12_C32400	operon_0944	NC_016860.1|gene3294|STMDT12_C32400
STMDT12_C32410	operon_0944	NC_016860.1|gene3295|STMDT12_C32410|nudF
STMDT12_C32420	operon_0945	NC_016860.1|gene3296|STMDT12_C32420|tolC
STMDT12_C32430	operon_0945	NC_016860.1|gene3297|STMDT12_C32430
STMDT12_C32440	operon_0945	NC_016860.1|gene3298|STMDT12_C32440
STMDT12_C32450	operon_0946	NC_016860.1|gene3299|STMDT12_C32450
STMDT12_C32460	operon_0947	NC_016860.1|gene3300|STMDT12_C32460
STMDT12_C32470	operon_0948	NC_016860.1|gene3301|STMDT12_C32470
STMDT12_C32480	operon_0949	NC_016860.1|gene3302|STMDT12_C32480
STMDT12_C32490	operon_0949	NC_016860.1|gene3303|STMDT12_C32490
STMDT12_C32500	operon_0949	NC_016860.1|gene3304|STMDT12_C32500
STMDT12_C32510	operon_0949	NC_016860.1|gene3305|STMDT12_C32510
STMDT12_C32520	operon_0949	NC_016860.1|gene3306|STMDT12_C32520
STMDT12_C32530	operon_0950	NC_016860.1|gene3307|STMDT12_C32530|ribB
STMDT12_C32540	operon_0951	NC_016860.1|gene3308|STMDT12_C32540
STMDT12_C32550	operon_0952	NC_016860.1|gene3309|STMDT12_C32550
STMDT12_C32560	operon_0953	NC_016860.1|gene3310|STMDT12_C32560
STMDT12_C32570	operon_0953	NC_016860.1|gene3311|STMDT12_C32570
STMDT12_C32580	operon_0954	NC_016860.1|gene3312|STMDT12_C32580
STMDT12_C32590	operon_0954	NC_016860.1|gene3313|STMDT12_C32590
STMDT12_C32600	operon_0954	NC_016860.1|gene3314|STMDT12_C32600
STMDT12_C32610	operon_0955	NC_016860.1|gene3315|STMDT12_C32610
STMDT12_C32620	operon_0955	NC_016860.1|gene3316|STMDT12_C32620|cca
STMDT12_C32630	operon_0956	NC_016860.1|gene3317|STMDT12_C32630
STMDT12_C32640	operon_0956	NC_016860.1|gene3318|STMDT12_C32640|folB
STMDT12_C32650	operon_0957	NC_016860.1|gene3319|STMDT12_C32650
STMDT12_C32660	operon_0957	NC_016860.1|gene3320|STMDT12_C32660
STMDT12_C32670	operon_0958	NC_016860.1|gene3321|STMDT12_C32670
STMDT12_C32680	operon_0959	NC_016860.1|gene3322|STMDT12_C32680|rpsU
STMDT12_C32690	operon_0959	NC_016860.1|gene3323|STMDT12_C32690|dnaG
STMDT12_C32700	operon_0959	NC_016860.1|gene3324|STMDT12_C32700
STMDT12_C32710	operon_0960	NC_016860.1|gene3325|STMDT12_C32710
STMDT12_Ct0540	operon_0961	NC_016860.1|gene3326|STMDT12_Ct0540
STMDT12_C32720	operon_0962	NC_016860.1|gene3327|STMDT12_C32720
STMDT12_C32730	operon_0963	NC_016860.1|gene3328|STMDT12_C32730
STMDT12_C32740	operon_0964	NC_016860.1|gene3329|STMDT12_C32740
STMDT12_C32750	operon_0964	NC_016860.1|gene3330|STMDT12_C32750
STMDT12_C32760	operon_0965	NC_016860.1|gene3331|STMDT12_C32760
STMDT12_C32770	operon_0965	NC_016860.1|gene3332|STMDT12_C32770
STMDT12_C32780	operon_0966	NC_016860.1|gene3333|STMDT12_C32780
STMDT12_C32790	operon_0967	NC_016860.1|gene3334|STMDT12_C32790
STMDT12_C32800	operon_0967	NC_016860.1|gene3335|STMDT12_C32800
STMDT12_C32810	operon_0967	NC_016860.1|gene3336|STMDT12_C32810
STMDT12_C32820	operon_0967	NC_016860.1|gene3337|STMDT12_C32820
STMDT12_C32830	operon_0967	NC_016860.1|gene3338|STMDT12_C32830|sstT
STMDT12_C32840	operon_0967	NC_016860.1|gene3339|STMDT12_C32840
STMDT12_C32850	operon_0967	NC_016860.1|gene3340|STMDT12_C32850
STMDT12_C32860	operon_0967	NC_016860.1|gene3341|STMDT12_C32860
STMDT12_C32870	operon_0967	NC_016860.1|gene3342|STMDT12_C32870
STMDT12_C32880	operon_0967	NC_016860.1|gene3343|STMDT12_C32880
STMDT12_C32890	operon_0967	NC_016860.1|gene3344|STMDT12_C32890
STMDT12_C32900	operon_0967	NC_016860.1|gene3345|STMDT12_C32900
STMDT12_C32910	operon_0967	NC_016860.1|gene3346|STMDT12_C32910
STMDT12_C32920	operon_0967	NC_016860.1|gene3347|STMDT12_C32920
STMDT12_C32930	operon_0968	NC_016860.1|gene3348|STMDT12_C32930
STMDT12_C32940	operon_0969	NC_016860.1|gene3349|STMDT12_C32940
STMDT12_C32950	operon_0969	NC_016860.1|gene3350|STMDT12_C32950
STMDT12_C32960	operon_0970	NC_016860.1|gene3351|STMDT12_C32960
STMDT12_C32970	operon_0970	NC_016860.1|gene3352|STMDT12_C32970
STMDT12_C32980	operon_0970	NC_016860.1|gene3353|STMDT12_C32980
STMDT12_C32990	operon_0970	NC_016860.1|gene3354|STMDT12_C32990
STMDT12_C33000	operon_0970	NC_016860.1|gene3355|STMDT12_C33000
STMDT12_C33010	operon_0970	NC_016860.1|gene3356|STMDT12_C33010|tdcC
STMDT12_C33020	operon_0970	NC_016860.1|gene3357|STMDT12_C33020|tdcB
STMDT12_C33030	operon_0970	NC_016860.1|gene3358|STMDT12_C33030
STMDT12_C33040	operon_0970	NC_016860.1|gene3359|STMDT12_C33040
STMDT12_C33050	operon_0970	NC_016860.1|gene3360|STMDT12_C33050|garR
STMDT12_C33060	operon_0970	NC_016860.1|gene3361|STMDT12_C33060
STMDT12_C33070	operon_0971	NC_016860.1|gene3362|STMDT12_C33070
STMDT12_C33080	operon_0972	NC_016860.1|gene3363|STMDT12_C33080
STMDT12_C33090	operon_0972	NC_016860.1|gene3364|STMDT12_C33090
STMDT12_C33100	operon_0973	NC_016860.1|gene3365|STMDT12_C33100|gatY
STMDT12_C33110	operon_0973	NC_016860.1|gene3366|STMDT12_C33110
STMDT12_C33120	operon_0973	NC_016860.1|gene3367|STMDT12_C33120
STMDT12_C33130	operon_0973	NC_016860.1|gene3368|STMDT12_C33130
STMDT12_C33140	operon_0973	NC_016860.1|gene3369|STMDT12_C33140
STMDT12_C33150	operon_0973	NC_016860.1|gene3370|STMDT12_C33150
STMDT12_C33160	operon_0973	NC_016860.1|gene3371|STMDT12_C33160
STMDT12_C33170	operon_0973	NC_016860.1|gene3372|STMDT12_C33170
STMDT12_C33180	operon_0973	NC_016860.1|gene3373|STMDT12_C33180
STMDT12_C33190	operon_0973	NC_016860.1|gene3374|STMDT12_C33190
STMDT12_C33200	operon_0974	NC_016860.1|gene3375|STMDT12_C33200
STMDT12_C33210	operon_0975	NC_016860.1|gene3376|STMDT12_C33210
STMDT12_C33220	operon_0975	NC_016860.1|gene3377|STMDT12_C33220
STMDT12_C33230	operon_0975	NC_016860.1|gene3378|STMDT12_C33230
STMDT12_C33240	operon_0975	NC_016860.1|gene3379|STMDT12_C33240
STMDT12_C33250	operon_0976	NC_016860.1|gene3380|STMDT12_C33250
STMDT12_C33260	operon_0977	NC_016860.1|gene3381|STMDT12_C33260
STMDT12_C33270	operon_0978	NC_016860.1|gene3382|STMDT12_C33270
STMDT12_C33280	operon_0979	NC_016860.1|gene3383|STMDT12_C33280
STMDT12_C33290	operon_0980	NC_016860.1|gene3384|STMDT12_C33290
STMDT12_C33300	operon_0980	NC_016860.1|gene3385|STMDT12_C33300
STMDT12_C33310	operon_0981	NC_016860.1|gene3386|STMDT12_C33310
STMDT12_C33320	operon_0981	NC_016860.1|gene3387|STMDT12_C33320
STMDT12_C33330	operon_0981	NC_016860.1|gene3388|STMDT12_C33330
STMDT12_C33340	operon_0982	NC_016860.1|gene3389|STMDT12_C33340
STMDT12_C33350	operon_0983	NC_016860.1|gene3390|STMDT12_C33350
STMDT12_C33360	operon_0984	NC_016860.1|gene3391|STMDT12_C33360
STMDT12_C33370	operon_0984	NC_016860.1|gene3392|STMDT12_C33370
STMDT12_C33380	operon_0984	NC_016860.1|gene3393|STMDT12_C33380
STMDT12_C33390	operon_0984	NC_016860.1|gene3394|STMDT12_C33390
STMDT12_C33400	operon_0984	NC_016860.1|gene3395|STMDT12_C33400|rpsO
STMDT12_C33410	operon_0984	NC_016860.1|gene3396|STMDT12_C33410|truB
STMDT12_C33420	operon_0984	NC_016860.1|gene3397|STMDT12_C33420|rbfA
STMDT12_C33430	operon_0984	NC_016860.1|gene3398|STMDT12_C33430|infB
STMDT12_C33440	operon_0984	NC_016860.1|gene3399|STMDT12_C33440|nusA
STMDT12_C33450	operon_0984	NC_016860.1|gene3400|STMDT12_C33450
STMDT12_Ct0550	operon_0984	NC_016860.1|gene3401|STMDT12_Ct0550
STMDT12_C33460	operon_0985	NC_016860.1|gene3402|STMDT12_C33460
STMDT12_C33470	operon_0986	NC_016860.1|gene3403|STMDT12_C33470
STMDT12_Ct0560	operon_0986	NC_016860.1|gene3404|STMDT12_Ct0560
STMDT12_C33480	operon_0986	NC_016860.1|gene3405|STMDT12_C33480|secG
STMDT12_C33490	operon_0986	NC_016860.1|gene3406|STMDT12_C33490|glmM
STMDT12_C33500	operon_0986	NC_016860.1|gene3407|STMDT12_C33500|folP
STMDT12_C33510	operon_0986	NC_016860.1|gene3408|STMDT12_C33510|hflB
STMDT12_C33520	operon_0986	NC_016860.1|gene3409|STMDT12_C33520|rrmJ
STMDT12_C33530	operon_0987	NC_016860.1|gene3410|STMDT12_C33530
STMDT12_C33540	operon_0988	NC_016860.1|gene3411|STMDT12_C33540|greA
STMDT12_C33550	operon_0988	NC_016860.1|gene3412|STMDT12_C33550
STMDT12_C33560	operon_0989	NC_016860.1|gene3413|STMDT12_C33560
STMDT12_C33570	operon_0989	NC_016860.1|gene3414|STMDT12_C33570
STMDT12_C33580	operon_0990	NC_016860.1|gene3415|STMDT12_C33580|obgE
STMDT12_C33600	operon_0990	NC_016860.1|gene3416|STMDT12_C33600
STMDT12_C33610	operon_0990	NC_016860.1|gene3417|STMDT12_C33610|rpmA
STMDT12_C33620	operon_0990	NC_016860.1|gene3418|STMDT12_C33620|rplU
STMDT12_C33630	operon_0991	NC_016860.1|gene3419|STMDT12_C33630
STMDT12_C33640	operon_0991	NC_016860.1|gene3420|STMDT12_C33640
STMDT12_C33650	operon_0992	NC_016860.1|gene3421|STMDT12_C33650
STMDT12_C33660	operon_0992	NC_016860.1|gene3422|STMDT12_C33660
STMDT12_C33670	operon_0992	NC_016860.1|gene3423|STMDT12_C33670
STMDT12_C33680	operon_0992	NC_016860.1|gene3424|STMDT12_C33680
STMDT12_C33690	operon_0992	NC_016860.1|gene3425|STMDT12_C33690
STMDT12_C33700	operon_0992	NC_016860.1|gene3426|STMDT12_C33700
STMDT12_C33710	operon_0992	NC_016860.1|gene3427|STMDT12_C33710
STMDT12_C33720	operon_0993	NC_016860.1|gene3428|STMDT12_C33720
STMDT12_C33730	operon_0993	NC_016860.1|gene3429|STMDT12_C33730
STMDT12_C33740	operon_0993	NC_016860.1|gene3430|STMDT12_C33740
STMDT12_C33750	operon_0993	NC_016860.1|gene3431|STMDT12_C33750
STMDT12_C33760	operon_0993	NC_016860.1|gene3432|STMDT12_C33760
STMDT12_C33770	operon_0993	NC_016860.1|gene3433|STMDT12_C33770
STMDT12_C33780	operon_0993	NC_016860.1|gene3434|STMDT12_C33780
STMDT12_C33790	operon_0993	NC_016860.1|gene3435|STMDT12_C33790
STMDT12_C33800	operon_0993	NC_016860.1|gene3436|STMDT12_C33800
STMDT12_C33810	operon_0993	NC_016860.1|gene3437|STMDT12_C33810
STMDT12_C33820	operon_0993	NC_016860.1|gene3438|STMDT12_C33820|ptsO
STMDT12_C33830	operon_0993	NC_016860.1|gene3439|STMDT12_C33830
STMDT12_C33840	operon_0994	NC_016860.1|gene3440|STMDT12_C33840|mtgA
STMDT12_C33850	operon_0994	NC_016860.1|gene3441|STMDT12_C33850|mtgA
STMDT12_C33860	operon_0994	NC_016860.1|gene3442|STMDT12_C33860
STMDT12_C33870	operon_0994	NC_016860.1|gene3443|STMDT12_C33870
STMDT12_C33880	operon_0995	NC_016860.1|gene3444|STMDT12_C33880|gltB
STMDT12_C33890	operon_0995	NC_016860.1|gene3445|STMDT12_C33890|gltD
STMDT12_C33900	operon_0995	NC_016860.1|gene3446|STMDT12_C33900
STMDT12_C33910	operon_0995	NC_016860.1|gene3447|STMDT12_C33910|codB
STMDT12_C33920	operon_0995	NC_016860.1|gene3448|STMDT12_C33920|codB
STMDT12_C33930	operon_0996	NC_016860.1|gene3449|STMDT12_C33930
STMDT12_C33940	operon_0996	NC_016860.1|gene3450|STMDT12_C33940
STMDT12_C33950	operon_0996	NC_016860.1|gene3451|STMDT12_C33950
STMDT12_C33960	operon_0996	NC_016860.1|gene3452|STMDT12_C33960
STMDT12_C33970	operon_0996	NC_016860.1|gene3453|STMDT12_C33970
STMDT12_C33980	operon_0996	NC_016860.1|gene3454|STMDT12_C33980
STMDT12_C33990	operon_0996	NC_016860.1|gene3455|STMDT12_C33990
STMDT12_C34000	operon_0996	NC_016860.1|gene3456|STMDT12_C34000|sspA
STMDT12_C34010	operon_0996	NC_016860.1|gene3457|STMDT12_C34010
STMDT12_C34020	operon_0996	NC_016860.1|gene3458|STMDT12_C34020|rpsI
STMDT12_C34030	operon_0996	NC_016860.1|gene3459|STMDT12_C34030|rplM
STMDT12_C34040	operon_0996	NC_016860.1|gene3460|STMDT12_C34040
STMDT12_C34050	operon_0997	NC_016860.1|gene3461|STMDT12_C34050
STMDT12_C34060	operon_0997	NC_016860.1|gene3462|STMDT12_C34060
STMDT12_C34070	operon_0997	NC_016860.1|gene3463|STMDT12_C34070
STMDT12_C34080	operon_0998	NC_016860.1|gene3464|STMDT12_C34080
STMDT12_C34090	operon_0998	NC_016860.1|gene3465|STMDT12_C34090
STMDT12_C34100	operon_0998	NC_016860.1|gene3466|STMDT12_C34100
STMDT12_C34110	operon_0998	NC_016860.1|gene3467|STMDT12_C34110
STMDT12_C34120	operon_0998	NC_016860.1|gene3468|STMDT12_C34120
STMDT12_C34130	operon_0998	NC_016860.1|gene3469|STMDT12_C34130
STMDT12_C34140	operon_0998	NC_016860.1|gene3470|STMDT12_C34140
STMDT12_C34150	operon_0998	NC_016860.1|gene3471|STMDT12_C34150
STMDT12_C34160	operon_0998	NC_016860.1|gene3472|STMDT12_C34160
STMDT12_C34170	operon_0998	NC_016860.1|gene3473|STMDT12_C34170
STMDT12_C34180	operon_0999	NC_016860.1|gene3474|STMDT12_C34180|argR
STMDT12_C34190	operon_0999	NC_016860.1|gene3475|STMDT12_C34190
STMDT12_C34200	operon_0999	NC_016860.1|gene3476|STMDT12_C34200
STMDT12_C34210	operon_0999	NC_016860.1|gene3477|STMDT12_C34210
STMDT12_C34220	operon_1000	NC_016860.1|gene3478|STMDT12_C34220
STMDT12_C34230	operon_1000	NC_016860.1|gene3479|STMDT12_C34230
STMDT12_C34240	operon_1000	NC_016860.1|gene3480|STMDT12_C34240
STMDT12_C34250	operon_1000	NC_016860.1|gene3481|STMDT12_C34250
STMDT12_C34260	operon_1001	NC_016860.1|gene3482|STMDT12_C34260
STMDT12_C34270	operon_1002	NC_016860.1|gene3483|STMDT12_C34270|tldD
STMDT12_C34280	operon_1002	NC_016860.1|gene3484|STMDT12_C34280
STMDT12_C34290	operon_1002	NC_016860.1|gene3485|STMDT12_C34290
STMDT12_C34300	operon_1002	NC_016860.1|gene3486|STMDT12_C34300
STMDT12_C34310	operon_1002	NC_016860.1|gene3487|STMDT12_C34310
STMDT12_C34320	operon_1002	NC_016860.1|gene3488|STMDT12_C34320
STMDT12_C34330	operon_1002	NC_016860.1|gene3489|STMDT12_C34330
STMDT12_C34340	operon_1002	NC_016860.1|gene3490|STMDT12_C34340
STMDT12_C34350	operon_1003	NC_016860.1|gene3491|STMDT12_C34350
STMDT12_C34360	operon_1003	NC_016860.1|gene3492|STMDT12_C34360
STMDT12_C34370	operon_1003	NC_016860.1|gene3493|STMDT12_C34370
STMDT12_C34380	operon_1003	NC_016860.1|gene3494|STMDT12_C34380
STMDT12_C34390	operon_1003	NC_016860.1|gene3495|STMDT12_C34390
STMDT12_C34400	operon_1003	NC_016860.1|gene3496|STMDT12_C34400
STMDT12_C34410	operon_1003	NC_016860.1|gene3497|STMDT12_C34410|panF
STMDT12_C34420	operon_1003	NC_016860.1|gene3498|STMDT12_C34420|prmA
STMDT12_C34430	operon_1003	NC_016860.1|gene3499|STMDT12_C34430
STMDT12_C34440	operon_1003	NC_016860.1|gene3500|STMDT12_C34440|fis
STMDT12_C34450	operon_1003	NC_016860.1|gene3501|STMDT12_C34450
STMDT12_C34460	operon_1003	NC_016860.1|gene3502|STMDT12_C34460
STMDT12_C34470	operon_1003	NC_016860.1|gene3503|STMDT12_C34470
STMDT12_C34480	operon_1004	NC_016860.1|gene3504|STMDT12_C34480
STMDT12_C34490	operon_1005	NC_016860.1|gene3505|STMDT12_C34490
STMDT12_C34500	operon_1005	NC_016860.1|gene3506|STMDT12_C34500
STMDT12_C34510	operon_1005	NC_016860.1|gene3507|STMDT12_C34510
STMDT12_Cr0070	operon_1006	NC_016860.1|gene3508|STMDT12_Cr0070
STMDT12_Ct0570	operon_1006	NC_016860.1|gene3509|STMDT12_Ct0570
STMDT12_Cr0080	operon_1006	NC_016860.1|gene3510|STMDT12_Cr0080
STMDT12_Cr0090	operon_1006	NC_016860.1|gene3511|STMDT12_Cr0090
STMDT12_Ct0580	operon_1006	NC_016860.1|gene3512|STMDT12_Ct0580
STMDT12_Cr0100	operon_1006	NC_016860.1|gene3513|STMDT12_Cr0100
STMDT12_C34520	operon_1006	NC_016860.1|gene3514|STMDT12_C34520
STMDT12_C34530	operon_1007	NC_016860.1|gene3515|STMDT12_C34530
STMDT12_C34540	operon_1008	NC_016860.1|gene3516|STMDT12_C34540
STMDT12_C34550	operon_1008	NC_016860.1|gene3517|STMDT12_C34550|aroE
STMDT12_C34560	operon_1008	NC_016860.1|gene3518|STMDT12_C34560
STMDT12_C34570	operon_1008	NC_016860.1|gene3519|STMDT12_C34570
STMDT12_C34580	operon_1008	NC_016860.1|gene3520|STMDT12_C34580
STMDT12_C34590	operon_1008	NC_016860.1|gene3521|STMDT12_C34590
STMDT12_C34600	operon_1009	NC_016860.1|gene3522|STMDT12_C34600|def
STMDT12_C34610	operon_1009	NC_016860.1|gene3523|STMDT12_C34610|fmt
STMDT12_C34620	operon_1009	NC_016860.1|gene3524|STMDT12_C34620|rsmB
STMDT12_C34630	operon_1009	NC_016860.1|gene3525|STMDT12_C34630|trkA
STMDT12_C34640	operon_1009	NC_016860.1|gene3526|STMDT12_C34640|mscL
STMDT12_C34650	operon_1010	NC_016860.1|gene3527|STMDT12_C34650|mscL
STMDT12_C34660	operon_1010	NC_016860.1|gene3528|STMDT12_C34660|zntR
STMDT12_C34670	operon_1010	NC_016860.1|gene3529|STMDT12_C34670
STMDT12_C34680	operon_1010	NC_016860.1|gene3530|STMDT12_C34680|rplQ
STMDT12_C34690	operon_1010	NC_016860.1|gene3531|STMDT12_C34690
STMDT12_C34700	operon_1010	NC_016860.1|gene3532|STMDT12_C34700|rpsD
STMDT12_C34710	operon_1010	NC_016860.1|gene3533|STMDT12_C34710|rpsK
STMDT12_C34720	operon_1010	NC_016860.1|gene3534|STMDT12_C34720|rpsM
STMDT12_C34730	operon_1010	NC_016860.1|gene3535|STMDT12_C34730|rpmJ1
STMDT12_C34740	operon_1010	NC_016860.1|gene3536|STMDT12_C34740|secY
STMDT12_C34750	operon_1010	NC_016860.1|gene3537|STMDT12_C34750|rplO
STMDT12_C34760	operon_1010	NC_016860.1|gene3538|STMDT12_C34760|rpmD
STMDT12_C34770	operon_1010	NC_016860.1|gene3539|STMDT12_C34770|rpsE
STMDT12_C34780	operon_1010	NC_016860.1|gene3540|STMDT12_C34780|rplR
STMDT12_C34790	operon_1010	NC_016860.1|gene3541|STMDT12_C34790|rplF
STMDT12_C34800	operon_1010	NC_016860.1|gene3542|STMDT12_C34800|rpsH
STMDT12_C34810	operon_1010	NC_016860.1|gene3543|STMDT12_C34810|rpsN
STMDT12_C34820	operon_1010	NC_016860.1|gene3544|STMDT12_C34820|rplE
STMDT12_C34830	operon_1010	NC_016860.1|gene3545|STMDT12_C34830|rplX
STMDT12_C34840	operon_1010	NC_016860.1|gene3546|STMDT12_C34840|rplN
STMDT12_C34850	operon_1010	NC_016860.1|gene3547|STMDT12_C34850|rpsQ
STMDT12_C34860	operon_1010	NC_016860.1|gene3548|STMDT12_C34860|rpmC
STMDT12_C34870	operon_1010	NC_016860.1|gene3549|STMDT12_C34870|rplP
STMDT12_C34880	operon_1010	NC_016860.1|gene3550|STMDT12_C34880|rpsC
STMDT12_C34890	operon_1010	NC_016860.1|gene3551|STMDT12_C34890|rplV
STMDT12_C34900	operon_1010	NC_016860.1|gene3552|STMDT12_C34900|rpsS
STMDT12_C34910	operon_1010	NC_016860.1|gene3553|STMDT12_C34910|rplB
STMDT12_C34920	operon_1010	NC_016860.1|gene3554|STMDT12_C34920|rplW
STMDT12_C34930	operon_1010	NC_016860.1|gene3555|STMDT12_C34930|rplD
STMDT12_C34940	operon_1010	NC_016860.1|gene3556|STMDT12_C34940|rplC
STMDT12_C34950	operon_1010	NC_016860.1|gene3557|STMDT12_C34950|rpsJ
STMDT12_C34960	operon_1011	NC_016860.1|gene3558|STMDT12_C34960
STMDT12_C34970	operon_1012	NC_016860.1|gene3559|STMDT12_C34970
STMDT12_C34980	operon_1012	NC_016860.1|gene3560|STMDT12_C34980
STMDT12_C34990	operon_1012	NC_016860.1|gene3561|STMDT12_C34990
STMDT12_C35000	operon_1012	NC_016860.1|gene3562|STMDT12_C35000
STMDT12_C35010	operon_1012	NC_016860.1|gene3563|STMDT12_C35010|rpsG
STMDT12_C35020	operon_1012	NC_016860.1|gene3564|STMDT12_C35020|rpsL
STMDT12_C35030	operon_1012	NC_016860.1|gene3565|STMDT12_C35030
STMDT12_C35040	operon_1012	NC_016860.1|gene3566|STMDT12_C35040
STMDT12_C35050	operon_1012	NC_016860.1|gene3567|STMDT12_C35050
STMDT12_C35060	operon_1012	NC_016860.1|gene3568|STMDT12_C35060
STMDT12_C35070	operon_1012	NC_016860.1|gene3569|STMDT12_C35070
STMDT12_C35080	operon_1013	NC_016860.1|gene3570|STMDT12_C35080
STMDT12_C35090	operon_1014	NC_016860.1|gene3571|STMDT12_C35090
STMDT12_C35100	operon_1014	NC_016860.1|gene3572|STMDT12_C35100
STMDT12_C35110	operon_1014	NC_016860.1|gene3573|STMDT12_C35110
STMDT12_C35120	operon_1014	NC_016860.1|gene3574|STMDT12_C35120
STMDT12_C35130	operon_1015	NC_016860.1|gene3575|STMDT12_C35130
STMDT12_C35140	operon_1015	NC_016860.1|gene3576|STMDT12_C35140
STMDT12_C35150	operon_1016	NC_016860.1|gene3577|STMDT12_C35150
STMDT12_C35160	operon_1017	NC_016860.1|gene3578|STMDT12_C35160
STMDT12_C35170	operon_1017	NC_016860.1|gene3579|STMDT12_C35170
STMDT12_C35180	operon_1017	NC_016860.1|gene3580|STMDT12_C35180
STMDT12_C35190	operon_1018	NC_016860.1|gene3581|STMDT12_C35190
STMDT12_C35200	operon_1019	NC_016860.1|gene3582|STMDT12_C35200
STMDT12_C35210	operon_1019	NC_016860.1|gene3583|STMDT12_C35210
STMDT12_C35220	operon_1019	NC_016860.1|gene3584|STMDT12_C35220
STMDT12_C35230	operon_1020	NC_016860.1|gene3585|STMDT12_C35230|argD
STMDT12_C35240	operon_1020	NC_016860.1|gene3586|STMDT12_C35240
STMDT12_C35250	operon_1020	NC_016860.1|gene3587|STMDT12_C35250
STMDT12_C35260	operon_1020	NC_016860.1|gene3588|STMDT12_C35260
STMDT12_C35270	operon_1020	NC_016860.1|gene3589|STMDT12_C35270|ppiA
STMDT12_C35280	operon_1021	NC_016860.1|gene3590|STMDT12_C35280
STMDT12_C35290	operon_1021	NC_016860.1|gene3591|STMDT12_C35290
STMDT12_C35300	operon_1021	NC_016860.1|gene3592|STMDT12_C35300|nirD
STMDT12_C35310	operon_1021	NC_016860.1|gene3593|STMDT12_C35310
STMDT12_C35320	operon_1021	NC_016860.1|gene3594|STMDT12_C35320|cysG
STMDT12_C35330	operon_1021	NC_016860.1|gene3595|STMDT12_C35330
STMDT12_C35340	operon_1022	NC_016860.1|gene3596|STMDT12_C35340
STMDT12_C35350	operon_1023	NC_016860.1|gene3597|STMDT12_C35350
STMDT12_C35360	operon_1024	NC_016860.1|gene3598|STMDT12_C35360
STMDT12_C35370	operon_1024	NC_016860.1|gene3599|STMDT12_C35370
STMDT12_C35380	operon_1024	NC_016860.1|gene3600|STMDT12_C35380
STMDT12_C35390	operon_1024	NC_016860.1|gene3601|STMDT12_C35390
STMDT12_C35400	operon_1024	NC_016860.1|gene3602|STMDT12_C35400
STMDT12_C35410	operon_1024	NC_016860.1|gene3603|STMDT12_C35410|aroB
STMDT12_C35420	operon_1024	NC_016860.1|gene3604|STMDT12_C35420|aroK
STMDT12_C35430	operon_1024	NC_016860.1|gene3605|STMDT12_C35430|hofQ
STMDT12_C35440	operon_1024	NC_016860.1|gene3606|STMDT12_C35440|hofQ
STMDT12_C35450	operon_1024	NC_016860.1|gene3607|STMDT12_C35450
STMDT12_C35460	operon_1024	NC_016860.1|gene3608|STMDT12_C35460
STMDT12_C35470	operon_1024	NC_016860.1|gene3609|STMDT12_C35470
STMDT12_C35480	operon_1025	NC_016860.1|gene3610|STMDT12_C35480|mrcA
STMDT12_C35490	operon_1026	NC_016860.1|gene3611|STMDT12_C35490|nudE
STMDT12_C35500	operon_1027	NC_016860.1|gene3612|STMDT12_C35500
STMDT12_C35510	operon_1027	NC_016860.1|gene3613|STMDT12_C35510
STMDT12_C35520	operon_1027	NC_016860.1|gene3614|STMDT12_C35520
STMDT12_C35530	operon_1027	NC_016860.1|gene3615|STMDT12_C35530|hslO
STMDT12_C35540	operon_1028	NC_016860.1|gene3616|STMDT12_C35540
STMDT12_C35550	operon_1029	NC_016860.1|gene3617|STMDT12_C35550
STMDT12_C35560	operon_1030	NC_016860.1|gene3618|STMDT12_C35560|envZ
STMDT12_C35570	operon_1030	NC_016860.1|gene3619|STMDT12_C35570|ompR
STMDT12_C35580	operon_1031	NC_016860.1|gene3620|STMDT12_C35580|greB
STMDT12_C35590	operon_1031	NC_016860.1|gene3621|STMDT12_C35590
STMDT12_C35600	operon_1031	NC_016860.1|gene3622|STMDT12_C35600|feoA
STMDT12_C35610	operon_1031	NC_016860.1|gene3623|STMDT12_C35610|feoB
STMDT12_C35620	operon_1031	NC_016860.1|gene3624|STMDT12_C35620
STMDT12_C35630	operon_1031	NC_016860.1|gene3625|STMDT12_C35630
STMDT12_C35640	operon_1032	NC_016860.1|gene3626|STMDT12_C35640
STMDT12_C35650	operon_1033	NC_016860.1|gene3627|STMDT12_C35650
STMDT12_C35660	operon_1033	NC_016860.1|gene3628|STMDT12_C35660
STMDT12_C35670	operon_1033	NC_016860.1|gene3629|STMDT12_C35670
STMDT12_C35680	operon_1034	NC_016860.1|gene3630|STMDT12_C35680|malQ
STMDT12_C35690	operon_1034	NC_016860.1|gene3631|STMDT12_C35690
STMDT12_C35700	operon_1035	NC_016860.1|gene3632|STMDT12_C35700
STMDT12_C35710	operon_1036	NC_016860.1|gene3633|STMDT12_C35710
STMDT12_C35720	operon_1036	NC_016860.1|gene3634|STMDT12_C35720
STMDT12_C35730	operon_1036	NC_016860.1|gene3635|STMDT12_C35730
STMDT12_C35740	operon_1036	NC_016860.1|gene3636|STMDT12_C35740
STMDT12_C35750	operon_1036	NC_016860.1|gene3637|STMDT12_C35750
STMDT12_C35760	operon_1036	NC_016860.1|gene3638|STMDT12_C35760
STMDT12_C35770	operon_1037	NC_016860.1|gene3639|STMDT12_C35770|rtcR
STMDT12_C35780	operon_1038	NC_016860.1|gene3640|STMDT12_C35780|rtcR
STMDT12_C35790	operon_1038	NC_016860.1|gene3641|STMDT12_C35790
STMDT12_C35800	operon_1038	NC_016860.1|gene3642|STMDT12_C35800|glpE
STMDT12_C35810	operon_1039	NC_016860.1|gene3643|STMDT12_C35810|glpD
STMDT12_C35820	operon_1040	NC_016860.1|gene3644|STMDT12_C35820
STMDT12_C35830	operon_1040	NC_016860.1|gene3645|STMDT12_C35830
STMDT12_C35840	operon_1040	NC_016860.1|gene3646|STMDT12_C35840|gldA
STMDT12_C35850	operon_1041	NC_016860.1|gene3647|STMDT12_C35850
STMDT12_C35860	operon_1041	NC_016860.1|gene3648|STMDT12_C35860
STMDT12_C35870	operon_1041	NC_016860.1|gene3649|STMDT12_C35870
STMDT12_C35880	operon_1042	NC_016860.1|gene3650|STMDT12_C35880
STMDT12_C35890	operon_1042	NC_016860.1|gene3651|STMDT12_C35890
STMDT12_C35900	operon_1042	NC_016860.1|gene3652|STMDT12_C35900|glgA
STMDT12_C35910	operon_1042	NC_016860.1|gene3653|STMDT12_C35910|glgC
STMDT12_C35920	operon_1042	NC_016860.1|gene3654|STMDT12_C35920
STMDT12_C35930	operon_1042	NC_016860.1|gene3655|STMDT12_C35930
STMDT12_C35940	operon_1042	NC_016860.1|gene3656|STMDT12_C35940
STMDT12_C35950	operon_1042	NC_016860.1|gene3657|STMDT12_C35950
STMDT12_C35960	operon_1042	NC_016860.1|gene3658|STMDT12_C35960|gntK
STMDT12_C35970	operon_1042	NC_016860.1|gene3659|STMDT12_C35970
STMDT12_C35980	operon_1042	NC_016860.1|gene3660|STMDT12_C35980
STMDT12_C35990	operon_1042	NC_016860.1|gene3661|STMDT12_C35990
STMDT12_C36000	operon_1043	NC_016860.1|gene3662|STMDT12_C36000
STMDT12_C36010	operon_1044	NC_016860.1|gene3663|STMDT12_C36010
STMDT12_C36020	operon_1045	NC_016860.1|gene3664|STMDT12_C36020
STMDT12_C36030	operon_1045	NC_016860.1|gene3665|STMDT12_C36030
STMDT12_C36040	operon_1045	NC_016860.1|gene3666|STMDT12_C36040
STMDT12_C36050	operon_1045	NC_016860.1|gene3667|STMDT12_C36050
STMDT12_C36060	operon_1046	NC_016860.1|gene3668|STMDT12_C36060|ggt
STMDT12_C36070	operon_1047	NC_016860.1|gene3669|STMDT12_C36070
STMDT12_C36080	operon_1048	NC_016860.1|gene3670|STMDT12_C36080|ugpQ
STMDT12_C36090	operon_1048	NC_016860.1|gene3671|STMDT12_C36090|ugpC
STMDT12_C36100	operon_1048	NC_016860.1|gene3672|STMDT12_C36100
STMDT12_C36110	operon_1048	NC_016860.1|gene3673|STMDT12_C36110
STMDT12_C36120	operon_1048	NC_016860.1|gene3674|STMDT12_C36120
STMDT12_C36130	operon_1048	NC_016860.1|gene3675|STMDT12_C36130
STMDT12_C36140	operon_1048	NC_016860.1|gene3676|STMDT12_C36140
STMDT12_C36150	operon_1048	NC_016860.1|gene3677|STMDT12_C36150|livF
STMDT12_C36160	operon_1048	NC_016860.1|gene3678|STMDT12_C36160|livG
STMDT12_C36170	operon_1048	NC_016860.1|gene3679|STMDT12_C36170|livM
STMDT12_C36180	operon_1048	NC_016860.1|gene3680|STMDT12_C36180|livM
STMDT12_C36190	operon_1048	NC_016860.1|gene3681|STMDT12_C36190
STMDT12_C36200	operon_1049	NC_016860.1|gene3682|STMDT12_C36200
STMDT12_C36210	operon_1050	NC_016860.1|gene3683|STMDT12_C36210
STMDT12_C36220	operon_1050	NC_016860.1|gene3684|STMDT12_C36220
STMDT12_C36230	operon_1050	NC_016860.1|gene3685|STMDT12_C36230|ftsX
STMDT12_C36240	operon_1050	NC_016860.1|gene3686|STMDT12_C36240|ftsX
STMDT12_C36250	operon_1050	NC_016860.1|gene3687|STMDT12_C36250
STMDT12_C36260	operon_1051	NC_016860.1|gene3688|STMDT12_C36260|rsmD
STMDT12_C36270	operon_1051	NC_016860.1|gene3689|STMDT12_C36270|rsmD
STMDT12_C36280	operon_1052	NC_016860.1|gene3690|STMDT12_C36280
STMDT12_C36290	operon_1053	NC_016860.1|gene3691|STMDT12_C36290
STMDT12_C36300	operon_1053	NC_016860.1|gene3692|STMDT12_C36300|zntA
STMDT12_C36310	operon_1053	NC_016860.1|gene3693|STMDT12_C36310
STMDT12_C36320	operon_1054	NC_016860.1|gene3694|STMDT12_C36320
STMDT12_C36330	operon_1055	NC_016860.1|gene3695|STMDT12_C36330
STMDT12_C36340	operon_1055	NC_016860.1|gene3696|STMDT12_C36340
STMDT12_C36350	operon_1056	NC_016860.1|gene3697|STMDT12_C36350
STMDT12_C36360	operon_1057	NC_016860.1|gene3698|STMDT12_C36360
STMDT12_C36370	operon_1057	NC_016860.1|gene3699|STMDT12_C36370|acpT
STMDT12_C36380	operon_1057	NC_016860.1|gene3700|STMDT12_C36380
STMDT12_C36390	operon_1058	NC_016860.1|gene3701|STMDT12_C36390
STMDT12_C36400	operon_1058	NC_016860.1|gene3702|STMDT12_C36400
STMDT12_C36410	operon_1058	NC_016860.1|gene3703|STMDT12_C36410
STMDT12_C36420	operon_1058	NC_016860.1|gene3704|STMDT12_C36420
STMDT12_C36430	operon_1059	NC_016860.1|gene3705|STMDT12_C36430
STMDT12_C36440	operon_1060	NC_016860.1|gene3706|STMDT12_C36440
STMDT12_C36450	operon_1061	NC_016860.1|gene3707|STMDT12_C36450
STMDT12_C36460	operon_1061	NC_016860.1|gene3708|STMDT12_C36460
STMDT12_C36470	operon_1062	NC_016860.1|gene3709|STMDT12_C36470
STMDT12_C36480	operon_1062	NC_016860.1|gene3710|STMDT12_C36480
STMDT12_C36490	operon_1062	NC_016860.1|gene3711|STMDT12_C36490
STMDT12_C36500	operon_1063	NC_016860.1|gene3712|STMDT12_C36500|yhiR
STMDT12_C36510	operon_1063	NC_016860.1|gene3713|STMDT12_C36510
STMDT12_C36520	operon_1064	NC_016860.1|gene3714|STMDT12_C36520
STMDT12_C36530	operon_1064	NC_016860.1|gene3715|STMDT12_C36530
STMDT12_C36540	operon_1065	NC_016860.1|gene3716|STMDT12_C36540
STMDT12_C36550	operon_1065	NC_016860.1|gene3717|STMDT12_C36550
STMDT12_C36560	operon_1066	NC_016860.1|gene3718|STMDT12_C36560
STMDT12_C36570	operon_1066	NC_016860.1|gene3719|STMDT12_C36570
STMDT12_C36580	operon_1067	NC_016860.1|gene3720|STMDT12_C36580|treF
STMDT12_C36590	operon_1068	NC_016860.1|gene3721|STMDT12_C36590
STMDT12_C36600	operon_1069	NC_016860.1|gene3722|STMDT12_C36600
STMDT12_C36610	operon_1070	NC_016860.1|gene3723|STMDT12_C36610
STMDT12_C36620	operon_1071	NC_016860.1|gene3724|STMDT12_C36620
STMDT12_C36630	operon_1071	NC_016860.1|gene3725|STMDT12_C36630
STMDT12_C36640	operon_1071	NC_016860.1|gene3726|STMDT12_C36640
STMDT12_C36650	operon_1072	NC_016860.1|gene3727|STMDT12_C36650
STMDT12_C36660	operon_1072	NC_016860.1|gene3728|STMDT12_C36660
STMDT12_C36670	operon_1073	NC_016860.1|gene3729|STMDT12_C36670
STMDT12_C36680	operon_1074	NC_016860.1|gene3730|STMDT12_C36680
STMDT12_C36690	operon_1074	NC_016860.1|gene3731|STMDT12_C36690
STMDT12_C36700	operon_1074	NC_016860.1|gene3732|STMDT12_C36700
STMDT12_C36710	operon_1074	NC_016860.1|gene3733|STMDT12_C36710
STMDT12_C36720	operon_1074	NC_016860.1|gene3734|STMDT12_C36720
STMDT12_C36730	operon_1074	NC_016860.1|gene3735|STMDT12_C36730
STMDT12_C36740	operon_1074	NC_016860.1|gene3736|STMDT12_C36740|bcsA
STMDT12_C36750	operon_1074	NC_016860.1|gene3737|STMDT12_C36750|bcsA
STMDT12_C36760	operon_1074	NC_016860.1|gene3738|STMDT12_C36760
STMDT12_C36770	operon_1075	NC_016860.1|gene3739|STMDT12_C36770
STMDT12_C36780	operon_1075	NC_016860.1|gene3740|STMDT12_C36780
STMDT12_C36790	operon_1075	NC_016860.1|gene3741|STMDT12_C36790
STMDT12_C36800	operon_1076	NC_016860.1|gene3742|STMDT12_C36800
STMDT12_C36810	operon_1077	NC_016860.1|gene3743|STMDT12_C36810
STMDT12_C36820	operon_1077	NC_016860.1|gene3744|STMDT12_C36820
STMDT12_C36830	operon_1078	NC_016860.1|gene3745|STMDT12_C36830|dppF
STMDT12_C36840	operon_1078	NC_016860.1|gene3746|STMDT12_C36840|dppD
STMDT12_C36850	operon_1078	NC_016860.1|gene3747|STMDT12_C36850
STMDT12_C36860	operon_1078	NC_016860.1|gene3748|STMDT12_C36860
STMDT12_C36870	operon_1078	NC_016860.1|gene3749|STMDT12_C36870
STMDT12_C36880	operon_1078	NC_016860.1|gene3750|STMDT12_C36880
STMDT12_C36890	operon_1078	NC_016860.1|gene3751|STMDT12_C36890
STMDT12_C36900	operon_1078	NC_016860.1|gene3752|STMDT12_C36900
STMDT12_C36910	operon_1079	NC_016860.1|gene3753|STMDT12_C36910
STMDT12_Ct0590	operon_1080	NC_016860.1|gene3754|STMDT12_Ct0590
STMDT12_C36920	operon_1080	NC_016860.1|gene3755|STMDT12_C36920
STMDT12_C36930	operon_1080	NC_016860.1|gene3756|STMDT12_C36930|lpfE
STMDT12_C36940	operon_1080	NC_016860.1|gene3757|STMDT12_C36940
STMDT12_C36950	operon_1080	NC_016860.1|gene3758|STMDT12_C36950
STMDT12_C36960	operon_1080	NC_016860.1|gene3759|STMDT12_C36960|lpfB
STMDT12_C36970	operon_1080	NC_016860.1|gene3760|STMDT12_C36970
STMDT12_C36980	operon_1080	NC_016860.1|gene3761|STMDT12_C36980
STMDT12_C36990	operon_1081	NC_016860.1|gene3762|STMDT12_C36990
STMDT12_C37000	operon_1081	NC_016860.1|gene3763|STMDT12_C37000
STMDT12_C37010	operon_1082	NC_016860.1|gene3764|STMDT12_C37010
STMDT12_C37020	operon_1083	NC_016860.1|gene3765|STMDT12_C37020
STMDT12_C37030	operon_1083	NC_016860.1|gene3766|STMDT12_C37030
STMDT12_C37040	operon_1084	NC_016860.1|gene3767|STMDT12_C37040
STMDT12_C37050	operon_1085	NC_016860.1|gene3768|STMDT12_C37050
STMDT12_C37060	operon_1085	NC_016860.1|gene3769|STMDT12_C37060
STMDT12_C37070	operon_1085	NC_016860.1|gene3770|STMDT12_C37070
STMDT12_C37080	operon_1086	NC_016860.1|gene3771|STMDT12_C37080
STMDT12_C37090	operon_1086	NC_016860.1|gene3772|STMDT12_C37090
STMDT12_C37100	operon_1086	NC_016860.1|gene3773|STMDT12_C37100
STMDT12_C37110	operon_1086	NC_016860.1|gene3774|STMDT12_C37110
STMDT12_C37120	operon_1086	NC_016860.1|gene3775|STMDT12_C37120|glyS
STMDT12_C37130	operon_1086	NC_016860.1|gene3776|STMDT12_C37130|glyQ
STMDT12_C37140	operon_1086	NC_016860.1|gene3777|STMDT12_C37140
STMDT12_C37150	operon_1087	NC_016860.1|gene3778|STMDT12_C37150
STMDT12_C37160	operon_1088	NC_016860.1|gene3779|STMDT12_C37160
STMDT12_C37170	operon_1088	NC_016860.1|gene3780|STMDT12_C37170
STMDT12_C37180	operon_1088	NC_016860.1|gene3781|STMDT12_C37180
STMDT12_C37190	operon_1089	NC_016860.1|gene3782|STMDT12_C37190
STMDT12_C37200	operon_1090	NC_016860.1|gene3783|STMDT12_C37200
STMDT12_C37210	operon_1091	NC_016860.1|gene3784|STMDT12_C37210|malS
STMDT12_C37220	operon_1091	NC_016860.1|gene3785|STMDT12_C37220|avtA
STMDT12_C37230	operon_1092	NC_016860.1|gene3786|STMDT12_C37230
STMDT12_C37240	operon_1092	NC_016860.1|gene3787|STMDT12_C37240
STMDT12_C37250	operon_1093	NC_016860.1|gene3788|STMDT12_C37250
STMDT12_C37260	operon_1093	NC_016860.1|gene3789|STMDT12_C37260
STMDT12_C37270	operon_1093	NC_016860.1|gene3790|STMDT12_C37270
STMDT12_C37280	operon_1093	NC_016860.1|gene3791|STMDT12_C37280
STMDT12_C37290	operon_1093	NC_016860.1|gene3792|STMDT12_C37290
STMDT12_C37300	operon_1093	NC_016860.1|gene3793|STMDT12_C37300
STMDT12_C37310	operon_1093	NC_016860.1|gene3794|STMDT12_C37310
STMDT12_C37320	operon_1093	NC_016860.1|gene3795|STMDT12_C37320|sgbH
STMDT12_C37330	operon_1093	NC_016860.1|gene3796|STMDT12_C37330|sgbH
STMDT12_C37340	operon_1093	NC_016860.1|gene3797|STMDT12_C37340|sgbE
STMDT12_C37350	operon_1094	NC_016860.1|gene3798|STMDT12_C37350
STMDT12_C37360	operon_1095	NC_016860.1|gene3799|STMDT12_C37360
STMDT12_C37370	operon_1096	NC_016860.1|gene3800|STMDT12_C37370
STMDT12_C37380	operon_1097	NC_016860.1|gene3801|STMDT12_C37380
STMDT12_C37390	operon_1098	NC_016860.1|gene3802|STMDT12_C37390|selB
STMDT12_C37400	operon_1098	NC_016860.1|gene3803|STMDT12_C37400|selA
STMDT12_C37410	operon_1098	NC_016860.1|gene3804|STMDT12_C37410
STMDT12_C37420	operon_1099	NC_016860.1|gene3805|STMDT12_C37420
STMDT12_C37430	operon_1099	NC_016860.1|gene3806|STMDT12_C37430
STMDT12_C37440	operon_1099	NC_016860.1|gene3807|STMDT12_C37440|mtlR
STMDT12_C37450	operon_1100	NC_016860.1|gene3808|STMDT12_C37450
STMDT12_C37460	operon_1101	NC_016860.1|gene3809|STMDT12_C37460
STMDT12_C37470	operon_1101	NC_016860.1|gene3810|STMDT12_C37470
STMDT12_C37480	operon_1101	NC_016860.1|gene3811|STMDT12_C37480
STMDT12_C37490	operon_1101	NC_016860.1|gene3812|STMDT12_C37490
STMDT12_C37500	operon_1101	NC_016860.1|gene3813|STMDT12_C37500
STMDT12_C37510	operon_1101	NC_016860.1|gene3814|STMDT12_C37510|lldD
STMDT12_C37520	operon_1101	NC_016860.1|gene3815|STMDT12_C37520
STMDT12_C37530	operon_1102	NC_016860.1|gene3816|STMDT12_C37530
STMDT12_C37540	operon_1103	NC_016860.1|gene3817|STMDT12_C37540
STMDT12_C37550	operon_1103	NC_016860.1|gene3818|STMDT12_C37550
STMDT12_C37560	operon_1104	NC_016860.1|gene3819|STMDT12_C37560|cysE
STMDT12_C37570	operon_1104	NC_016860.1|gene3820|STMDT12_C37570|gpsA
STMDT12_C37580	operon_1104	NC_016860.1|gene3821|STMDT12_C37580|gpsA
STMDT12_C37590	operon_1104	NC_016860.1|gene3822|STMDT12_C37590
STMDT12_C37600	operon_1104	NC_016860.1|gene3823|STMDT12_C37600
STMDT12_C37610	operon_1105	NC_016860.1|gene3824|STMDT12_C37610
STMDT12_C37620	operon_1105	NC_016860.1|gene3825|STMDT12_C37620
STMDT12_C37630	operon_1105	NC_016860.1|gene3826|STMDT12_C37630
STMDT12_C37640	operon_1106	NC_016860.1|gene3827|STMDT12_C37640
STMDT12_C37650	operon_1106	NC_016860.1|gene3828|STMDT12_C37650|tdh
STMDT12_C37660	operon_1106	NC_016860.1|gene3829|STMDT12_C37660
STMDT12_C37670	operon_1107	NC_016860.1|gene3830|STMDT12_C37670|rfaD
STMDT12_C37680	operon_1107	NC_016860.1|gene3831|STMDT12_C37680
STMDT12_C37690	operon_1107	NC_016860.1|gene3832|STMDT12_C37690
STMDT12_C37700	operon_1107	NC_016860.1|gene3833|STMDT12_C37700
STMDT12_C37710	operon_1108	NC_016860.1|gene3834|STMDT12_C37710
STMDT12_C37720	operon_1108	NC_016860.1|gene3835|STMDT12_C37720
STMDT12_C37730	operon_1108	NC_016860.1|gene3836|STMDT12_C37730
STMDT12_C37740	operon_1108	NC_016860.1|gene3837|STMDT12_C37740
STMDT12_C37750	operon_1108	NC_016860.1|gene3838|STMDT12_C37750
STMDT12_C37760	operon_1108	NC_016860.1|gene3839|STMDT12_C37760|rfaB
STMDT12_C37770	operon_1108	NC_016860.1|gene3840|STMDT12_C37770
STMDT12_C37780	operon_1108	NC_016860.1|gene3841|STMDT12_C37780
STMDT12_C37790	operon_1108	NC_016860.1|gene3842|STMDT12_C37790
STMDT12_C37800	operon_1108	NC_016860.1|gene3843|STMDT12_C37800
STMDT12_C37810	operon_1109	NC_016860.1|gene3844|STMDT12_C37810
STMDT12_C37820	operon_1109	NC_016860.1|gene3845|STMDT12_C37820|coaD
STMDT12_C37830	operon_1110	NC_016860.1|gene3846|STMDT12_C37830
STMDT12_C37840	operon_1110	NC_016860.1|gene3847|STMDT12_C37840|rpmG
STMDT12_C37850	operon_1110	NC_016860.1|gene3848|STMDT12_C37850|rpmB
STMDT12_C37860	operon_1110	NC_016860.1|gene3849|STMDT12_C37860|radC
STMDT12_C37870	operon_1111	NC_016860.1|gene3850|STMDT12_C37870
STMDT12_C37880	operon_1111	NC_016860.1|gene3851|STMDT12_C37880|dut
STMDT12_C37890	operon_1111	NC_016860.1|gene3852|STMDT12_C37890|slmA
STMDT12_C37900	operon_1112	NC_016860.1|gene3853|STMDT12_C37900|pyrE
STMDT12_C37910	operon_1112	NC_016860.1|gene3854|STMDT12_C37910|rph
STMDT12_C37920	operon_1113	NC_016860.1|gene3855|STMDT12_C37920
STMDT12_C37930	operon_1114	NC_016860.1|gene3856|STMDT12_C37930
STMDT12_C37940	operon_1115	NC_016860.1|gene3857|STMDT12_C37940
STMDT12_C37950	operon_1115	NC_016860.1|gene3858|STMDT12_C37950
STMDT12_C37960	operon_1116	NC_016860.1|gene3859|STMDT12_C37960|ligB
STMDT12_C37970	operon_1117	NC_016860.1|gene3860|STMDT12_C37970|gmk
STMDT12_C37980	operon_1117	NC_016860.1|gene3861|STMDT12_C37980|rpoZ
STMDT12_C37990	operon_1117	NC_016860.1|gene3862|STMDT12_C37990|spoT
STMDT12_C38000	operon_1117	NC_016860.1|gene3863|STMDT12_C38000
STMDT12_C38010	operon_1117	NC_016860.1|gene3864|STMDT12_C38010
STMDT12_C38020	operon_1118	NC_016860.1|gene3865|STMDT12_C38020
STMDT12_C38030	operon_1118	NC_016860.1|gene3866|STMDT12_C38030
STMDT12_C38040	operon_1119	NC_016860.1|gene3867|STMDT12_C38040
STMDT12_C38050	operon_1119	NC_016860.1|gene3868|STMDT12_C38050
STMDT12_C38060	operon_1120	NC_016860.1|gene3869|STMDT12_C38060
STMDT12_C38070	operon_1120	NC_016860.1|gene3870|STMDT12_C38070
STMDT12_Ct0600	operon_1121	NC_016860.1|gene3871|STMDT12_Ct0600
STMDT12_C38080	operon_1122	NC_016860.1|gene3872|STMDT12_C38080
STMDT12_C38090	operon_1123	NC_016860.1|gene3873|STMDT12_C38090
STMDT12_C38100	operon_1123	NC_016860.1|gene3874|STMDT12_C38100
STMDT12_C38110	operon_1123	NC_016860.1|gene3875|STMDT12_C38110
STMDT12_C38120	operon_1124	NC_016860.1|gene3876|STMDT12_C38120
STMDT12_C38130	operon_1125	NC_016860.1|gene3877|STMDT12_C38130
STMDT12_C38140	operon_1125	NC_016860.1|gene3878|STMDT12_C38140
STMDT12_C38150	operon_1126	NC_016860.1|gene3879|STMDT12_C38150
STMDT12_C38160	operon_1126	NC_016860.1|gene3880|STMDT12_C38160
STMDT12_C38170	operon_1127	NC_016860.1|gene3881|STMDT12_C38170
STMDT12_C38180	operon_1128	NC_016860.1|gene3882|STMDT12_C38180
STMDT12_C38190	operon_1128	NC_016860.1|gene3883|STMDT12_C38190
STMDT12_C38200	operon_1128	NC_016860.1|gene3884|STMDT12_C38200
STMDT12_C38210	operon_1128	NC_016860.1|gene3885|STMDT12_C38210
STMDT12_C38220	operon_1129	NC_016860.1|gene3886|STMDT12_C38220
STMDT12_C38230	operon_1130	NC_016860.1|gene3887|STMDT12_C38230
STMDT12_C38240	operon_1130	NC_016860.1|gene3888|STMDT12_C38240
STMDT12_C38250	operon_1130	NC_016860.1|gene3889|STMDT12_C38250
STMDT12_C38260	operon_1130	NC_016860.1|gene3890|STMDT12_C38260
STMDT12_C38270	operon_1130	NC_016860.1|gene3891|STMDT12_C38270
STMDT12_C38280	operon_1130	NC_016860.1|gene3892|STMDT12_C38280
STMDT12_C38290	operon_1130	NC_016860.1|gene3893|STMDT12_C38290
STMDT12_C38300	operon_1130	NC_016860.1|gene3894|STMDT12_C38300
STMDT12_C38310	operon_1131	NC_016860.1|gene3895|STMDT12_C38310
STMDT12_C38320	operon_1131	NC_016860.1|gene3896|STMDT12_C38320
STMDT12_C38330	operon_1132	NC_016860.1|gene3897|STMDT12_C38330|nepI
STMDT12_C38340	operon_1133	NC_016860.1|gene3898|STMDT12_C38340
STMDT12_C38350	operon_1133	NC_016860.1|gene3899|STMDT12_C38350
STMDT12_C38360	operon_1134	NC_016860.1|gene3900|STMDT12_C38360
STMDT12_C38370	operon_1134	NC_016860.1|gene3901|STMDT12_C38370
STMDT12_C38380	operon_1134	NC_016860.1|gene3902|STMDT12_C38380
STMDT12_C38390	operon_1134	NC_016860.1|gene3903|STMDT12_C38390
STMDT12_C38400	operon_1134	NC_016860.1|gene3904|STMDT12_C38400
STMDT12_C38410	operon_1134	NC_016860.1|gene3905|STMDT12_C38410
STMDT12_C38420	operon_1134	NC_016860.1|gene3906|STMDT12_C38420
STMDT12_C38430	operon_1135	NC_016860.1|gene3907|STMDT12_C38430
STMDT12_C38440	operon_1135	NC_016860.1|gene3908|STMDT12_C38440
STMDT12_C38450	operon_1136	NC_016860.1|gene3909|STMDT12_C38450
STMDT12_C38460	operon_1137	NC_016860.1|gene3910|STMDT12_C38460
STMDT12_C38470	operon_1137	NC_016860.1|gene3911|STMDT12_C38470
STMDT12_C38480	operon_1137	NC_016860.1|gene3912|STMDT12_C38480
STMDT12_C38490	operon_1137	NC_016860.1|gene3913|STMDT12_C38490
STMDT12_C38500	operon_1138	NC_016860.1|gene3914|STMDT12_C38500
STMDT12_C38510	operon_1138	NC_016860.1|gene3915|STMDT12_C38510
STMDT12_C38520	operon_1138	NC_016860.1|gene3916|STMDT12_C38520
STMDT12_C38530	operon_1138	NC_016860.1|gene3917|STMDT12_C38530
STMDT12_C38540	operon_1138	NC_016860.1|gene3918|STMDT12_C38540
STMDT12_C38550	operon_1138	NC_016860.1|gene3919|STMDT12_C38550
STMDT12_C38560	operon_1138	NC_016860.1|gene3920|STMDT12_C38560
STMDT12_C38570	operon_1138	NC_016860.1|gene3921|STMDT12_C38570
STMDT12_C38580	operon_1139	NC_016860.1|gene3922|STMDT12_C38580
STMDT12_C38590	operon_1140	NC_016860.1|gene3923|STMDT12_C38590
STMDT12_C38600	operon_1140	NC_016860.1|gene3924|STMDT12_C38600
STMDT12_C38610	operon_1140	NC_016860.1|gene3925|STMDT12_C38610
STMDT12_C38620	operon_1140	NC_016860.1|gene3926|STMDT12_C38620
STMDT12_C38630	operon_1140	NC_016860.1|gene3927|STMDT12_C38630
STMDT12_C38640	operon_1140	NC_016860.1|gene3928|STMDT12_C38640
STMDT12_C38650	operon_1141	NC_016860.1|gene3929|STMDT12_C38650
STMDT12_C38660	operon_1141	NC_016860.1|gene3930|STMDT12_C38660
STMDT12_C38670	operon_1142	NC_016860.1|gene3931|STMDT12_C38670
STMDT12_C38680	operon_1142	NC_016860.1|gene3932|STMDT12_C38680
STMDT12_C38690	operon_1143	NC_016860.1|gene3933|STMDT12_C38690
STMDT12_C38700	operon_1144	NC_016860.1|gene3934|STMDT12_C38700
STMDT12_C38710	operon_1144	NC_016860.1|gene3935|STMDT12_C38710
STMDT12_C38720	operon_1145	NC_016860.1|gene3936|STMDT12_C38720
STMDT12_C38730	operon_1146	NC_016860.1|gene3937|STMDT12_C38730
STMDT12_C38740	operon_1147	NC_016860.1|gene3938|STMDT12_C38740
STMDT12_C38750	operon_1147	NC_016860.1|gene3939|STMDT12_C38750
STMDT12_C38760	operon_1148	NC_016860.1|gene3940|STMDT12_C38760
STMDT12_C38770	operon_1148	NC_016860.1|gene3941|STMDT12_C38770
STMDT12_C38780	operon_1149	NC_016860.1|gene3942|STMDT12_C38780
STMDT12_C38790	operon_1150	NC_016860.1|gene3943|STMDT12_C38790
STMDT12_C38800	operon_1150	NC_016860.1|gene3944|STMDT12_C38800
STMDT12_C38810	operon_1150	NC_016860.1|gene3945|STMDT12_C38810
STMDT12_C38820	operon_1150	NC_016860.1|gene3946|STMDT12_C38820
STMDT12_C38830	operon_1151	NC_016860.1|gene3947|STMDT12_C38830
STMDT12_C38840	operon_1151	NC_016860.1|gene3948|STMDT12_C38840
STMDT12_C38850	operon_1151	NC_016860.1|gene3949|STMDT12_C38850
STMDT12_C38860	operon_1151	NC_016860.1|gene3950|STMDT12_C38860
STMDT12_C38870	operon_1151	NC_016860.1|gene3951|STMDT12_C38870
STMDT12_C38880	operon_1151	NC_016860.1|gene3952|STMDT12_C38880
STMDT12_C38890	operon_1151	NC_016860.1|gene3953|STMDT12_C38890
STMDT12_C38900	operon_1152	NC_016860.1|gene3954|STMDT12_C38900
STMDT12_C38910	operon_1152	NC_016860.1|gene3955|STMDT12_C38910
STMDT12_C38930	operon_1152	NC_016860.1|gene3956|STMDT12_C38930
STMDT12_C38940	operon_1152	NC_016860.1|gene3957|STMDT12_C38940
STMDT12_C38950	operon_1153	NC_016860.1|gene3958|STMDT12_C38950
STMDT12_C38960	operon_1154	NC_016860.1|gene3959|STMDT12_C38960
STMDT12_C38970	operon_1154	NC_016860.1|gene3960|STMDT12_C38970
STMDT12_C38980	operon_1154	NC_016860.1|gene3961|STMDT12_C38980
STMDT12_C38990	operon_1154	NC_016860.1|gene3962|STMDT12_C38990
STMDT12_C39000	operon_1154	NC_016860.1|gene3963|STMDT12_C39000
STMDT12_C39010	operon_1154	NC_016860.1|gene3964|STMDT12_C39010
STMDT12_C39020	operon_1154	NC_016860.1|gene3965|STMDT12_C39020
STMDT12_C39030	operon_1154	NC_016860.1|gene3966|STMDT12_C39030
STMDT12_C39040	operon_1154	NC_016860.1|gene3967|STMDT12_C39040
STMDT12_C39050	operon_1154	NC_016860.1|gene3968|STMDT12_C39050
STMDT12_C39060	operon_1154	NC_016860.1|gene3969|STMDT12_C39060
STMDT12_C39070	operon_1154	NC_016860.1|gene3970|STMDT12_C39070
STMDT12_C39080	operon_1155	NC_016860.1|gene3971|STMDT12_C39080
STMDT12_C39090	operon_1155	NC_016860.1|gene3972|STMDT12_C39090
STMDT12_C39100	operon_1155	NC_016860.1|gene3973|STMDT12_C39100
STMDT12_C39110	operon_1156	NC_016860.1|gene3974|STMDT12_C39110
STMDT12_C39120	operon_1157	NC_016860.1|gene3975|STMDT12_C39120
STMDT12_C39130	operon_1158	NC_016860.1|gene3976|STMDT12_C39130
STMDT12_C39140	operon_1158	NC_016860.1|gene3977|STMDT12_C39140
STMDT12_C39150	operon_1158	NC_016860.1|gene3978|STMDT12_C39150
STMDT12_C39160	operon_1158	NC_016860.1|gene3979|STMDT12_C39160
STMDT12_C39170	operon_1159	NC_016860.1|gene3980|STMDT12_C39170
STMDT12_C39180	operon_1160	NC_016860.1|gene3981|STMDT12_C39180
STMDT12_C39190	operon_1160	NC_016860.1|gene3982|STMDT12_C39190
STMDT12_C39200	operon_1160	NC_016860.1|gene3983|STMDT12_C39200
STMDT12_C39210	operon_1160	NC_016860.1|gene3984|STMDT12_C39210
STMDT12_C39220	operon_1160	NC_016860.1|gene3985|STMDT12_C39220
STMDT12_C39230	operon_1161	NC_016860.1|gene3986|STMDT12_C39230
STMDT12_C39240	operon_1161	NC_016860.1|gene3987|STMDT12_C39240
STMDT12_C39250	operon_1161	NC_016860.1|gene3988|STMDT12_C39250
STMDT12_C39260	operon_1161	NC_016860.1|gene3989|STMDT12_C39260
STMDT12_C39270	operon_1162	NC_016860.1|gene3990|STMDT12_C39270
STMDT12_C39280	operon_1163	NC_016860.1|gene3991|STMDT12_C39280
STMDT12_C39290	operon_1164	NC_016860.1|gene3992|STMDT12_C39290
STMDT12_C39300	operon_1164	NC_016860.1|gene3993|STMDT12_C39300
STMDT12_C39310	operon_1165	NC_016860.1|gene3994|STMDT12_C39310
STMDT12_C39320	operon_1166	NC_016860.1|gene3995|STMDT12_C39320
STMDT12_C39330	operon_1166	NC_016860.1|gene3996|STMDT12_C39330
STMDT12_C39340	operon_1166	NC_016860.1|gene3997|STMDT12_C39340
STMDT12_C39350	operon_1166	NC_016860.1|gene3998|STMDT12_C39350
STMDT12_C39360	operon_1166	NC_016860.1|gene3999|STMDT12_C39360
STMDT12_C39370	operon_1166	NC_016860.1|gene4000|STMDT12_C39370
STMDT12_C39380	operon_1166	NC_016860.1|gene4001|STMDT12_C39380
STMDT12_C39390	operon_1166	NC_016860.1|gene4002|STMDT12_C39390
STMDT12_C39400	operon_1166	NC_016860.1|gene4003|STMDT12_C39400
STMDT12_C39410	operon_1167	NC_016860.1|gene4004|STMDT12_C39410
STMDT12_C39420	operon_1168	NC_016860.1|gene4005|STMDT12_C39420
STMDT12_C39430	operon_1168	NC_016860.1|gene4006|STMDT12_C39430
STMDT12_C39440	operon_1168	NC_016860.1|gene4007|STMDT12_C39440
STMDT12_C39450	operon_1168	NC_016860.1|gene4008|STMDT12_C39450
STMDT12_C39460	operon_1168	NC_016860.1|gene4009|STMDT12_C39460|uhpT
STMDT12_C39470	operon_1168	NC_016860.1|gene4010|STMDT12_C39470
STMDT12_C39480	operon_1168	NC_016860.1|gene4011|STMDT12_C39480
STMDT12_C39490	operon_1168	NC_016860.1|gene4012|STMDT12_C39490
STMDT12_C39500	operon_1168	NC_016860.1|gene4013|STMDT12_C39500
STMDT12_C39510	operon_1168	NC_016860.1|gene4014|STMDT12_C39510
STMDT12_C39520	operon_1168	NC_016860.1|gene4015|STMDT12_C39520
STMDT12_C39530	operon_1169	NC_016860.1|gene4016|STMDT12_C39530
STMDT12_C39540	operon_1170	NC_016860.1|gene4017|STMDT12_C39540
STMDT12_C39550	operon_1170	NC_016860.1|gene4018|STMDT12_C39550
STMDT12_C39560	operon_1171	NC_016860.1|gene4019|STMDT12_C39560
STMDT12_C39570	operon_1171	NC_016860.1|gene4020|STMDT12_C39570|emrD
STMDT12_C39580	operon_1172	NC_016860.1|gene4021|STMDT12_C39580|emrD
STMDT12_C39590	operon_1172	NC_016860.1|gene4022|STMDT12_C39590
STMDT12_C39600	operon_1173	NC_016860.1|gene4023|STMDT12_C39600
STMDT12_C39610	operon_1173	NC_016860.1|gene4024|STMDT12_C39610
STMDT12_C39620	operon_1174	NC_016860.1|gene4025|STMDT12_C39620
STMDT12_C39630	operon_1174	NC_016860.1|gene4026|STMDT12_C39630
STMDT12_C39640	operon_1174	NC_016860.1|gene4027|STMDT12_C39640
STMDT12_C39650	operon_1175	NC_016860.1|gene4028|STMDT12_C39650
STMDT12_C39660	operon_1175	NC_016860.1|gene4029|STMDT12_C39660
STMDT12_C39670	operon_1176	NC_016860.1|gene4030|STMDT12_C39670
STMDT12_C39680	operon_1176	NC_016860.1|gene4031|STMDT12_C39680
STMDT12_C39690	operon_1176	NC_016860.1|gene4032|STMDT12_C39690
STMDT12_C39700	operon_1177	NC_016860.1|gene4033|STMDT12_C39700
STMDT12_C39710	operon_1178	NC_016860.1|gene4034|STMDT12_C39710
STMDT12_C39720	operon_1178	NC_016860.1|gene4035|STMDT12_C39720
STMDT12_C39730	operon_1178	NC_016860.1|gene4036|STMDT12_C39730
STMDT12_C39740	operon_1178	NC_016860.1|gene4037|STMDT12_C39740
STMDT12_C39750	operon_1178	NC_016860.1|gene4038|STMDT12_C39750
STMDT12_C39760	operon_1178	NC_016860.1|gene4039|STMDT12_C39760
STMDT12_C39770	operon_1178	NC_016860.1|gene4040|STMDT12_C39770
STMDT12_C39780	operon_1178	NC_016860.1|gene4041|STMDT12_C39780
STMDT12_C39790	operon_1178	NC_016860.1|gene4042|STMDT12_C39790
STMDT12_C39800	operon_1178	NC_016860.1|gene4043|STMDT12_C39800
STMDT12_C39810	operon_1178	NC_016860.1|gene4044|STMDT12_C39810|torD
STMDT12_C39820	operon_1178	NC_016860.1|gene4045|STMDT12_C39820|torD
STMDT12_C39830	operon_1178	NC_016860.1|gene4046|STMDT12_C39830
STMDT12_C39840	operon_1179	NC_016860.1|gene4047|STMDT12_C39840
STMDT12_C39850	operon_1180	NC_016860.1|gene4048|STMDT12_C39850
STMDT12_C39860	operon_1181	NC_016860.1|gene4049|STMDT12_C39860
STMDT12_C39870	operon_1182	NC_016860.1|gene4050|STMDT12_C39870
STMDT12_C39880	operon_1182	NC_016860.1|gene4051|STMDT12_C39880
STMDT12_C39890	operon_1182	NC_016860.1|gene4052|STMDT12_C39890
STMDT12_C39900	operon_1182	NC_016860.1|gene4053|STMDT12_C39900
STMDT12_C39910	operon_1182	NC_016860.1|gene4054|STMDT12_C39910
STMDT12_C39920	operon_1182	NC_016860.1|gene4055|STMDT12_C39920
STMDT12_C39930	operon_1183	NC_016860.1|gene4056|STMDT12_C39930
STMDT12_C39940	operon_1183	NC_016860.1|gene4057|STMDT12_C39940
STMDT12_C39950	operon_1183	NC_016860.1|gene4058|STMDT12_C39950
STMDT12_C39960	operon_1184	NC_016860.1|gene4059|STMDT12_C39960|gyrB
STMDT12_C39970	operon_1184	NC_016860.1|gene4060|STMDT12_C39970|recF
STMDT12_C39980	operon_1184	NC_016860.1|gene4061|STMDT12_C39980
STMDT12_C39990	operon_1184	NC_016860.1|gene4062|STMDT12_C39990|dnaA
STMDT12_C40000	operon_1185	NC_016860.1|gene4063|STMDT12_C40000|rnpA
STMDT12_C40010	operon_1185	NC_016860.1|gene4064|STMDT12_C40010|rnpA
STMDT12_C40020	operon_1185	NC_016860.1|gene4065|STMDT12_C40020
STMDT12_C40030	operon_1185	NC_016860.1|gene4066|STMDT12_C40030|trmE
STMDT12_C40040	operon_1185	NC_016860.1|gene4067|STMDT12_C40040
STMDT12_C40050	operon_1185	NC_016860.1|gene4068|STMDT12_C40050
STMDT12_C40060	operon_1186	NC_016860.1|gene4069|STMDT12_C40060
STMDT12_C40070	operon_1187	NC_016860.1|gene4070|STMDT12_C40070
STMDT12_C40080	operon_1187	NC_016860.1|gene4071|STMDT12_C40080
STMDT12_C40090	operon_1187	NC_016860.1|gene4072|STMDT12_C40090
STMDT12_C40100	operon_1187	NC_016860.1|gene4073|STMDT12_C40100
STMDT12_C40110	operon_1187	NC_016860.1|gene4074|STMDT12_C40110
STMDT12_C40120	operon_1187	NC_016860.1|gene4075|STMDT12_C40120
STMDT12_C40130	operon_1188	NC_016860.1|gene4076|STMDT12_C40130
STMDT12_C40140	operon_1189	NC_016860.1|gene4077|STMDT12_C40140
STMDT12_C40150	operon_1190	NC_016860.1|gene4078|STMDT12_C40150
STMDT12_C40160	operon_1190	NC_016860.1|gene4079|STMDT12_C40160|pstB
STMDT12_C40170	operon_1190	NC_016860.1|gene4080|STMDT12_C40170|pstA
STMDT12_C40180	operon_1190	NC_016860.1|gene4081|STMDT12_C40180|pstC
STMDT12_C40190	operon_1190	NC_016860.1|gene4082|STMDT12_C40190
STMDT12_C40200	operon_1190	NC_016860.1|gene4083|STMDT12_C40200
STMDT12_C40210	operon_1190	NC_016860.1|gene4084|STMDT12_C40210
STMDT12_C40220	operon_1191	NC_016860.1|gene4085|STMDT12_C40220
STMDT12_C40230	operon_1192	NC_016860.1|gene4086|STMDT12_C40230
STMDT12_C40240	operon_1192	NC_016860.1|gene4087|STMDT12_C40240|glmU
STMDT12_C40250	operon_1192	NC_016860.1|gene4088|STMDT12_C40250
STMDT12_C40260	operon_1192	NC_016860.1|gene4089|STMDT12_C40260|atpC
STMDT12_C40270	operon_1192	NC_016860.1|gene4090|STMDT12_C40270
STMDT12_C40280	operon_1192	NC_016860.1|gene4091|STMDT12_C40280
STMDT12_C40290	operon_1192	NC_016860.1|gene4092|STMDT12_C40290
STMDT12_C40300	operon_1192	NC_016860.1|gene4093|STMDT12_C40300
STMDT12_C40310	operon_1192	NC_016860.1|gene4094|STMDT12_C40310
STMDT12_C40320	operon_1192	NC_016860.1|gene4095|STMDT12_C40320
STMDT12_C40330	operon_1192	NC_016860.1|gene4096|STMDT12_C40330
STMDT12_C40340	operon_1192	NC_016860.1|gene4097|STMDT12_C40340
STMDT12_C40350	operon_1192	NC_016860.1|gene4098|STMDT12_C40350|gidB
STMDT12_C40360	operon_1192	NC_016860.1|gene4099|STMDT12_C40360
STMDT12_C40370	operon_1192	NC_016860.1|gene4100|STMDT12_C40370
STMDT12_C40380	operon_1192	NC_016860.1|gene4101|STMDT12_C40380
STMDT12_C40390	operon_1193	NC_016860.1|gene4102|STMDT12_C40390|asnA
STMDT12_C40400	operon_1194	NC_016860.1|gene4103|STMDT12_C40400|yieM
STMDT12_C40410	operon_1194	NC_016860.1|gene4104|STMDT12_C40410|yieM
STMDT12_C40420	operon_1195	NC_016860.1|gene4105|STMDT12_C40420|trkD
STMDT12_C40430	operon_1195	NC_016860.1|gene4106|STMDT12_C40430
STMDT12_C40440	operon_1195	NC_016860.1|gene4107|STMDT12_C40440
STMDT12_C40450	operon_1195	NC_016860.1|gene4108|STMDT12_C40450|rbsC
STMDT12_C40460	operon_1195	NC_016860.1|gene4109|STMDT12_C40460
STMDT12_C40470	operon_1195	NC_016860.1|gene4110|STMDT12_C40470
STMDT12_C40480	operon_1195	NC_016860.1|gene4111|STMDT12_C40480
STMDT12_C40490	operon_1196	NC_016860.1|gene4112|STMDT12_C40490
STMDT12_C40500	operon_1196	NC_016860.1|gene4113|STMDT12_C40500
STMDT12_Cr0110	operon_1197	NC_016860.1|gene4114|STMDT12_Cr0110
STMDT12_Ct0610	operon_1197	NC_016860.1|gene4115|STMDT12_Ct0610
STMDT12_Cr0120	operon_1197	NC_016860.1|gene4116|STMDT12_Cr0120
STMDT12_Cr0130	operon_1197	NC_016860.1|gene4117|STMDT12_Cr0130
STMDT12_Ct0620	operon_1197	NC_016860.1|gene4118|STMDT12_Ct0620
STMDT12_Ct0630	operon_1197	NC_016860.1|gene4119|STMDT12_Ct0630
STMDT12_C40510	operon_1198	NC_016860.1|gene4120|STMDT12_C40510
STMDT12_C40520	operon_1199	NC_016860.1|gene4121|STMDT12_C40520
STMDT12_C40530	operon_1200	NC_016860.1|gene4122|STMDT12_C40530
STMDT12_C40540	operon_1201	NC_016860.1|gene4123|STMDT12_C40540
STMDT12_C40550	operon_1201	NC_016860.1|gene4124|STMDT12_C40550
STMDT12_C40560	operon_1201	NC_016860.1|gene4125|STMDT12_C40560|ilvM
STMDT12_C40570	operon_1201	NC_016860.1|gene4126|STMDT12_C40570
STMDT12_C40580	operon_1201	NC_016860.1|gene4127|STMDT12_C40580
STMDT12_C40590	operon_1201	NC_016860.1|gene4128|STMDT12_C40590|ilvA
STMDT12_C40600	operon_1201	NC_016860.1|gene4129|STMDT12_C40600
STMDT12_C40610	operon_1201	NC_016860.1|gene4130|STMDT12_C40610
STMDT12_C40620	operon_1202	NC_016860.1|gene4131|STMDT12_C40620
STMDT12_C40630	operon_1203	NC_016860.1|gene4132|STMDT12_C40630
STMDT12_C40640	operon_1204	NC_016860.1|gene4133|STMDT12_C40640|ppiC
STMDT12_C40650	operon_1205	NC_016860.1|gene4134|STMDT12_C40650
STMDT12_C40660	operon_1205	NC_016860.1|gene4135|STMDT12_C40660
STMDT12_C40670	operon_1205	NC_016860.1|gene4136|STMDT12_C40670
STMDT12_C40680	operon_1206	NC_016860.1|gene4137|STMDT12_C40680
STMDT12_C40690	operon_1206	NC_016860.1|gene4138|STMDT12_C40690
STMDT12_C40700	operon_1207	NC_016860.1|gene4139|STMDT12_C40700|trxA
STMDT12_C40710	operon_1207	NC_016860.1|gene4140|STMDT12_C40710|rho
STMDT12_C40720	operon_1207	NC_016860.1|gene4141|STMDT12_C40720
STMDT12_C40730	operon_1207	NC_016860.1|gene4142|STMDT12_C40730
STMDT12_C40740	operon_1207	NC_016860.1|gene4143|STMDT12_C40740
STMDT12_C40750	operon_1207	NC_016860.1|gene4144|STMDT12_C40750|wecC
STMDT12_C40760	operon_1207	NC_016860.1|gene4145|STMDT12_C40760|wecC
STMDT12_C40770	operon_1207	NC_016860.1|gene4146|STMDT12_C40770
STMDT12_C40780	operon_1207	NC_016860.1|gene4147|STMDT12_C40780
STMDT12_C40790	operon_1207	NC_016860.1|gene4148|STMDT12_C40790
STMDT12_C40800	operon_1207	NC_016860.1|gene4149|STMDT12_C40800
STMDT12_C40810	operon_1207	NC_016860.1|gene4150|STMDT12_C40810
STMDT12_C40820	operon_1207	NC_016860.1|gene4151|STMDT12_C40820
STMDT12_C40830	operon_1207	NC_016860.1|gene4152|STMDT12_C40830
STMDT12_C40840	operon_1207	NC_016860.1|gene4153|STMDT12_C40840
STMDT12_Ct0640	operon_1207	NC_016860.1|gene4154|STMDT12_Ct0640
STMDT12_Ct0650	operon_1207	NC_016860.1|gene4155|STMDT12_Ct0650
STMDT12_Ct0660	operon_1207	NC_016860.1|gene4156|STMDT12_Ct0660
STMDT12_Ct0670	operon_1207	NC_016860.1|gene4157|STMDT12_Ct0670
STMDT12_C40850	operon_1208	NC_016860.1|gene4158|STMDT12_C40850
STMDT12_C40860	operon_1208	NC_016860.1|gene4159|STMDT12_C40860
STMDT12_C40870	operon_1208	NC_016860.1|gene4160|STMDT12_C40870|hemD
STMDT12_C40880	operon_1208	NC_016860.1|gene4161|STMDT12_C40880|hemC
STMDT12_C40890	operon_1209	NC_016860.1|gene4162|STMDT12_C40890|cyaA
STMDT12_C40900	operon_1209	NC_016860.1|gene4163|STMDT12_C40900
STMDT12_C40910	operon_1209	NC_016860.1|gene4164|STMDT12_C40910
STMDT12_C40920	operon_1210	NC_016860.1|gene4165|STMDT12_C40920|cyaY
STMDT12_C40930	operon_1210	NC_016860.1|gene4166|STMDT12_C40930
STMDT12_C40940	operon_1210	NC_016860.1|gene4167|STMDT12_C40940
STMDT12_C40950	operon_1211	NC_016860.1|gene4168|STMDT12_C40950
STMDT12_C40960	operon_1211	NC_016860.1|gene4169|STMDT12_C40960|dapF
STMDT12_C40970	operon_1211	NC_016860.1|gene4170|STMDT12_C40970|dapF
STMDT12_C40980	operon_1211	NC_016860.1|gene4171|STMDT12_C40980|xerC
STMDT12_C40990	operon_1211	NC_016860.1|gene4172|STMDT12_C40990|xerC
STMDT12_C41000	operon_1211	NC_016860.1|gene4173|STMDT12_C41000|uvrD
STMDT12_C41010	operon_1211	NC_016860.1|gene4174|STMDT12_C41010
STMDT12_C41020	operon_1212	NC_016860.1|gene4175|STMDT12_C41020
STMDT12_C41030	operon_1212	NC_016860.1|gene4176|STMDT12_C41030
STMDT12_C41040	operon_1212	NC_016860.1|gene4177|STMDT12_C41040
STMDT12_C41050	operon_1212	NC_016860.1|gene4178|STMDT12_C41050
STMDT12_C41060	operon_1213	NC_016860.1|gene4179|STMDT12_C41060
STMDT12_C41070	operon_1213	NC_016860.1|gene4180|STMDT12_C41070
STMDT12_C41080	operon_1213	NC_016860.1|gene4181|STMDT12_C41080|rhtC
STMDT12_C41090	operon_1214	NC_016860.1|gene4182|STMDT12_C41090|rhtB
STMDT12_C41100	operon_1215	NC_016860.1|gene4183|STMDT12_C41100
STMDT12_C41110	operon_1215	NC_016860.1|gene4184|STMDT12_C41110
STMDT12_C41120	operon_1215	NC_016860.1|gene4185|STMDT12_C41120
STMDT12_C41130	operon_1216	NC_016860.1|gene4186|STMDT12_C41130
STMDT12_C41140	operon_1217	NC_016860.1|gene4187|STMDT12_C41140
STMDT12_C41150	operon_1218	NC_016860.1|gene4188|STMDT12_C41150
STMDT12_C41160	operon_1219	NC_016860.1|gene4189|STMDT12_C41160
STMDT12_C41170	operon_1220	NC_016860.1|gene4190|STMDT12_C41170
STMDT12_C41180	operon_1221	NC_016860.1|gene4191|STMDT12_C41180
STMDT12_C41190	operon_1221	NC_016860.1|gene4192|STMDT12_C41190
STMDT12_C41200	operon_1221	NC_016860.1|gene4193|STMDT12_C41200|ubiE
STMDT12_C41210	operon_1221	NC_016860.1|gene4194|STMDT12_C41210
STMDT12_C41220	operon_1221	NC_016860.1|gene4195|STMDT12_C41220|ubiB
STMDT12_C41230	operon_1221	NC_016860.1|gene4196|STMDT12_C41230|tatA
STMDT12_C41240	operon_1221	NC_016860.1|gene4197|STMDT12_C41240
STMDT12_C41250	operon_1221	NC_016860.1|gene4198|STMDT12_C41250
STMDT12_C41260	operon_1221	NC_016860.1|gene4199|STMDT12_C41260
STMDT12_C41270	operon_1222	NC_016860.1|gene4200|STMDT12_C41270|rfaH
STMDT12_C41280	operon_1223	NC_016860.1|gene4201|STMDT12_C41280
STMDT12_C41290	operon_1223	NC_016860.1|gene4202|STMDT12_C41290|fre
STMDT12_C41300	operon_1223	NC_016860.1|gene4203|STMDT12_C41300
STMDT12_C41310	operon_1223	NC_016860.1|gene4204|STMDT12_C41310
STMDT12_C41320	operon_1224	NC_016860.1|gene4205|STMDT12_C41320|fadA
STMDT12_C41330	operon_1224	NC_016860.1|gene4206|STMDT12_C41330|fadB
STMDT12_C41340	operon_1225	NC_016860.1|gene4207|STMDT12_C41340
STMDT12_C41350	operon_1225	NC_016860.1|gene4208|STMDT12_C41350
STMDT12_C41360	operon_1225	NC_016860.1|gene4209|STMDT12_C41360
STMDT12_C41370	operon_1225	NC_016860.1|gene4210|STMDT12_C41370|hemG
STMDT12_Cr0140	operon_1225	NC_016860.1|gene4211|STMDT12_Cr0140
STMDT12_Ct0680	operon_1225	NC_016860.1|gene4212|STMDT12_Ct0680
STMDT12_Ct0690	operon_1225	NC_016860.1|gene4213|STMDT12_Ct0690
STMDT12_Cr0150	operon_1225	NC_016860.1|gene4214|STMDT12_Cr0150
STMDT12_Cr0160	operon_1225	NC_016860.1|gene4215|STMDT12_Cr0160
STMDT12_C41380	operon_1226	NC_016860.1|gene4216|STMDT12_C41380
STMDT12_C41390	operon_1226	NC_016860.1|gene4217|STMDT12_C41390|mobA
STMDT12_C41400	operon_1227	NC_016860.1|gene4218|STMDT12_C41400
STMDT12_C41410	operon_1227	NC_016860.1|gene4219|STMDT12_C41410|rdoA
STMDT12_C41420	operon_1227	NC_016860.1|gene4220|STMDT12_C41420
STMDT12_C41430	operon_1228	NC_016860.1|gene4221|STMDT12_C41430
STMDT12_C41440	operon_1229	NC_016860.1|gene4222|STMDT12_C41440
STMDT12_C41450	operon_1230	NC_016860.1|gene4223|STMDT12_C41450|engB
STMDT12_C41460	operon_1231	NC_016860.1|gene4224|STMDT12_C41460
STMDT12_C41470	operon_1231	NC_016860.1|gene4225|STMDT12_C41470
STMDT12_C41480	operon_1231	NC_016860.1|gene4226|STMDT12_C41480
STMDT12_C41490	operon_1232	NC_016860.1|gene4227|STMDT12_C41490|glnG
STMDT12_C41500	operon_1232	NC_016860.1|gene4228|STMDT12_C41500|glnL
STMDT12_C41510	operon_1232	NC_016860.1|gene4229|STMDT12_C41510|glnA
STMDT12_C41520	operon_1233	NC_016860.1|gene4230|STMDT12_C41520
STMDT12_C41530	operon_1234	NC_016860.1|gene4231|STMDT12_C41530
STMDT12_C41540	operon_1234	NC_016860.1|gene4232|STMDT12_C41540
STMDT12_C41550	operon_1234	NC_016860.1|gene4233|STMDT12_C41550
STMDT12_C41560	operon_1234	NC_016860.1|gene4234|STMDT12_C41560
STMDT12_C41570	operon_1234	NC_016860.1|gene4235|STMDT12_C41570
STMDT12_C41580	operon_1234	NC_016860.1|gene4236|STMDT12_C41580
STMDT12_C41590	operon_1234	NC_016860.1|gene4237|STMDT12_C41590|ompL
STMDT12_C41600	operon_1234	NC_016860.1|gene4238|STMDT12_C41600
STMDT12_C41610	operon_1234	NC_016860.1|gene4239|STMDT12_C41610
STMDT12_C41620	operon_1234	NC_016860.1|gene4240|STMDT12_C41620
STMDT12_C41630	operon_1234	NC_016860.1|gene4241|STMDT12_C41630
STMDT12_C41640	operon_1234	NC_016860.1|gene4242|STMDT12_C41640
STMDT12_C41650	operon_1234	NC_016860.1|gene4243|STMDT12_C41650
STMDT12_C41660	operon_1234	NC_016860.1|gene4244|STMDT12_C41660
STMDT12_C41670	operon_1235	NC_016860.1|gene4245|STMDT12_C41670
STMDT12_C41680	operon_1235	NC_016860.1|gene4246|STMDT12_C41680
STMDT12_C41690	operon_1235	NC_016860.1|gene4247|STMDT12_C41690
STMDT12_C41700	operon_1235	NC_016860.1|gene4248|STMDT12_C41700|rbn
STMDT12_C41710	operon_1235	NC_016860.1|gene4249|STMDT12_C41710|rbn
STMDT12_C41720	operon_1235	NC_016860.1|gene4250|STMDT12_C41720
STMDT12_C41730	operon_1236	NC_016860.1|gene4251|STMDT12_C41730
STMDT12_C41740	operon_1236	NC_016860.1|gene4252|STMDT12_C41740
STMDT12_C41750	operon_1236	NC_016860.1|gene4253|STMDT12_C41750
STMDT12_C41760	operon_1236	NC_016860.1|gene4254|STMDT12_C41760
STMDT12_C41770	operon_1237	NC_016860.1|gene4255|STMDT12_C41770
STMDT12_C41780	operon_1237	NC_016860.1|gene4256|STMDT12_C41780
STMDT12_C41790	operon_1238	NC_016860.1|gene4257|STMDT12_C41790
STMDT12_C41800	operon_1238	NC_016860.1|gene4258|STMDT12_C41800
STMDT12_C41810	operon_1238	NC_016860.1|gene4259|STMDT12_C41810
STMDT12_C41820	operon_1238	NC_016860.1|gene4260|STMDT12_C41820
STMDT12_C41830	operon_1239	NC_016860.1|gene4261|STMDT12_C41830
STMDT12_C41840	operon_1240	NC_016860.1|gene4262|STMDT12_C41840
STMDT12_C41850	operon_1241	NC_016860.1|gene4263|STMDT12_C41850
STMDT12_C41860	operon_1242	NC_016860.1|gene4264|STMDT12_C41860
STMDT12_C41870	operon_1242	NC_016860.1|gene4265|STMDT12_C41870
STMDT12_C41880	operon_1243	NC_016860.1|gene4266|STMDT12_C41880
STMDT12_C41890	operon_1244	NC_016860.1|gene4267|STMDT12_C41890
STMDT12_C41900	operon_1244	NC_016860.1|gene4268|STMDT12_C41900
STMDT12_C41910	operon_1244	NC_016860.1|gene4269|STMDT12_C41910
STMDT12_C41920	operon_1244	NC_016860.1|gene4270|STMDT12_C41920
STMDT12_C41930	operon_1244	NC_016860.1|gene4271|STMDT12_C41930|rhaB
STMDT12_C41940	operon_1245	NC_016860.1|gene4272|STMDT12_C41940
STMDT12_C41950	operon_1245	NC_016860.1|gene4273|STMDT12_C41950
STMDT12_C41960	operon_1246	NC_016860.1|gene4274|STMDT12_C41960
STMDT12_C41970	operon_1247	NC_016860.1|gene4275|STMDT12_C41970
STMDT12_C41980	operon_1247	NC_016860.1|gene4276|STMDT12_C41980
STMDT12_C41990	operon_1248	NC_016860.1|gene4277|STMDT12_C41990
STMDT12_C42000	operon_1248	NC_016860.1|gene4278|STMDT12_C42000
STMDT12_C42010	operon_1248	NC_016860.1|gene4279|STMDT12_C42010
STMDT12_C42020	operon_1249	NC_016860.1|gene4280|STMDT12_C42020
STMDT12_C42030	operon_1249	NC_016860.1|gene4281|STMDT12_C42030
STMDT12_C42040	operon_1249	NC_016860.1|gene4282|STMDT12_C42040
STMDT12_C42050	operon_1250	NC_016860.1|gene4283|STMDT12_C42050|cpxA
STMDT12_C42060	operon_1250	NC_016860.1|gene4284|STMDT12_C42060|cpxA
STMDT12_C42070	operon_1251	NC_016860.1|gene4285|STMDT12_C42070|cpxP
STMDT12_C42080	operon_1251	NC_016860.1|gene4286|STMDT12_C42080|fieF
STMDT12_C42090	operon_1251	NC_016860.1|gene4287|STMDT12_C42090
STMDT12_C42100	operon_1251	NC_016860.1|gene4288|STMDT12_C42100
STMDT12_C42110	operon_1251	NC_016860.1|gene4289|STMDT12_C42110
STMDT12_C42120	operon_1251	NC_016860.1|gene4290|STMDT12_C42120
STMDT12_C42130	operon_1251	NC_016860.1|gene4291|STMDT12_C42130
STMDT12_C42140	operon_1251	NC_016860.1|gene4292|STMDT12_C42140
STMDT12_C42150	operon_1251	NC_016860.1|gene4293|STMDT12_C42150
STMDT12_C42160	operon_1251	NC_016860.1|gene4294|STMDT12_C42160
STMDT12_C42170	operon_1251	NC_016860.1|gene4295|STMDT12_C42170
STMDT12_C42180	operon_1252	NC_016860.1|gene4296|STMDT12_C42180
STMDT12_C42190	operon_1252	NC_016860.1|gene4297|STMDT12_C42190|lsrK
STMDT12_C42200	operon_1252	NC_016860.1|gene4298|STMDT12_C42200
STMDT12_C42210	operon_1253	NC_016860.1|gene4299|STMDT12_C42210
STMDT12_C42220	operon_1253	NC_016860.1|gene4300|STMDT12_C42220
STMDT12_C42230	operon_1253	NC_016860.1|gene4301|STMDT12_C42230
STMDT12_C42240	operon_1253	NC_016860.1|gene4302|STMDT12_C42240
STMDT12_C42250	operon_1253	NC_016860.1|gene4303|STMDT12_C42250
STMDT12_C42260	operon_1253	NC_016860.1|gene4304|STMDT12_C42260|lsrG
STMDT12_C42270	operon_1253	NC_016860.1|gene4305|STMDT12_C42270
STMDT12_C42280	operon_1254	NC_016860.1|gene4306|STMDT12_C42280|tpiA
STMDT12_C42290	operon_1254	NC_016860.1|gene4307|STMDT12_C42290
STMDT12_C42300	operon_1255	NC_016860.1|gene4308|STMDT12_C42300
STMDT12_C42310	operon_1256	NC_016860.1|gene4309|STMDT12_C42310
STMDT12_C42320	operon_1256	NC_016860.1|gene4310|STMDT12_C42320|glpX
STMDT12_C42330	operon_1256	NC_016860.1|gene4311|STMDT12_C42330|glpK
STMDT12_C42340	operon_1256	NC_016860.1|gene4312|STMDT12_C42340
STMDT12_C42350	operon_1257	NC_016860.1|gene4313|STMDT12_C42350
STMDT12_C42360	operon_1258	NC_016860.1|gene4314|STMDT12_C42360
STMDT12_C42370	operon_1258	NC_016860.1|gene4315|STMDT12_C42370
STMDT12_C42380	operon_1258	NC_016860.1|gene4316|STMDT12_C42380|hslU
STMDT12_C42390	operon_1258	NC_016860.1|gene4317|STMDT12_C42390
STMDT12_C42400	operon_1258	NC_016860.1|gene4318|STMDT12_C42400
STMDT12_C42410	operon_1258	NC_016860.1|gene4319|STMDT12_C42410
STMDT12_C42420	operon_1258	NC_016860.1|gene4320|STMDT12_C42420
STMDT12_C42430	operon_1259	NC_016860.1|gene4321|STMDT12_C42430
STMDT12_C42440	operon_1260	NC_016860.1|gene4322|STMDT12_C42440
STMDT12_C42450	operon_1260	NC_016860.1|gene4323|STMDT12_C42450
STMDT12_C42460	operon_1261	NC_016860.1|gene4324|STMDT12_C42460
STMDT12_C42470	operon_1262	NC_016860.1|gene4325|STMDT12_C42470
STMDT12_C42480	operon_1263	NC_016860.1|gene4326|STMDT12_C42480
STMDT12_C42490	operon_1263	NC_016860.1|gene4327|STMDT12_C42490|metL
STMDT12_C42500	operon_1264	NC_016860.1|gene4328|STMDT12_C42500
STMDT12_C42510	operon_1264	NC_016860.1|gene4329|STMDT12_C42510
STMDT12_C42520	operon_1264	NC_016860.1|gene4330|STMDT12_C42520
STMDT12_C42530	operon_1265	NC_016860.1|gene4331|STMDT12_C42530
STMDT12_C42540	operon_1265	NC_016860.1|gene4332|STMDT12_C42540|metF
STMDT12_C42550	operon_1265	NC_016860.1|gene4333|STMDT12_C42550
STMDT12_C42560	operon_1266	NC_016860.1|gene4334|STMDT12_C42560
STMDT12_C42570	operon_1266	NC_016860.1|gene4335|STMDT12_C42570|gldA2
STMDT12_C42580	operon_1266	NC_016860.1|gene4336|STMDT12_C42580
STMDT12_C42590	operon_1266	NC_016860.1|gene4337|STMDT12_C42590
STMDT12_C42600	operon_1267	NC_016860.1|gene4338|STMDT12_C42600
STMDT12_C42610	operon_1267	NC_016860.1|gene4339|STMDT12_C42610
STMDT12_C42620	operon_1267	NC_016860.1|gene4340|STMDT12_C42620|pflD
STMDT12_C42630	operon_1267	NC_016860.1|gene4341|STMDT12_C42630|pflD
STMDT12_C42640	operon_1267	NC_016860.1|gene4342|STMDT12_C42640
STMDT12_C42650	operon_1268	NC_016860.1|gene4343|STMDT12_C42650
STMDT12_C42660	operon_1268	NC_016860.1|gene4344|STMDT12_C42660
STMDT12_C42670	operon_1268	NC_016860.1|gene4345|STMDT12_C42670
STMDT12_C42680	operon_1268	NC_016860.1|gene4346|STMDT12_C42680
STMDT12_C42690	operon_1269	NC_016860.1|gene4347|STMDT12_C42690|argC
STMDT12_C42700	operon_1269	NC_016860.1|gene4348|STMDT12_C42700
STMDT12_C42710	operon_1269	NC_016860.1|gene4349|STMDT12_C42710
STMDT12_C42720	operon_1269	NC_016860.1|gene4350|STMDT12_C42720
STMDT12_C42730	operon_1270	NC_016860.1|gene4351|STMDT12_C42730
STMDT12_C42740	operon_1271	NC_016860.1|gene4352|STMDT12_C42740
STMDT12_C42750	operon_1271	NC_016860.1|gene4353|STMDT12_C42750
STMDT12_C42760	operon_1272	NC_016860.1|gene4354|STMDT12_C42760
STMDT12_C42770	operon_1273	NC_016860.1|gene4355|STMDT12_C42770|btuB
STMDT12_C42780	operon_1273	NC_016860.1|gene4356|STMDT12_C42780
STMDT12_Cr0170	operon_1273	NC_016860.1|gene4357|STMDT12_Cr0170
STMDT12_Ct0700	operon_1273	NC_016860.1|gene4358|STMDT12_Ct0700
STMDT12_Ct0710	operon_1273	NC_016860.1|gene4359|STMDT12_Ct0710
STMDT12_Cr0180	operon_1273	NC_016860.1|gene4360|STMDT12_Cr0180
STMDT12_Cr0190	operon_1273	NC_016860.1|gene4361|STMDT12_Cr0190
STMDT12_C42790	operon_1273	NC_016860.1|gene4362|STMDT12_C42790|murB
STMDT12_C42800	operon_1273	NC_016860.1|gene4363|STMDT12_C42800|murB
STMDT12_C42810	operon_1274	NC_016860.1|gene4364|STMDT12_C42810
STMDT12_Ct0720	operon_1275	NC_016860.1|gene4365|STMDT12_Ct0720
STMDT12_Ct0730	operon_1275	NC_016860.1|gene4366|STMDT12_Ct0730
STMDT12_Ct0740	operon_1275	NC_016860.1|gene4367|STMDT12_Ct0740
STMDT12_Ct0750	operon_1275	NC_016860.1|gene4368|STMDT12_Ct0750
STMDT12_C42820	operon_1275	NC_016860.1|gene4369|STMDT12_C42820
STMDT12_C42830	operon_1275	NC_016860.1|gene4370|STMDT12_C42830|secE
STMDT12_C42840	operon_1275	NC_016860.1|gene4371|STMDT12_C42840|nusG
STMDT12_C42850	operon_1275	NC_016860.1|gene4372|STMDT12_C42850|rplK
STMDT12_C42860	operon_1275	NC_016860.1|gene4373|STMDT12_C42860|rplA
STMDT12_C42870	operon_1275	NC_016860.1|gene4374|STMDT12_C42870|rplJ
STMDT12_C42880	operon_1275	NC_016860.1|gene4375|STMDT12_C42880|rplL
STMDT12_C42890	operon_1275	NC_016860.1|gene4376|STMDT12_C42890|rpoB
STMDT12_C42900	operon_1275	NC_016860.1|gene4377|STMDT12_C42900
STMDT12_C42910	operon_1275	NC_016860.1|gene4378|STMDT12_C42910
STMDT12_C42920	operon_1276	NC_016860.1|gene4379|STMDT12_C42920
STMDT12_C42930	operon_1276	NC_016860.1|gene4380|STMDT12_C42930
STMDT12_C42940	operon_1277	NC_016860.1|gene4381|STMDT12_C42940
STMDT12_C42950	operon_1277	NC_016860.1|gene4382|STMDT12_C42950
STMDT12_C42960	operon_1278	NC_016860.1|gene4383|STMDT12_C42960|thiH
STMDT12_C42970	operon_1278	NC_016860.1|gene4384|STMDT12_C42970|thiG
STMDT12_C42980	operon_1278	NC_016860.1|gene4385|STMDT12_C42980
STMDT12_C42990	operon_1278	NC_016860.1|gene4386|STMDT12_C42990
STMDT12_C43000	operon_1278	NC_016860.1|gene4387|STMDT12_C43000
STMDT12_C43010	operon_1278	NC_016860.1|gene4388|STMDT12_C43010
STMDT12_C43020	operon_1278	NC_016860.1|gene4389|STMDT12_C43020
STMDT12_C43030	operon_1279	NC_016860.1|gene4390|STMDT12_C43030|nudC
STMDT12_C43040	operon_1279	NC_016860.1|gene4391|STMDT12_C43040|hemE
STMDT12_C43050	operon_1279	NC_016860.1|gene4392|STMDT12_C43050
STMDT12_C43060	operon_1279	NC_016860.1|gene4393|STMDT12_C43060
STMDT12_C43070	operon_1279	NC_016860.1|gene4394|STMDT12_C43070
STMDT12_C43080	operon_1279	NC_016860.1|gene4395|STMDT12_C43080
STMDT12_C43090	operon_1280	NC_016860.1|gene4396|STMDT12_C43090|zraP
STMDT12_C43100	operon_1281	NC_016860.1|gene4397|STMDT12_C43100
STMDT12_C43110	operon_1281	NC_016860.1|gene4398|STMDT12_C43110
STMDT12_C43120	operon_1282	NC_016860.1|gene4399|STMDT12_C43120
STMDT12_C43130	operon_1282	NC_016860.1|gene4400|STMDT12_C43130|purH
STMDT12_Cr0200	operon_1283	NC_016860.1|gene4401|STMDT12_Cr0200
STMDT12_Ct0760	operon_1283	NC_016860.1|gene4402|STMDT12_Ct0760
STMDT12_Cr0210	operon_1283	NC_016860.1|gene4403|STMDT12_Cr0210
STMDT12_Cr0220	operon_1283	NC_016860.1|gene4404|STMDT12_Cr0220
STMDT12_C43140	operon_1284	NC_016860.1|gene4405|STMDT12_C43140
STMDT12_C43150	operon_1285	NC_016860.1|gene4406|STMDT12_C43150
STMDT12_C43160	operon_1285	NC_016860.1|gene4407|STMDT12_C43160
STMDT12_C43170	operon_1285	NC_016860.1|gene4408|STMDT12_C43170
STMDT12_C43180	operon_1285	NC_016860.1|gene4409|STMDT12_C43180|aceK
STMDT12_C43190	operon_1286	NC_016860.1|gene4410|STMDT12_C43190|aceK
STMDT12_C43200	operon_1286	NC_016860.1|gene4411|STMDT12_C43200
STMDT12_C43210	operon_1287	NC_016860.1|gene4412|STMDT12_C43210|metH
STMDT12_C43220	operon_1287	NC_016860.1|gene4413|STMDT12_C43220
STMDT12_C43230	operon_1288	NC_016860.1|gene4414|STMDT12_C43230
STMDT12_C43240	operon_1289	NC_016860.1|gene4415|STMDT12_C43240
STMDT12_C43250	operon_1289	NC_016860.1|gene4416|STMDT12_C43250
STMDT12_C43260	operon_1290	NC_016860.1|gene4417|STMDT12_C43260
STMDT12_C43270	operon_1290	NC_016860.1|gene4418|STMDT12_C43270
STMDT12_C43280	operon_1290	NC_016860.1|gene4419|STMDT12_C43280
STMDT12_C43290	operon_1290	NC_016860.1|gene4420|STMDT12_C43290
STMDT12_C43300	operon_1290	NC_016860.1|gene4421|STMDT12_C43300
STMDT12_C43310	operon_1290	NC_016860.1|gene4422|STMDT12_C43310
STMDT12_C43320	operon_1290	NC_016860.1|gene4423|STMDT12_C43320
STMDT12_C43330	operon_1290	NC_016860.1|gene4424|STMDT12_C43330
STMDT12_C43340	operon_1290	NC_016860.1|gene4425|STMDT12_C43340
STMDT12_C43350	operon_1290	NC_016860.1|gene4426|STMDT12_C43350
STMDT12_C43360	operon_1291	NC_016860.1|gene4427|STMDT12_C43360
STMDT12_C43370	operon_1292	NC_016860.1|gene4428|STMDT12_C43370
STMDT12_C43380	operon_1292	NC_016860.1|gene4429|STMDT12_C43380
STMDT12_C43390	operon_1292	NC_016860.1|gene4430|STMDT12_C43390
STMDT12_C43400	operon_1292	NC_016860.1|gene4431|STMDT12_C43400
STMDT12_C43410	operon_1292	NC_016860.1|gene4432|STMDT12_C43410
STMDT12_C43420	operon_1292	NC_016860.1|gene4433|STMDT12_C43420
STMDT12_C43430	operon_1292	NC_016860.1|gene4434|STMDT12_C43430
STMDT12_C43440	operon_1292	NC_016860.1|gene4435|STMDT12_C43440
STMDT12_C43450	operon_1292	NC_016860.1|gene4436|STMDT12_C43450
STMDT12_C43460	operon_1292	NC_016860.1|gene4437|STMDT12_C43460
STMDT12_C43470	operon_1292	NC_016860.1|gene4438|STMDT12_C43470
STMDT12_C43480	operon_1292	NC_016860.1|gene4439|STMDT12_C43480
STMDT12_C43490	operon_1292	NC_016860.1|gene4440|STMDT12_C43490
STMDT12_C43500	operon_1292	NC_016860.1|gene4441|STMDT12_C43500
STMDT12_C43510	operon_1292	NC_016860.1|gene4442|STMDT12_C43510
STMDT12_C43520	operon_1292	NC_016860.1|gene4443|STMDT12_C43520
STMDT12_C43530	operon_1292	NC_016860.1|gene4444|STMDT12_C43530
STMDT12_C43540	operon_1293	NC_016860.1|gene4445|STMDT12_C43540
STMDT12_C43550	operon_1294	NC_016860.1|gene4446|STMDT12_C43550
STMDT12_C43560	operon_1295	NC_016860.1|gene4447|STMDT12_C43560|pgi
STMDT12_C43570	operon_1295	NC_016860.1|gene4448|STMDT12_C43570
STMDT12_C43580	operon_1295	NC_016860.1|gene4449|STMDT12_C43580
STMDT12_C43590	operon_1295	NC_016860.1|gene4450|STMDT12_C43590
STMDT12_C43600	operon_1295	NC_016860.1|gene4451|STMDT12_C43600
STMDT12_C43610	operon_1295	NC_016860.1|gene4452|STMDT12_C43610
STMDT12_C43620	operon_1296	NC_016860.1|gene4453|STMDT12_C43620|malG
STMDT12_C43630	operon_1296	NC_016860.1|gene4454|STMDT12_C43630|malF
STMDT12_C43640	operon_1296	NC_016860.1|gene4455|STMDT12_C43640|malE
STMDT12_C43650	operon_1297	NC_016860.1|gene4456|STMDT12_C43650
STMDT12_C43660	operon_1297	NC_016860.1|gene4457|STMDT12_C43660|lamB
STMDT12_C43670	operon_1297	NC_016860.1|gene4458|STMDT12_C43670
STMDT12_C43680	operon_1297	NC_016860.1|gene4459|STMDT12_C43680
STMDT12_C43690	operon_1297	NC_016860.1|gene4460|STMDT12_C43690|ubiC
STMDT12_C43700	operon_1297	NC_016860.1|gene4461|STMDT12_C43700|ubiA
STMDT12_C43710	operon_1298	NC_016860.1|gene4462|STMDT12_C43710
STMDT12_C43720	operon_1299	NC_016860.1|gene4463|STMDT12_C43720
STMDT12_C43730	operon_1299	NC_016860.1|gene4464|STMDT12_C43730
STMDT12_C43740	operon_1299	NC_016860.1|gene4465|STMDT12_C43740
STMDT12_C43750	operon_1299	NC_016860.1|gene4466|STMDT12_C43750
STMDT12_C43760	operon_1299	NC_016860.1|gene4467|STMDT12_C43760
STMDT12_C43770	operon_1300	NC_016860.1|gene4468|STMDT12_C43770
STMDT12_C43780	operon_1301	NC_016860.1|gene4469|STMDT12_C43780
STMDT12_C43790	operon_1301	NC_016860.1|gene4470|STMDT12_C43790
STMDT12_C43800	operon_1301	NC_016860.1|gene4471|STMDT12_C43800|pspG
STMDT12_C43810	operon_1302	NC_016860.1|gene4472|STMDT12_C43810
STMDT12_C43820	operon_1303	NC_016860.1|gene4473|STMDT12_C43820
STMDT12_C43830	operon_1303	NC_016860.1|gene4474|STMDT12_C43830|alr
STMDT12_C43840	operon_1303	NC_016860.1|gene4475|STMDT12_C43840
STMDT12_C43850	operon_1303	NC_016860.1|gene4476|STMDT12_C43850|aphA
STMDT12_C43860	operon_1303	NC_016860.1|gene4477|STMDT12_C43860
STMDT12_C43870	operon_1303	NC_016860.1|gene4478|STMDT12_C43870
STMDT12_C43880	operon_1304	NC_016860.1|gene4479|STMDT12_C43880
STMDT12_C43890	operon_1304	NC_016860.1|gene4480|STMDT12_C43890
STMDT12_C43900	operon_1304	NC_016860.1|gene4481|STMDT12_C43900|uvrA
STMDT12_C43910	operon_1305	NC_016860.1|gene4482|STMDT12_C43910
STMDT12_C43920	operon_1305	NC_016860.1|gene4483|STMDT12_C43920
STMDT12_C43930	operon_1305	NC_016860.1|gene4484|STMDT12_C43930
STMDT12_C43940	operon_1305	NC_016860.1|gene4485|STMDT12_C43940
STMDT12_C43950	operon_1305	NC_016860.1|gene4486|STMDT12_C43950
STMDT12_C43960	operon_1305	NC_016860.1|gene4487|STMDT12_C43960
STMDT12_C43970	operon_1305	NC_016860.1|gene4488|STMDT12_C43970
STMDT12_C43980	operon_1306	NC_016860.1|gene4489|STMDT12_C43980
STMDT12_C43990	operon_1307	NC_016860.1|gene4490|STMDT12_C43990
STMDT12_C44000	operon_1308	NC_016860.1|gene4491|STMDT12_C44000
STMDT12_C44010	operon_1309	NC_016860.1|gene4492|STMDT12_C44010
STMDT12_C44020	operon_1309	NC_016860.1|gene4493|STMDT12_C44020
STMDT12_C44030	operon_1309	NC_016860.1|gene4494|STMDT12_C44030
STMDT12_C44040	operon_1310	NC_016860.1|gene4495|STMDT12_C44040
STMDT12_C44050	operon_1311	NC_016860.1|gene4496|STMDT12_C44050
STMDT12_C44060	operon_1312	NC_016860.1|gene4497|STMDT12_C44060
STMDT12_C44070	operon_1313	NC_016860.1|gene4498|STMDT12_C44070
STMDT12_C44080	operon_1313	NC_016860.1|gene4499|STMDT12_C44080
STMDT12_C44090	operon_1314	NC_016860.1|gene4500|STMDT12_C44090|actP
STMDT12_C44100	operon_1314	NC_016860.1|gene4501|STMDT12_C44100|actP
STMDT12_C44110	operon_1314	NC_016860.1|gene4502|STMDT12_C44110
STMDT12_C44120	operon_1315	NC_016860.1|gene4503|STMDT12_C44120|nrfA
STMDT12_C44130	operon_1315	NC_016860.1|gene4504|STMDT12_C44130
STMDT12_C44140	operon_1315	NC_016860.1|gene4505|STMDT12_C44140
STMDT12_C44150	operon_1315	NC_016860.1|gene4506|STMDT12_C44150
STMDT12_C44160	operon_1315	NC_016860.1|gene4507|STMDT12_C44160
STMDT12_C44170	operon_1315	NC_016860.1|gene4508|STMDT12_C44170
STMDT12_C44180	operon_1315	NC_016860.1|gene4509|STMDT12_C44180|gltP
STMDT12_C44190	operon_1316	NC_016860.1|gene4510|STMDT12_C44190
STMDT12_C44200	operon_1316	NC_016860.1|gene4511|STMDT12_C44200
STMDT12_C44210	operon_1316	NC_016860.1|gene4512|STMDT12_C44210
STMDT12_C44220	operon_1316	NC_016860.1|gene4513|STMDT12_C44220
STMDT12_C44230	operon_1316	NC_016860.1|gene4514|STMDT12_C44230
STMDT12_C44240	operon_1316	NC_016860.1|gene4515|STMDT12_C44240
STMDT12_C44250	operon_1317	NC_016860.1|gene4516|STMDT12_C44250
STMDT12_C44260	operon_1317	NC_016860.1|gene4517|STMDT12_C44260
STMDT12_C44270	operon_1318	NC_016860.1|gene4518|STMDT12_C44270
STMDT12_C44280	operon_1318	NC_016860.1|gene4519|STMDT12_C44280
STMDT12_C44290	operon_1318	NC_016860.1|gene4520|STMDT12_C44290
STMDT12_C44300	operon_1318	NC_016860.1|gene4521|STMDT12_C44300
STMDT12_C44310	operon_1319	NC_016860.1|gene4522|STMDT12_C44310
STMDT12_C44320	operon_1319	NC_016860.1|gene4523|STMDT12_C44320
STMDT12_C44330	operon_1320	NC_016860.1|gene4524|STMDT12_C44330
STMDT12_C44340	operon_1320	NC_016860.1|gene4525|STMDT12_C44340
STMDT12_C44350	operon_1320	NC_016860.1|gene4526|STMDT12_C44350
STMDT12_C44360	operon_1320	NC_016860.1|gene4527|STMDT12_C44360
STMDT12_C44370	operon_1321	NC_016860.1|gene4528|STMDT12_C44370
STMDT12_C44380	operon_1321	NC_016860.1|gene4529|STMDT12_C44380
STMDT12_C44390	operon_1321	NC_016860.1|gene4530|STMDT12_C44390
STMDT12_C44400	operon_1321	NC_016860.1|gene4531|STMDT12_C44400
STMDT12_C44410	operon_1322	NC_016860.1|gene4532|STMDT12_C44410
STMDT12_C44420	operon_1323	NC_016860.1|gene4533|STMDT12_C44420
STMDT12_C44430	operon_1323	NC_016860.1|gene4534|STMDT12_C44430
STMDT12_C44440	operon_1324	NC_016860.1|gene4535|STMDT12_C44440
STMDT12_C44450	operon_1324	NC_016860.1|gene4536|STMDT12_C44450
STMDT12_C44460	operon_1324	NC_016860.1|gene4537|STMDT12_C44460
STMDT12_C44470	operon_1324	NC_016860.1|gene4538|STMDT12_C44470
STMDT12_C44480	operon_1325	NC_016860.1|gene4539|STMDT12_C44480
STMDT12_C44490	operon_1325	NC_016860.1|gene4540|STMDT12_C44490
STMDT12_C44500	operon_1325	NC_016860.1|gene4541|STMDT12_C44500
STMDT12_C44510	operon_1326	NC_016860.1|gene4542|STMDT12_C44510
STMDT12_C44520	operon_1326	NC_016860.1|gene4543|STMDT12_C44520
STMDT12_C44530	operon_1327	NC_016860.1|gene4544|STMDT12_C44530
STMDT12_Ct0770	operon_1328	NC_016860.1|gene4545|STMDT12_Ct0770
STMDT12_C44540	operon_1328	NC_016860.1|gene4546|STMDT12_C44540
STMDT12_C44550	operon_1328	NC_016860.1|gene4547|STMDT12_C44550|dipZ
STMDT12_C44560	operon_1328	NC_016860.1|gene4548|STMDT12_C44560|dipZ
STMDT12_C44570	operon_1328	NC_016860.1|gene4549|STMDT12_C44570
STMDT12_C44580	operon_1328	NC_016860.1|gene4550|STMDT12_C44580|aspA
STMDT12_C44590	operon_1329	NC_016860.1|gene4551|STMDT12_C44590|fxsA
STMDT12_C44600	operon_1330	NC_016860.1|gene4552|STMDT12_C44600
STMDT12_C44610	operon_1331	NC_016860.1|gene4553|STMDT12_C44610
STMDT12_C44620	operon_1331	NC_016860.1|gene4554|STMDT12_C44620|groEL
STMDT12_C44630	operon_1331	NC_016860.1|gene4555|STMDT12_C44630
STMDT12_C44640	operon_1332	NC_016860.1|gene4556|STMDT12_C44640
STMDT12_C44650	operon_1332	NC_016860.1|gene4557|STMDT12_C44650
STMDT12_C44660	operon_1333	NC_016860.1|gene4558|STMDT12_C44660
STMDT12_C44670	operon_1333	NC_016860.1|gene4559|STMDT12_C44670
STMDT12_C44680	operon_1333	NC_016860.1|gene4560|STMDT12_C44680
STMDT12_C44690	operon_1334	NC_016860.1|gene4561|STMDT12_C44690
STMDT12_C44700	operon_1335	NC_016860.1|gene4562|STMDT12_C44700
STMDT12_C44710	operon_1336	NC_016860.1|gene4563|STMDT12_C44710
STMDT12_C44720	operon_1336	NC_016860.1|gene4564|STMDT12_C44720
STMDT12_C44730	operon_1336	NC_016860.1|gene4565|STMDT12_C44730
STMDT12_C44740	operon_1336	NC_016860.1|gene4566|STMDT12_C44740
STMDT12_C44750	operon_1336	NC_016860.1|gene4567|STMDT12_C44750
STMDT12_C44760	operon_1337	NC_016860.1|gene4568|STMDT12_C44760
STMDT12_C44770	operon_1337	NC_016860.1|gene4569|STMDT12_C44770
STMDT12_C44780	operon_1337	NC_016860.1|gene4570|STMDT12_C44780
STMDT12_C44790	operon_1338	NC_016860.1|gene4571|STMDT12_C44790
STMDT12_C44800	operon_1338	NC_016860.1|gene4572|STMDT12_C44800|psd
STMDT12_C44810	operon_1338	NC_016860.1|gene4573|STMDT12_C44810
STMDT12_C44820	operon_1339	NC_016860.1|gene4574|STMDT12_C44820
STMDT12_C44830	operon_1340	NC_016860.1|gene4575|STMDT12_C44830
STMDT12_Ct0780	operon_1341	NC_016860.1|gene4576|STMDT12_Ct0780
STMDT12_Ct0790	operon_1341	NC_016860.1|gene4577|STMDT12_Ct0790
STMDT12_Ct0800	operon_1341	NC_016860.1|gene4578|STMDT12_Ct0800
STMDT12_C44840	operon_1342	NC_016860.1|gene4579|STMDT12_C44840
STMDT12_C44850	operon_1343	NC_016860.1|gene4580|STMDT12_C44850
STMDT12_C44860	operon_1343	NC_016860.1|gene4581|STMDT12_C44860
STMDT12_C44870	operon_1343	NC_016860.1|gene4582|STMDT12_C44870
STMDT12_C44880	operon_1343	NC_016860.1|gene4583|STMDT12_C44880|mutL
STMDT12_C44890	operon_1343	NC_016860.1|gene4584|STMDT12_C44890|miaA
STMDT12_C44900	operon_1343	NC_016860.1|gene4585|STMDT12_C44900|hfq
STMDT12_C44910	operon_1343	NC_016860.1|gene4586|STMDT12_C44910
STMDT12_C44920	operon_1343	NC_016860.1|gene4587|STMDT12_C44920
STMDT12_C44930	operon_1343	NC_016860.1|gene4588|STMDT12_C44930
STMDT12_C44940	operon_1343	NC_016860.1|gene4589|STMDT12_C44940
STMDT12_C44950	operon_1343	NC_016860.1|gene4590|STMDT12_C44950
STMDT12_C44960	operon_1343	NC_016860.1|gene4591|STMDT12_C44960
STMDT12_C44970	operon_1343	NC_016860.1|gene4592|STMDT12_C44970
STMDT12_C44980	operon_1343	NC_016860.1|gene4593|STMDT12_C44980
STMDT12_C44990	operon_1343	NC_016860.1|gene4594|STMDT12_C44990
STMDT12_C45000	operon_1343	NC_016860.1|gene4595|STMDT12_C45000
STMDT12_C45010	operon_1343	NC_016860.1|gene4596|STMDT12_C45010
STMDT12_C45020	operon_1343	NC_016860.1|gene4597|STMDT12_C45020
STMDT12_C45030	operon_1343	NC_016860.1|gene4598|STMDT12_C45030
STMDT12_C45040	operon_1343	NC_016860.1|gene4599|STMDT12_C45040
STMDT12_C45050	operon_1343	NC_016860.1|gene4600|STMDT12_C45050
STMDT12_C45060	operon_1343	NC_016860.1|gene4601|STMDT12_C45060
STMDT12_C45070	operon_1344	NC_016860.1|gene4602|STMDT12_C45070
STMDT12_C45080	operon_1344	NC_016860.1|gene4603|STMDT12_C45080
STMDT12_C45090	operon_1345	NC_016860.1|gene4604|STMDT12_C45090
STMDT12_C45100	operon_1346	NC_016860.1|gene4605|STMDT12_C45100
STMDT12_C45110	operon_1346	NC_016860.1|gene4606|STMDT12_C45110
STMDT12_C45120	operon_1347	NC_016860.1|gene4607|STMDT12_C45120|ulaA2
STMDT12_C45130	operon_1347	NC_016860.1|gene4608|STMDT12_C45130
STMDT12_C45140	operon_1347	NC_016860.1|gene4609|STMDT12_C45140
STMDT12_C45150	operon_1347	NC_016860.1|gene4610|STMDT12_C45150|ulaD
STMDT12_C45160	operon_1347	NC_016860.1|gene4611|STMDT12_C45160
STMDT12_C45170	operon_1347	NC_016860.1|gene4612|STMDT12_C45170|sgaE
STMDT12_C45180	operon_1348	NC_016860.1|gene4613|STMDT12_C45180
STMDT12_C45190	operon_1349	NC_016860.1|gene4614|STMDT12_C45190|rpsF
STMDT12_C45200	operon_1349	NC_016860.1|gene4615|STMDT12_C45200
STMDT12_C45210	operon_1349	NC_016860.1|gene4616|STMDT12_C45210|rpsR
STMDT12_C45220	operon_1349	NC_016860.1|gene4617|STMDT12_C45220|rplI
STMDT12_C45230	operon_1349	NC_016860.1|gene4618|STMDT12_C45230
STMDT12_C45240	operon_1350	NC_016860.1|gene4619|STMDT12_C45240
STMDT12_C45250	operon_1351	NC_016860.1|gene4620|STMDT12_C45250
STMDT12_C45260	operon_1351	NC_016860.1|gene4621|STMDT12_C45260
STMDT12_C45270	operon_1352	NC_016860.1|gene4622|STMDT12_C45270
STMDT12_C45280	operon_1352	NC_016860.1|gene4623|STMDT12_C45280
STMDT12_C45290	operon_1352	NC_016860.1|gene4624|STMDT12_C45290
STMDT12_C45300	operon_1353	NC_016860.1|gene4625|STMDT12_C45300
STMDT12_C45310	operon_1354	NC_016860.1|gene4626|STMDT12_C45310|cpdB
STMDT12_C45320	operon_1355	NC_016860.1|gene4627|STMDT12_C45320
STMDT12_C45330	operon_1356	NC_016860.1|gene4628|STMDT12_C45330
STMDT12_C45340	operon_1357	NC_016860.1|gene4629|STMDT12_C45340
STMDT12_C45350	operon_1358	NC_016860.1|gene4630|STMDT12_C45350
STMDT12_C45360	operon_1358	NC_016860.1|gene4631|STMDT12_C45360
STMDT12_C45370	operon_1359	NC_016860.1|gene4632|STMDT12_C45370
STMDT12_C45380	operon_1359	NC_016860.1|gene4633|STMDT12_C45380
STMDT12_C45390	operon_1359	NC_016860.1|gene4634|STMDT12_C45390
STMDT12_C45400	operon_1360	NC_016860.1|gene4635|STMDT12_C45400
STMDT12_C45410	operon_1360	NC_016860.1|gene4636|STMDT12_C45410
STMDT12_C45420	operon_1360	NC_016860.1|gene4637|STMDT12_C45420
STMDT12_C45430	operon_1360	NC_016860.1|gene4638|STMDT12_C45430
STMDT12_C45440	operon_1361	NC_016860.1|gene4639|STMDT12_C45440
STMDT12_C45450	operon_1362	NC_016860.1|gene4640|STMDT12_C45450
STMDT12_C45460	operon_1363	NC_016860.1|gene4641|STMDT12_C45460
STMDT12_C45470	operon_1364	NC_016860.1|gene4642|STMDT12_C45470
STMDT12_C45480	operon_1364	NC_016860.1|gene4643|STMDT12_C45480
STMDT12_C45490	operon_1365	NC_016860.1|gene4644|STMDT12_C45490
STMDT12_C45500	operon_1366	NC_016860.1|gene4645|STMDT12_C45500
STMDT12_C45510	operon_1366	NC_016860.1|gene4646|STMDT12_C45510
STMDT12_C45520	operon_1367	NC_016860.1|gene4647|STMDT12_C45520
STMDT12_C45530	operon_1367	NC_016860.1|gene4648|STMDT12_C45530
STMDT12_C45540	operon_1367	NC_016860.1|gene4649|STMDT12_C45540
STMDT12_C45550	operon_1367	NC_016860.1|gene4650|STMDT12_C45550
STMDT12_C45560	operon_1367	NC_016860.1|gene4651|STMDT12_C45560
STMDT12_C45570	operon_1368	NC_016860.1|gene4652|STMDT12_C45570
STMDT12_C45580	operon_1368	NC_016860.1|gene4653|STMDT12_C45580
STMDT12_C45590	operon_1369	NC_016860.1|gene4654|STMDT12_C45590
STMDT12_C45600	operon_1369	NC_016860.1|gene4655|STMDT12_C45600
STMDT12_C45610	operon_1369	NC_016860.1|gene4656|STMDT12_C45610
STMDT12_C45620	operon_1369	NC_016860.1|gene4657|STMDT12_C45620
STMDT12_C45630	operon_1369	NC_016860.1|gene4658|STMDT12_C45630
STMDT12_C45640	operon_1370	NC_016860.1|gene4659|STMDT12_C45640
STMDT12_C45650	operon_1371	NC_016860.1|gene4660|STMDT12_C45650
STMDT12_C45660	operon_1371	NC_016860.1|gene4661|STMDT12_C45660
STMDT12_C45670	operon_1371	NC_016860.1|gene4662|STMDT12_C45670
STMDT12_C45680	operon_1371	NC_016860.1|gene4663|STMDT12_C45680
STMDT12_C45690	operon_1371	NC_016860.1|gene4664|STMDT12_C45690
STMDT12_C45700	operon_1371	NC_016860.1|gene4665|STMDT12_C45700
STMDT12_C45710	operon_1371	NC_016860.1|gene4666|STMDT12_C45710
STMDT12_C45720	operon_1371	NC_016860.1|gene4667|STMDT12_C45720
STMDT12_C45730	operon_1371	NC_016860.1|gene4668|STMDT12_C45730
STMDT12_C45740	operon_1371	NC_016860.1|gene4669|STMDT12_C45740
STMDT12_C45750	operon_1371	NC_016860.1|gene4670|STMDT12_C45750
STMDT12_C45760	operon_1371	NC_016860.1|gene4671|STMDT12_C45760
STMDT12_C45770	operon_1371	NC_016860.1|gene4672|STMDT12_C45770
STMDT12_C45780	operon_1372	NC_016860.1|gene4673|STMDT12_C45780|nrdG
STMDT12_C45790	operon_1372	NC_016860.1|gene4674|STMDT12_C45790
STMDT12_C45800	operon_1372	NC_016860.1|gene4675|STMDT12_C45800
STMDT12_C45810	operon_1372	NC_016860.1|gene4676|STMDT12_C45810
STMDT12_C45820	operon_1372	NC_016860.1|gene4677|STMDT12_C45820
STMDT12_C45830	operon_1372	NC_016860.1|gene4678|STMDT12_C45830|treR
STMDT12_C45840	operon_1373	NC_016860.1|gene4679|STMDT12_C45840
STMDT12_C45850	operon_1374	NC_016860.1|gene4680|STMDT12_C45850
STMDT12_C45860	operon_1374	NC_016860.1|gene4681|STMDT12_C45860
STMDT12_C45870	operon_1374	NC_016860.1|gene4682|STMDT12_C45870
STMDT12_C45880	operon_1374	NC_016860.1|gene4683|STMDT12_C45880|pyrB
STMDT12_C45890	operon_1374	NC_016860.1|gene4684|STMDT12_C45890
STMDT12_C45900	operon_1374	NC_016860.1|gene4685|STMDT12_C45900|argR
STMDT12_C45910	operon_1375	NC_016860.1|gene4686|STMDT12_C45910
STMDT12_C45920	operon_1376	NC_016860.1|gene4687|STMDT12_C45920
STMDT12_C45930	operon_1376	NC_016860.1|gene4688|STMDT12_C45930
STMDT12_C45940	operon_1376	NC_016860.1|gene4689|STMDT12_C45940
STMDT12_C45950	operon_1376	NC_016860.1|gene4690|STMDT12_C45950
STMDT12_C45960	operon_1377	NC_016860.1|gene4691|STMDT12_C45960
STMDT12_C45970	operon_1378	NC_016860.1|gene4692|STMDT12_C45970
STMDT12_C45980	operon_1379	NC_016860.1|gene4693|STMDT12_C45980
STMDT12_C45990	operon_1379	NC_016860.1|gene4694|STMDT12_C45990
STMDT12_C46000	operon_1380	NC_016860.1|gene4695|STMDT12_C46000
STMDT12_C46010	operon_1380	NC_016860.1|gene4696|STMDT12_C46010
STMDT12_C46020	operon_1381	NC_016860.1|gene4697|STMDT12_C46020
STMDT12_C46030	operon_1382	NC_016860.1|gene4698|STMDT12_C46030|valS
STMDT12_C46040	operon_1382	NC_016860.1|gene4699|STMDT12_C46040|valS
STMDT12_C46050	operon_1382	NC_016860.1|gene4700|STMDT12_C46050
STMDT12_C46060	operon_1383	NC_016860.1|gene4701|STMDT12_C46060
STMDT12_C46070	operon_1383	NC_016860.1|gene4702|STMDT12_C46070
STMDT12_C46080	operon_1383	NC_016860.1|gene4703|STMDT12_C46080
STMDT12_C46090	operon_1384	NC_016860.1|gene4704|STMDT12_C46090
STMDT12_C46100	operon_1384	NC_016860.1|gene4705|STMDT12_C46100
STMDT12_C46110	operon_1384	NC_016860.1|gene4706|STMDT12_C46110
STMDT12_C46120	operon_1384	NC_016860.1|gene4707|STMDT12_C46120
STMDT12_C46130	operon_1385	NC_016860.1|gene4708|STMDT12_C46130|idnK
STMDT12_C46140	operon_1386	NC_016860.1|gene4709|STMDT12_C46140
STMDT12_Ct0810	operon_1387	NC_016860.1|gene4710|STMDT12_Ct0810
STMDT12_C46150	operon_1387	NC_016860.1|gene4711|STMDT12_C46150
STMDT12_C46160	operon_1387	NC_016860.1|gene4712|STMDT12_C46160
STMDT12_C46170	operon_1387	NC_016860.1|gene4713|STMDT12_C46170
STMDT12_C46180	operon_1388	NC_016860.1|gene4714|STMDT12_C46180
STMDT12_C46190	operon_1388	NC_016860.1|gene4715|STMDT12_C46190
STMDT12_C46200	operon_1388	NC_016860.1|gene4716|STMDT12_C46200
STMDT12_C46210	operon_1388	NC_016860.1|gene4717|STMDT12_C46210
STMDT12_C46220	operon_1388	NC_016860.1|gene4718|STMDT12_C46220
STMDT12_C46230	operon_1388	NC_016860.1|gene4719|STMDT12_C46230
STMDT12_C46240	operon_1388	NC_016860.1|gene4720|STMDT12_C46240
STMDT12_C46250	operon_1388	NC_016860.1|gene4721|STMDT12_C46250
STMDT12_C46260	operon_1388	NC_016860.1|gene4722|STMDT12_C46260
STMDT12_C46270	operon_1388	NC_016860.1|gene4723|STMDT12_C46270
STMDT12_C46280	operon_1388	NC_016860.1|gene4724|STMDT12_C46280
STMDT12_C46290	operon_1388	NC_016860.1|gene4725|STMDT12_C46290
STMDT12_C46300	operon_1389	NC_016860.1|gene4726|STMDT12_C46300
STMDT12_C46310	operon_1389	NC_016860.1|gene4727|STMDT12_C46310
STMDT12_C46320	operon_1389	NC_016860.1|gene4728|STMDT12_C46320
STMDT12_C46330	operon_1389	NC_016860.1|gene4729|STMDT12_C46330
STMDT12_C46340	operon_1390	NC_016860.1|gene4730|STMDT12_C46340
STMDT12_C46350	operon_1391	NC_016860.1|gene4731|STMDT12_C46350
STMDT12_C46360	operon_1392	NC_016860.1|gene4732|STMDT12_C46360
STMDT12_C46370	operon_1393	NC_016860.1|gene4733|STMDT12_C46370
STMDT12_C46380	operon_1393	NC_016860.1|gene4734|STMDT12_C46380
STMDT12_C46390	operon_1394	NC_016860.1|gene4735|STMDT12_C46390
STMDT12_C46400	operon_1394	NC_016860.1|gene4736|STMDT12_C46400
STMDT12_C46410	operon_1394	NC_016860.1|gene4737|STMDT12_C46410
STMDT12_C46420	operon_1394	NC_016860.1|gene4738|STMDT12_C46420
STMDT12_C46430	operon_1394	NC_016860.1|gene4739|STMDT12_C46430
STMDT12_C46440	operon_1394	NC_016860.1|gene4740|STMDT12_C46440
STMDT12_C46450	operon_1394	NC_016860.1|gene4741|STMDT12_C46450
STMDT12_C46460	operon_1395	NC_016860.1|gene4742|STMDT12_C46460
STMDT12_C46470	operon_1396	NC_016860.1|gene4743|STMDT12_C46470
STMDT12_C46480	operon_1397	NC_016860.1|gene4744|STMDT12_C46480
STMDT12_C46490	operon_1397	NC_016860.1|gene4745|STMDT12_C46490
STMDT12_C46500	operon_1398	NC_016860.1|gene4746|STMDT12_C46500
STMDT12_C46510	operon_1398	NC_016860.1|gene4747|STMDT12_C46510
STMDT12_C46520	operon_1398	NC_016860.1|gene4748|STMDT12_C46520
STMDT12_C46530	operon_1398	NC_016860.1|gene4749|STMDT12_C46530
STMDT12_C46540	operon_1398	NC_016860.1|gene4750|STMDT12_C46540|hsdR
STMDT12_C46550	operon_1399	NC_016860.1|gene4751|STMDT12_C46550
STMDT12_C46560	operon_1399	NC_016860.1|gene4752|STMDT12_C46560
STMDT12_C46570	operon_1399	NC_016860.1|gene4753|STMDT12_C46570
STMDT12_C46580	operon_1400	NC_016860.1|gene4754|STMDT12_C46580
STMDT12_C46590	operon_1400	NC_016860.1|gene4755|STMDT12_C46590
STMDT12_C46600	operon_1400	NC_016860.1|gene4756|STMDT12_C46600
STMDT12_C46610	operon_1401	NC_016860.1|gene4757|STMDT12_C46610
STMDT12_C46620	operon_1401	NC_016860.1|gene4758|STMDT12_C46620
STMDT12_C46630	operon_1401	NC_016860.1|gene4759|STMDT12_C46630
STMDT12_C46640	operon_1401	NC_016860.1|gene4760|STMDT12_C46640
STMDT12_C46650	operon_1401	NC_016860.1|gene4761|STMDT12_C46650
STMDT12_C46660	operon_1401	NC_016860.1|gene4762|STMDT12_C46660
STMDT12_C46670	operon_1401	NC_016860.1|gene4763|STMDT12_C46670
STMDT12_C46680	operon_1401	NC_016860.1|gene4764|STMDT12_C46680
STMDT12_C46690	operon_1402	NC_016860.1|gene4765|STMDT12_C46690
STMDT12_C46700	operon_1402	NC_016860.1|gene4766|STMDT12_C46700
STMDT12_C46710	operon_1402	NC_016860.1|gene4767|STMDT12_C46710
STMDT12_C46720	operon_1402	NC_016860.1|gene4768|STMDT12_C46720
STMDT12_C46730	operon_1402	NC_016860.1|gene4769|STMDT12_C46730
STMDT12_C46740	operon_1402	NC_016860.1|gene4770|STMDT12_C46740
STMDT12_C46750	operon_1403	NC_016860.1|gene4771|STMDT12_C46750
STMDT12_C46760	operon_1403	NC_016860.1|gene4772|STMDT12_C46760
STMDT12_C46770	operon_1404	NC_016860.1|gene4773|STMDT12_C46770
STMDT12_C46780	operon_1404	NC_016860.1|gene4774|STMDT12_C46780
STMDT12_C46790	operon_1404	NC_016860.1|gene4775|STMDT12_C46790
STMDT12_C46800	operon_1405	NC_016860.1|gene4776|STMDT12_C46800
STMDT12_Ct0820	operon_1406	NC_016860.1|gene4777|STMDT12_Ct0820
STMDT12_Ct0830	operon_1406	NC_016860.1|gene4778|STMDT12_Ct0830
STMDT12_Ct0840	operon_1406	NC_016860.1|gene4779|STMDT12_Ct0840
STMDT12_C46810	operon_1406	NC_016860.1|gene4780|STMDT12_C46810|rsmC
STMDT12_C46820	operon_1407	NC_016860.1|gene4781|STMDT12_C46820
STMDT12_C46830	operon_1407	NC_016860.1|gene4782|STMDT12_C46830|rimI
STMDT12_C46840	operon_1407	NC_016860.1|gene4783|STMDT12_C46840
STMDT12_C46850	operon_1407	NC_016860.1|gene4784|STMDT12_C46850|prfC
STMDT12_C46860	operon_1407	NC_016860.1|gene4785|STMDT12_C46860
STMDT12_C46870	operon_1407	NC_016860.1|gene4786|STMDT12_C46870
STMDT12_C46880	operon_1407	NC_016860.1|gene4787|STMDT12_C46880
STMDT12_C46890	operon_1407	NC_016860.1|gene4788|STMDT12_C46890
STMDT12_C46900	operon_1408	NC_016860.1|gene4789|STMDT12_C46900
STMDT12_C46910	operon_1408	NC_016860.1|gene4790|STMDT12_C46910
STMDT12_C46920	operon_1409	NC_016860.1|gene4791|STMDT12_C46920
STMDT12_C46930	operon_1409	NC_016860.1|gene4792|STMDT12_C46930|deoA
STMDT12_C46940	operon_1409	NC_016860.1|gene4793|STMDT12_C46940
STMDT12_C46950	operon_1409	NC_016860.1|gene4794|STMDT12_C46950|deoD
STMDT12_C46960	operon_1410	NC_016860.1|gene4795|STMDT12_C46960
STMDT12_C46970	operon_1410	NC_016860.1|gene4796|STMDT12_C46970
STMDT12_C46980	operon_1410	NC_016860.1|gene4797|STMDT12_C46980
STMDT12_C46990	operon_1410	NC_016860.1|gene4798|STMDT12_C46990
STMDT12_C47000	operon_1410	NC_016860.1|gene4799|STMDT12_C47000
STMDT12_C47010	operon_1410	NC_016860.1|gene4800|STMDT12_C47010|lplA
STMDT12_C47020	operon_1410	NC_016860.1|gene4801|STMDT12_C47020
STMDT12_C47030	operon_1411	NC_016860.1|gene4802|STMDT12_C47030|serB
STMDT12_C47040	operon_1411	NC_016860.1|gene4803|STMDT12_C47040
STMDT12_C47050	operon_1411	NC_016860.1|gene4804|STMDT12_C47050
STMDT12_C47060	operon_1412	NC_016860.1|gene4805|STMDT12_C47060
STMDT12_C47070	operon_1413	NC_016860.1|gene4806|STMDT12_C47070
STMDT12_C47080	operon_1413	NC_016860.1|gene4807|STMDT12_C47080
STMDT12_C47090	operon_1414	NC_016860.1|gene4808|STMDT12_C47090
STMDT12_C47100	operon_1415	NC_016860.1|gene4809|STMDT12_C47100
STMDT12_C47110	operon_1416	NC_016860.1|gene4810|STMDT12_C47110
STMDT12_C47120	operon_1417	NC_016860.1|gene4811|STMDT12_C47120
STMDT12_C47130	operon_1417	NC_016860.1|gene4812|STMDT12_C47130
STMDT12_C47140	operon_1417	NC_016860.1|gene4813|STMDT12_C47140
STMDT12_C47150	operon_1417	NC_016860.1|gene4814|STMDT12_C47150
STMDT12_C47160	operon_1418	NC_016860.1|gene4815|STMDT12_C47160
STMDT12_C47170	operon_1418	NC_016860.1|gene4816|STMDT12_C47170
STMDT12_C47180	operon_1418	NC_016860.1|gene4817|STMDT12_C47180
STMDT12_C47190	operon_1418	NC_016860.1|gene4818|STMDT12_C47190
STMDT12_C47200	operon_1418	NC_016860.1|gene4819|STMDT12_C47200
STMDT12_C47210	operon_1418	NC_016860.1|gene4820|STMDT12_C47210
STMDT12_C47220	operon_1418	NC_016860.1|gene4821|STMDT12_C47220
STMDT12_C47230	operon_1419	NC_016860.1|gene4822|STMDT12_C47230