Locus_tag	OperonID	Description
BAMTA208_00005	operon_0001	NC_017188.1|gene0|BAMTA208_00005|dnaA
BAMTA208_00010	operon_0001	NC_017188.1|gene1|BAMTA208_00010|dnaN
BAMTA208_00015	operon_0001	NC_017188.1|gene2|BAMTA208_00015|yaaA
BAMTA208_00020	operon_0001	NC_017188.1|gene3|BAMTA208_00020|recF
BAMTA208_00025	operon_0001	NC_017188.1|gene4|BAMTA208_00025|remB
BAMTA208_00030	operon_0001	NC_017188.1|gene5|BAMTA208_00030|gyrB
BAMTA208_00035	operon_0001	NC_017188.1|gene6|BAMTA208_00035|gyrA
BAMTA208_00040	operon_0001	NC_017188.1|gene7|BAMTA208_00040|guaB
BAMTA208_00045	operon_0001	NC_017188.1|gene8|BAMTA208_00045|dacA
BAMTA208_00050	operon_0001	NC_017188.1|gene9|BAMTA208_00050|pdxS
BAMTA208_00055	operon_0001	NC_017188.1|gene10|BAMTA208_00055|pdxT
BAMTA208_00060	operon_0001	NC_017188.1|gene11|BAMTA208_00060|serS
BAMTA208_00065	operon_0002	NC_017188.1|gene12|BAMTA208_00065|glxK
BAMTA208_t20677	operon_0003	NC_017188.1|gene13|BAMTA208_t20677
BAMTA208_00070	operon_0004	NC_017188.1|gene14|BAMTA208_00070|dck
BAMTA208_00075	operon_0004	NC_017188.1|gene15|BAMTA208_00075|dgk
BAMTA208_00080	operon_0004	NC_017188.1|gene16|BAMTA208_00080|yaaH
BAMTA208_00085	operon_0004	NC_017188.1|gene17|BAMTA208_00085|yaaI
BAMTA208_00090	operon_0005	NC_017188.1|gene18|BAMTA208_00090|tadA
BAMTA208_00095	operon_0006	NC_017188.1|gene19|BAMTA208_00095
BAMTA208_00100	operon_0007	NC_017188.1|gene20|BAMTA208_00100|dnaX
BAMTA208_00105	operon_0007	NC_017188.1|gene21|BAMTA208_00105|yaaK
BAMTA208_00110	operon_0007	NC_017188.1|gene22|BAMTA208_00110|recR
BAMTA208_00115	operon_0007	NC_017188.1|gene23|BAMTA208_00115|yaaL
BAMTA208_00120	operon_0007	NC_017188.1|gene24|BAMTA208_00120|bofA
BAMTA208_r20829	operon_0007	NC_017188.1|gene25|BAMTA208_r20829
BAMTA208_t20679	operon_0007	NC_017188.1|gene26|BAMTA208_t20679
BAMTA208_t20681	operon_0007	NC_017188.1|gene27|BAMTA208_t20681
BAMTA208_r20841	operon_0007	NC_017188.1|gene28|BAMTA208_r20841
BAMTA208_r20817	operon_0007	NC_017188.1|gene29|BAMTA208_r20817
BAMTA208_00125	operon_0007	NC_017188.1|gene30|BAMTA208_00125
BAMTA208_00130	operon_0007	NC_017188.1|gene31|BAMTA208_00130|xpaC
BAMTA208_00135	operon_0007	NC_017188.1|gene32|BAMTA208_00135|yaaN
BAMTA208_00140	operon_0007	NC_017188.1|gene33|BAMTA208_00140|yaaO
BAMTA208_00145	operon_0007	NC_017188.1|gene34|BAMTA208_00145|tmk
BAMTA208_00150	operon_0007	NC_017188.1|gene35|BAMTA208_00150|yaaQ
BAMTA208_00155	operon_0007	NC_017188.1|gene36|BAMTA208_00155|yaaR
BAMTA208_00160	operon_0007	NC_017188.1|gene37|BAMTA208_00160|holB
BAMTA208_00165	operon_0007	NC_017188.1|gene38|BAMTA208_00165|yaaT
BAMTA208_00170	operon_0007	NC_017188.1|gene39|BAMTA208_00170|yabA
BAMTA208_00175	operon_0007	NC_017188.1|gene40|BAMTA208_00175|yabB
BAMTA208_00180	operon_0007	NC_017188.1|gene41|BAMTA208_00180|yazA
BAMTA208_00185	operon_0007	NC_017188.1|gene42|BAMTA208_00185|yabC
BAMTA208_00190	operon_0008	NC_017188.1|gene43|BAMTA208_00190|abrB
BAMTA208_00195	operon_0009	NC_017188.1|gene44|BAMTA208_00195|metS
BAMTA208_00200	operon_0009	NC_017188.1|gene45|BAMTA208_00200|yabD
BAMTA208_00205	operon_0009	NC_017188.1|gene46|BAMTA208_00205|yabE1
BAMTA208_00210	operon_0009	NC_017188.1|gene47|BAMTA208_00210|rnmV
BAMTA208_00215	operon_0009	NC_017188.1|gene48|BAMTA208_00215|ksgA
BAMTA208_00220	operon_0009	NC_017188.1|gene49|BAMTA208_00220|yabG
BAMTA208_00225	operon_0009	NC_017188.1|gene50|BAMTA208_00225|veg
BAMTA208_00230	operon_0009	NC_017188.1|gene51|BAMTA208_00230|sspF
BAMTA208_00235	operon_0009	NC_017188.1|gene52|BAMTA208_00235|ipk
BAMTA208_00240	operon_0009	NC_017188.1|gene53|BAMTA208_00240|purR
BAMTA208_00245	operon_0009	NC_017188.1|gene54|BAMTA208_00245|yabJ
BAMTA208_00250	operon_0009	NC_017188.1|gene55|BAMTA208_00250|spoVG
BAMTA208_00255	operon_0009	NC_017188.1|gene56|BAMTA208_00255|glmU
BAMTA208_00260	operon_0009	NC_017188.1|gene57|BAMTA208_00260|prs
BAMTA208_00265	operon_0009	NC_017188.1|gene58|BAMTA208_00265|ctc
BAMTA208_00270	operon_0009	NC_017188.1|gene59|BAMTA208_00270|spoVC
BAMTA208_00275	operon_0009	NC_017188.1|gene60|BAMTA208_00275|subA
BAMTA208_00280	operon_0009	NC_017188.1|gene61|BAMTA208_00280|mfd
BAMTA208_00285	operon_0009	NC_017188.1|gene62|BAMTA208_00285|spoVT
BAMTA208_00290	operon_0009	NC_017188.1|gene63|BAMTA208_00290|yabM
BAMTA208_00295	operon_0009	NC_017188.1|gene64|BAMTA208_00295|yabN
BAMTA208_00300	operon_0009	NC_017188.1|gene65|BAMTA208_00300|yabO
BAMTA208_00305	operon_0009	NC_017188.1|gene66|BAMTA208_00305|yabP
BAMTA208_00310	operon_0009	NC_017188.1|gene67|BAMTA208_00310|yabQ
BAMTA208_00315	operon_0009	NC_017188.1|gene68|BAMTA208_00315|divIC
BAMTA208_00320	operon_0009	NC_017188.1|gene69|BAMTA208_00320|yabR
BAMTA208_t20683	operon_0009	NC_017188.1|gene70|BAMTA208_t20683
BAMTA208_t20685	operon_0009	NC_017188.1|gene71|BAMTA208_t20685
BAMTA208_00325	operon_0009	NC_017188.1|gene72|BAMTA208_00325|spoIIE
BAMTA208_00330	operon_0009	NC_017188.1|gene73|BAMTA208_00330|yabS
BAMTA208_00335	operon_0009	NC_017188.1|gene74|BAMTA208_00335|yabT
BAMTA208_00340	operon_0009	NC_017188.1|gene75|BAMTA208_00340|tilS
BAMTA208_00345	operon_0009	NC_017188.1|gene76|BAMTA208_00345|hprT
BAMTA208_00350	operon_0009	NC_017188.1|gene77|BAMTA208_00350|ftsH
BAMTA208_00355	operon_0009	NC_017188.1|gene78|BAMTA208_00355|coaX
BAMTA208_00360	operon_0009	NC_017188.1|gene79|BAMTA208_00360|hslO
BAMTA208_00365	operon_0009	NC_017188.1|gene80|BAMTA208_00365|yacD
BAMTA208_00370	operon_0009	NC_017188.1|gene81|BAMTA208_00370|cysK
BAMTA208_00375	operon_0009	NC_017188.1|gene82|BAMTA208_00375|pabB
BAMTA208_00380	operon_0009	NC_017188.1|gene83|BAMTA208_00380|pabA
BAMTA208_00385	operon_0009	NC_017188.1|gene84|BAMTA208_00385|pabC
BAMTA208_00390	operon_0009	NC_017188.1|gene85|BAMTA208_00390|sul
BAMTA208_00395	operon_0009	NC_017188.1|gene86|BAMTA208_00395|folB
BAMTA208_00400	operon_0009	NC_017188.1|gene87|BAMTA208_00400|folK
BAMTA208_00405	operon_0009	NC_017188.1|gene88|BAMTA208_00405
BAMTA208_00410	operon_0009	NC_017188.1|gene89|BAMTA208_00410|dusB
BAMTA208_00415	operon_0009	NC_017188.1|gene90|BAMTA208_00415|lysS
BAMTA208_r20831	operon_0009	NC_017188.1|gene91|BAMTA208_r20831
BAMTA208_r20843	operon_0009	NC_017188.1|gene92|BAMTA208_r20843
BAMTA208_r20819	operon_0009	NC_017188.1|gene93|BAMTA208_r20819
BAMTA208_00420	operon_0009	NC_017188.1|gene94|BAMTA208_00420|ctsR
BAMTA208_00425	operon_0009	NC_017188.1|gene95|BAMTA208_00425|mcsA
BAMTA208_00430	operon_0009	NC_017188.1|gene96|BAMTA208_00430|mcsB
BAMTA208_00435	operon_0009	NC_017188.1|gene97|BAMTA208_00435|clpC
BAMTA208_00440	operon_0009	NC_017188.1|gene98|BAMTA208_00440|radA
BAMTA208_00445	operon_0009	NC_017188.1|gene99|BAMTA208_00445|disA
BAMTA208_00450	operon_0009	NC_017188.1|gene100|BAMTA208_00450|yacL
BAMTA208_00455	operon_0009	NC_017188.1|gene101|BAMTA208_00455|ispD
BAMTA208_00460	operon_0009	NC_017188.1|gene102|BAMTA208_00460|ispF
BAMTA208_00465	operon_0009	NC_017188.1|gene103|BAMTA208_00465|gltX
BAMTA208_00470	operon_0009	NC_017188.1|gene104|BAMTA208_00470|cysE
BAMTA208_00475	operon_0009	NC_017188.1|gene105|BAMTA208_00475|cysS
BAMTA208_00480	operon_0009	NC_017188.1|gene106|BAMTA208_00480|mrnC
BAMTA208_00485	operon_0009	NC_017188.1|gene107|BAMTA208_00485|rlmB
BAMTA208_00490	operon_0009	NC_017188.1|gene108|BAMTA208_00490|yacP
BAMTA208_00495	operon_0009	NC_017188.1|gene109|BAMTA208_00495|sigH
BAMTA208_00500	operon_0009	NC_017188.1|gene110|BAMTA208_00500|rpmG2
BAMTA208_00505	operon_0009	NC_017188.1|gene111|BAMTA208_00505|secE
BAMTA208_00510	operon_0009	NC_017188.1|gene112|BAMTA208_00510|nusG
BAMTA208_00515	operon_0009	NC_017188.1|gene113|BAMTA208_00515|rplK
BAMTA208_00520	operon_0009	NC_017188.1|gene114|BAMTA208_00520|rplA
BAMTA208_00525	operon_0009	NC_017188.1|gene115|BAMTA208_00525|rplJ
BAMTA208_00530	operon_0009	NC_017188.1|gene116|BAMTA208_00530|rplL
BAMTA208_00535	operon_0009	NC_017188.1|gene117|BAMTA208_00535|ybxB
BAMTA208_00540	operon_0009	NC_017188.1|gene118|BAMTA208_00540|rpoB
BAMTA208_00545	operon_0009	NC_017188.1|gene119|BAMTA208_00545|rpoC
BAMTA208_00550	operon_0009	NC_017188.1|gene120|BAMTA208_00550|rplGB
BAMTA208_00555	operon_0009	NC_017188.1|gene121|BAMTA208_00555|rpsL
BAMTA208_00560	operon_0009	NC_017188.1|gene122|BAMTA208_00560|rpsG
BAMTA208_00565	operon_0009	NC_017188.1|gene123|BAMTA208_00565|fusA
BAMTA208_00570	operon_0009	NC_017188.1|gene124|BAMTA208_00570|tufA
BAMTA208_00575	operon_0009	NC_017188.1|gene125|BAMTA208_00575|ybaC
BAMTA208_00580	operon_0009	NC_017188.1|gene126|BAMTA208_00580|rpsJ
BAMTA208_00585	operon_0009	NC_017188.1|gene127|BAMTA208_00585|rplC
BAMTA208_00590	operon_0009	NC_017188.1|gene128|BAMTA208_00590|rplD
BAMTA208_00595	operon_0009	NC_017188.1|gene129|BAMTA208_00595|rplW
BAMTA208_00600	operon_0009	NC_017188.1|gene130|BAMTA208_00600|rplB
BAMTA208_00605	operon_0009	NC_017188.1|gene131|BAMTA208_00605|rpsS
BAMTA208_00610	operon_0009	NC_017188.1|gene132|BAMTA208_00610|rplV
BAMTA208_00615	operon_0009	NC_017188.1|gene133|BAMTA208_00615|rpsC
BAMTA208_00620	operon_0009	NC_017188.1|gene134|BAMTA208_00620|rplP
BAMTA208_00625	operon_0009	NC_017188.1|gene135|BAMTA208_00625|rpmC
BAMTA208_00630	operon_0009	NC_017188.1|gene136|BAMTA208_00630|rpsQ
BAMTA208_00635	operon_0009	NC_017188.1|gene137|BAMTA208_00635|rplNA
BAMTA208_00640	operon_0009	NC_017188.1|gene138|BAMTA208_00640|rplX
BAMTA208_00645	operon_0009	NC_017188.1|gene139|BAMTA208_00645|rplE
BAMTA208_00650	operon_0009	NC_017188.1|gene140|BAMTA208_00650|rpsN2
BAMTA208_00655	operon_0009	NC_017188.1|gene141|BAMTA208_00655|rpsH
BAMTA208_00660	operon_0009	NC_017188.1|gene142|BAMTA208_00660|rplF
BAMTA208_00665	operon_0009	NC_017188.1|gene143|BAMTA208_00665|rplR
BAMTA208_00670	operon_0009	NC_017188.1|gene144|BAMTA208_00670|rpsE
BAMTA208_00675	operon_0009	NC_017188.1|gene145|BAMTA208_00675|rpmD
BAMTA208_00680	operon_0009	NC_017188.1|gene146|BAMTA208_00680|rplO
BAMTA208_00685	operon_0009	NC_017188.1|gene147|BAMTA208_00685|secY
BAMTA208_00690	operon_0009	NC_017188.1|gene148|BAMTA208_00690|adk
BAMTA208_00695	operon_0009	NC_017188.1|gene149|BAMTA208_00695|mapA
BAMTA208_00700	operon_0009	NC_017188.1|gene150|BAMTA208_00700|infA
BAMTA208_00705	operon_0009	NC_017188.1|gene151|BAMTA208_00705|rpmJ
BAMTA208_00710	operon_0009	NC_017188.1|gene152|BAMTA208_00710|rpsM
BAMTA208_00715	operon_0009	NC_017188.1|gene153|BAMTA208_00715|rpsK
BAMTA208_00720	operon_0009	NC_017188.1|gene154|BAMTA208_00720|rpoA
BAMTA208_00725	operon_0009	NC_017188.1|gene155|BAMTA208_00725|rplQ
BAMTA208_00730	operon_0009	NC_017188.1|gene156|BAMTA208_00730|ybxA
BAMTA208_00735	operon_0009	NC_017188.1|gene157|BAMTA208_00735|cbiO
BAMTA208_00740	operon_0009	NC_017188.1|gene158|BAMTA208_00740|ybaF
BAMTA208_00745	operon_0009	NC_017188.1|gene159|BAMTA208_00745|truA
BAMTA208_00750	operon_0009	NC_017188.1|gene160|BAMTA208_00750|rplM
BAMTA208_00755	operon_0009	NC_017188.1|gene161|BAMTA208_00755|rpsI
BAMTA208_00760	operon_0009	NC_017188.1|gene162|BAMTA208_00760|ybaJ
BAMTA208_00765	operon_0009	NC_017188.1|gene163|BAMTA208_00765|ybaK
BAMTA208_00770	operon_0009	NC_017188.1|gene164|BAMTA208_00770|cwlD
BAMTA208_00775	operon_0009	NC_017188.1|gene165|BAMTA208_00775|salA
BAMTA208_00780	operon_0010	NC_017188.1|gene166|BAMTA208_00780|gerD
BAMTA208_00785	operon_0011	NC_017188.1|gene167|BAMTA208_00785|kbaA
BAMTA208_00790	operon_0012	NC_017188.1|gene168|BAMTA208_00790|pdaB
BAMTA208_r20833	operon_0013	NC_017188.1|gene169|BAMTA208_r20833
BAMTA208_r20845	operon_0013	NC_017188.1|gene170|BAMTA208_r20845
BAMTA208_r20821	operon_0013	NC_017188.1|gene171|BAMTA208_r20821
BAMTA208_00795	operon_0014	NC_017188.1|gene172|BAMTA208_00795|glcP1
BAMTA208_00800	operon_0015	NC_017188.1|gene173|BAMTA208_00800|gabT1
BAMTA208_00805	operon_0015	NC_017188.1|gene174|BAMTA208_00805|yktc1
BAMTA208_00810	operon_0015	NC_017188.1|gene175|BAMTA208_00810|gutB1
BAMTA208_00815	operon_0015	NC_017188.1|gene176|BAMTA208_00815|ybaR
BAMTA208_00820	operon_0015	NC_017188.1|gene177|BAMTA208_00820|ybaS
BAMTA208_00825	operon_0016	NC_017188.1|gene178|BAMTA208_00825|ybbA
BAMTA208_00830	operon_0016	NC_017188.1|gene179|BAMTA208_00830|feuC
BAMTA208_00835	operon_0016	NC_017188.1|gene180|BAMTA208_00835|feuB
BAMTA208_00840	operon_0016	NC_017188.1|gene181|BAMTA208_00840|feuA
BAMTA208_00845	operon_0017	NC_017188.1|gene182|BAMTA208_00845
BAMTA208_00850	operon_0018	NC_017188.1|gene183|BAMTA208_00850|btr
BAMTA208_00855	operon_0018	NC_017188.1|gene184|BAMTA208_00855|ybbC
BAMTA208_00860	operon_0018	NC_017188.1|gene185|BAMTA208_00860|ybbD
BAMTA208_00865	operon_0018	NC_017188.1|gene186|BAMTA208_00865|ybbE
BAMTA208_00870	operon_0018	NC_017188.1|gene187|BAMTA208_00870|murP
BAMTA208_00875	operon_0019	NC_017188.1|gene188|BAMTA208_00875
BAMTA208_00880	operon_0020	NC_017188.1|gene189|BAMTA208_00880|murQ
BAMTA208_00885	operon_0020	NC_017188.1|gene190|BAMTA208_00885|ybbJ
BAMTA208_00890	operon_0020	NC_017188.1|gene191|BAMTA208_00890|ybbK
BAMTA208_t20687	operon_0021	NC_017188.1|gene192|BAMTA208_t20687
BAMTA208_t20689	operon_0021	NC_017188.1|gene193|BAMTA208_t20689
BAMTA208_t20691	operon_0021	NC_017188.1|gene194|BAMTA208_t20691
BAMTA208_t20693	operon_0021	NC_017188.1|gene195|BAMTA208_t20693
BAMTA208_t20695	operon_0021	NC_017188.1|gene196|BAMTA208_t20695
BAMTA208_00900	operon_0021	NC_017188.1|gene197|BAMTA208_00900|sigW
BAMTA208_00905	operon_0021	NC_017188.1|gene198|BAMTA208_00905|rsiW
BAMTA208_00910	operon_0021	NC_017188.1|gene199|BAMTA208_00910|ybbP
BAMTA208_00915	operon_0021	NC_017188.1|gene200|BAMTA208_00915|ybbR
BAMTA208_00920	operon_0021	NC_017188.1|gene201|BAMTA208_00920|glmM
BAMTA208_00925	operon_0022	NC_017188.1|gene202|BAMTA208_00925
BAMTA208_00930	operon_0023	NC_017188.1|gene203|BAMTA208_00930|glmS
BAMTA208_00935	operon_0023	NC_017188.1|gene204|BAMTA208_00935
BAMTA208_00940	operon_0023	NC_017188.1|gene205|BAMTA208_00940
BAMTA208_00945	operon_0023	NC_017188.1|gene206|BAMTA208_00945
BAMTA208_00950	operon_0023	NC_017188.1|gene207|BAMTA208_00950|ybdO1
BAMTA208_00955	operon_0024	NC_017188.1|gene208|BAMTA208_00955|kdgR1
BAMTA208_00960	operon_0024	NC_017188.1|gene209|BAMTA208_00960|yxaC
BAMTA208_00965	operon_0024	NC_017188.1|gene210|BAMTA208_00965|yxzK
BAMTA208_00970	operon_0025	NC_017188.1|gene211|BAMTA208_00970|yxaD
BAMTA208_00975	operon_0025	NC_017188.1|gene212|BAMTA208_00975|ybxG
BAMTA208_00980	operon_0025	NC_017188.1|gene213|BAMTA208_00980|yfnB
BAMTA208_00985	operon_0025	NC_017188.1|gene214|BAMTA208_00985
BAMTA208_00990	operon_0025	NC_017188.1|gene215|BAMTA208_00990
BAMTA208_00995	operon_0025	NC_017188.1|gene216|BAMTA208_00995|yfiL
BAMTA208_01000	operon_0025	NC_017188.1|gene217|BAMTA208_01000|yfiM
BAMTA208_01005	operon_0025	NC_017188.1|gene218|BAMTA208_01005|yfiN1
BAMTA208_01010	operon_0025	NC_017188.1|gene219|BAMTA208_01010
BAMTA208_01015	operon_0025	NC_017188.1|gene220|BAMTA208_01015|yolA1
BAMTA208_01020	operon_0025	NC_017188.1|gene221|BAMTA208_01020|csgA
BAMTA208_01035	operon_0026	NC_017188.1|gene222|BAMTA208_01035|ybyB
BAMTA208_01040	operon_0027	NC_017188.1|gene223|BAMTA208_01040|ybeC
BAMTA208_01045	operon_0027	NC_017188.1|gene224|BAMTA208_01045
BAMTA208_01050	operon_0028	NC_017188.1|gene225|BAMTA208_01050|glpQ
BAMTA208_01055	operon_0028	NC_017188.1|gene226|BAMTA208_01055|glpT
BAMTA208_01060	operon_0029	NC_017188.1|gene227|BAMTA208_01060|ybeF
BAMTA208_01065	operon_0030	NC_017188.1|gene228|BAMTA208_01065|yoaI
BAMTA208_01070	operon_0030	NC_017188.1|gene229|BAMTA208_01070|ybfF
BAMTA208_01075	operon_0031	NC_017188.1|gene230|BAMTA208_01075
BAMTA208_01080	operon_0031	NC_017188.1|gene231|BAMTA208_01080
BAMTA208_01085	operon_0031	NC_017188.1|gene232|BAMTA208_01085|purT
BAMTA208_01090	operon_0031	NC_017188.1|gene233|BAMTA208_01090|pssA
BAMTA208_01095	operon_0031	NC_017188.1|gene234|BAMTA208_01095|ybfM
BAMTA208_01100	operon_0031	NC_017188.1|gene235|BAMTA208_01100|psd
BAMTA208_01105	operon_0031	NC_017188.1|gene236|BAMTA208_01105|ybfN
BAMTA208_01110	operon_0031	NC_017188.1|gene237|BAMTA208_01110|ybfQ
BAMTA208_01115	operon_0032	NC_017188.1|gene238|BAMTA208_01115|gltP
BAMTA208_01120	operon_0033	NC_017188.1|gene239|BAMTA208_01120|ybgE
BAMTA208_01125	operon_0034	NC_017188.1|gene240|BAMTA208_01125|ybgF
BAMTA208_01130	operon_0034	NC_017188.1|gene241|BAMTA208_01130|mmuM
BAMTA208_01135	operon_0034	NC_017188.1|gene242|BAMTA208_01135|glnT
BAMTA208_01140	operon_0034	NC_017188.1|gene243|BAMTA208_01140|glsA
BAMTA208_01145	operon_0035	NC_017188.1|gene244|BAMTA208_01145|glnK1
BAMTA208_01150	operon_0035	NC_017188.1|gene245|BAMTA208_01150|glnL
BAMTA208_01155	operon_0035	NC_017188.1|gene246|BAMTA208_01155|ycbJ
BAMTA208_01160	operon_0035	NC_017188.1|gene247|BAMTA208_01160|rtpA
BAMTA208_01165	operon_0035	NC_017188.1|gene248|BAMTA208_01165
BAMTA208_01170	operon_0036	NC_017188.1|gene249|BAMTA208_01170|ydfM
BAMTA208_01175	operon_0037	NC_017188.1|gene250|BAMTA208_01175|ydfN
BAMTA208_01180	operon_0037	NC_017188.1|gene251|BAMTA208_01180|mhqO
BAMTA208_01185	operon_0037	NC_017188.1|gene252|BAMTA208_01185|ydfP
BAMTA208_01190	operon_0037	NC_017188.1|gene253|BAMTA208_01190|ydfQ
BAMTA208_01195	operon_0037	NC_017188.1|gene254|BAMTA208_01195
BAMTA208_01200	operon_0038	NC_017188.1|gene255|BAMTA208_01200|ybcP
BAMTA208_01205	operon_0039	NC_017188.1|gene256|BAMTA208_01205|cwlJ
BAMTA208_01210	operon_0039	NC_017188.1|gene257|BAMTA208_01210
BAMTA208_01215	operon_0039	NC_017188.1|gene258|BAMTA208_01215|phoD
BAMTA208_01220	operon_0039	NC_017188.1|gene259|BAMTA208_01220|tatAD
BAMTA208_01225	operon_0039	NC_017188.1|gene260|BAMTA208_01225|tatCD
BAMTA208_01230	operon_0040	NC_017188.1|gene261|BAMTA208_01230|pcp
BAMTA208_01235	operon_0041	NC_017188.1|gene262|BAMTA208_01235|ycbU
BAMTA208_01240	operon_0042	NC_017188.1|gene263|BAMTA208_01240|lmrB
BAMTA208_01245	operon_0042	NC_017188.1|gene264|BAMTA208_01245|lmrA
BAMTA208_01250	operon_0043	NC_017188.1|gene265|BAMTA208_01250|lip
BAMTA208_01255	operon_0043	NC_017188.1|gene266|BAMTA208_01255|yccF
BAMTA208_01260	operon_0043	NC_017188.1|gene267|BAMTA208_01260|yccK
BAMTA208_01265	operon_0044	NC_017188.1|gene268|BAMTA208_01265|ycdA
BAMTA208_01270	operon_0045	NC_017188.1|gene269|BAMTA208_01270|ycdB
BAMTA208_01275	operon_0045	NC_017188.1|gene270|BAMTA208_01275|ycdC
BAMTA208_01280	operon_0046	NC_017188.1|gene271|BAMTA208_01280|cwlK
BAMTA208_01285	operon_0047	NC_017188.1|gene272|BAMTA208_01285|rapJ
BAMTA208_01290	operon_0047	NC_017188.1|gene273|BAMTA208_01290|ycdF
BAMTA208_01295	operon_0047	NC_017188.1|gene274|BAMTA208_01295|ycdG
BAMTA208_01300	operon_0048	NC_017188.1|gene275|BAMTA208_01300
BAMTA208_01305	operon_0048	NC_017188.1|gene276|BAMTA208_01305
BAMTA208_01310	operon_0049	NC_017188.1|gene277|BAMTA208_01310|ycdH
BAMTA208_01315	operon_0049	NC_017188.1|gene278|BAMTA208_01315|ycdI
BAMTA208_01320	operon_0049	NC_017188.1|gene279|BAMTA208_01320|yceA
BAMTA208_01325	operon_0050	NC_017188.1|gene280|BAMTA208_01325|yceB
BAMTA208_01330	operon_0051	NC_017188.1|gene281|BAMTA208_01330|yceC
BAMTA208_01335	operon_0051	NC_017188.1|gene282|BAMTA208_01335|yceD
BAMTA208_01340	operon_0051	NC_017188.1|gene283|BAMTA208_01340|yceE
BAMTA208_01345	operon_0051	NC_017188.1|gene284|BAMTA208_01345|yceF
BAMTA208_01350	operon_0051	NC_017188.1|gene285|BAMTA208_01350|yceG
BAMTA208_01355	operon_0051	NC_017188.1|gene286|BAMTA208_01355|yceH
BAMTA208_01360	operon_0051	NC_017188.1|gene287|BAMTA208_01360|yceI
BAMTA208_01365	operon_0051	NC_017188.1|gene288|BAMTA208_01365
BAMTA208_01370	operon_0051	NC_017188.1|gene289|BAMTA208_01370|opuAA
BAMTA208_01375	operon_0051	NC_017188.1|gene290|BAMTA208_01375|opuAB
BAMTA208_01380	operon_0051	NC_017188.1|gene291|BAMTA208_01380|opuAC
BAMTA208_01385	operon_0052	NC_017188.1|gene292|BAMTA208_01385|amhX
BAMTA208_01390	operon_0053	NC_017188.1|gene293|BAMTA208_01390|ycgA
BAMTA208_01395	operon_0053	NC_017188.1|gene294|BAMTA208_01395|ycgB
BAMTA208_01400	operon_0054	NC_017188.1|gene295|BAMTA208_01400|yczC
BAMTA208_01405	operon_0055	NC_017188.1|gene296|BAMTA208_01405|ldh
BAMTA208_01410	operon_0056	NC_017188.1|gene297|BAMTA208_01410|mdr
BAMTA208_01415	operon_0057	NC_017188.1|gene298|BAMTA208_01415|ycgE
BAMTA208_01420	operon_0057	NC_017188.1|gene299|BAMTA208_01420|ycgF
BAMTA208_01425	operon_0057	NC_017188.1|gene300|BAMTA208_01425|ycgG
BAMTA208_01430	operon_0058	NC_017188.1|gene301|BAMTA208_01430|ycgH
BAMTA208_01435	operon_0059	NC_017188.1|gene302|BAMTA208_01435|ycgI
BAMTA208_01440	operon_0059	NC_017188.1|gene303|BAMTA208_01440|nadE
BAMTA208_01445	operon_0060	NC_017188.1|gene304|BAMTA208_01445
BAMTA208_01450	operon_0061	NC_017188.1|gene305|BAMTA208_01450|ycbE
BAMTA208_01455	operon_0061	NC_017188.1|gene306|BAMTA208_01455|aroK
BAMTA208_01460	operon_0061	NC_017188.1|gene307|BAMTA208_01460|cah
BAMTA208_01465	operon_0061	NC_017188.1|gene308|BAMTA208_01465|ycgL
BAMTA208_01470	operon_0061	NC_017188.1|gene309|BAMTA208_01470|ycgM
BAMTA208_01475	operon_0061	NC_017188.1|gene310|BAMTA208_01475|ycgN
BAMTA208_01480	operon_0061	NC_017188.1|gene311|BAMTA208_01480|ycgO
BAMTA208_01485	operon_0061	NC_017188.1|gene312|BAMTA208_01485|ycgP
BAMTA208_01490	operon_0061	NC_017188.1|gene313|BAMTA208_01490|ycgT
BAMTA208_01495	operon_0062	NC_017188.1|gene314|BAMTA208_01495|nasF
BAMTA208_01500	operon_0062	NC_017188.1|gene315|BAMTA208_01500|nasE
BAMTA208_01505	operon_0062	NC_017188.1|gene316|BAMTA208_01505|nasD
BAMTA208_01510	operon_0063	NC_017188.1|gene317|BAMTA208_01510|nasA%23
BAMTA208_01515	operon_0063	NC_017188.1|gene318|BAMTA208_01515|yciC
BAMTA208_01520	operon_0063	NC_017188.1|gene319|BAMTA208_01520
BAMTA208_01525	operon_0063	NC_017188.1|gene320|BAMTA208_01525|yckC
BAMTA208_01530	operon_0063	NC_017188.1|gene321|BAMTA208_01530|yckD
BAMTA208_01535	operon_0063	NC_017188.1|gene322|BAMTA208_01535|bglC
BAMTA208_01540	operon_0064	NC_017188.1|gene323|BAMTA208_01540|nin
BAMTA208_01545	operon_0064	NC_017188.1|gene324|BAMTA208_01545|nucA
BAMTA208_01550	operon_0064	NC_017188.1|gene325|BAMTA208_01550|hxlB
BAMTA208_01555	operon_0064	NC_017188.1|gene326|BAMTA208_01555|hxlA
BAMTA208_01560	operon_0065	NC_017188.1|gene327|BAMTA208_01560|hxlR
BAMTA208_01565	operon_0066	NC_017188.1|gene328|BAMTA208_01565
BAMTA208_01570	operon_0067	NC_017188.1|gene329|BAMTA208_01570
BAMTA208_01575	operon_0067	NC_017188.1|gene330|BAMTA208_01575|srfAA
BAMTA208_01580	operon_0067	NC_017188.1|gene331|BAMTA208_01580|srfAB
BAMTA208_01585	operon_0067	NC_017188.1|gene332|BAMTA208_01585|srfAC
BAMTA208_01590	operon_0067	NC_017188.1|gene333|BAMTA208_01590|srfAD
BAMTA208_01595	operon_0067	NC_017188.1|gene334|BAMTA208_01595
BAMTA208_01600	operon_0067	NC_017188.1|gene335|BAMTA208_01600
BAMTA208_01605	operon_0068	NC_017188.1|gene336|BAMTA208_01605|sfp
BAMTA208_01610	operon_0068	NC_017188.1|gene337|BAMTA208_01610|yczE
BAMTA208_01615	operon_0068	NC_017188.1|gene338|BAMTA208_01615|tcyC
BAMTA208_01620	operon_0068	NC_017188.1|gene339|BAMTA208_01620|tcyB
BAMTA208_01625	operon_0068	NC_017188.1|gene340|BAMTA208_01625|tcyA
BAMTA208_01630	operon_0068	NC_017188.1|gene341|BAMTA208_01630|bsdA
BAMTA208_01635	operon_0069	NC_017188.1|gene342|BAMTA208_01635|bsdB
BAMTA208_01640	operon_0069	NC_017188.1|gene343|BAMTA208_01640|bsdC
BAMTA208_01645	operon_0069	NC_017188.1|gene344|BAMTA208_01645|bsdD
BAMTA208_01650	operon_0069	NC_017188.1|gene345|BAMTA208_01650|yclD
BAMTA208_01655	operon_0070	NC_017188.1|gene346|BAMTA208_01655|dtpT
BAMTA208_01660	operon_0071	NC_017188.1|gene347|BAMTA208_01660|yclG
BAMTA208_01665	operon_0072	NC_017188.1|gene348|BAMTA208_01665|yczF
BAMTA208_01670	operon_0073	NC_017188.1|gene349|BAMTA208_01670|gerKA
BAMTA208_01675	operon_0073	NC_017188.1|gene350|BAMTA208_01675|gerKC
BAMTA208_01680	operon_0073	NC_017188.1|gene351|BAMTA208_01680|gerKB
BAMTA208_01685	operon_0073	NC_017188.1|gene352|BAMTA208_01685|yxeK
BAMTA208_01690	operon_0073	NC_017188.1|gene353|BAMTA208_01690|yxeL
BAMTA208_01695	operon_0073	NC_017188.1|gene354|BAMTA208_01695|yxeM
BAMTA208_01700	operon_0073	NC_017188.1|gene355|BAMTA208_01700|yxeN
BAMTA208_01705	operon_0073	NC_017188.1|gene356|BAMTA208_01705|yxeO
BAMTA208_01710	operon_0073	NC_017188.1|gene357|BAMTA208_01710|yxeP
BAMTA208_01715	operon_0073	NC_017188.1|gene358|BAMTA208_01715|yxeQ
BAMTA208_01720	operon_0074	NC_017188.1|gene359|BAMTA208_01720|yclH
BAMTA208_01725	operon_0074	NC_017188.1|gene360|BAMTA208_01725|yclI
BAMTA208_01730	operon_0075	NC_017188.1|gene361|BAMTA208_01730|yclJ
BAMTA208_01735	operon_0075	NC_017188.1|gene362|BAMTA208_01735|yclK
BAMTA208_01740	operon_0075	NC_017188.1|gene363|BAMTA208_01740
BAMTA208_01745	operon_0075	NC_017188.1|gene364|BAMTA208_01745|rapC
BAMTA208_01750	operon_0075	NC_017188.1|gene365|BAMTA208_01750|phrC
BAMTA208_01755	operon_0076	NC_017188.1|gene366|BAMTA208_01755
BAMTA208_01760	operon_0076	NC_017188.1|gene367|BAMTA208_01760|yclM
BAMTA208_01765	operon_0077	NC_017188.1|gene368|BAMTA208_01765|yclN
BAMTA208_01770	operon_0077	NC_017188.1|gene369|BAMTA208_01770|yclO
BAMTA208_01775	operon_0077	NC_017188.1|gene370|BAMTA208_01775|yclP
BAMTA208_01780	operon_0077	NC_017188.1|gene371|BAMTA208_01780|yclQ
BAMTA208_01785	operon_0078	NC_017188.1|gene372|BAMTA208_01785|ycnB
BAMTA208_01790	operon_0078	NC_017188.1|gene373|BAMTA208_01790|ycnC
BAMTA208_01795	operon_0078	NC_017188.1|gene374|BAMTA208_01795|ycnD
BAMTA208_01800	operon_0078	NC_017188.1|gene375|BAMTA208_01800|ycnE
BAMTA208_01805	operon_0079	NC_017188.1|gene376|BAMTA208_01805|yczG
BAMTA208_01810	operon_0080	NC_017188.1|gene377|BAMTA208_01810|gabR
BAMTA208_01815	operon_0081	NC_017188.1|gene378|BAMTA208_01815|gabT
BAMTA208_01820	operon_0081	NC_017188.1|gene379|BAMTA208_01820|gabD
BAMTA208_01825	operon_0081	NC_017188.1|gene380|BAMTA208_01825|glcU
BAMTA208_01830	operon_0081	NC_017188.1|gene381|BAMTA208_01830|gdh
BAMTA208_01835	operon_0082	NC_017188.1|gene382|BAMTA208_01835|ycnI
BAMTA208_01840	operon_0082	NC_017188.1|gene383|BAMTA208_01840|ycnJ
BAMTA208_01845	operon_0082	NC_017188.1|gene384|BAMTA208_01845|ycnK
BAMTA208_01850	operon_0083	NC_017188.1|gene385|BAMTA208_01850|ycnL
BAMTA208_01855	operon_0083	NC_017188.1|gene386|BAMTA208_01855|mtlA1
BAMTA208_01860	operon_0083	NC_017188.1|gene387|BAMTA208_01860|mtlA2
BAMTA208_01865	operon_0083	NC_017188.1|gene388|BAMTA208_01865|mtlD
BAMTA208_01870	operon_0083	NC_017188.1|gene389|BAMTA208_01870|ycsD
BAMTA208_01875	operon_0084	NC_017188.1|gene390|BAMTA208_01875|yczO
BAMTA208_01880	operon_0085	NC_017188.1|gene391|BAMTA208_01880|ycsE
BAMTA208_01885	operon_0085	NC_017188.1|gene392|BAMTA208_01885|ycsF
BAMTA208_01890	operon_0085	NC_017188.1|gene393|BAMTA208_01890|ycsG
BAMTA208_01895	operon_0085	NC_017188.1|gene394|BAMTA208_01895|ycsI
BAMTA208_01900	operon_0085	NC_017188.1|gene395|BAMTA208_01900|kipI
BAMTA208_01905	operon_0085	NC_017188.1|gene396|BAMTA208_01905|kipA
BAMTA208_01910	operon_0085	NC_017188.1|gene397|BAMTA208_01910|kipR
BAMTA208_01915	operon_0085	NC_017188.1|gene398|BAMTA208_01915|lipC
BAMTA208_01920	operon_0085	NC_017188.1|gene399|BAMTA208_01920|yczI
BAMTA208_01925	operon_0086	NC_017188.1|gene400|BAMTA208_01925
BAMTA208_01930	operon_0087	NC_017188.1|gene401|BAMTA208_01930|pbpC
BAMTA208_01935	operon_0087	NC_017188.1|gene402|BAMTA208_01935|ycsN
BAMTA208_01940	operon_0087	NC_017188.1|gene403|BAMTA208_01940|mtlR
BAMTA208_01945	operon_0087	NC_017188.1|gene404|BAMTA208_01945|ydaB
BAMTA208_01950	operon_0087	NC_017188.1|gene405|BAMTA208_01950|ydaD
BAMTA208_01955	operon_0087	NC_017188.1|gene406|BAMTA208_01955|ydaE
BAMTA208_01960	operon_0087	NC_017188.1|gene407|BAMTA208_01960|ydaF
BAMTA208_01965	operon_0087	NC_017188.1|gene408|BAMTA208_01965|ydaG
BAMTA208_01970	operon_0087	NC_017188.1|gene409|BAMTA208_01970|ydaH
BAMTA208_01975	operon_0088	NC_017188.1|gene410|BAMTA208_01975|ydzA
BAMTA208_01980	operon_0089	NC_017188.1|gene411|BAMTA208_01980|lrpC
BAMTA208_01985	operon_0089	NC_017188.1|gene412|BAMTA208_01985|topB
BAMTA208_01990	operon_0089	NC_017188.1|gene413|BAMTA208_01990|ydaJ
BAMTA208_01995	operon_0089	NC_017188.1|gene414|BAMTA208_01995|ydaK
BAMTA208_02000	operon_0089	NC_017188.1|gene415|BAMTA208_02000|ydaL
BAMTA208_02015	operon_0089	NC_017188.1|gene416|BAMTA208_02015|ydaN
BAMTA208_02020	operon_0089	NC_017188.1|gene417|BAMTA208_02020|ydaO
BAMTA208_02025	operon_0089	NC_017188.1|gene418|BAMTA208_02025|ydaP
BAMTA208_02030	operon_0090	NC_017188.1|gene419|BAMTA208_02030
BAMTA208_02035	operon_0091	NC_017188.1|gene420|BAMTA208_02035|xlyB1
BAMTA208_02040	operon_0091	NC_017188.1|gene421|BAMTA208_02040
BAMTA208_02045	operon_0091	NC_017188.1|gene422|BAMTA208_02045
BAMTA208_02050	operon_0091	NC_017188.1|gene423|BAMTA208_02050
BAMTA208_02055	operon_0091	NC_017188.1|gene424|BAMTA208_02055|rapH1
BAMTA208_02060	operon_0091	NC_017188.1|gene425|BAMTA208_02060
BAMTA208_02065	operon_0092	NC_017188.1|gene426|BAMTA208_02065
BAMTA208_02070	operon_0092	NC_017188.1|gene427|BAMTA208_02070
BAMTA208_02075	operon_0092	NC_017188.1|gene428|BAMTA208_02075
BAMTA208_02080	operon_0092	NC_017188.1|gene429|BAMTA208_02080|mntH
BAMTA208_02085	operon_0092	NC_017188.1|gene430|BAMTA208_02085
BAMTA208_02090	operon_0093	NC_017188.1|gene431|BAMTA208_02090
BAMTA208_02095	operon_0094	NC_017188.1|gene432|BAMTA208_02095|ydaT
BAMTA208_02100	operon_0094	NC_017188.1|gene433|BAMTA208_02100|yvaD
BAMTA208_02105	operon_0094	NC_017188.1|gene434|BAMTA208_02105|yvaE
BAMTA208_02110	operon_0095	NC_017188.1|gene435|BAMTA208_02110|ydbA
BAMTA208_02115	operon_0095	NC_017188.1|gene436|BAMTA208_02115|gsiB
BAMTA208_02120	operon_0095	NC_017188.1|gene437|BAMTA208_02120|ydbB
BAMTA208_02125	operon_0095	NC_017188.1|gene438|BAMTA208_02125|ydbC
BAMTA208_02130	operon_0096	NC_017188.1|gene439|BAMTA208_02130|ydbD
BAMTA208_02135	operon_0096	NC_017188.1|gene440|BAMTA208_02135|dctB
BAMTA208_02140	operon_0097	NC_017188.1|gene441|BAMTA208_02140|dctS
BAMTA208_02145	operon_0097	NC_017188.1|gene442|BAMTA208_02145|dctR
BAMTA208_02150	operon_0097	NC_017188.1|gene443|BAMTA208_02150|dctA
BAMTA208_02155	operon_0097	NC_017188.1|gene444|BAMTA208_02155|ydbI
BAMTA208_02160	operon_0097	NC_017188.1|gene445|BAMTA208_02160|ydbJ
BAMTA208_02165	operon_0097	NC_017188.1|gene446|BAMTA208_02165|ydbK
BAMTA208_02170	operon_0097	NC_017188.1|gene447|BAMTA208_02170|ydbL
BAMTA208_02175	operon_0097	NC_017188.1|gene448|BAMTA208_02175|ydbM
BAMTA208_02180	operon_0098	NC_017188.1|gene449|BAMTA208_02180|fbpB3
BAMTA208_02185	operon_0098	NC_017188.1|gene450|BAMTA208_02185
BAMTA208_02190	operon_0099	NC_017188.1|gene451|BAMTA208_02190|ydbO
BAMTA208_02195	operon_0100	NC_017188.1|gene452|BAMTA208_02195|ydbP
BAMTA208_02200	operon_0101	NC_017188.1|gene453|BAMTA208_02200|ddl
BAMTA208_02205	operon_0101	NC_017188.1|gene454|BAMTA208_02205|murF
BAMTA208_02210	operon_0101	NC_017188.1|gene455|BAMTA208_02210
BAMTA208_02215	operon_0101	NC_017188.1|gene456|BAMTA208_02215|cshA
BAMTA208_02220	operon_0101	NC_017188.1|gene457|BAMTA208_02220|ydbS
BAMTA208_02225	operon_0101	NC_017188.1|gene458|BAMTA208_02225|ydbT
BAMTA208_02230	operon_0102	NC_017188.1|gene459|BAMTA208_02230|ydcA
BAMTA208_02235	operon_0103	NC_017188.1|gene460|BAMTA208_02235|acpS
BAMTA208_02240	operon_0103	NC_017188.1|gene461|BAMTA208_02240|ydcC
BAMTA208_02245	operon_0103	NC_017188.1|gene462|BAMTA208_02245|alrA
BAMTA208_02250	operon_0103	NC_017188.1|gene463|BAMTA208_02250|ndoAI
BAMTA208_02255	operon_0103	NC_017188.1|gene464|BAMTA208_02255|ndoA
BAMTA208_02260	operon_0103	NC_017188.1|gene465|BAMTA208_02260|rsbRA
BAMTA208_02265	operon_0103	NC_017188.1|gene466|BAMTA208_02265|rsbS
BAMTA208_02270	operon_0103	NC_017188.1|gene467|BAMTA208_02270|rsbT
BAMTA208_02275	operon_0103	NC_017188.1|gene468|BAMTA208_02275|rsbU
BAMTA208_02280	operon_0103	NC_017188.1|gene469|BAMTA208_02280|rsbV
BAMTA208_02285	operon_0103	NC_017188.1|gene470|BAMTA208_02285|rsbW
BAMTA208_02290	operon_0103	NC_017188.1|gene471|BAMTA208_02290|sigB
BAMTA208_02295	operon_0103	NC_017188.1|gene472|BAMTA208_02295|rsbU2
BAMTA208_02300	operon_0103	NC_017188.1|gene473|BAMTA208_02300|ydcI
BAMTA208_02305	operon_0104	NC_017188.1|gene474|BAMTA208_02305
BAMTA208_02310	operon_0105	NC_017188.1|gene475|BAMTA208_02310|ydcK
BAMTA208_t20697	operon_0105	NC_017188.1|gene476|BAMTA208_t20697
BAMTA208_t20699	operon_0105	NC_017188.1|gene477|BAMTA208_t20699
BAMTA208_t20701	operon_0105	NC_017188.1|gene478|BAMTA208_t20701
BAMTA208_t20703	operon_0105	NC_017188.1|gene479|BAMTA208_t20703
BAMTA208_t20705	operon_0105	NC_017188.1|gene480|BAMTA208_t20705
BAMTA208_t20707	operon_0105	NC_017188.1|gene481|BAMTA208_t20707
BAMTA208_t20709	operon_0105	NC_017188.1|gene482|BAMTA208_t20709
BAMTA208_02315	operon_0106	NC_017188.1|gene483|BAMTA208_02315
BAMTA208_02320	operon_0106	NC_017188.1|gene484|BAMTA208_02320
BAMTA208_02325	operon_0107	NC_017188.1|gene485|BAMTA208_02325
BAMTA208_02330	operon_0108	NC_017188.1|gene486|BAMTA208_02330
BAMTA208_02335	operon_0109	NC_017188.1|gene487|BAMTA208_02335|ybfA
BAMTA208_02340	operon_0109	NC_017188.1|gene488|BAMTA208_02340|ybfB
BAMTA208_02345	operon_0109	NC_017188.1|gene489|BAMTA208_02345
BAMTA208_02350	operon_0109	NC_017188.1|gene490|BAMTA208_02350
BAMTA208_02355	operon_0109	NC_017188.1|gene491|BAMTA208_02355
BAMTA208_02360	operon_0110	NC_017188.1|gene492|BAMTA208_02360
BAMTA208_02365	operon_0111	NC_017188.1|gene493|BAMTA208_02365
BAMTA208_02370	operon_0112	NC_017188.1|gene494|BAMTA208_02370|ywgB
BAMTA208_02375	operon_0113	NC_017188.1|gene495|BAMTA208_02375
BAMTA208_02380	operon_0113	NC_017188.1|gene496|BAMTA208_02380|cspC
BAMTA208_02385	operon_0114	NC_017188.1|gene497|BAMTA208_02385|yddJ
BAMTA208_02390	operon_0115	NC_017188.1|gene498|BAMTA208_02390|racX
BAMTA208_02395	operon_0116	NC_017188.1|gene499|BAMTA208_02395
BAMTA208_02400	operon_0116	NC_017188.1|gene500|BAMTA208_02400
BAMTA208_02405	operon_0117	NC_017188.1|gene501|BAMTA208_02405|ydeF
BAMTA208_02410	operon_0117	NC_017188.1|gene502|BAMTA208_02410|ydeG
BAMTA208_02415	operon_0118	NC_017188.1|gene503|BAMTA208_02415|cotR
BAMTA208_02420	operon_0119	NC_017188.1|gene504|BAMTA208_02420
BAMTA208_02425	operon_0119	NC_017188.1|gene505|BAMTA208_02425|cotQ
BAMTA208_02430	operon_0120	NC_017188.1|gene506|BAMTA208_02430
BAMTA208_02435	operon_0121	NC_017188.1|gene507|BAMTA208_02435|czcD
BAMTA208_02440	operon_0122	NC_017188.1|gene508|BAMTA208_02440
BAMTA208_02445	operon_0123	NC_017188.1|gene509|BAMTA208_02445|yrkC
BAMTA208_02450	operon_0123	NC_017188.1|gene510|BAMTA208_02450|yyaR
BAMTA208_02455	operon_0124	NC_017188.1|gene511|BAMTA208_02455|ydeE
BAMTA208_02460	operon_0125	NC_017188.1|gene512|BAMTA208_02460
BAMTA208_02465	operon_0125	NC_017188.1|gene513|BAMTA208_02465
BAMTA208_02470	operon_0125	NC_017188.1|gene514|BAMTA208_02470|ydeH
BAMTA208_02475	operon_0125	NC_017188.1|gene515|BAMTA208_02475
BAMTA208_02480	operon_0126	NC_017188.1|gene516|BAMTA208_02480|adhA
BAMTA208_02485	operon_0127	NC_017188.1|gene517|BAMTA208_02485|adhR
BAMTA208_02490	operon_0127	NC_017188.1|gene518|BAMTA208_02490
BAMTA208_02495	operon_0127	NC_017188.1|gene519|BAMTA208_02495
BAMTA208_02500	operon_0128	NC_017188.1|gene520|BAMTA208_02500
BAMTA208_02505	operon_0129	NC_017188.1|gene521|BAMTA208_02505
BAMTA208_02510	operon_0130	NC_017188.1|gene522|BAMTA208_02510
BAMTA208_02515	operon_0130	NC_017188.1|gene523|BAMTA208_02515|ydeR
BAMTA208_02520	operon_0131	NC_017188.1|gene524|BAMTA208_02520|ydeS
BAMTA208_02525	operon_0132	NC_017188.1|gene525|BAMTA208_02525|ydeK
BAMTA208_02530	operon_0133	NC_017188.1|gene526|BAMTA208_02530|ydeL
BAMTA208_02535	operon_0134	NC_017188.1|gene527|BAMTA208_02535|yraD
BAMTA208_02540	operon_0134	NC_017188.1|gene528|BAMTA208_02540|yraE
BAMTA208_02545	operon_0134	NC_017188.1|gene529|BAMTA208_02545|adhB
BAMTA208_02550	operon_0134	NC_017188.1|gene530|BAMTA208_02550|yraF
BAMTA208_02555	operon_0134	NC_017188.1|gene531|BAMTA208_02555|yraG
BAMTA208_02560	operon_0135	NC_017188.1|gene532|BAMTA208_02560|ydfJ
BAMTA208_02565	operon_0136	NC_017188.1|gene533|BAMTA208_02565
BAMTA208_02570	operon_0136	NC_017188.1|gene534|BAMTA208_02570|vmlR
BAMTA208_02575	operon_0136	NC_017188.1|gene535|BAMTA208_02575|ynaD
BAMTA208_02580	operon_0136	NC_017188.1|gene536|BAMTA208_02580
BAMTA208_02585	operon_0137	NC_017188.1|gene537|BAMTA208_02585|gldA
BAMTA208_02590	operon_0137	NC_017188.1|gene538|BAMTA208_02590|ydgK
BAMTA208_02595	operon_0138	NC_017188.1|gene539|BAMTA208_02595
BAMTA208_02600	operon_0139	NC_017188.1|gene540|BAMTA208_02600
BAMTA208_02605	operon_0140	NC_017188.1|gene541|BAMTA208_02605|ydhB
BAMTA208_02610	operon_0140	NC_017188.1|gene542|BAMTA208_02610|bltD
BAMTA208_02615	operon_0141	NC_017188.1|gene543|BAMTA208_02615|bltR
BAMTA208_02620	operon_0141	NC_017188.1|gene544|BAMTA208_02620|ydzE
BAMTA208_02625	operon_0142	NC_017188.1|gene545|BAMTA208_02625
BAMTA208_02630	operon_0143	NC_017188.1|gene546|BAMTA208_02630|yjhB
BAMTA208_02635	operon_0144	NC_017188.1|gene547|BAMTA208_02635
BAMTA208_02640	operon_0144	NC_017188.1|gene548|BAMTA208_02640|ycsA
BAMTA208_02645	operon_0145	NC_017188.1|gene549|BAMTA208_02645|ydhC
BAMTA208_02650	operon_0145	NC_017188.1|gene550|BAMTA208_02650|ydhE
BAMTA208_02655	operon_0145	NC_017188.1|gene551|BAMTA208_02655
BAMTA208_02660	operon_0145	NC_017188.1|gene552|BAMTA208_02660|pbpE
BAMTA208_02665	operon_0146	NC_017188.1|gene553|BAMTA208_02665
BAMTA208_02670	operon_0147	NC_017188.1|gene554|BAMTA208_02670|ydhK
BAMTA208_02675	operon_0148	NC_017188.1|gene555|BAMTA208_02675|pbuE
BAMTA208_02680	operon_0149	NC_017188.1|gene556|BAMTA208_02680|gmuR
BAMTA208_02685	operon_0149	NC_017188.1|gene557|BAMTA208_02685
BAMTA208_02690	operon_0149	NC_017188.1|gene558|BAMTA208_02690|yycB
BAMTA208_02695	operon_0150	NC_017188.1|gene559|BAMTA208_02695|yydR
BAMTA208_02700	operon_0150	NC_017188.1|gene560|BAMTA208_02700|yvdS
BAMTA208_02705	operon_0150	NC_017188.1|gene561|BAMTA208_02705|yvdT
BAMTA208_02710	operon_0150	NC_017188.1|gene562|BAMTA208_02710|yveA
BAMTA208_02715	operon_0150	NC_017188.1|gene563|BAMTA208_02715|ydhU
BAMTA208_02720	operon_0150	NC_017188.1|gene564|BAMTA208_02720|yndB
BAMTA208_02725	operon_0151	NC_017188.1|gene565|BAMTA208_02725|yhfP
BAMTA208_02730	operon_0151	NC_017188.1|gene566|BAMTA208_02730|iolT
BAMTA208_t20711	operon_0151	NC_017188.1|gene567|BAMTA208_t20711
BAMTA208_t20713	operon_0151	NC_017188.1|gene568|BAMTA208_t20713
BAMTA208_r20835	operon_0151	NC_017188.1|gene569|BAMTA208_r20835
BAMTA208_r20847	operon_0151	NC_017188.1|gene570|BAMTA208_r20847
BAMTA208_r20823	operon_0151	NC_017188.1|gene571|BAMTA208_r20823
BAMTA208_t20715	operon_0151	NC_017188.1|gene572|BAMTA208_t20715
BAMTA208_t20717	operon_0151	NC_017188.1|gene573|BAMTA208_t20717
BAMTA208_02735	operon_0151	NC_017188.1|gene574|BAMTA208_02735|thiL
BAMTA208_02740	operon_0151	NC_017188.1|gene575|BAMTA208_02740|ydiB
BAMTA208_02745	operon_0151	NC_017188.1|gene576|BAMTA208_02745|ydiC
BAMTA208_02750	operon_0151	NC_017188.1|gene577|BAMTA208_02750|ydiD
BAMTA208_02755	operon_0151	NC_017188.1|gene578|BAMTA208_02755|gcp
BAMTA208_02760	operon_0152	NC_017188.1|gene579|BAMTA208_02760|ydiF
BAMTA208_02765	operon_0153	NC_017188.1|gene580|BAMTA208_02765|moaC
BAMTA208_02770	operon_0153	NC_017188.1|gene581|BAMTA208_02770|rex
BAMTA208_02775	operon_0153	NC_017188.1|gene582|BAMTA208_02775|tatAY
BAMTA208_02780	operon_0153	NC_017188.1|gene583|BAMTA208_02780|tatCY
BAMTA208_02785	operon_0154	NC_017188.1|gene584|BAMTA208_02785|ydiK
BAMTA208_02790	operon_0154	NC_017188.1|gene585|BAMTA208_02790|ydiL
BAMTA208_02795	operon_0155	NC_017188.1|gene586|BAMTA208_02795|groES
BAMTA208_02800	operon_0155	NC_017188.1|gene587|BAMTA208_02800|groEL
BAMTA208_02805	operon_0155	NC_017188.1|gene588|BAMTA208_02805|fadG
BAMTA208_02810	operon_0155	NC_017188.1|gene589|BAMTA208_02810|ykuH2
BAMTA208_02815	operon_0155	NC_017188.1|gene590|BAMTA208_02815
BAMTA208_02820	operon_0156	NC_017188.1|gene591|BAMTA208_02820|gutR
BAMTA208_02825	operon_0157	NC_017188.1|gene592|BAMTA208_02825|gutB3
BAMTA208_02830	operon_0157	NC_017188.1|gene593|BAMTA208_02830|gutP
BAMTA208_02835	operon_0157	NC_017188.1|gene594|BAMTA208_02835|ydjE
BAMTA208_02840	operon_0157	NC_017188.1|gene595|BAMTA208_02840|yjdJ
BAMTA208_02845	operon_0157	NC_017188.1|gene596|BAMTA208_02845|pspA
BAMTA208_02850	operon_0157	NC_017188.1|gene597|BAMTA208_02850|ydjG
BAMTA208_02855	operon_0157	NC_017188.1|gene598|BAMTA208_02855|ydjH
BAMTA208_02860	operon_0157	NC_017188.1|gene599|BAMTA208_02860|ydjI
BAMTA208_02865	operon_0158	NC_017188.1|gene600|BAMTA208_02865|oatA
BAMTA208_02870	operon_0158	NC_017188.1|gene601|BAMTA208_02870|rsiV
BAMTA208_02875	operon_0158	NC_017188.1|gene602|BAMTA208_02875|sigV
BAMTA208_02880	operon_0158	NC_017188.1|gene603|BAMTA208_02880|bdhA
BAMTA208_02885	operon_0159	NC_017188.1|gene604|BAMTA208_02885|ydjM
BAMTA208_02890	operon_0159	NC_017188.1|gene605|BAMTA208_02890|ydjN
BAMTA208_02895	operon_0160	NC_017188.1|gene606|BAMTA208_02895
BAMTA208_02900	operon_0160	NC_017188.1|gene607|BAMTA208_02900|ydjO
BAMTA208_02905	operon_0160	NC_017188.1|gene608|BAMTA208_02905|cotA
BAMTA208_02910	operon_0160	NC_017188.1|gene609|BAMTA208_02910|gabP
BAMTA208_02915	operon_0160	NC_017188.1|gene610|BAMTA208_02915
BAMTA208_02920	operon_0161	NC_017188.1|gene611|BAMTA208_02920|yeaB
BAMTA208_02925	operon_0161	NC_017188.1|gene612|BAMTA208_02925|yeaC
BAMTA208_02930	operon_0161	NC_017188.1|gene613|BAMTA208_02930|yeaD
BAMTA208_02935	operon_0161	NC_017188.1|gene614|BAMTA208_02935|yebA
BAMTA208_02940	operon_0161	NC_017188.1|gene615|BAMTA208_02940|guaA
BAMTA208_02945	operon_0161	NC_017188.1|gene616|BAMTA208_02945
BAMTA208_02950	operon_0161	NC_017188.1|gene617|BAMTA208_02950
BAMTA208_02955	operon_0161	NC_017188.1|gene618|BAMTA208_02955|pbuG
BAMTA208_02960	operon_0162	NC_017188.1|gene619|BAMTA208_02960
BAMTA208_02965	operon_0163	NC_017188.1|gene620|BAMTA208_02965
BAMTA208_02970	operon_0163	NC_017188.1|gene621|BAMTA208_02970|yebE
BAMTA208_02975	operon_0163	NC_017188.1|gene622|BAMTA208_02975|yebG
BAMTA208_02980	operon_0163	NC_017188.1|gene623|BAMTA208_02980|purE
BAMTA208_02985	operon_0163	NC_017188.1|gene624|BAMTA208_02985|purK
BAMTA208_02990	operon_0163	NC_017188.1|gene625|BAMTA208_02990|purB
BAMTA208_02995	operon_0163	NC_017188.1|gene626|BAMTA208_02995|purC
BAMTA208_03000	operon_0163	NC_017188.1|gene627|BAMTA208_03000|purS
BAMTA208_03005	operon_0163	NC_017188.1|gene628|BAMTA208_03005|purQ
BAMTA208_03010	operon_0163	NC_017188.1|gene629|BAMTA208_03010|purL
BAMTA208_03015	operon_0163	NC_017188.1|gene630|BAMTA208_03015|purF
BAMTA208_03020	operon_0163	NC_017188.1|gene631|BAMTA208_03020|purM
BAMTA208_03025	operon_0163	NC_017188.1|gene632|BAMTA208_03025|purN
BAMTA208_03030	operon_0163	NC_017188.1|gene633|BAMTA208_03030|purH
BAMTA208_03035	operon_0163	NC_017188.1|gene634|BAMTA208_03035|purD
BAMTA208_03040	operon_0164	NC_017188.1|gene635|BAMTA208_03040|yezC
BAMTA208_03045	operon_0165	NC_017188.1|gene636|BAMTA208_03045|yecA
BAMTA208_03050	operon_0166	NC_017188.1|gene637|BAMTA208_03050|yezF
BAMTA208_03055	operon_0167	NC_017188.1|gene638|BAMTA208_03055|yerA
BAMTA208_03060	operon_0167	NC_017188.1|gene639|BAMTA208_03060|yerB
BAMTA208_03065	operon_0167	NC_017188.1|gene640|BAMTA208_03065|yerC
BAMTA208_03070	operon_0168	NC_017188.1|gene641|BAMTA208_03070|yerD
BAMTA208_03075	operon_0168	NC_017188.1|gene642|BAMTA208_03075
BAMTA208_03080	operon_0169	NC_017188.1|gene643|BAMTA208_03080|pcrB
BAMTA208_03085	operon_0169	NC_017188.1|gene644|BAMTA208_03085|pcrA1
BAMTA208_03090	operon_0169	NC_017188.1|gene645|BAMTA208_03090|ligA
BAMTA208_03095	operon_0169	NC_017188.1|gene646|BAMTA208_03095|yerH
BAMTA208_03100	operon_0169	NC_017188.1|gene647|BAMTA208_03100|yerI
BAMTA208_03105	operon_0170	NC_017188.1|gene648|BAMTA208_03105|sapB
BAMTA208_03110	operon_0170	NC_017188.1|gene649|BAMTA208_03110|opuE
BAMTA208_03115	operon_0171	NC_017188.1|gene650|BAMTA208_03115|gatC
BAMTA208_03120	operon_0171	NC_017188.1|gene651|BAMTA208_03120|gatA
BAMTA208_03125	operon_0171	NC_017188.1|gene652|BAMTA208_03125|gatB
BAMTA208_03130	operon_0172	NC_017188.1|gene653|BAMTA208_03130|yerO
BAMTA208_03135	operon_0173	NC_017188.1|gene654|BAMTA208_03135|swrC
BAMTA208_03140	operon_0173	NC_017188.1|gene655|BAMTA208_03140|dgkB
BAMTA208_03145	operon_0173	NC_017188.1|gene656|BAMTA208_03145|yefA
BAMTA208_03150	operon_0173	NC_017188.1|gene657|BAMTA208_03150
BAMTA208_03155	operon_0173	NC_017188.1|gene658|BAMTA208_03155|metN1
BAMTA208_03160	operon_0173	NC_017188.1|gene659|BAMTA208_03160|yfiN
BAMTA208_03185	operon_0174	NC_017188.1|gene660|BAMTA208_03185
BAMTA208_03190	operon_0175	NC_017188.1|gene661|BAMTA208_03190|yeeI
BAMTA208_03195	operon_0175	NC_017188.1|gene662|BAMTA208_03195
BAMTA208_03200	operon_0175	NC_017188.1|gene663|BAMTA208_03200|aadK
BAMTA208_03205	operon_0175	NC_017188.1|gene664|BAMTA208_03205|cotJA
BAMTA208_03210	operon_0175	NC_017188.1|gene665|BAMTA208_03210|cotJB
BAMTA208_03215	operon_0175	NC_017188.1|gene666|BAMTA208_03215|cotJC
BAMTA208_03220	operon_0175	NC_017188.1|gene667|BAMTA208_03220|yesJ
BAMTA208_03225	operon_0175	NC_017188.1|gene668|BAMTA208_03225
BAMTA208_03230	operon_0175	NC_017188.1|gene669|BAMTA208_03230|yetF
BAMTA208_03235	operon_0176	NC_017188.1|gene670|BAMTA208_03235|yetG
BAMTA208_03240	operon_0176	NC_017188.1|gene671|BAMTA208_03240|yetH
BAMTA208_03245	operon_0177	NC_017188.1|gene672|BAMTA208_03245|staS
BAMTA208_03250	operon_0177	NC_017188.1|gene673|BAMTA208_03250|yezD
BAMTA208_03255	operon_0177	NC_017188.1|gene674|BAMTA208_03255
BAMTA208_03260	operon_0177	NC_017188.1|gene675|BAMTA208_03260|yetJ
BAMTA208_03265	operon_0178	NC_017188.1|gene676|BAMTA208_03265|yetL
BAMTA208_03270	operon_0179	NC_017188.1|gene677|BAMTA208_03270|yetM
BAMTA208_03275	operon_0180	NC_017188.1|gene678|BAMTA208_03275|yetN
BAMTA208_03280	operon_0181	NC_017188.1|gene679|BAMTA208_03280|yetO
BAMTA208_03285	operon_0181	NC_017188.1|gene680|BAMTA208_03285
BAMTA208_03290	operon_0181	NC_017188.1|gene681|BAMTA208_03290|yfnI
BAMTA208_03295	operon_0181	NC_017188.1|gene682|BAMTA208_03295|yfnH
BAMTA208_03300	operon_0181	NC_017188.1|gene683|BAMTA208_03300|yfnG
BAMTA208_03305	operon_0181	NC_017188.1|gene684|BAMTA208_03305|yfnF
BAMTA208_03310	operon_0181	NC_017188.1|gene685|BAMTA208_03310|yfnE
BAMTA208_03315	operon_0181	NC_017188.1|gene686|BAMTA208_03315|yfnD
BAMTA208_03320	operon_0182	NC_017188.1|gene687|BAMTA208_03320|yfnC
BAMTA208_03325	operon_0182	NC_017188.1|gene688|BAMTA208_03325|yfnA
BAMTA208_03330	operon_0183	NC_017188.1|gene689|BAMTA208_03330|yfmT
BAMTA208_03335	operon_0183	NC_017188.1|gene690|BAMTA208_03335|yfmS
BAMTA208_03340	operon_0183	NC_017188.1|gene691|BAMTA208_03340
BAMTA208_03345	operon_0184	NC_017188.1|gene692|BAMTA208_03345
BAMTA208_03350	operon_0185	NC_017188.1|gene693|BAMTA208_03350|yfmR
BAMTA208_03355	operon_0185	NC_017188.1|gene694|BAMTA208_03355|yfmP
BAMTA208_03360	operon_0185	NC_017188.1|gene695|BAMTA208_03360|yfmO
BAMTA208_03365	operon_0186	NC_017188.1|gene696|BAMTA208_03365|yfmM
BAMTA208_03370	operon_0187	NC_017188.1|gene697|BAMTA208_03370|yfmL
BAMTA208_03375	operon_0188	NC_017188.1|gene698|BAMTA208_03375|yfmJ
BAMTA208_03380	operon_0188	NC_017188.1|gene699|BAMTA208_03380
BAMTA208_03385	operon_0189	NC_017188.1|gene700|BAMTA208_03385|yflT
BAMTA208_03390	operon_0189	NC_017188.1|gene701|BAMTA208_03390|pel
BAMTA208_03395	operon_0189	NC_017188.1|gene702|BAMTA208_03395|yflS
BAMTA208_03400	operon_0189	NC_017188.1|gene703|BAMTA208_03400|truncated
BAMTA208_03405	operon_0189	NC_017188.1|gene704|BAMTA208_03405
BAMTA208_03410	operon_0189	NC_017188.1|gene705|BAMTA208_03410
BAMTA208_03415	operon_0190	NC_017188.1|gene706|BAMTA208_03415|ywpD
BAMTA208_03420	operon_0191	NC_017188.1|gene707|BAMTA208_03420
BAMTA208_03425	operon_0191	NC_017188.1|gene708|BAMTA208_03425
BAMTA208_03430	operon_0191	NC_017188.1|gene709|BAMTA208_03430|ywpE
BAMTA208_03435	operon_0191	NC_017188.1|gene710|BAMTA208_03435|citS
BAMTA208_03440	operon_0191	NC_017188.1|gene711|BAMTA208_03440|citT
BAMTA208_03445	operon_0191	NC_017188.1|gene712|BAMTA208_03445|yflP
BAMTA208_03450	operon_0191	NC_017188.1|gene713|BAMTA208_03450
BAMTA208_03455	operon_0191	NC_017188.1|gene714|BAMTA208_03455|citM
BAMTA208_03460	operon_0191	NC_017188.1|gene715|BAMTA208_03460|yflN
BAMTA208_03465	operon_0191	NC_017188.1|gene716|BAMTA208_03465|nos
BAMTA208_03470	operon_0192	NC_017188.1|gene717|BAMTA208_03470|yflL
BAMTA208_03475	operon_0193	NC_017188.1|gene718|BAMTA208_03475|yflK
BAMTA208_03480	operon_0194	NC_017188.1|gene719|BAMTA208_03480|yflJ
BAMTA208_03485	operon_0194	NC_017188.1|gene720|BAMTA208_03485|yflI
BAMTA208_03490	operon_0194	NC_017188.1|gene721|BAMTA208_03490|yflH
BAMTA208_03495	operon_0194	NC_017188.1|gene722|BAMTA208_03495|mapB
BAMTA208_03500	operon_0195	NC_017188.1|gene723|BAMTA208_03500|nagP
BAMTA208_03505	operon_0195	NC_017188.1|gene724|BAMTA208_03505|yfmQ
BAMTA208_03510	operon_0196	NC_017188.1|gene725|BAMTA208_03510|ltaS
BAMTA208_03515	operon_0197	NC_017188.1|gene726|BAMTA208_03515|yflB
BAMTA208_03520	operon_0198	NC_017188.1|gene727|BAMTA208_03520|cotP
BAMTA208_03525	operon_0198	NC_017188.1|gene728|BAMTA208_03525|ydgA
BAMTA208_03530	operon_0198	NC_017188.1|gene729|BAMTA208_03530|ydgB
BAMTA208_03535	operon_0199	NC_017188.1|gene730|BAMTA208_03535|treP
BAMTA208_03540	operon_0199	NC_017188.1|gene731|BAMTA208_03540|treA
BAMTA208_03545	operon_0199	NC_017188.1|gene732|BAMTA208_03545|treR
BAMTA208_03550	operon_0199	NC_017188.1|gene733|BAMTA208_03550|yfkO
BAMTA208_03555	operon_0200	NC_017188.1|gene734|BAMTA208_03555
BAMTA208_03560	operon_0200	NC_017188.1|gene735|BAMTA208_03560
BAMTA208_03565	operon_0200	NC_017188.1|gene736|BAMTA208_03565|yfkN
BAMTA208_03570	operon_0201	NC_017188.1|gene737|BAMTA208_03570|yfkM
BAMTA208_03575	operon_0202	NC_017188.1|gene738|BAMTA208_03575
BAMTA208_03580	operon_0202	NC_017188.1|gene739|BAMTA208_03580
BAMTA208_03585	operon_0202	NC_017188.1|gene740|BAMTA208_03585|aroC
BAMTA208_03590	operon_0202	NC_017188.1|gene741|BAMTA208_03590|yfkL
BAMTA208_03595	operon_0202	NC_017188.1|gene742|BAMTA208_03595|yfkK
BAMTA208_03600	operon_0203	NC_017188.1|gene743|BAMTA208_03600|yfkJ
BAMTA208_03605	operon_0203	NC_017188.1|gene744|BAMTA208_03605|yfkI
BAMTA208_03610	operon_0203	NC_017188.1|gene745|BAMTA208_03610|yfkH
BAMTA208_03615	operon_0203	NC_017188.1|gene746|BAMTA208_03615
BAMTA208_03620	operon_0204	NC_017188.1|gene747|BAMTA208_03620|yfkF
BAMTA208_03625	operon_0205	NC_017188.1|gene748|BAMTA208_03625|chaA
BAMTA208_03630	operon_0205	NC_017188.1|gene749|BAMTA208_03630|yfkD
BAMTA208_03635	operon_0206	NC_017188.1|gene750|BAMTA208_03635|yfkC
BAMTA208_03640	operon_0206	NC_017188.1|gene751|BAMTA208_03640|yfkA
BAMTA208_03645	operon_0207	NC_017188.1|gene752|BAMTA208_03645|yfjT
BAMTA208_03650	operon_0207	NC_017188.1|gene753|BAMTA208_03650|pdaA
BAMTA208_03655	operon_0208	NC_017188.1|gene754|BAMTA208_03655|yfjR
BAMTA208_03660	operon_0209	NC_017188.1|gene755|BAMTA208_03660
BAMTA208_03665	operon_0210	NC_017188.1|gene756|BAMTA208_03665|yfjQ
BAMTA208_03670	operon_0211	NC_017188.1|gene757|BAMTA208_03670|yfjP
BAMTA208_03675	operon_0211	NC_017188.1|gene758|BAMTA208_03675
BAMTA208_03680	operon_0211	NC_017188.1|gene759|BAMTA208_03680|yfjO
BAMTA208_03685	operon_0212	NC_017188.1|gene760|BAMTA208_03685
BAMTA208_03690	operon_0212	NC_017188.1|gene761|BAMTA208_03690|bsaP
BAMTA208_03695	operon_0213	NC_017188.1|gene762|BAMTA208_03695|yvcC
BAMTA208_03700	operon_0213	NC_017188.1|gene763|BAMTA208_03700|amfT
BAMTA208_03705	operon_0213	NC_017188.1|gene764|BAMTA208_03705
BAMTA208_03710	operon_0213	NC_017188.1|gene765|BAMTA208_03710
BAMTA208_03715	operon_0213	NC_017188.1|gene766|BAMTA208_03715
BAMTA208_03720	operon_0213	NC_017188.1|gene767|BAMTA208_03720
BAMTA208_03725	operon_0213	NC_017188.1|gene768|BAMTA208_03725
BAMTA208_03730	operon_0214	NC_017188.1|gene769|BAMTA208_03730
BAMTA208_03735	operon_0215	NC_017188.1|gene770|BAMTA208_03735|dusC
BAMTA208_03740	operon_0215	NC_017188.1|gene771|BAMTA208_03740|yfjM
BAMTA208_03745	operon_0215	NC_017188.1|gene772|BAMTA208_03745|acoA
BAMTA208_03750	operon_0215	NC_017188.1|gene773|BAMTA208_03750|acoB
BAMTA208_03755	operon_0215	NC_017188.1|gene774|BAMTA208_03755|acoC
BAMTA208_03760	operon_0215	NC_017188.1|gene775|BAMTA208_03760|acoL
BAMTA208_03765	operon_0215	NC_017188.1|gene776|BAMTA208_03765|acoR
BAMTA208_03770	operon_0215	NC_017188.1|gene777|BAMTA208_03770|sspH
BAMTA208_03775	operon_0215	NC_017188.1|gene778|BAMTA208_03775|malA
BAMTA208_03780	operon_0215	NC_017188.1|gene779|BAMTA208_03780|malR1
BAMTA208_03785	operon_0215	NC_017188.1|gene780|BAMTA208_03785|malP
BAMTA208_03790	operon_0215	NC_017188.1|gene781|BAMTA208_03790
BAMTA208_03795	operon_0215	NC_017188.1|gene782|BAMTA208_03795
BAMTA208_03800	operon_0215	NC_017188.1|gene783|BAMTA208_03800|malQ
BAMTA208_03805	operon_0215	NC_017188.1|gene784|BAMTA208_03805|yfiC
BAMTA208_03810	operon_0215	NC_017188.1|gene785|BAMTA208_03810|catD
BAMTA208_03815	operon_0215	NC_017188.1|gene786|BAMTA208_03815|yfiE
BAMTA208_03820	operon_0215	NC_017188.1|gene787|BAMTA208_03820
BAMTA208_03835	operon_0216	NC_017188.1|gene788|BAMTA208_03835|padR
BAMTA208_03840	operon_0217	NC_017188.1|gene789|BAMTA208_03840
BAMTA208_03845	operon_0217	NC_017188.1|gene790|BAMTA208_03845|yfiQ
BAMTA208_03850	operon_0218	NC_017188.1|gene791|BAMTA208_03850
BAMTA208_03855	operon_0219	NC_017188.1|gene792|BAMTA208_03855
BAMTA208_03860	operon_0219	NC_017188.1|gene793|BAMTA208_03860|yfiT
BAMTA208_03865	operon_0220	NC_017188.1|gene794|BAMTA208_03865|yfiU
BAMTA208_03870	operon_0220	NC_017188.1|gene795|BAMTA208_03870|yfiV
BAMTA208_03875	operon_0221	NC_017188.1|gene796|BAMTA208_03875|mprF
BAMTA208_03880	operon_0221	NC_017188.1|gene797|BAMTA208_03880|yfhB
BAMTA208_03885	operon_0221	NC_017188.1|gene798|BAMTA208_03885|yfhC
BAMTA208_03890	operon_0222	NC_017188.1|gene799|BAMTA208_03890|yfhD
BAMTA208_03895	operon_0222	NC_017188.1|gene800|BAMTA208_03895|yfhE
BAMTA208_03900	operon_0222	NC_017188.1|gene801|BAMTA208_03900|yfhF
BAMTA208_03905	operon_0223	NC_017188.1|gene802|BAMTA208_03905|recX
BAMTA208_03910	operon_0223	NC_017188.1|gene803|BAMTA208_03910|yfhH
BAMTA208_03915	operon_0223	NC_017188.1|gene804|BAMTA208_03915|yfhI
BAMTA208_03920	operon_0224	NC_017188.1|gene805|BAMTA208_03920|ybfJ
BAMTA208_03925	operon_0224	NC_017188.1|gene806|BAMTA208_03925|mpr
BAMTA208_03930	operon_0224	NC_017188.1|gene807|BAMTA208_03930|sspK
BAMTA208_03935	operon_0225	NC_017188.1|gene808|BAMTA208_03935|yfhJ
BAMTA208_03940	operon_0225	NC_017188.1|gene809|BAMTA208_03940|yfhK
BAMTA208_03945	operon_0225	NC_017188.1|gene810|BAMTA208_03945|yfhL
BAMTA208_03950	operon_0225	NC_017188.1|gene811|BAMTA208_03950|yfhM
BAMTA208_03955	operon_0225	NC_017188.1|gene812|BAMTA208_03955|csbB
BAMTA208_03960	operon_0225	NC_017188.1|gene813|BAMTA208_03960|yfhO
BAMTA208_03965	operon_0226	NC_017188.1|gene814|BAMTA208_03965|yfhP
BAMTA208_03970	operon_0227	NC_017188.1|gene815|BAMTA208_03970|yfhQ
BAMTA208_03975	operon_0228	NC_017188.1|gene816|BAMTA208_03975|yfhS
BAMTA208_03980	operon_0229	NC_017188.1|gene817|BAMTA208_03980|fabL
BAMTA208_03985	operon_0229	NC_017188.1|gene818|BAMTA208_03985|sspE
BAMTA208_03990	operon_0229	NC_017188.1|gene819|BAMTA208_03990|ygaB
BAMTA208_03995	operon_0229	NC_017188.1|gene820|BAMTA208_03995|ygaC
BAMTA208_04000	operon_0229	NC_017188.1|gene821|BAMTA208_04000|ygaD
BAMTA208_04005	operon_0230	NC_017188.1|gene822|BAMTA208_04005|ygaE
BAMTA208_04010	operon_0230	NC_017188.1|gene823|BAMTA208_04010|gsaB
BAMTA208_04015	operon_0231	NC_017188.1|gene824|BAMTA208_04015|ygaF
BAMTA208_04020	operon_0231	NC_017188.1|gene825|BAMTA208_04020|perR
BAMTA208_04025	operon_0232	NC_017188.1|gene826|BAMTA208_04025|ygzB
BAMTA208_04030	operon_0233	NC_017188.1|gene827|BAMTA208_04030|ygxA
BAMTA208_04035	operon_0233	NC_017188.1|gene828|BAMTA208_04035
BAMTA208_r20837	operon_0233	NC_017188.1|gene829|BAMTA208_r20837
BAMTA208_r20849	operon_0233	NC_017188.1|gene830|BAMTA208_r20849
BAMTA208_r20825	operon_0233	NC_017188.1|gene831|BAMTA208_r20825
BAMTA208_t20719	operon_0233	NC_017188.1|gene832|BAMTA208_t20719
BAMTA208_t20721	operon_0233	NC_017188.1|gene833|BAMTA208_t20721
BAMTA208_t20723	operon_0233	NC_017188.1|gene834|BAMTA208_t20723
BAMTA208_t20725	operon_0233	NC_017188.1|gene835|BAMTA208_t20725
BAMTA208_t20727	operon_0233	NC_017188.1|gene836|BAMTA208_t20727
BAMTA208_t20729	operon_0233	NC_017188.1|gene837|BAMTA208_t20729
BAMTA208_t20731	operon_0233	NC_017188.1|gene838|BAMTA208_t20731
BAMTA208_t20733	operon_0233	NC_017188.1|gene839|BAMTA208_t20733
BAMTA208_t20735	operon_0233	NC_017188.1|gene840|BAMTA208_t20735
BAMTA208_t20737	operon_0233	NC_017188.1|gene841|BAMTA208_t20737
BAMTA208_t20739	operon_0233	NC_017188.1|gene842|BAMTA208_t20739
BAMTA208_t20741	operon_0233	NC_017188.1|gene843|BAMTA208_t20741
BAMTA208_t20743	operon_0233	NC_017188.1|gene844|BAMTA208_t20743
BAMTA208_t20745	operon_0233	NC_017188.1|gene845|BAMTA208_t20745
BAMTA208_t20747	operon_0233	NC_017188.1|gene846|BAMTA208_t20747
BAMTA208_t20749	operon_0233	NC_017188.1|gene847|BAMTA208_t20749
BAMTA208_04040	operon_0233	NC_017188.1|gene848|BAMTA208_04040
BAMTA208_04045	operon_0233	NC_017188.1|gene849|BAMTA208_04045|ygaJ
BAMTA208_04050	operon_0233	NC_017188.1|gene850|BAMTA208_04050|thiC
BAMTA208_04055	operon_0234	NC_017188.1|gene851|BAMTA208_04055|ygaK
BAMTA208_04060	operon_0235	NC_017188.1|gene852|BAMTA208_04060|senS
BAMTA208_04065	operon_0235	NC_017188.1|gene853|BAMTA208_04065|oppA1
BAMTA208_04070	operon_0235	NC_017188.1|gene854|BAMTA208_04070|oppB1
BAMTA208_04075	operon_0235	NC_017188.1|gene855|BAMTA208_04075|oppC1
BAMTA208_04080	operon_0235	NC_017188.1|gene856|BAMTA208_04080|oppD1
BAMTA208_04085	operon_0235	NC_017188.1|gene857|BAMTA208_04085|oppF1
BAMTA208_04090	operon_0236	NC_017188.1|gene858|BAMTA208_04090|katA
BAMTA208_04095	operon_0237	NC_017188.1|gene859|BAMTA208_04095
BAMTA208_04100	operon_0237	NC_017188.1|gene860|BAMTA208_04100|ssuB
BAMTA208_04105	operon_0237	NC_017188.1|gene861|BAMTA208_04105|ssuA
BAMTA208_04110	operon_0237	NC_017188.1|gene862|BAMTA208_04110|ssuC
BAMTA208_04115	operon_0237	NC_017188.1|gene863|BAMTA208_04115|ssuD
BAMTA208_04120	operon_0237	NC_017188.1|gene864|BAMTA208_04120|ygaN1
BAMTA208_04125	operon_0237	NC_017188.1|gene865|BAMTA208_04125|ygaN2
BAMTA208_04130	operon_0237	NC_017188.1|gene866|BAMTA208_04130|rpsN
BAMTA208_04135	operon_0238	NC_017188.1|gene867|BAMTA208_04135|ygaO
BAMTA208_04140	operon_0238	NC_017188.1|gene868|BAMTA208_04140|ygzD
BAMTA208_t20751	operon_0239	NC_017188.1|gene869|BAMTA208_t20751
BAMTA208_04145	operon_0240	NC_017188.1|gene870|BAMTA208_04145|yhzB
BAMTA208_04150	operon_0241	NC_017188.1|gene871|BAMTA208_04150|yhbA
BAMTA208_04155	operon_0241	NC_017188.1|gene872|BAMTA208_04155|yhbB
BAMTA208_04160	operon_0241	NC_017188.1|gene873|BAMTA208_04160|cspR
BAMTA208_04165	operon_0241	NC_017188.1|gene874|BAMTA208_04165|yhbD
BAMTA208_04170	operon_0241	NC_017188.1|gene875|BAMTA208_04170|yhbE
BAMTA208_04175	operon_0241	NC_017188.1|gene876|BAMTA208_04175|yhbF
BAMTA208_04180	operon_0241	NC_017188.1|gene877|BAMTA208_04180|prkA
BAMTA208_04185	operon_0241	NC_017188.1|gene878|BAMTA208_04185|yhbH
BAMTA208_04190	operon_0241	NC_017188.1|gene879|BAMTA208_04190|yhbI
BAMTA208_04195	operon_0241	NC_017188.1|gene880|BAMTA208_04195|yhbJ
BAMTA208_04200	operon_0241	NC_017188.1|gene881|BAMTA208_04200|yhcA
BAMTA208_04205	operon_0241	NC_017188.1|gene882|BAMTA208_04205|yhcB
BAMTA208_04210	operon_0241	NC_017188.1|gene883|BAMTA208_04210|yhcC
BAMTA208_04215	operon_0241	NC_017188.1|gene884|BAMTA208_04215|yhcE
BAMTA208_04220	operon_0241	NC_017188.1|gene885|BAMTA208_04220|yhcF
BAMTA208_04225	operon_0241	NC_017188.1|gene886|BAMTA208_04225|yhcG
BAMTA208_04230	operon_0241	NC_017188.1|gene887|BAMTA208_04230|yhcH
BAMTA208_04235	operon_0241	NC_017188.1|gene888|BAMTA208_04235|yhcI
BAMTA208_04240	operon_0242	NC_017188.1|gene889|BAMTA208_04240|cspB
BAMTA208_04245	operon_0243	NC_017188.1|gene890|BAMTA208_04245|yhcJ
BAMTA208_04250	operon_0244	NC_017188.1|gene891|BAMTA208_04250|yhcK
BAMTA208_04255	operon_0245	NC_017188.1|gene892|BAMTA208_04255|tcyP
BAMTA208_04260	operon_0245	NC_017188.1|gene893|BAMTA208_04260
BAMTA208_04265	operon_0246	NC_017188.1|gene894|BAMTA208_04265|yhcM
BAMTA208_04270	operon_0247	NC_017188.1|gene895|BAMTA208_04270|yhcN
BAMTA208_04275	operon_0247	NC_017188.1|gene896|BAMTA208_04275|yhcO
BAMTA208_04280	operon_0248	NC_017188.1|gene897|BAMTA208_04280|yhcQ
BAMTA208_04285	operon_0249	NC_017188.1|gene898|BAMTA208_04285|yhcR
BAMTA208_04290	operon_0249	NC_017188.1|gene899|BAMTA208_04290|yhcS
BAMTA208_04295	operon_0250	NC_017188.1|gene900|BAMTA208_04295|yhcT
BAMTA208_04300	operon_0251	NC_017188.1|gene901|BAMTA208_04300|yhcU
BAMTA208_04305	operon_0251	NC_017188.1|gene902|BAMTA208_04305|yhcV
BAMTA208_04310	operon_0251	NC_017188.1|gene903|BAMTA208_04310|yhcW
BAMTA208_04315	operon_0251	NC_017188.1|gene904|BAMTA208_04315|yhcX
BAMTA208_04320	operon_0251	NC_017188.1|gene905|BAMTA208_04320|yhxA
BAMTA208_04325	operon_0251	NC_017188.1|gene906|BAMTA208_04325|glpP
BAMTA208_04330	operon_0251	NC_017188.1|gene907|BAMTA208_04330|glpF
BAMTA208_04335	operon_0251	NC_017188.1|gene908|BAMTA208_04335|glpK
BAMTA208_04340	operon_0251	NC_017188.1|gene909|BAMTA208_04340|glpD
BAMTA208_04345	operon_0251	NC_017188.1|gene910|BAMTA208_04345|pgcA
BAMTA208_04350	operon_0251	NC_017188.1|gene911|BAMTA208_04350|yhcY
BAMTA208_04355	operon_0251	NC_017188.1|gene912|BAMTA208_04355|yhcZ
BAMTA208_04360	operon_0251	NC_017188.1|gene913|BAMTA208_04360|yhdA
BAMTA208_04365	operon_0252	NC_017188.1|gene914|BAMTA208_04365|yhdB
BAMTA208_04370	operon_0253	NC_017188.1|gene915|BAMTA208_04370|yhdC
BAMTA208_04375	operon_0254	NC_017188.1|gene916|BAMTA208_04375|lytF
BAMTA208_04380	operon_0254	NC_017188.1|gene917|BAMTA208_04380|nsrR
BAMTA208_04385	operon_0254	NC_017188.1|gene918|BAMTA208_04385|ygxB
BAMTA208_04390	operon_0255	NC_017188.1|gene919|BAMTA208_04390|spoVR
BAMTA208_04395	operon_0256	NC_017188.1|gene920|BAMTA208_04395|phoA
BAMTA208_04400	operon_0256	NC_017188.1|gene921|BAMTA208_04400
BAMTA208_04405	operon_0257	NC_017188.1|gene922|BAMTA208_04405|lytE
BAMTA208_04410	operon_0258	NC_017188.1|gene923|BAMTA208_04410|citR
BAMTA208_04415	operon_0259	NC_017188.1|gene924|BAMTA208_04415|citA
BAMTA208_04420	operon_0259	NC_017188.1|gene925|BAMTA208_04420|yhdF
BAMTA208_04425	operon_0259	NC_017188.1|gene926|BAMTA208_04425|ctrA
BAMTA208_04430	operon_0259	NC_017188.1|gene927|BAMTA208_04430|yhdH
BAMTA208_04435	operon_0260	NC_017188.1|gene928|BAMTA208_04435|yhdK
BAMTA208_04440	operon_0260	NC_017188.1|gene929|BAMTA208_04440|yhdL
BAMTA208_04445	operon_0260	NC_017188.1|gene930|BAMTA208_04445|sigM
BAMTA208_04450	operon_0261	NC_017188.1|gene931|BAMTA208_04450|plsC
BAMTA208_04455	operon_0262	NC_017188.1|gene932|BAMTA208_04455|yhdP
BAMTA208_04460	operon_0262	NC_017188.1|gene933|BAMTA208_04460|cueR
BAMTA208_04465	operon_0263	NC_017188.1|gene934|BAMTA208_04465|yhdR
BAMTA208_04470	operon_0263	NC_017188.1|gene935|BAMTA208_04470|pksF1
BAMTA208_04475	operon_0263	NC_017188.1|gene936|BAMTA208_04475|yhdT
BAMTA208_04480	operon_0264	NC_017188.1|gene937|BAMTA208_04480|crcBA
BAMTA208_04485	operon_0264	NC_017188.1|gene938|BAMTA208_04485|yhdV
BAMTA208_04490	operon_0264	NC_017188.1|gene939|BAMTA208_04490|yhdW
BAMTA208_04495	operon_0265	NC_017188.1|gene940|BAMTA208_04495|yhdX
BAMTA208_04500	operon_0265	NC_017188.1|gene941|BAMTA208_04500|yhdY
BAMTA208_04505	operon_0265	NC_017188.1|gene942|BAMTA208_04505|srtN
BAMTA208_04510	operon_0266	NC_017188.1|gene943|BAMTA208_04510|yheN
BAMTA208_04515	operon_0267	NC_017188.1|gene944|BAMTA208_04515|dat
BAMTA208_04520	operon_0268	NC_017188.1|gene945|BAMTA208_04520|pksA
BAMTA208_04525	operon_0269	NC_017188.1|gene946|BAMTA208_04525|ymcC
BAMTA208_04530	operon_0270	NC_017188.1|gene947|BAMTA208_04530|nhaX
BAMTA208_04535	operon_0271	NC_017188.1|gene948|BAMTA208_04535
BAMTA208_04540	operon_0271	NC_017188.1|gene949|BAMTA208_04540|yheI
BAMTA208_04545	operon_0271	NC_017188.1|gene950|BAMTA208_04545|yheH
BAMTA208_04550	operon_0272	NC_017188.1|gene951|BAMTA208_04550|yheG
BAMTA208_04555	operon_0272	NC_017188.1|gene952|BAMTA208_04555|yheF
BAMTA208_04560	operon_0272	NC_017188.1|gene953|BAMTA208_04560|sspB
BAMTA208_04565	operon_0273	NC_017188.1|gene954|BAMTA208_04565
BAMTA208_04570	operon_0274	NC_017188.1|gene955|BAMTA208_04570|yheE
BAMTA208_04575	operon_0274	NC_017188.1|gene956|BAMTA208_04575|yheD
BAMTA208_04580	operon_0274	NC_017188.1|gene957|BAMTA208_04580|yheC
BAMTA208_04585	operon_0275	NC_017188.1|gene958|BAMTA208_04585|yheB
BAMTA208_04590	operon_0275	NC_017188.1|gene959|BAMTA208_04590|yheA
BAMTA208_04595	operon_0275	NC_017188.1|gene960|BAMTA208_04595
BAMTA208_04600	operon_0275	NC_017188.1|gene961|BAMTA208_04600|yhaX
BAMTA208_04605	operon_0275	NC_017188.1|gene962|BAMTA208_04605|hemZ
BAMTA208_04610	operon_0275	NC_017188.1|gene963|BAMTA208_04610
BAMTA208_04615	operon_0276	NC_017188.1|gene964|BAMTA208_04615|yhaU
BAMTA208_04620	operon_0276	NC_017188.1|gene965|BAMTA208_04620|yhaT
BAMTA208_04625	operon_0276	NC_017188.1|gene966|BAMTA208_04625|khtS
BAMTA208_04630	operon_0277	NC_017188.1|gene967|BAMTA208_04630|yhaR
BAMTA208_04635	operon_0278	NC_017188.1|gene968|BAMTA208_04635
BAMTA208_04640	operon_0279	NC_017188.1|gene969|BAMTA208_04640|natA
BAMTA208_04645	operon_0279	NC_017188.1|gene970|BAMTA208_04645|natB
BAMTA208_04650	operon_0279	NC_017188.1|gene971|BAMTA208_04650|yhaO
BAMTA208_04655	operon_0279	NC_017188.1|gene972|BAMTA208_04655|yhaN
BAMTA208_04660	operon_0279	NC_017188.1|gene973|BAMTA208_04660|yhaM
BAMTA208_04665	operon_0279	NC_017188.1|gene974|BAMTA208_04665|yhaL
BAMTA208_04670	operon_0280	NC_017188.1|gene975|BAMTA208_04670|prsA
BAMTA208_04675	operon_0280	NC_017188.1|gene976|BAMTA208_04675
BAMTA208_04680	operon_0280	NC_017188.1|gene977|BAMTA208_04680|yhaJ
BAMTA208_04685	operon_0281	NC_017188.1|gene978|BAMTA208_04685|yhaI
BAMTA208_04690	operon_0282	NC_017188.1|gene979|BAMTA208_04690|scoC
BAMTA208_04695	operon_0282	NC_017188.1|gene980|BAMTA208_04695|yhaH
BAMTA208_04700	operon_0283	NC_017188.1|gene981|BAMTA208_04700|yhzF
BAMTA208_04705	operon_0284	NC_017188.1|gene982|BAMTA208_04705|trpP
BAMTA208_04710	operon_0284	NC_017188.1|gene983|BAMTA208_04710|serC
BAMTA208_04715	operon_0284	NC_017188.1|gene984|BAMTA208_04715|hinT
BAMTA208_04720	operon_0285	NC_017188.1|gene985|BAMTA208_04720|ecsA
BAMTA208_04725	operon_0285	NC_017188.1|gene986|BAMTA208_04725|ecsB
BAMTA208_04730	operon_0285	NC_017188.1|gene987|BAMTA208_04730|ecsC
BAMTA208_04735	operon_0286	NC_017188.1|gene988|BAMTA208_04735|yhaA
BAMTA208_04740	operon_0286	NC_017188.1|gene989|BAMTA208_04740|yhfA
BAMTA208_04745	operon_0286	NC_017188.1|gene990|BAMTA208_04745|yhgC
BAMTA208_04750	operon_0287	NC_017188.1|gene991|BAMTA208_04750|pbpF
BAMTA208_04755	operon_0287	NC_017188.1|gene992|BAMTA208_04755|hemE
BAMTA208_04760	operon_0287	NC_017188.1|gene993|BAMTA208_04760|hemH
BAMTA208_04765	operon_0287	NC_017188.1|gene994|BAMTA208_04765|hemY
BAMTA208_04770	operon_0287	NC_017188.1|gene995|BAMTA208_04770|yhgD
BAMTA208_04775	operon_0287	NC_017188.1|gene996|BAMTA208_04775|yhgE
BAMTA208_04780	operon_0288	NC_017188.1|gene997|BAMTA208_04780|fabHB
BAMTA208_04785	operon_0288	NC_017188.1|gene998|BAMTA208_04785
BAMTA208_04790	operon_0289	NC_017188.1|gene999|BAMTA208_04790|yhfE
BAMTA208_04795	operon_0290	NC_017188.1|gene1000|BAMTA208_04795|gltT
BAMTA208_04800	operon_0290	NC_017188.1|gene1001|BAMTA208_04800
BAMTA208_04805	operon_0291	NC_017188.1|gene1002|BAMTA208_04805|yhfI
BAMTA208_04810	operon_0291	NC_017188.1|gene1003|BAMTA208_04810|yhfJ
BAMTA208_04815	operon_0291	NC_017188.1|gene1004|BAMTA208_04815|yhfK
BAMTA208_04820	operon_0291	NC_017188.1|gene1005|BAMTA208_04820|lcfB
BAMTA208_04825	operon_0292	NC_017188.1|gene1006|BAMTA208_04825|yhfM
BAMTA208_04830	operon_0293	NC_017188.1|gene1007|BAMTA208_04830|yhfN
BAMTA208_04835	operon_0294	NC_017188.1|gene1008|BAMTA208_04835|aprE
BAMTA208_04840	operon_0295	NC_017188.1|gene1009|BAMTA208_04840|yhfQ
BAMTA208_04845	operon_0296	NC_017188.1|gene1010|BAMTA208_04845|phoE
BAMTA208_04850	operon_0296	NC_017188.1|gene1011|BAMTA208_04850|yhfS
BAMTA208_04855	operon_0296	NC_017188.1|gene1012|BAMTA208_04855|yhfT
BAMTA208_04860	operon_0296	NC_017188.1|gene1013|BAMTA208_04860|bioY
BAMTA208_04865	operon_0296	NC_017188.1|gene1014|BAMTA208_04865|hemAT
BAMTA208_04870	operon_0296	NC_017188.1|gene1015|BAMTA208_04870|yhfW
BAMTA208_04875	operon_0297	NC_017188.1|gene1016|BAMTA208_04875|yhxC
BAMTA208_04880	operon_0298	NC_017188.1|gene1017|BAMTA208_04880|yhzC
BAMTA208_04885	operon_0299	NC_017188.1|gene1018|BAMTA208_04885|comK
BAMTA208_04890	operon_0299	NC_017188.1|gene1019|BAMTA208_04890|ydhG1
BAMTA208_04895	operon_0300	NC_017188.1|gene1020|BAMTA208_04895
BAMTA208_04900	operon_0300	NC_017188.1|gene1021|BAMTA208_04900|yrpD
BAMTA208_04905	operon_0301	NC_017188.1|gene1022|BAMTA208_04905|yhjA
BAMTA208_04910	operon_0302	NC_017188.1|gene1023|BAMTA208_04910
BAMTA208_04915	operon_0302	NC_017188.1|gene1024|BAMTA208_04915|yhjB
BAMTA208_04920	operon_0302	NC_017188.1|gene1025|BAMTA208_04920|yhjC1
BAMTA208_04925	operon_0302	NC_017188.1|gene1026|BAMTA208_04925|yhjD
BAMTA208_04930	operon_0303	NC_017188.1|gene1027|BAMTA208_04930|yhjE
BAMTA208_04935	operon_0303	NC_017188.1|gene1028|BAMTA208_04935|sipV
BAMTA208_04940	operon_0303	NC_017188.1|gene1029|BAMTA208_04940|yhjG
BAMTA208_04945	operon_0303	NC_017188.1|gene1030|BAMTA208_04945|yhjH
BAMTA208_04950	operon_0304	NC_017188.1|gene1031|BAMTA208_04950|yhjN
BAMTA208_04955	operon_0304	NC_017188.1|gene1032|BAMTA208_04955|blt
BAMTA208_04960	operon_0304	NC_017188.1|gene1033|BAMTA208_04960
BAMTA208_04965	operon_0304	NC_017188.1|gene1034|BAMTA208_04965|yhjR
BAMTA208_04970	operon_0304	NC_017188.1|gene1035|BAMTA208_04970|ydfS
BAMTA208_04975	operon_0305	NC_017188.1|gene1036|BAMTA208_04975|addB
BAMTA208_04980	operon_0305	NC_017188.1|gene1037|BAMTA208_04980|addA
BAMTA208_04985	operon_0305	NC_017188.1|gene1038|BAMTA208_04985|sbcD
BAMTA208_04990	operon_0305	NC_017188.1|gene1039|BAMTA208_04990|sbcC
BAMTA208_04995	operon_0305	NC_017188.1|gene1040|BAMTA208_04995|yisB
BAMTA208_05000	operon_0306	NC_017188.1|gene1041|BAMTA208_05000|gerPF
BAMTA208_05005	operon_0306	NC_017188.1|gene1042|BAMTA208_05005|gerPE
BAMTA208_05010	operon_0306	NC_017188.1|gene1043|BAMTA208_05010|gerPD
BAMTA208_05015	operon_0306	NC_017188.1|gene1044|BAMTA208_05015|gerPC
BAMTA208_05020	operon_0306	NC_017188.1|gene1045|BAMTA208_05020|gerPB
BAMTA208_05025	operon_0307	NC_017188.1|gene1046|BAMTA208_05025
BAMTA208_05030	operon_0308	NC_017188.1|gene1047|BAMTA208_05030|gerPA
BAMTA208_05035	operon_0308	NC_017188.1|gene1048|BAMTA208_05035|yisI
BAMTA208_05040	operon_0309	NC_017188.1|gene1049|BAMTA208_05040
BAMTA208_05045	operon_0309	NC_017188.1|gene1050|BAMTA208_05045|yisK
BAMTA208_05050	operon_0309	NC_017188.1|gene1051|BAMTA208_05050|yisL
BAMTA208_05055	operon_0309	NC_017188.1|gene1052|BAMTA208_05055|wprA
BAMTA208_05060	operon_0310	NC_017188.1|gene1053|BAMTA208_05060|yisN
BAMTA208_05065	operon_0311	NC_017188.1|gene1054|BAMTA208_05065|asnO
BAMTA208_05070	operon_0311	NC_017188.1|gene1055|BAMTA208_05070|yisP
BAMTA208_05075	operon_0312	NC_017188.1|gene1056|BAMTA208_05075|yisQ
BAMTA208_05080	operon_0313	NC_017188.1|gene1057|BAMTA208_05080|yisR
BAMTA208_05085	operon_0313	NC_017188.1|gene1058|BAMTA208_05085|degA
BAMTA208_05090	operon_0313	NC_017188.1|gene1059|BAMTA208_05090|yisS
BAMTA208_05095	operon_0314	NC_017188.1|gene1060|BAMTA208_05095|yisT
BAMTA208_05100	operon_0314	NC_017188.1|gene1061|BAMTA208_05100|yisU
BAMTA208_05105	operon_0315	NC_017188.1|gene1062|BAMTA208_05105|gntR
BAMTA208_05110	operon_0316	NC_017188.1|gene1063|BAMTA208_05110|yisX
BAMTA208_05115	operon_0316	NC_017188.1|gene1064|BAMTA208_05115|yitI
BAMTA208_05120	operon_0316	NC_017188.1|gene1065|BAMTA208_05120|yitJ
BAMTA208_05125	operon_0316	NC_017188.1|gene1066|BAMTA208_05125|yitK
BAMTA208_05130	operon_0317	NC_017188.1|gene1067|BAMTA208_05130|yitL
BAMTA208_05135	operon_0317	NC_017188.1|gene1068|BAMTA208_05135
BAMTA208_05140	operon_0317	NC_017188.1|gene1069|BAMTA208_05140
BAMTA208_05145	operon_0317	NC_017188.1|gene1070|BAMTA208_05145|cypC
BAMTA208_05150	operon_0318	NC_017188.1|gene1071|BAMTA208_05150
BAMTA208_05155	operon_0318	NC_017188.1|gene1072|BAMTA208_05155|yitS
BAMTA208_05160	operon_0319	NC_017188.1|gene1073|BAMTA208_05160|yitT
BAMTA208_05165	operon_0319	NC_017188.1|gene1074|BAMTA208_05165|ipi
BAMTA208_05170	operon_0320	NC_017188.1|gene1075|BAMTA208_05170
BAMTA208_05175	operon_0320	NC_017188.1|gene1076|BAMTA208_05175
BAMTA208_05180	operon_0320	NC_017188.1|gene1077|BAMTA208_05180|yitU
BAMTA208_05185	operon_0321	NC_017188.1|gene1078|BAMTA208_05185|yitV
BAMTA208_05190	operon_0321	NC_017188.1|gene1079|BAMTA208_05190|yitW
BAMTA208_05195	operon_0322	NC_017188.1|gene1080|BAMTA208_05195|fosB
BAMTA208_05200	operon_0323	NC_017188.1|gene1081|BAMTA208_05200|yitY
BAMTA208_05205	operon_0323	NC_017188.1|gene1082|BAMTA208_05205
BAMTA208_05210	operon_0323	NC_017188.1|gene1083|BAMTA208_05210|pupG
BAMTA208_05215	operon_0323	NC_017188.1|gene1084|BAMTA208_05215
BAMTA208_05220	operon_0323	NC_017188.1|gene1085|BAMTA208_05220|dacF
BAMTA208_05225	operon_0323	NC_017188.1|gene1086|BAMTA208_05225|spoIIAA
BAMTA208_05230	operon_0323	NC_017188.1|gene1087|BAMTA208_05230|spoIIAB
BAMTA208_05235	operon_0323	NC_017188.1|gene1088|BAMTA208_05235|sigF
BAMTA208_05240	operon_0323	NC_017188.1|gene1089|BAMTA208_05240|spoVAA
BAMTA208_05245	operon_0323	NC_017188.1|gene1090|BAMTA208_05245|spoVAB
BAMTA208_05250	operon_0323	NC_017188.1|gene1091|BAMTA208_05250|spoVAC
BAMTA208_05255	operon_0323	NC_017188.1|gene1092|BAMTA208_05255|spoVAD
BAMTA208_05260	operon_0323	NC_017188.1|gene1093|BAMTA208_05260|spoVAE1
BAMTA208_05265	operon_0323	NC_017188.1|gene1094|BAMTA208_05265|spoVAE2
BAMTA208_05270	operon_0323	NC_017188.1|gene1095|BAMTA208_05270|spoVAF
BAMTA208_05275	operon_0323	NC_017188.1|gene1096|BAMTA208_05275|lysA
BAMTA208_05280	operon_0324	NC_017188.1|gene1097|BAMTA208_05280|ypuA
BAMTA208_05285	operon_0325	NC_017188.1|gene1098|BAMTA208_05285
BAMTA208_05290	operon_0325	NC_017188.1|gene1099|BAMTA208_05290|ppiB
BAMTA208_05295	operon_0325	NC_017188.1|gene1100|BAMTA208_05295
BAMTA208_05300	operon_0325	NC_017188.1|gene1101|BAMTA208_05300|sipS
BAMTA208_05305	operon_0325	NC_017188.1|gene1102|BAMTA208_05305|ypuD
BAMTA208_05310	operon_0325	NC_017188.1|gene1103|BAMTA208_05310
BAMTA208_05315	operon_0325	NC_017188.1|gene1104|BAMTA208_05315|ribD
BAMTA208_05320	operon_0325	NC_017188.1|gene1105|BAMTA208_05320|ribE
BAMTA208_05325	operon_0325	NC_017188.1|gene1106|BAMTA208_05325|ribAB
BAMTA208_05330	operon_0325	NC_017188.1|gene1107|BAMTA208_05330|ribH
BAMTA208_05335	operon_0325	NC_017188.1|gene1108|BAMTA208_05335|ypzK
BAMTA208_05340	operon_0326	NC_017188.1|gene1109|BAMTA208_05340
BAMTA208_05345	operon_0326	NC_017188.1|gene1110|BAMTA208_05345|ypuF
BAMTA208_05350	operon_0327	NC_017188.1|gene1111|BAMTA208_05350|scpA
BAMTA208_05355	operon_0327	NC_017188.1|gene1112|BAMTA208_05355|spcB
BAMTA208_05360	operon_0327	NC_017188.1|gene1113|BAMTA208_05360|ypuI
BAMTA208_05365	operon_0327	NC_017188.1|gene1114|BAMTA208_05365|dacB
BAMTA208_05370	operon_0327	NC_017188.1|gene1115|BAMTA208_05370|spmA
BAMTA208_05375	operon_0327	NC_017188.1|gene1116|BAMTA208_05375|spmB
BAMTA208_05380	operon_0327	NC_017188.1|gene1117|BAMTA208_05380|rluB
BAMTA208_05385	operon_0327	NC_017188.1|gene1118|BAMTA208_05385|resA
BAMTA208_05390	operon_0327	NC_017188.1|gene1119|BAMTA208_05390|resB
BAMTA208_05395	operon_0327	NC_017188.1|gene1120|BAMTA208_05395|resC
BAMTA208_05400	operon_0327	NC_017188.1|gene1121|BAMTA208_05400|resD
BAMTA208_05405	operon_0327	NC_017188.1|gene1122|BAMTA208_05405|resE
BAMTA208_05410	operon_0327	NC_017188.1|gene1123|BAMTA208_05410|sigX
BAMTA208_05415	operon_0327	NC_017188.1|gene1124|BAMTA208_05415|rsiX
BAMTA208_05420	operon_0328	NC_017188.1|gene1125|BAMTA208_05420|serA
BAMTA208_05425	operon_0329	NC_017188.1|gene1126|BAMTA208_05425|ribU
BAMTA208_05430	operon_0330	NC_017188.1|gene1127|BAMTA208_05430
BAMTA208_05435	operon_0330	NC_017188.1|gene1128|BAMTA208_05435|fer
BAMTA208_05440	operon_0331	NC_017188.1|gene1129|BAMTA208_05440|ypbB
BAMTA208_05445	operon_0331	NC_017188.1|gene1130|BAMTA208_05445|recQ
BAMTA208_05450	operon_0331	NC_017188.1|gene1131|BAMTA208_05450|ypbD
BAMTA208_05455	operon_0331	NC_017188.1|gene1132|BAMTA208_05455
BAMTA208_05460	operon_0331	NC_017188.1|gene1133|BAMTA208_05460|ypbE
BAMTA208_05465	operon_0331	NC_017188.1|gene1134|BAMTA208_05465|ypbF
BAMTA208_05470	operon_0331	NC_017188.1|gene1135|BAMTA208_05470|ypbG
BAMTA208_05475	operon_0331	NC_017188.1|gene1136|BAMTA208_05475|mecB
BAMTA208_05480	operon_0331	NC_017188.1|gene1137|BAMTA208_05480|gudB
BAMTA208_05485	operon_0331	NC_017188.1|gene1138|BAMTA208_05485|ypdA
BAMTA208_05490	operon_0331	NC_017188.1|gene1139|BAMTA208_05490|ypdC
BAMTA208_05495	operon_0331	NC_017188.1|gene1140|BAMTA208_05495|sleB
BAMTA208_05500	operon_0331	NC_017188.1|gene1141|BAMTA208_05500|ypeB
BAMTA208_05505	operon_0331	NC_017188.1|gene1142|BAMTA208_05505|ypfA
BAMTA208_05510	operon_0331	NC_017188.1|gene1143|BAMTA208_05510|ypfB
BAMTA208_05515	operon_0331	NC_017188.1|gene1144|BAMTA208_05515|cmk
BAMTA208_05520	operon_0331	NC_017188.1|gene1145|BAMTA208_05520|rpsA
BAMTA208_05525	operon_0331	NC_017188.1|gene1146|BAMTA208_05525|fni
BAMTA208_05530	operon_0332	NC_017188.1|gene1147|BAMTA208_05530|ypzI
BAMTA208_05535	operon_0333	NC_017188.1|gene1148|BAMTA208_05535|yphA
BAMTA208_05540	operon_0333	NC_017188.1|gene1149|BAMTA208_05540
BAMTA208_05545	operon_0333	NC_017188.1|gene1150|BAMTA208_05545|engA
BAMTA208_05550	operon_0333	NC_017188.1|gene1151|BAMTA208_05550|gpsA
BAMTA208_05555	operon_0333	NC_017188.1|gene1152|BAMTA208_05555|yphE
BAMTA208_05560	operon_0333	NC_017188.1|gene1153|BAMTA208_05560|yphF
BAMTA208_05565	operon_0333	NC_017188.1|gene1154|BAMTA208_05565|spoIVA
BAMTA208_05570	operon_0333	NC_017188.1|gene1155|BAMTA208_05570|hbsu
BAMTA208_05575	operon_0333	NC_017188.1|gene1156|BAMTA208_05575|folE
BAMTA208_05580	operon_0333	NC_017188.1|gene1157|BAMTA208_05580|mtrB
BAMTA208_05585	operon_0333	NC_017188.1|gene1158|BAMTA208_05585|hepS
BAMTA208_05590	operon_0333	NC_017188.1|gene1159|BAMTA208_05590|menH
BAMTA208_05595	operon_0333	NC_017188.1|gene1160|BAMTA208_05595|hepT
BAMTA208_05600	operon_0333	NC_017188.1|gene1161|BAMTA208_05600|ndk
BAMTA208_05605	operon_0333	NC_017188.1|gene1162|BAMTA208_05605|cheR
BAMTA208_05610	operon_0333	NC_017188.1|gene1163|BAMTA208_05610|aroF
BAMTA208_05615	operon_0333	NC_017188.1|gene1164|BAMTA208_05615|aroB
BAMTA208_05620	operon_0333	NC_017188.1|gene1165|BAMTA208_05620|aroH
BAMTA208_05625	operon_0333	NC_017188.1|gene1166|BAMTA208_05625|trpE
BAMTA208_05630	operon_0333	NC_017188.1|gene1167|BAMTA208_05630|trpD
BAMTA208_05635	operon_0333	NC_017188.1|gene1168|BAMTA208_05635|trpC
BAMTA208_05640	operon_0333	NC_017188.1|gene1169|BAMTA208_05640|trpF
BAMTA208_05645	operon_0333	NC_017188.1|gene1170|BAMTA208_05645|trpB
BAMTA208_05650	operon_0333	NC_017188.1|gene1171|BAMTA208_05650|trpA
BAMTA208_05655	operon_0333	NC_017188.1|gene1172|BAMTA208_05655|hisC
BAMTA208_05660	operon_0333	NC_017188.1|gene1173|BAMTA208_05660|tyrA
BAMTA208_05665	operon_0333	NC_017188.1|gene1174|BAMTA208_05665|aroE
BAMTA208_05670	operon_0333	NC_017188.1|gene1175|BAMTA208_05670|ypiA
BAMTA208_05675	operon_0333	NC_017188.1|gene1176|BAMTA208_05675|ypiB
BAMTA208_05680	operon_0333	NC_017188.1|gene1177|BAMTA208_05680|ypiF
BAMTA208_05685	operon_0333	NC_017188.1|gene1178|BAMTA208_05685|qcrA
BAMTA208_05690	operon_0333	NC_017188.1|gene1179|BAMTA208_05690|qcrB
BAMTA208_05695	operon_0333	NC_017188.1|gene1180|BAMTA208_05695|qcrC
BAMTA208_05700	operon_0333	NC_017188.1|gene1181|BAMTA208_05700|ypjA
BAMTA208_05705	operon_0333	NC_017188.1|gene1182|BAMTA208_05705|ypjB
BAMTA208_05710	operon_0333	NC_017188.1|gene1183|BAMTA208_05710|oxdC1
BAMTA208_05715	operon_0334	NC_017188.1|gene1184|BAMTA208_05715|ypjC
BAMTA208_05720	operon_0335	NC_017188.1|gene1185|BAMTA208_05720|ypjD
BAMTA208_05725	operon_0335	NC_017188.1|gene1186|BAMTA208_05725|dapB
BAMTA208_05730	operon_0335	NC_017188.1|gene1187|BAMTA208_05730|mgsA
BAMTA208_05735	operon_0335	NC_017188.1|gene1188|BAMTA208_05735|ypjG
BAMTA208_05740	operon_0335	NC_017188.1|gene1189|BAMTA208_05740|ypjH
BAMTA208_05745	operon_0335	NC_017188.1|gene1190|BAMTA208_05745|cca
BAMTA208_05750	operon_0335	NC_017188.1|gene1191|BAMTA208_05750|birA
BAMTA208_05755	operon_0335	NC_017188.1|gene1192|BAMTA208_05755|panB
BAMTA208_05760	operon_0335	NC_017188.1|gene1193|BAMTA208_05760|panC
BAMTA208_05765	operon_0335	NC_017188.1|gene1194|BAMTA208_05765|panD
BAMTA208_05770	operon_0335	NC_017188.1|gene1195|BAMTA208_05770|dinG
BAMTA208_05775	operon_0335	NC_017188.1|gene1196|BAMTA208_05775|ypmA
BAMTA208_05780	operon_0335	NC_017188.1|gene1197|BAMTA208_05780|ypmB
BAMTA208_05785	operon_0335	NC_017188.1|gene1198|BAMTA208_05785|aspB
BAMTA208_05790	operon_0335	NC_017188.1|gene1199|BAMTA208_05790|asnC
BAMTA208_05795	operon_0335	NC_017188.1|gene1200|BAMTA208_05795|dnaD
BAMTA208_05800	operon_0335	NC_017188.1|gene1201|BAMTA208_05800|nth
BAMTA208_05805	operon_0335	NC_017188.1|gene1202|BAMTA208_05805|ypoC
BAMTA208_05810	operon_0336	NC_017188.1|gene1203|BAMTA208_05810|ponA
BAMTA208_05815	operon_0336	NC_017188.1|gene1204|BAMTA208_05815|recU
BAMTA208_05820	operon_0337	NC_017188.1|gene1205|BAMTA208_05820|yppC
BAMTA208_05825	operon_0338	NC_017188.1|gene1206|BAMTA208_05825|sspM
BAMTA208_05830	operon_0339	NC_017188.1|gene1207|BAMTA208_05830|yppD
BAMTA208_05835	operon_0339	NC_017188.1|gene1208|BAMTA208_05835|yppE
BAMTA208_05840	operon_0340	NC_017188.1|gene1209|BAMTA208_05840|yppF
BAMTA208_05845	operon_0341	NC_017188.1|gene1210|BAMTA208_05845|yppG
BAMTA208_05850	operon_0342	NC_017188.1|gene1211|BAMTA208_05850|ypqA
BAMTA208_05855	operon_0343	NC_017188.1|gene1212|BAMTA208_05855|ypqE
BAMTA208_05860	operon_0343	NC_017188.1|gene1213|BAMTA208_05860|yprA
BAMTA208_05865	operon_0343	NC_017188.1|gene1214|BAMTA208_05865|yprB
BAMTA208_05870	operon_0343	NC_017188.1|gene1215|BAMTA208_05870
BAMTA208_05875	operon_0343	NC_017188.1|gene1216|BAMTA208_05875|cotD
BAMTA208_05880	operon_0343	NC_017188.1|gene1217|BAMTA208_05880|ypsA
BAMTA208_05885	operon_0343	NC_017188.1|gene1218|BAMTA208_05885|gpsB
BAMTA208_05890	operon_0343	NC_017188.1|gene1219|BAMTA208_05890|ypsC
BAMTA208_05895	operon_0343	NC_017188.1|gene1220|BAMTA208_05895|yqgA
BAMTA208_05900	operon_0344	NC_017188.1|gene1221|BAMTA208_05900
BAMTA208_05905	operon_0345	NC_017188.1|gene1222|BAMTA208_05905|yptA
BAMTA208_05910	operon_0345	NC_017188.1|gene1223|BAMTA208_05910|ypvA
BAMTA208_05915	operon_0345	NC_017188.1|gene1224|BAMTA208_05915|ypwA
BAMTA208_05920	operon_0345	NC_017188.1|gene1225|BAMTA208_05920|xpt
BAMTA208_05925	operon_0345	NC_017188.1|gene1226|BAMTA208_05925|pbuX2
BAMTA208_05930	operon_0346	NC_017188.1|gene1227|BAMTA208_05930
BAMTA208_05935	operon_0346	NC_017188.1|gene1228|BAMTA208_05935|nuc
BAMTA208_05940	operon_0347	NC_017188.1|gene1229|BAMTA208_05940|ynaB
BAMTA208_05945	operon_0348	NC_017188.1|gene1230|BAMTA208_05945
BAMTA208_05950	operon_0349	NC_017188.1|gene1231|BAMTA208_05950
BAMTA208_05955	operon_0349	NC_017188.1|gene1232|BAMTA208_05955
BAMTA208_05960	operon_0350	NC_017188.1|gene1233|BAMTA208_05960
BAMTA208_05965	operon_0351	NC_017188.1|gene1234|BAMTA208_05965
BAMTA208_05980	operon_0351	NC_017188.1|gene1235|BAMTA208_05980
BAMTA208_05985	operon_0351	NC_017188.1|gene1236|BAMTA208_05985|uvrX3
BAMTA208_05990	operon_0352	NC_017188.1|gene1237|BAMTA208_05990
BAMTA208_06005	operon_0352	NC_017188.1|gene1238|BAMTA208_06005
BAMTA208_06010	operon_0352	NC_017188.1|gene1239|BAMTA208_06010
BAMTA208_06015	operon_0352	NC_017188.1|gene1240|BAMTA208_06015
BAMTA208_06020	operon_0352	NC_017188.1|gene1241|BAMTA208_06020
BAMTA208_06025	operon_0352	NC_017188.1|gene1242|BAMTA208_06025
BAMTA208_06030	operon_0352	NC_017188.1|gene1243|BAMTA208_06030
BAMTA208_06035	operon_0352	NC_017188.1|gene1244|BAMTA208_06035
BAMTA208_06040	operon_0352	NC_017188.1|gene1245|BAMTA208_06040
BAMTA208_06045	operon_0352	NC_017188.1|gene1246|BAMTA208_06045
BAMTA208_06050	operon_0352	NC_017188.1|gene1247|BAMTA208_06050
BAMTA208_06065	operon_0352	NC_017188.1|gene1248|BAMTA208_06065
BAMTA208_06070	operon_0352	NC_017188.1|gene1249|BAMTA208_06070
BAMTA208_06075	operon_0352	NC_017188.1|gene1250|BAMTA208_06075
BAMTA208_06080	operon_0352	NC_017188.1|gene1251|BAMTA208_06080
BAMTA208_06085	operon_0352	NC_017188.1|gene1252|BAMTA208_06085
BAMTA208_06090	operon_0352	NC_017188.1|gene1253|BAMTA208_06090
BAMTA208_06095	operon_0352	NC_017188.1|gene1254|BAMTA208_06095
BAMTA208_06100	operon_0352	NC_017188.1|gene1255|BAMTA208_06100
BAMTA208_06105	operon_0352	NC_017188.1|gene1256|BAMTA208_06105
BAMTA208_06110	operon_0352	NC_017188.1|gene1257|BAMTA208_06110
BAMTA208_06115	operon_0352	NC_017188.1|gene1258|BAMTA208_06115
BAMTA208_06120	operon_0352	NC_017188.1|gene1259|BAMTA208_06120
BAMTA208_06125	operon_0352	NC_017188.1|gene1260|BAMTA208_06125
BAMTA208_06130	operon_0352	NC_017188.1|gene1261|BAMTA208_06130
BAMTA208_06135	operon_0352	NC_017188.1|gene1262|BAMTA208_06135
BAMTA208_06140	operon_0352	NC_017188.1|gene1263|BAMTA208_06140
BAMTA208_06145	operon_0352	NC_017188.1|gene1264|BAMTA208_06145
BAMTA208_06150	operon_0352	NC_017188.1|gene1265|BAMTA208_06150
BAMTA208_06155	operon_0352	NC_017188.1|gene1266|BAMTA208_06155
BAMTA208_06160	operon_0352	NC_017188.1|gene1267|BAMTA208_06160
BAMTA208_06165	operon_0352	NC_017188.1|gene1268|BAMTA208_06165
BAMTA208_06170	operon_0352	NC_017188.1|gene1269|BAMTA208_06170
BAMTA208_06175	operon_0352	NC_017188.1|gene1270|BAMTA208_06175
BAMTA208_06180	operon_0352	NC_017188.1|gene1271|BAMTA208_06180
BAMTA208_06185	operon_0352	NC_017188.1|gene1272|BAMTA208_06185
BAMTA208_06190	operon_0352	NC_017188.1|gene1273|BAMTA208_06190
BAMTA208_06195	operon_0352	NC_017188.1|gene1274|BAMTA208_06195
BAMTA208_06200	operon_0352	NC_017188.1|gene1275|BAMTA208_06200
BAMTA208_06205	operon_0352	NC_017188.1|gene1276|BAMTA208_06205
BAMTA208_06210	operon_0352	NC_017188.1|gene1277|BAMTA208_06210
BAMTA208_06215	operon_0352	NC_017188.1|gene1278|BAMTA208_06215
BAMTA208_06220	operon_0352	NC_017188.1|gene1279|BAMTA208_06220
BAMTA208_06225	operon_0352	NC_017188.1|gene1280|BAMTA208_06225
BAMTA208_06230	operon_0352	NC_017188.1|gene1281|BAMTA208_06230
BAMTA208_06235	operon_0352	NC_017188.1|gene1282|BAMTA208_06235
BAMTA208_06240	operon_0352	NC_017188.1|gene1283|BAMTA208_06240
BAMTA208_06245	operon_0352	NC_017188.1|gene1284|BAMTA208_06245
BAMTA208_06250	operon_0353	NC_017188.1|gene1285|BAMTA208_06250
BAMTA208_06255	operon_0353	NC_017188.1|gene1286|BAMTA208_06255
BAMTA208_06260	operon_0353	NC_017188.1|gene1287|BAMTA208_06260
BAMTA208_06265	operon_0353	NC_017188.1|gene1288|BAMTA208_06265
BAMTA208_06270	operon_0353	NC_017188.1|gene1289|BAMTA208_06270
BAMTA208_06275	operon_0353	NC_017188.1|gene1290|BAMTA208_06275
BAMTA208_06280	operon_0353	NC_017188.1|gene1291|BAMTA208_06280
BAMTA208_06285	operon_0353	NC_017188.1|gene1292|BAMTA208_06285
BAMTA208_06290	operon_0353	NC_017188.1|gene1293|BAMTA208_06290
BAMTA208_06295	operon_0353	NC_017188.1|gene1294|BAMTA208_06295
BAMTA208_06300	operon_0353	NC_017188.1|gene1295|BAMTA208_06300
BAMTA208_06305	operon_0353	NC_017188.1|gene1296|BAMTA208_06305
BAMTA208_06310	operon_0353	NC_017188.1|gene1297|BAMTA208_06310
BAMTA208_06315	operon_0353	NC_017188.1|gene1298|BAMTA208_06315
BAMTA208_06320	operon_0354	NC_017188.1|gene1299|BAMTA208_06320
BAMTA208_06325	operon_0355	NC_017188.1|gene1300|BAMTA208_06325
BAMTA208_06330	operon_0355	NC_017188.1|gene1301|BAMTA208_06330
BAMTA208_06335	operon_0355	NC_017188.1|gene1302|BAMTA208_06335
BAMTA208_06340	operon_0355	NC_017188.1|gene1303|BAMTA208_06340
BAMTA208_06345	operon_0355	NC_017188.1|gene1304|BAMTA208_06345
BAMTA208_06350	operon_0355	NC_017188.1|gene1305|BAMTA208_06350
BAMTA208_06355	operon_0355	NC_017188.1|gene1306|BAMTA208_06355
BAMTA208_06360	operon_0355	NC_017188.1|gene1307|BAMTA208_06360
BAMTA208_06365	operon_0356	NC_017188.1|gene1308|BAMTA208_06365
BAMTA208_06370	operon_0357	NC_017188.1|gene1309|BAMTA208_06370
BAMTA208_06375	operon_0357	NC_017188.1|gene1310|BAMTA208_06375
BAMTA208_06380	operon_0357	NC_017188.1|gene1311|BAMTA208_06380
BAMTA208_06385	operon_0357	NC_017188.1|gene1312|BAMTA208_06385
BAMTA208_06390	operon_0357	NC_017188.1|gene1313|BAMTA208_06390
BAMTA208_06395	operon_0357	NC_017188.1|gene1314|BAMTA208_06395
BAMTA208_06400	operon_0357	NC_017188.1|gene1315|BAMTA208_06400
BAMTA208_06405	operon_0357	NC_017188.1|gene1316|BAMTA208_06405
BAMTA208_06410	operon_0357	NC_017188.1|gene1317|BAMTA208_06410
BAMTA208_06415	operon_0357	NC_017188.1|gene1318|BAMTA208_06415
BAMTA208_06420	operon_0357	NC_017188.1|gene1319|BAMTA208_06420
BAMTA208_06425	operon_0357	NC_017188.1|gene1320|BAMTA208_06425
BAMTA208_06430	operon_0357	NC_017188.1|gene1321|BAMTA208_06430
BAMTA208_06435	operon_0357	NC_017188.1|gene1322|BAMTA208_06435
BAMTA208_06440	operon_0357	NC_017188.1|gene1323|BAMTA208_06440
BAMTA208_06445	operon_0357	NC_017188.1|gene1324|BAMTA208_06445
BAMTA208_06450	operon_0357	NC_017188.1|gene1325|BAMTA208_06450
BAMTA208_06455	operon_0358	NC_017188.1|gene1326|BAMTA208_06455
BAMTA208_06460	operon_0359	NC_017188.1|gene1327|BAMTA208_06460
BAMTA208_06465	operon_0359	NC_017188.1|gene1328|BAMTA208_06465
BAMTA208_06470	operon_0359	NC_017188.1|gene1329|BAMTA208_06470
BAMTA208_06475	operon_0359	NC_017188.1|gene1330|BAMTA208_06475
BAMTA208_06480	operon_0359	NC_017188.1|gene1331|BAMTA208_06480
BAMTA208_06485	operon_0359	NC_017188.1|gene1332|BAMTA208_06485
BAMTA208_06490	operon_0359	NC_017188.1|gene1333|BAMTA208_06490
BAMTA208_06495	operon_0359	NC_017188.1|gene1334|BAMTA208_06495
BAMTA208_06500	operon_0359	NC_017188.1|gene1335|BAMTA208_06500
BAMTA208_06505	operon_0359	NC_017188.1|gene1336|BAMTA208_06505
BAMTA208_06510	operon_0359	NC_017188.1|gene1337|BAMTA208_06510
BAMTA208_06515	operon_0359	NC_017188.1|gene1338|BAMTA208_06515
BAMTA208_06520	operon_0359	NC_017188.1|gene1339|BAMTA208_06520
BAMTA208_06525	operon_0359	NC_017188.1|gene1340|BAMTA208_06525
BAMTA208_06530	operon_0359	NC_017188.1|gene1341|BAMTA208_06530
BAMTA208_06535	operon_0360	NC_017188.1|gene1342|BAMTA208_06535
BAMTA208_06540	operon_0361	NC_017188.1|gene1343|BAMTA208_06540
BAMTA208_06545	operon_0361	NC_017188.1|gene1344|BAMTA208_06545
BAMTA208_06550	operon_0361	NC_017188.1|gene1345|BAMTA208_06550
BAMTA208_06555	operon_0362	NC_017188.1|gene1346|BAMTA208_06555
BAMTA208_06560	operon_0363	NC_017188.1|gene1347|BAMTA208_06560
BAMTA208_06565	operon_0363	NC_017188.1|gene1348|BAMTA208_06565
BAMTA208_06570	operon_0363	NC_017188.1|gene1349|BAMTA208_06570
BAMTA208_06575	operon_0364	NC_017188.1|gene1350|BAMTA208_06575|ligB
BAMTA208_06580	operon_0364	NC_017188.1|gene1351|BAMTA208_06580
BAMTA208_06585	operon_0365	NC_017188.1|gene1352|BAMTA208_06585
BAMTA208_06590	operon_0365	NC_017188.1|gene1353|BAMTA208_06590
BAMTA208_06595	operon_0365	NC_017188.1|gene1354|BAMTA208_06595
BAMTA208_06600	operon_0365	NC_017188.1|gene1355|BAMTA208_06600
BAMTA208_06605	operon_0365	NC_017188.1|gene1356|BAMTA208_06605
BAMTA208_06610	operon_0365	NC_017188.1|gene1357|BAMTA208_06610
BAMTA208_06615	operon_0365	NC_017188.1|gene1358|BAMTA208_06615
BAMTA208_06620	operon_0365	NC_017188.1|gene1359|BAMTA208_06620
BAMTA208_06625	operon_0365	NC_017188.1|gene1360|BAMTA208_06625
BAMTA208_06630	operon_0365	NC_017188.1|gene1361|BAMTA208_06630
BAMTA208_06635	operon_0365	NC_017188.1|gene1362|BAMTA208_06635
BAMTA208_06640	operon_0365	NC_017188.1|gene1363|BAMTA208_06640
BAMTA208_06645	operon_0365	NC_017188.1|gene1364|BAMTA208_06645
BAMTA208_06650	operon_0365	NC_017188.1|gene1365|BAMTA208_06650
BAMTA208_06655	operon_0365	NC_017188.1|gene1366|BAMTA208_06655
BAMTA208_06660	operon_0365	NC_017188.1|gene1367|BAMTA208_06660
BAMTA208_06665	operon_0365	NC_017188.1|gene1368|BAMTA208_06665
BAMTA208_06670	operon_0365	NC_017188.1|gene1369|BAMTA208_06670
BAMTA208_06675	operon_0365	NC_017188.1|gene1370|BAMTA208_06675
BAMTA208_06680	operon_0365	NC_017188.1|gene1371|BAMTA208_06680
BAMTA208_06685	operon_0365	NC_017188.1|gene1372|BAMTA208_06685
BAMTA208_06690	operon_0365	NC_017188.1|gene1373|BAMTA208_06690
BAMTA208_06695	operon_0365	NC_017188.1|gene1374|BAMTA208_06695
BAMTA208_06700	operon_0365	NC_017188.1|gene1375|BAMTA208_06700
BAMTA208_06705	operon_0365	NC_017188.1|gene1376|BAMTA208_06705
BAMTA208_06710	operon_0365	NC_017188.1|gene1377|BAMTA208_06710
BAMTA208_06715	operon_0365	NC_017188.1|gene1378|BAMTA208_06715
BAMTA208_06720	operon_0365	NC_017188.1|gene1379|BAMTA208_06720
BAMTA208_06725	operon_0365	NC_017188.1|gene1380|BAMTA208_06725
BAMTA208_06730	operon_0365	NC_017188.1|gene1381|BAMTA208_06730
BAMTA208_06735	operon_0365	NC_017188.1|gene1382|BAMTA208_06735
BAMTA208_06740	operon_0365	NC_017188.1|gene1383|BAMTA208_06740
BAMTA208_06745	operon_0365	NC_017188.1|gene1384|BAMTA208_06745
BAMTA208_06750	operon_0365	NC_017188.1|gene1385|BAMTA208_06750
BAMTA208_06755	operon_0365	NC_017188.1|gene1386|BAMTA208_06755
BAMTA208_06760	operon_0365	NC_017188.1|gene1387|BAMTA208_06760
BAMTA208_06765	operon_0365	NC_017188.1|gene1388|BAMTA208_06765
BAMTA208_06770	operon_0365	NC_017188.1|gene1389|BAMTA208_06770
BAMTA208_06775	operon_0365	NC_017188.1|gene1390|BAMTA208_06775
BAMTA208_06780	operon_0365	NC_017188.1|gene1391|BAMTA208_06780
BAMTA208_06785	operon_0365	NC_017188.1|gene1392|BAMTA208_06785
BAMTA208_06790	operon_0365	NC_017188.1|gene1393|BAMTA208_06790
BAMTA208_06795	operon_0365	NC_017188.1|gene1394|BAMTA208_06795
BAMTA208_06800	operon_0365	NC_017188.1|gene1395|BAMTA208_06800
BAMTA208_06805	operon_0365	NC_017188.1|gene1396|BAMTA208_06805
BAMTA208_06810	operon_0365	NC_017188.1|gene1397|BAMTA208_06810
BAMTA208_06815	operon_0365	NC_017188.1|gene1398|BAMTA208_06815
BAMTA208_06820	operon_0365	NC_017188.1|gene1399|BAMTA208_06820
BAMTA208_06825	operon_0365	NC_017188.1|gene1400|BAMTA208_06825
BAMTA208_06830	operon_0365	NC_017188.1|gene1401|BAMTA208_06830
BAMTA208_06835	operon_0365	NC_017188.1|gene1402|BAMTA208_06835
BAMTA208_06840	operon_0365	NC_017188.1|gene1403|BAMTA208_06840
BAMTA208_06845	operon_0365	NC_017188.1|gene1404|BAMTA208_06845
BAMTA208_06850	operon_0365	NC_017188.1|gene1405|BAMTA208_06850
BAMTA208_06855	operon_0365	NC_017188.1|gene1406|BAMTA208_06855
BAMTA208_06860	operon_0365	NC_017188.1|gene1407|BAMTA208_06860
BAMTA208_06865	operon_0365	NC_017188.1|gene1408|BAMTA208_06865
BAMTA208_06870	operon_0365	NC_017188.1|gene1409|BAMTA208_06870
BAMTA208_06875	operon_0365	NC_017188.1|gene1410|BAMTA208_06875
BAMTA208_06880	operon_0365	NC_017188.1|gene1411|BAMTA208_06880
BAMTA208_06885	operon_0365	NC_017188.1|gene1412|BAMTA208_06885|thyA
BAMTA208_06890	operon_0365	NC_017188.1|gene1413|BAMTA208_06890
BAMTA208_06895	operon_0365	NC_017188.1|gene1414|BAMTA208_06895
BAMTA208_06900	operon_0365	NC_017188.1|gene1415|BAMTA208_06900
BAMTA208_06905	operon_0365	NC_017188.1|gene1416|BAMTA208_06905
BAMTA208_06910	operon_0365	NC_017188.1|gene1417|BAMTA208_06910
BAMTA208_06915	operon_0365	NC_017188.1|gene1418|BAMTA208_06915
BAMTA208_06920	operon_0366	NC_017188.1|gene1419|BAMTA208_06920
BAMTA208_06925	operon_0367	NC_017188.1|gene1420|BAMTA208_06925
BAMTA208_06930	operon_0367	NC_017188.1|gene1421|BAMTA208_06930
BAMTA208_06935	operon_0367	NC_017188.1|gene1422|BAMTA208_06935|pbuX
BAMTA208_06940	operon_0368	NC_017188.1|gene1423|BAMTA208_06940
BAMTA208_06945	operon_0369	NC_017188.1|gene1424|BAMTA208_06945
BAMTA208_06950	operon_0370	NC_017188.1|gene1425|BAMTA208_06950
BAMTA208_06955	operon_0371	NC_017188.1|gene1426|BAMTA208_06955
BAMTA208_06960	operon_0371	NC_017188.1|gene1427|BAMTA208_06960|bcsA
BAMTA208_06965	operon_0371	NC_017188.1|gene1428|BAMTA208_06965|fbpC
BAMTA208_06970	operon_0371	NC_017188.1|gene1429|BAMTA208_06970|ypbR
BAMTA208_06975	operon_0371	NC_017188.1|gene1430|BAMTA208_06975|ypbS
BAMTA208_06980	operon_0371	NC_017188.1|gene1431|BAMTA208_06980
BAMTA208_06985	operon_0371	NC_017188.1|gene1432|BAMTA208_06985|exoA
BAMTA208_06990	operon_0372	NC_017188.1|gene1433|BAMTA208_06990|sspL
BAMTA208_06995	operon_0372	NC_017188.1|gene1434|BAMTA208_06995|ypdQ
BAMTA208_07000	operon_0372	NC_017188.1|gene1435|BAMTA208_07000|ypdP
BAMTA208_07005	operon_0373	NC_017188.1|gene1436|BAMTA208_07005|ypeP
BAMTA208_07010	operon_0373	NC_017188.1|gene1437|BAMTA208_07010|ypeQ
BAMTA208_07015	operon_0374	NC_017188.1|gene1438|BAMTA208_07015|ypzA
BAMTA208_07020	operon_0375	NC_017188.1|gene1439|BAMTA208_07020|degR
BAMTA208_07025	operon_0376	NC_017188.1|gene1440|BAMTA208_07025|cspD
BAMTA208_07030	operon_0377	NC_017188.1|gene1441|BAMTA208_07030
BAMTA208_07035	operon_0378	NC_017188.1|gene1442|BAMTA208_07035|ugtP
BAMTA208_07040	operon_0378	NC_017188.1|gene1443|BAMTA208_07040|metA
BAMTA208_07045	operon_0379	NC_017188.1|gene1444|BAMTA208_07045
BAMTA208_07050	operon_0379	NC_017188.1|gene1445|BAMTA208_07050|bsaA
BAMTA208_07055	operon_0379	NC_017188.1|gene1446|BAMTA208_07055|ypgQ
BAMTA208_07060	operon_0379	NC_017188.1|gene1447|BAMTA208_07060|ypgR
BAMTA208_07065	operon_0379	NC_017188.1|gene1448|BAMTA208_07065|ilvD
BAMTA208_07070	operon_0379	NC_017188.1|gene1449|BAMTA208_07070|yphP
BAMTA208_07075	operon_0379	NC_017188.1|gene1450|BAMTA208_07075|ypiP
BAMTA208_07080	operon_0379	NC_017188.1|gene1451|BAMTA208_07080|ypjP
BAMTA208_07085	operon_0379	NC_017188.1|gene1452|BAMTA208_07085|thyB
BAMTA208_07090	operon_0379	NC_017188.1|gene1453|BAMTA208_07090|dfrA
BAMTA208_07095	operon_0379	NC_017188.1|gene1454|BAMTA208_07095|ypkP
BAMTA208_07100	operon_0380	NC_017188.1|gene1455|BAMTA208_07100|yplQ
BAMTA208_07105	operon_0380	NC_017188.1|gene1456|BAMTA208_07105|yplP
BAMTA208_07110	operon_0381	NC_017188.1|gene1457|BAMTA208_07110|ilvA
BAMTA208_07115	operon_0381	NC_017188.1|gene1458|BAMTA208_07115|ypmP
BAMTA208_07120	operon_0381	NC_017188.1|gene1459|BAMTA208_07120|scuA
BAMTA208_07125	operon_0381	NC_017188.1|gene1460|BAMTA208_07125|ypmR
BAMTA208_07130	operon_0381	NC_017188.1|gene1461|BAMTA208_07130|ypmS
BAMTA208_07135	operon_0382	NC_017188.1|gene1462|BAMTA208_07135|ypoP
BAMTA208_07140	operon_0383	NC_017188.1|gene1463|BAMTA208_07140|msrA
BAMTA208_07145	operon_0383	NC_017188.1|gene1464|BAMTA208_07145|msrB
BAMTA208_07155	operon_0384	NC_017188.1|gene1465|BAMTA208_07155|yokA
BAMTA208_07160	operon_0384	NC_017188.1|gene1466|BAMTA208_07160|ymzD
BAMTA208_07165	operon_0384	NC_017188.1|gene1467|BAMTA208_07165
BAMTA208_07170	operon_0384	NC_017188.1|gene1468|BAMTA208_07170|lldA
BAMTA208_07175	operon_0384	NC_017188.1|gene1469|BAMTA208_07175
BAMTA208_07180	operon_0385	NC_017188.1|gene1470|BAMTA208_07180
BAMTA208_07190	operon_0385	NC_017188.1|gene1471|BAMTA208_07190|phy
BAMTA208_07195	operon_0386	NC_017188.1|gene1472|BAMTA208_07195|cgeB
BAMTA208_07200	operon_0386	NC_017188.1|gene1473|BAMTA208_07200|cgeA
BAMTA208_07205	operon_0387	NC_017188.1|gene1474|BAMTA208_07205|cgeC
BAMTA208_07210	operon_0387	NC_017188.1|gene1475|BAMTA208_07210|cgeD
BAMTA208_07215	operon_0387	NC_017188.1|gene1476|BAMTA208_07215|cgeE
BAMTA208_07220	operon_0387	NC_017188.1|gene1477|BAMTA208_07220|yoyG
BAMTA208_07225	operon_0387	NC_017188.1|gene1478|BAMTA208_07225
BAMTA208_07230	operon_0387	NC_017188.1|gene1479|BAMTA208_07230|yosT
BAMTA208_07235	operon_0388	NC_017188.1|gene1480|BAMTA208_07235|yosU
BAMTA208_07240	operon_0389	NC_017188.1|gene1481|BAMTA208_07240|yodT
BAMTA208_07245	operon_0389	NC_017188.1|gene1482|BAMTA208_07245|yodS
BAMTA208_07250	operon_0389	NC_017188.1|gene1483|BAMTA208_07250|yodR
BAMTA208_07255	operon_0389	NC_017188.1|gene1484|BAMTA208_07255|yodQ
BAMTA208_07260	operon_0389	NC_017188.1|gene1485|BAMTA208_07260|yodP
BAMTA208_07265	operon_0389	NC_017188.1|gene1486|BAMTA208_07265|kamA
BAMTA208_07270	operon_0389	NC_017188.1|gene1487|BAMTA208_07270|yokU
BAMTA208_07275	operon_0389	NC_017188.1|gene1488|BAMTA208_07275|yozE
BAMTA208_07280	operon_0389	NC_017188.1|gene1489|BAMTA208_07280
BAMTA208_07285	operon_0389	NC_017188.1|gene1490|BAMTA208_07285|yodN
BAMTA208_07290	operon_0390	NC_017188.1|gene1491|BAMTA208_07290
BAMTA208_07295	operon_0391	NC_017188.1|gene1492|BAMTA208_07295|yozD
BAMTA208_07300	operon_0391	NC_017188.1|gene1493|BAMTA208_07300|yodM
BAMTA208_07305	operon_0391	NC_017188.1|gene1494|BAMTA208_07305|yodL
BAMTA208_07310	operon_0392	NC_017188.1|gene1495|BAMTA208_07310
BAMTA208_07315	operon_0393	NC_017188.1|gene1496|BAMTA208_07315|deoD
BAMTA208_07320	operon_0393	NC_017188.1|gene1497|BAMTA208_07320|yodJ
BAMTA208_07325	operon_0394	NC_017188.1|gene1498|BAMTA208_07325|yodI
BAMTA208_07330	operon_0394	NC_017188.1|gene1499|BAMTA208_07330|yodH
BAMTA208_07335	operon_0395	NC_017188.1|gene1500|BAMTA208_07335|ctpA
BAMTA208_07340	operon_0396	NC_017188.1|gene1501|BAMTA208_07340|yydK
BAMTA208_07345	operon_0397	NC_017188.1|gene1502|BAMTA208_07345|bglA
BAMTA208_07350	operon_0397	NC_017188.1|gene1503|BAMTA208_07350
BAMTA208_07355	operon_0398	NC_017188.1|gene1504|BAMTA208_07355|yodF
BAMTA208_07360	operon_0398	NC_017188.1|gene1505|BAMTA208_07360|yhjC3
BAMTA208_07365	operon_0399	NC_017188.1|gene1506|BAMTA208_07365|mhqE
BAMTA208_07370	operon_0399	NC_017188.1|gene1507|BAMTA208_07370|mhqD
BAMTA208_07375	operon_0400	NC_017188.1|gene1508|BAMTA208_07375|yodC
BAMTA208_07380	operon_0401	NC_017188.1|gene1509|BAMTA208_07380|yodB
BAMTA208_07385	operon_0402	NC_017188.1|gene1510|BAMTA208_07385
BAMTA208_07390	operon_0402	NC_017188.1|gene1511|BAMTA208_07390|yodA
BAMTA208_07395	operon_0403	NC_017188.1|gene1512|BAMTA208_07395
BAMTA208_07400	operon_0404	NC_017188.1|gene1513|BAMTA208_07400|gerT
BAMTA208_07405	operon_0405	NC_017188.1|gene1514|BAMTA208_07405|yojE
BAMTA208_07410	operon_0405	NC_017188.1|gene1515|BAMTA208_07410
BAMTA208_07415	operon_0405	NC_017188.1|gene1516|BAMTA208_07415|yojF
BAMTA208_07420	operon_0405	NC_017188.1|gene1517|BAMTA208_07420|yojG
BAMTA208_07425	operon_0406	NC_017188.1|gene1518|BAMTA208_07425|rsbRC
BAMTA208_07430	operon_0406	NC_017188.1|gene1519|BAMTA208_07430|norM
BAMTA208_07435	operon_0406	NC_017188.1|gene1520|BAMTA208_07435
BAMTA208_07440	operon_0407	NC_017188.1|gene1521|BAMTA208_07440|yojJ
BAMTA208_07445	operon_0407	NC_017188.1|gene1522|BAMTA208_07445|yojK
BAMTA208_07450	operon_0407	NC_017188.1|gene1523|BAMTA208_07450
BAMTA208_07455	operon_0407	NC_017188.1|gene1524|BAMTA208_07455|cwlS
BAMTA208_07460	operon_0407	NC_017188.1|gene1525|BAMTA208_07460|sodC
BAMTA208_07465	operon_0407	NC_017188.1|gene1526|BAMTA208_07465|yojN
BAMTA208_07470	operon_0407	NC_017188.1|gene1527|BAMTA208_07470|yojO
BAMTA208_07475	operon_0407	NC_017188.1|gene1528|BAMTA208_07475|odhA
BAMTA208_07480	operon_0407	NC_017188.1|gene1529|BAMTA208_07480|odhB
BAMTA208_07485	operon_0407	NC_017188.1|gene1530|BAMTA208_07485
BAMTA208_07490	operon_0408	NC_017188.1|gene1531|BAMTA208_07490|yocS
BAMTA208_07495	operon_0409	NC_017188.1|gene1532|BAMTA208_07495|yocR
BAMTA208_07500	operon_0410	NC_017188.1|gene1533|BAMTA208_07500|sodF
BAMTA208_07505	operon_0410	NC_017188.1|gene1534|BAMTA208_07505|sqhC
BAMTA208_07510	operon_0410	NC_017188.1|gene1535|BAMTA208_07510|dhaS
BAMTA208_07515	operon_0411	NC_017188.1|gene1536|BAMTA208_07515|yozC
BAMTA208_07520	operon_0411	NC_017188.1|gene1537|BAMTA208_07520
BAMTA208_07525	operon_0411	NC_017188.1|gene1538|BAMTA208_07525|yozO
BAMTA208_07530	operon_0412	NC_017188.1|gene1539|BAMTA208_07530|yocN
BAMTA208_07535	operon_0412	NC_017188.1|gene1540|BAMTA208_07535|yozN
BAMTA208_07540	operon_0413	NC_017188.1|gene1541|BAMTA208_07540|yocM
BAMTA208_07545	operon_0414	NC_017188.1|gene1542|BAMTA208_07545
BAMTA208_07550	operon_0415	NC_017188.1|gene1543|BAMTA208_07550|yocL
BAMTA208_07555	operon_0415	NC_017188.1|gene1544|BAMTA208_07555|yocK
BAMTA208_07560	operon_0415	NC_017188.1|gene1545|BAMTA208_07560|azoR1
BAMTA208_07565	operon_0415	NC_017188.1|gene1546|BAMTA208_07565
BAMTA208_07570	operon_0415	NC_017188.1|gene1547|BAMTA208_07570|yocI
BAMTA208_07575	operon_0415	NC_017188.1|gene1548|BAMTA208_07575|yocH
BAMTA208_07580	operon_0415	NC_017188.1|gene1549|BAMTA208_07580
BAMTA208_07585	operon_0416	NC_017188.1|gene1550|BAMTA208_07585|yocD
BAMTA208_07590	operon_0416	NC_017188.1|gene1551|BAMTA208_07590|yocC
BAMTA208_07595	operon_0417	NC_017188.1|gene1552|BAMTA208_07595|yocB
BAMTA208_07600	operon_0417	NC_017188.1|gene1553|BAMTA208_07600|yozB
BAMTA208_07605	operon_0418	NC_017188.1|gene1554|BAMTA208_07605|yocA
BAMTA208_07610	operon_0419	NC_017188.1|gene1555|BAMTA208_07610|czrA
BAMTA208_07615	operon_0420	NC_017188.1|gene1556|BAMTA208_07615|yobW
BAMTA208_07620	operon_0421	NC_017188.1|gene1557|BAMTA208_07620|yobT
BAMTA208_07625	operon_0421	NC_017188.1|gene1558|BAMTA208_07625|yobS
BAMTA208_07630	operon_0421	NC_017188.1|gene1559|BAMTA208_07630|yobQ
BAMTA208_07635	operon_0421	NC_017188.1|gene1560|BAMTA208_07635|csaA
BAMTA208_07640	operon_0421	NC_017188.1|gene1561|BAMTA208_07640
BAMTA208_07645	operon_0422	NC_017188.1|gene1562|BAMTA208_07645
BAMTA208_07650	operon_0422	NC_017188.1|gene1563|BAMTA208_07650
BAMTA208_07655	operon_0423	NC_017188.1|gene1564|BAMTA208_07655
BAMTA208_07660	operon_0424	NC_017188.1|gene1565|BAMTA208_07660
BAMTA208_07665	operon_0424	NC_017188.1|gene1566|BAMTA208_07665|yoaE
BAMTA208_07670	operon_0425	NC_017188.1|gene1567|BAMTA208_07670|yoaD
BAMTA208_07675	operon_0425	NC_017188.1|gene1568|BAMTA208_07675|yoaC
BAMTA208_07680	operon_0425	NC_017188.1|gene1569|BAMTA208_07680|yoaB
BAMTA208_07685	operon_0426	NC_017188.1|gene1570|BAMTA208_07685|yoxB
BAMTA208_07690	operon_0426	NC_017188.1|gene1571|BAMTA208_07690|yoxC
BAMTA208_07695	operon_0427	NC_017188.1|gene1572|BAMTA208_07695|yoxD
BAMTA208_07700	operon_0427	NC_017188.1|gene1573|BAMTA208_07700|rtp
BAMTA208_07705	operon_0427	NC_017188.1|gene1574|BAMTA208_07705|proH
BAMTA208_07710	operon_0427	NC_017188.1|gene1575|BAMTA208_07710|proJ
BAMTA208_07715	operon_0428	NC_017188.1|gene1576|BAMTA208_07715|gltC
BAMTA208_07720	operon_0429	NC_017188.1|gene1577|BAMTA208_07720|gltA
BAMTA208_07725	operon_0429	NC_017188.1|gene1578|BAMTA208_07725|gltB
BAMTA208_07730	operon_0429	NC_017188.1|gene1579|BAMTA208_07730
BAMTA208_07735	operon_0430	NC_017188.1|gene1580|BAMTA208_07735|yogA
BAMTA208_07740	operon_0431	NC_017188.1|gene1581|BAMTA208_07740|yofA
BAMTA208_07745	operon_0431	NC_017188.1|gene1582|BAMTA208_07745|thrZ
BAMTA208_07750	operon_0431	NC_017188.1|gene1583|BAMTA208_07750
BAMTA208_07755	operon_0431	NC_017188.1|gene1584|BAMTA208_07755|ybcL
BAMTA208_07760	operon_0432	NC_017188.1|gene1585|BAMTA208_07760|ggt
BAMTA208_07765	operon_0433	NC_017188.1|gene1586|BAMTA208_07765|yoeD
BAMTA208_07770	operon_0434	NC_017188.1|gene1587|BAMTA208_07770
BAMTA208_07775	operon_0435	NC_017188.1|gene1588|BAMTA208_07775
BAMTA208_t20753	operon_0435	NC_017188.1|gene1589|BAMTA208_t20753
BAMTA208_07780	operon_0435	NC_017188.1|gene1590|BAMTA208_07780
BAMTA208_07785	operon_0436	NC_017188.1|gene1591|BAMTA208_07785|iseA
BAMTA208_07790	operon_0436	NC_017188.1|gene1592|BAMTA208_07790
BAMTA208_07795	operon_0437	NC_017188.1|gene1593|BAMTA208_07795|yoeA
BAMTA208_07800	operon_0437	NC_017188.1|gene1594|BAMTA208_07800|yoxA
BAMTA208_07805	operon_0437	NC_017188.1|gene1595|BAMTA208_07805|dacC
BAMTA208_07810	operon_0437	NC_017188.1|gene1596|BAMTA208_07810
BAMTA208_07815	operon_0437	NC_017188.1|gene1597|BAMTA208_07815|fenD
BAMTA208_07820	operon_0437	NC_017188.1|gene1598|BAMTA208_07820|fenE
BAMTA208_07825	operon_0437	NC_017188.1|gene1599|BAMTA208_07825|yngL
BAMTA208_07830	operon_0437	NC_017188.1|gene1600|BAMTA208_07830|yngK
BAMTA208_07835	operon_0437	NC_017188.1|gene1601|BAMTA208_07835|yngJ
BAMTA208_07840	operon_0437	NC_017188.1|gene1602|BAMTA208_07840|yngI
BAMTA208_07845	operon_0437	NC_017188.1|gene1603|BAMTA208_07845|yngHA
BAMTA208_07850	operon_0437	NC_017188.1|gene1604|BAMTA208_07850
BAMTA208_07855	operon_0437	NC_017188.1|gene1605|BAMTA208_07855|yngG
BAMTA208_07860	operon_0437	NC_017188.1|gene1606|BAMTA208_07860|yngF
BAMTA208_07865	operon_0437	NC_017188.1|gene1607|BAMTA208_07865|yngE
BAMTA208_07870	operon_0438	NC_017188.1|gene1608|BAMTA208_07870|yngC
BAMTA208_07875	operon_0438	NC_017188.1|gene1609|BAMTA208_07875|yngB
BAMTA208_07880	operon_0438	NC_017188.1|gene1610|BAMTA208_07880|yngA
BAMTA208_07885	operon_0439	NC_017188.1|gene1611|BAMTA208_07885|bioW
BAMTA208_07890	operon_0439	NC_017188.1|gene1612|BAMTA208_07890|bioK
BAMTA208_07895	operon_0439	NC_017188.1|gene1613|BAMTA208_07895|bioF
BAMTA208_07900	operon_0439	NC_017188.1|gene1614|BAMTA208_07900|bioD
BAMTA208_07905	operon_0439	NC_017188.1|gene1615|BAMTA208_07905|bioB
BAMTA208_07910	operon_0439	NC_017188.1|gene1616|BAMTA208_07910|bioI
BAMTA208_07915	operon_0439	NC_017188.1|gene1617|BAMTA208_07915|scoA
BAMTA208_07920	operon_0439	NC_017188.1|gene1618|BAMTA208_07920|scoB
BAMTA208_07925	operon_0439	NC_017188.1|gene1619|BAMTA208_07925|yxjF
BAMTA208_07930	operon_0439	NC_017188.1|gene1620|BAMTA208_07930|ycbH
BAMTA208_07935	operon_0439	NC_017188.1|gene1621|BAMTA208_07935|ituD
BAMTA208_07940	operon_0439	NC_017188.1|gene1622|BAMTA208_07940|ituA
BAMTA208_07945	operon_0439	NC_017188.1|gene1623|BAMTA208_07945|ituB
BAMTA208_07950	operon_0439	NC_017188.1|gene1624|BAMTA208_07950|ituC
BAMTA208_07955	operon_0439	NC_017188.1|gene1625|BAMTA208_07955|xynD
BAMTA208_07960	operon_0439	NC_017188.1|gene1626|BAMTA208_07960
BAMTA208_07965	operon_0439	NC_017188.1|gene1627|BAMTA208_07965|xynC
BAMTA208_07970	operon_0439	NC_017188.1|gene1628|BAMTA208_07970|yvrH
BAMTA208_07975	operon_0439	NC_017188.1|gene1629|BAMTA208_07975|yvrG
BAMTA208_07980	operon_0440	NC_017188.1|gene1630|BAMTA208_07980
BAMTA208_07985	operon_0440	NC_017188.1|gene1631|BAMTA208_07985
BAMTA208_07990	operon_0440	NC_017188.1|gene1632|BAMTA208_07990|yndJ
BAMTA208_07995	operon_0440	NC_017188.1|gene1633|BAMTA208_07995|yndH
BAMTA208_08000	operon_0440	NC_017188.1|gene1634|BAMTA208_08000|yndG3
BAMTA208_08005	operon_0440	NC_017188.1|gene1635|BAMTA208_08005|yndG2
BAMTA208_08010	operon_0440	NC_017188.1|gene1636|BAMTA208_08010|yndG1
BAMTA208_08015	operon_0440	NC_017188.1|gene1637|BAMTA208_08015|alsT
BAMTA208_08020	operon_0441	NC_017188.1|gene1638|BAMTA208_08020|ynfC
BAMTA208_08025	operon_0441	NC_017188.1|gene1639|BAMTA208_08025
BAMTA208_08030	operon_0442	NC_017188.1|gene1640|BAMTA208_08030|parC
BAMTA208_08035	operon_0442	NC_017188.1|gene1641|BAMTA208_08035|parE
BAMTA208_08040	operon_0442	NC_017188.1|gene1642|BAMTA208_08040|yneT
BAMTA208_08045	operon_0443	NC_017188.1|gene1643|BAMTA208_08045|plsY
BAMTA208_08050	operon_0443	NC_017188.1|gene1644|BAMTA208_08050|yneR
BAMTA208_08055	operon_0444	NC_017188.1|gene1645|BAMTA208_08055|yneQ
BAMTA208_08060	operon_0444	NC_017188.1|gene1646|BAMTA208_08060|yneP
BAMTA208_08065	operon_0444	NC_017188.1|gene1647|BAMTA208_08065|tlp
BAMTA208_08070	operon_0444	NC_017188.1|gene1648|BAMTA208_08070|sspN
BAMTA208_08075	operon_0444	NC_017188.1|gene1649|BAMTA208_08075
BAMTA208_08080	operon_0444	NC_017188.1|gene1650|BAMTA208_08080|yneN
BAMTA208_08085	operon_0444	NC_017188.1|gene1651|BAMTA208_08085|citB
BAMTA208_08090	operon_0445	NC_017188.1|gene1652|BAMTA208_08090|sspO
BAMTA208_08095	operon_0445	NC_017188.1|gene1653|BAMTA208_08095|sspP
BAMTA208_08100	operon_0445	NC_017188.1|gene1654|BAMTA208_08100|cotM
BAMTA208_08105	operon_0445	NC_017188.1|gene1655|BAMTA208_08105|yneK
BAMTA208_08110	operon_0446	NC_017188.1|gene1656|BAMTA208_08110|yneJ
BAMTA208_08115	operon_0446	NC_017188.1|gene1657|BAMTA208_08115|ccdB
BAMTA208_08120	operon_0446	NC_017188.1|gene1658|BAMTA208_08120|ccdA
BAMTA208_08125	operon_0447	NC_017188.1|gene1659|BAMTA208_08125|ynzD
BAMTA208_08130	operon_0448	NC_017188.1|gene1660|BAMTA208_08130|yneF
BAMTA208_08135	operon_0448	NC_017188.1|gene1661|BAMTA208_08135|sirA
BAMTA208_08140	operon_0448	NC_017188.1|gene1662|BAMTA208_08140|tkt
BAMTA208_08145	operon_0448	NC_017188.1|gene1663|BAMTA208_08145|ynzC
BAMTA208_08150	operon_0448	NC_017188.1|gene1664|BAMTA208_08150|yneB
BAMTA208_08155	operon_0448	NC_017188.1|gene1665|BAMTA208_08155|yneA
BAMTA208_08160	operon_0449	NC_017188.1|gene1666|BAMTA208_08160|lexA
BAMTA208_08165	operon_0450	NC_017188.1|gene1667|BAMTA208_08165
BAMTA208_08170	operon_0451	NC_017188.1|gene1668|BAMTA208_08170|yndM
BAMTA208_08175	operon_0452	NC_017188.1|gene1669|BAMTA208_08175
BAMTA208_08180	operon_0452	NC_017188.1|gene1670|BAMTA208_08180
BAMTA208_08185	operon_0452	NC_017188.1|gene1671|BAMTA208_08185|yndL
BAMTA208_08190	operon_0453	NC_017188.1|gene1672|BAMTA208_08190|yjzH
BAMTA208_08195	operon_0454	NC_017188.1|gene1673|BAMTA208_08195|yncF
BAMTA208_08200	operon_0454	NC_017188.1|gene1674|BAMTA208_08200|yozV
BAMTA208_08205	operon_0455	NC_017188.1|gene1675|BAMTA208_08205|yobO
BAMTA208_08210	operon_0455	NC_017188.1|gene1676|BAMTA208_08210
BAMTA208_08215	operon_0455	NC_017188.1|gene1677|BAMTA208_08215
BAMTA208_08220	operon_0456	NC_017188.1|gene1678|BAMTA208_08220
BAMTA208_08225	operon_0456	NC_017188.1|gene1679|BAMTA208_08225
BAMTA208_08230	operon_0456	NC_017188.1|gene1680|BAMTA208_08230
BAMTA208_08235	operon_0456	NC_017188.1|gene1681|BAMTA208_08235|ynaE
BAMTA208_08240	operon_0456	NC_017188.1|gene1682|BAMTA208_08240|yoaO
BAMTA208_08245	operon_0456	NC_017188.1|gene1683|BAMTA208_08245
BAMTA208_08250	operon_0456	NC_017188.1|gene1684|BAMTA208_08250|yolB
BAMTA208_08255	operon_0456	NC_017188.1|gene1685|BAMTA208_08255
BAMTA208_08260	operon_0456	NC_017188.1|gene1686|BAMTA208_08260|yoaP
BAMTA208_08265	operon_0456	NC_017188.1|gene1687|BAMTA208_08265|yopD
BAMTA208_08270	operon_0456	NC_017188.1|gene1688|BAMTA208_08270|yozQ
BAMTA208_08275	operon_0456	NC_017188.1|gene1689|BAMTA208_08275|yoaW2
BAMTA208_08280	operon_0456	NC_017188.1|gene1690|BAMTA208_08280|yoaW1
BAMTA208_08285	operon_0457	NC_017188.1|gene1691|BAMTA208_08285
BAMTA208_08290	operon_0458	NC_017188.1|gene1692|BAMTA208_08290|dinB1
BAMTA208_08295	operon_0458	NC_017188.1|gene1693|BAMTA208_08295
BAMTA208_08300	operon_0459	NC_017188.1|gene1694|BAMTA208_08300
BAMTA208_08305	operon_0459	NC_017188.1|gene1695|BAMTA208_08305
BAMTA208_08310	operon_0459	NC_017188.1|gene1696|BAMTA208_08310|rapK
BAMTA208_08315	operon_0460	NC_017188.1|gene1697|BAMTA208_08315|gutB5
BAMTA208_08320	operon_0460	NC_017188.1|gene1698|BAMTA208_08320
BAMTA208_08325	operon_0460	NC_017188.1|gene1699|BAMTA208_08325|pps
BAMTA208_08330	operon_0460	NC_017188.1|gene1700|BAMTA208_08330|xynA2
BAMTA208_08335	operon_0460	NC_017188.1|gene1701|BAMTA208_08335
BAMTA208_08340	operon_0460	NC_017188.1|gene1702|BAMTA208_08340|xylA
BAMTA208_08345	operon_0461	NC_017188.1|gene1703|BAMTA208_08345|xylR
BAMTA208_08350	operon_0462	NC_017188.1|gene1704|BAMTA208_08350|xynB
BAMTA208_08355	operon_0462	NC_017188.1|gene1705|BAMTA208_08355|xynP
BAMTA208_08360	operon_0462	NC_017188.1|gene1706|BAMTA208_08360
BAMTA208_08365	operon_0462	NC_017188.1|gene1707|BAMTA208_08365|xynA
BAMTA208_08370	operon_0463	NC_017188.1|gene1708|BAMTA208_08370
BAMTA208_08375	operon_0463	NC_017188.1|gene1709|BAMTA208_08375
BAMTA208_08380	operon_0464	NC_017188.1|gene1710|BAMTA208_08380
BAMTA208_08385	operon_0464	NC_017188.1|gene1711|BAMTA208_08385
BAMTA208_08390	operon_0464	NC_017188.1|gene1712|BAMTA208_08390
BAMTA208_08395	operon_0464	NC_017188.1|gene1713|BAMTA208_08395|glnA
BAMTA208_08400	operon_0464	NC_017188.1|gene1714|BAMTA208_08400|glnR
BAMTA208_08405	operon_0464	NC_017188.1|gene1715|BAMTA208_08405|ynbB
BAMTA208_08410	operon_0464	NC_017188.1|gene1716|BAMTA208_08410|ynbA
BAMTA208_08415	operon_0464	NC_017188.1|gene1717|BAMTA208_08415|spoVK
BAMTA208_08420	operon_0465	NC_017188.1|gene1718|BAMTA208_08420
BAMTA208_08435	operon_0466	NC_017188.1|gene1719|BAMTA208_08435|ymaB
BAMTA208_08440	operon_0466	NC_017188.1|gene1720|BAMTA208_08440|nrdF3
BAMTA208_08445	operon_0466	NC_017188.1|gene1721|BAMTA208_08445|nrdE
BAMTA208_08450	operon_0466	NC_017188.1|gene1722|BAMTA208_08450|nrdI
BAMTA208_08455	operon_0466	NC_017188.1|gene1723|BAMTA208_08455|ymzA
BAMTA208_08460	operon_0466	NC_017188.1|gene1724|BAMTA208_08460|ymzC
BAMTA208_08465	operon_0466	NC_017188.1|gene1725|BAMTA208_08465|ymaH
BAMTA208_08470	operon_0466	NC_017188.1|gene1726|BAMTA208_08470|miaA
BAMTA208_08475	operon_0466	NC_017188.1|gene1727|BAMTA208_08475|ymaF
BAMTA208_08480	operon_0467	NC_017188.1|gene1728|BAMTA208_08480
BAMTA208_08485	operon_0467	NC_017188.1|gene1729|BAMTA208_08485|ebrA
BAMTA208_08490	operon_0467	NC_017188.1|gene1730|BAMTA208_08490|ebrB
BAMTA208_08495	operon_0468	NC_017188.1|gene1731|BAMTA208_08495|ymaD
BAMTA208_08500	operon_0468	NC_017188.1|gene1732|BAMTA208_08500|ymaC
BAMTA208_08505	operon_0468	NC_017188.1|gene1733|BAMTA208_08505
BAMTA208_08510	operon_0468	NC_017188.1|gene1734|BAMTA208_08510
BAMTA208_08515	operon_0469	NC_017188.1|gene1735|BAMTA208_08515
BAMTA208_08520	operon_0469	NC_017188.1|gene1736|BAMTA208_08520|aprX
BAMTA208_08525	operon_0469	NC_017188.1|gene1737|BAMTA208_08525|ymzB
BAMTA208_08530	operon_0470	NC_017188.1|gene1738|BAMTA208_08530|yoaK
BAMTA208_08535	operon_0470	NC_017188.1|gene1739|BAMTA208_08535|nucB
BAMTA208_08540	operon_0471	NC_017188.1|gene1740|BAMTA208_08540|baeS
BAMTA208_08545	operon_0472	NC_017188.1|gene1741|BAMTA208_08545|baeR
BAMTA208_08550	operon_0472	NC_017188.1|gene1742|BAMTA208_08550|baeM
BAMTA208_08555	operon_0472	NC_017188.1|gene1743|BAMTA208_08555|baeL3
BAMTA208_08560	operon_0472	NC_017188.1|gene1744|BAMTA208_08560|baeL1
BAMTA208_08565	operon_0472	NC_017188.1|gene1745|BAMTA208_08565|baeJ
BAMTA208_08570	operon_0472	NC_017188.1|gene1746|BAMTA208_08570|baeI
BAMTA208_08575	operon_0472	NC_017188.1|gene1747|BAMTA208_08575|baeH
BAMTA208_08580	operon_0472	NC_017188.1|gene1748|BAMTA208_08580|baeG
BAMTA208_08585	operon_0472	NC_017188.1|gene1749|BAMTA208_08585|acpK
BAMTA208_08600	operon_0472	NC_017188.1|gene1750|BAMTA208_08600|baeD
BAMTA208_08605	operon_0472	NC_017188.1|gene1751|BAMTA208_08605|baeC
BAMTA208_08610	operon_0472	NC_017188.1|gene1752|BAMTA208_08610|baeB
BAMTA208_08615	operon_0472	NC_017188.1|gene1753|BAMTA208_08615|mutL
BAMTA208_08620	operon_0472	NC_017188.1|gene1754|BAMTA208_08620|mutS
BAMTA208_08625	operon_0472	NC_017188.1|gene1755|BAMTA208_08625|cotE
BAMTA208_08630	operon_0472	NC_017188.1|gene1756|BAMTA208_08630|ymcA
BAMTA208_08635	operon_0472	NC_017188.1|gene1757|BAMTA208_08635|ymcB
BAMTA208_08640	operon_0472	NC_017188.1|gene1758|BAMTA208_08640|kbl
BAMTA208_08645	operon_0472	NC_017188.1|gene1759|BAMTA208_08645|tdh
BAMTA208_08650	operon_0472	NC_017188.1|gene1760|BAMTA208_08650|spoVS
BAMTA208_08655	operon_0472	NC_017188.1|gene1761|BAMTA208_08655|ymdB
BAMTA208_08660	operon_0472	NC_017188.1|gene1762|BAMTA208_08660|ymdA
BAMTA208_08665	operon_0472	NC_017188.1|gene1763|BAMTA208_08665|pbpX
BAMTA208_08670	operon_0472	NC_017188.1|gene1764|BAMTA208_08670|recA
BAMTA208_08675	operon_0472	NC_017188.1|gene1765|BAMTA208_08675|cinA
BAMTA208_08680	operon_0472	NC_017188.1|gene1766|BAMTA208_08680|pgsA1
BAMTA208_08685	operon_0472	NC_017188.1|gene1767|BAMTA208_08685|ymfM
BAMTA208_08690	operon_0472	NC_017188.1|gene1768|BAMTA208_08690
BAMTA208_08695	operon_0472	NC_017188.1|gene1769|BAMTA208_08695
BAMTA208_08700	operon_0472	NC_017188.1|gene1770|BAMTA208_08700|ymfI
BAMTA208_08705	operon_0472	NC_017188.1|gene1771|BAMTA208_08705|ymfH
BAMTA208_08710	operon_0472	NC_017188.1|gene1772|BAMTA208_08710
BAMTA208_08715	operon_0472	NC_017188.1|gene1773|BAMTA208_08715
BAMTA208_08720	operon_0472	NC_017188.1|gene1774|BAMTA208_08720
BAMTA208_08725	operon_0472	NC_017188.1|gene1775|BAMTA208_08725
BAMTA208_08730	operon_0472	NC_017188.1|gene1776|BAMTA208_08730|ymfC
BAMTA208_08735	operon_0472	NC_017188.1|gene1777|BAMTA208_08735|spoIIIE
BAMTA208_08740	operon_0472	NC_017188.1|gene1778|BAMTA208_08740
BAMTA208_08745	operon_0472	NC_017188.1|gene1779|BAMTA208_08745|tepA
BAMTA208_08750	operon_0472	NC_017188.1|gene1780|BAMTA208_08750|rnjB
BAMTA208_08755	operon_0472	NC_017188.1|gene1781|BAMTA208_08755|dapA
BAMTA208_08760	operon_0472	NC_017188.1|gene1782|BAMTA208_08760|dapG
BAMTA208_08765	operon_0472	NC_017188.1|gene1783|BAMTA208_08765|asd
BAMTA208_08770	operon_0472	NC_017188.1|gene1784|BAMTA208_08770|spoVFB
BAMTA208_08775	operon_0472	NC_017188.1|gene1785|BAMTA208_08775|spoVFA
BAMTA208_08780	operon_0472	NC_017188.1|gene1786|BAMTA208_08780|ymxH
BAMTA208_08785	operon_0472	NC_017188.1|gene1787|BAMTA208_08785|mlpA
BAMTA208_08790	operon_0472	NC_017188.1|gene1788|BAMTA208_08790|ylxY
BAMTA208_08795	operon_0472	NC_017188.1|gene1789|BAMTA208_08795|pnpA
BAMTA208_08800	operon_0472	NC_017188.1|gene1790|BAMTA208_08800|rpsO
BAMTA208_08805	operon_0472	NC_017188.1|gene1791|BAMTA208_08805|ribC
BAMTA208_08810	operon_0472	NC_017188.1|gene1792|BAMTA208_08810|truB
BAMTA208_08815	operon_0472	NC_017188.1|gene1793|BAMTA208_08815|rbfA
BAMTA208_08820	operon_0472	NC_017188.1|gene1794|BAMTA208_08820|ylxP
BAMTA208_08825	operon_0472	NC_017188.1|gene1795|BAMTA208_08825|infB
BAMTA208_08830	operon_0472	NC_017188.1|gene1796|BAMTA208_08830|rplGA
BAMTA208_08835	operon_0472	NC_017188.1|gene1797|BAMTA208_08835|ylxR
BAMTA208_08840	operon_0472	NC_017188.1|gene1798|BAMTA208_08840|nusA
BAMTA208_08845	operon_0472	NC_017188.1|gene1799|BAMTA208_08845|ylxS
BAMTA208_08850	operon_0472	NC_017188.1|gene1800|BAMTA208_08850|polC
BAMTA208_08855	operon_0472	NC_017188.1|gene1801|BAMTA208_08855|proS
BAMTA208_08860	operon_0472	NC_017188.1|gene1802|BAMTA208_08860|rseP
BAMTA208_08865	operon_0472	NC_017188.1|gene1803|BAMTA208_08865|dxr
BAMTA208_08870	operon_0472	NC_017188.1|gene1804|BAMTA208_08870|cdsA
BAMTA208_08875	operon_0472	NC_017188.1|gene1805|BAMTA208_08875|uppS
BAMTA208_08880	operon_0472	NC_017188.1|gene1806|BAMTA208_08880|frr
BAMTA208_08885	operon_0472	NC_017188.1|gene1807|BAMTA208_08885|pyrH
BAMTA208_08890	operon_0472	NC_017188.1|gene1808|BAMTA208_08890|tsf
BAMTA208_08895	operon_0472	NC_017188.1|gene1809|BAMTA208_08895|rpsB
BAMTA208_08900	operon_0472	NC_017188.1|gene1810|BAMTA208_08900|ylxL
BAMTA208_08905	operon_0472	NC_017188.1|gene1811|BAMTA208_08905|sigD
BAMTA208_08910	operon_0472	NC_017188.1|gene1812|BAMTA208_08910|cheD
BAMTA208_08915	operon_0472	NC_017188.1|gene1813|BAMTA208_08915|cheC
BAMTA208_08920	operon_0472	NC_017188.1|gene1814|BAMTA208_08920|cheW
BAMTA208_08925	operon_0472	NC_017188.1|gene1815|BAMTA208_08925|cheA
BAMTA208_08930	operon_0472	NC_017188.1|gene1816|BAMTA208_08930|cheB
BAMTA208_08935	operon_0472	NC_017188.1|gene1817|BAMTA208_08935|ylxH
BAMTA208_08940	operon_0472	NC_017188.1|gene1818|BAMTA208_08940|flhF
BAMTA208_08945	operon_0472	NC_017188.1|gene1819|BAMTA208_08945|flhA
BAMTA208_08950	operon_0472	NC_017188.1|gene1820|BAMTA208_08950|flhB
BAMTA208_08955	operon_0472	NC_017188.1|gene1821|BAMTA208_08955|fliR
BAMTA208_08960	operon_0472	NC_017188.1|gene1822|BAMTA208_08960|fliQ
BAMTA208_08965	operon_0472	NC_017188.1|gene1823|BAMTA208_08965|fliP
BAMTA208_08970	operon_0472	NC_017188.1|gene1824|BAMTA208_08970|fliZ
BAMTA208_08975	operon_0472	NC_017188.1|gene1825|BAMTA208_08975|cheY
BAMTA208_08980	operon_0472	NC_017188.1|gene1826|BAMTA208_08980|fliY
BAMTA208_08985	operon_0472	NC_017188.1|gene1827|BAMTA208_08985|fliM
BAMTA208_08990	operon_0472	NC_017188.1|gene1828|BAMTA208_08990|fliL
BAMTA208_08995	operon_0472	NC_017188.1|gene1829|BAMTA208_08995|ylzI
BAMTA208_09000	operon_0472	NC_017188.1|gene1830|BAMTA208_09000|flgG
BAMTA208_09005	operon_0472	NC_017188.1|gene1831|BAMTA208_09005|flgD
BAMTA208_09010	operon_0472	NC_017188.1|gene1832|BAMTA208_09010|fliK
BAMTA208_09015	operon_0472	NC_017188.1|gene1833|BAMTA208_09015|ylxF
BAMTA208_09020	operon_0472	NC_017188.1|gene1834|BAMTA208_09020|fliJ
BAMTA208_09025	operon_0472	NC_017188.1|gene1835|BAMTA208_09025|fliI
BAMTA208_09030	operon_0472	NC_017188.1|gene1836|BAMTA208_09030|fliH
BAMTA208_09035	operon_0472	NC_017188.1|gene1837|BAMTA208_09035|fliG
BAMTA208_09040	operon_0472	NC_017188.1|gene1838|BAMTA208_09040|fliF
BAMTA208_09045	operon_0472	NC_017188.1|gene1839|BAMTA208_09045|fliE
BAMTA208_09050	operon_0472	NC_017188.1|gene1840|BAMTA208_09050|flgC
BAMTA208_09065	operon_0472	NC_017188.1|gene1841|BAMTA208_09065|codY
BAMTA208_09070	operon_0472	NC_017188.1|gene1842|BAMTA208_09070|clpY
BAMTA208_09075	operon_0472	NC_017188.1|gene1843|BAMTA208_09075|clpQ
BAMTA208_09080	operon_0472	NC_017188.1|gene1844|BAMTA208_09080|codV
BAMTA208_09085	operon_0472	NC_017188.1|gene1845|BAMTA208_09085|trmFO
BAMTA208_09090	operon_0472	NC_017188.1|gene1846|BAMTA208_09090|topA
BAMTA208_09095	operon_0472	NC_017188.1|gene1847|BAMTA208_09095|dprA
BAMTA208_09100	operon_0472	NC_017188.1|gene1848|BAMTA208_09100|sucD
BAMTA208_09105	operon_0472	NC_017188.1|gene1849|BAMTA208_09105|sucC
BAMTA208_09110	operon_0472	NC_017188.1|gene1850|BAMTA208_09110|ylqH
BAMTA208_09115	operon_0472	NC_017188.1|gene1851|BAMTA208_09115|ylqG
BAMTA208_09120	operon_0472	NC_017188.1|gene1852|BAMTA208_09120|rnhB
BAMTA208_09125	operon_0472	NC_017188.1|gene1853|BAMTA208_09125|rbgA
BAMTA208_09130	operon_0472	NC_017188.1|gene1854|BAMTA208_09130|rplS
BAMTA208_09135	operon_0472	NC_017188.1|gene1855|BAMTA208_09135|trmD
BAMTA208_09140	operon_0472	NC_017188.1|gene1856|BAMTA208_09140|rimM
BAMTA208_09145	operon_0472	NC_017188.1|gene1857|BAMTA208_09145|ylqD
BAMTA208_09150	operon_0472	NC_017188.1|gene1858|BAMTA208_09150|ylqC
BAMTA208_09155	operon_0472	NC_017188.1|gene1859|BAMTA208_09155|rpsP
BAMTA208_09160	operon_0472	NC_017188.1|gene1860|BAMTA208_09160|ffh
BAMTA208_09165	operon_0472	NC_017188.1|gene1861|BAMTA208_09165|ylxM
BAMTA208_09170	operon_0472	NC_017188.1|gene1862|BAMTA208_09170|ftsY
BAMTA208_09175	operon_0472	NC_017188.1|gene1863|BAMTA208_09175|smc
BAMTA208_09180	operon_0472	NC_017188.1|gene1864|BAMTA208_09180|rnc
BAMTA208_09185	operon_0472	NC_017188.1|gene1865|BAMTA208_09185|acpA
BAMTA208_09190	operon_0472	NC_017188.1|gene1866|BAMTA208_09190|fabG
BAMTA208_09195	operon_0472	NC_017188.1|gene1867|BAMTA208_09195|fabD
BAMTA208_09200	operon_0472	NC_017188.1|gene1868|BAMTA208_09200|plsX
BAMTA208_09205	operon_0472	NC_017188.1|gene1869|BAMTA208_09205|fapR
BAMTA208_09210	operon_0472	NC_017188.1|gene1870|BAMTA208_09210|recG
BAMTA208_09215	operon_0472	NC_017188.1|gene1871|BAMTA208_09215|sdaAA
BAMTA208_09220	operon_0472	NC_017188.1|gene1872|BAMTA208_09220|sdaAB
BAMTA208_09225	operon_0472	NC_017188.1|gene1873|BAMTA208_09225|yloV
BAMTA208_09230	operon_0472	NC_017188.1|gene1874|BAMTA208_09230|yloU
BAMTA208_09235	operon_0473	NC_017188.1|gene1875|BAMTA208_09235|rpmB
BAMTA208_09240	operon_0474	NC_017188.1|gene1876|BAMTA208_09240|spoVM
BAMTA208_09245	operon_0474	NC_017188.1|gene1877|BAMTA208_09245|thiN
BAMTA208_09250	operon_0474	NC_017188.1|gene1878|BAMTA208_09250|rpe
BAMTA208_09255	operon_0474	NC_017188.1|gene1879|BAMTA208_09255|cpgA
BAMTA208_09260	operon_0474	NC_017188.1|gene1880|BAMTA208_09260|prkC
BAMTA208_09265	operon_0474	NC_017188.1|gene1881|BAMTA208_09265|prpC1
BAMTA208_09270	operon_0474	NC_017188.1|gene1882|BAMTA208_09270|yloN
BAMTA208_09275	operon_0474	NC_017188.1|gene1883|BAMTA208_09275|rsmB
BAMTA208_09280	operon_0474	NC_017188.1|gene1884|BAMTA208_09280|fmt
BAMTA208_09285	operon_0474	NC_017188.1|gene1885|BAMTA208_09285|defA
BAMTA208_09290	operon_0474	NC_017188.1|gene1886|BAMTA208_09290|priA
BAMTA208_09295	operon_0474	NC_017188.1|gene1887|BAMTA208_09295|coaBC
BAMTA208_09300	operon_0474	NC_017188.1|gene1888|BAMTA208_09300|rpoZ
BAMTA208_09305	operon_0474	NC_017188.1|gene1889|BAMTA208_09305|gmk
BAMTA208_09310	operon_0474	NC_017188.1|gene1890|BAMTA208_09310|ylzA
BAMTA208_09315	operon_0474	NC_017188.1|gene1891|BAMTA208_09315|yloC
BAMTA208_09320	operon_0474	NC_017188.1|gene1892|BAMTA208_09320|yloB
BAMTA208_09325	operon_0475	NC_017188.1|gene1893|BAMTA208_09325|yloA
BAMTA208_09330	operon_0476	NC_017188.1|gene1894|BAMTA208_09330|amyA
BAMTA208_09335	operon_0476	NC_017188.1|gene1895|BAMTA208_09335|sirC
BAMTA208_09340	operon_0476	NC_017188.1|gene1896|BAMTA208_09340|sirB
BAMTA208_09345	operon_0476	NC_017188.1|gene1897|BAMTA208_09345|sumT
BAMTA208_09350	operon_0476	NC_017188.1|gene1898|BAMTA208_09350|cysC
BAMTA208_09355	operon_0476	NC_017188.1|gene1899|BAMTA208_09355|sat
BAMTA208_09360	operon_0476	NC_017188.1|gene1900|BAMTA208_09360|cysP
BAMTA208_09365	operon_0476	NC_017188.1|gene1901|BAMTA208_09365|cysH
BAMTA208_09370	operon_0476	NC_017188.1|gene1902|BAMTA208_09370
BAMTA208_09375	operon_0476	NC_017188.1|gene1903|BAMTA208_09375|pyrE
BAMTA208_09380	operon_0476	NC_017188.1|gene1904|BAMTA208_09380|pyrF
BAMTA208_09385	operon_0476	NC_017188.1|gene1905|BAMTA208_09385|pyrD
BAMTA208_09390	operon_0476	NC_017188.1|gene1906|BAMTA208_09390|pyrK
BAMTA208_09395	operon_0476	NC_017188.1|gene1907|BAMTA208_09395|pyrAB
BAMTA208_09400	operon_0476	NC_017188.1|gene1908|BAMTA208_09400|pyrAA
BAMTA208_09405	operon_0476	NC_017188.1|gene1909|BAMTA208_09405|pyrC
BAMTA208_09410	operon_0476	NC_017188.1|gene1910|BAMTA208_09410|pyrB
BAMTA208_09415	operon_0476	NC_017188.1|gene1911|BAMTA208_09415|pyrP
BAMTA208_09420	operon_0476	NC_017188.1|gene1912|BAMTA208_09420|pyrR
BAMTA208_09425	operon_0476	NC_017188.1|gene1913|BAMTA208_09425|rluD
BAMTA208_09430	operon_0476	NC_017188.1|gene1914|BAMTA208_09430|lspA
BAMTA208_09435	operon_0476	NC_017188.1|gene1915|BAMTA208_09435|ylyA
BAMTA208_09440	operon_0476	NC_017188.1|gene1916|BAMTA208_09440|ileS
BAMTA208_09445	operon_0476	NC_017188.1|gene1917|BAMTA208_09445
BAMTA208_09450	operon_0476	NC_017188.1|gene1918|BAMTA208_09450|divIVA
BAMTA208_09455	operon_0476	NC_017188.1|gene1919|BAMTA208_09455|ylmH
BAMTA208_09460	operon_0476	NC_017188.1|gene1920|BAMTA208_09460|ylmG
BAMTA208_09465	operon_0476	NC_017188.1|gene1921|BAMTA208_09465|sepF
BAMTA208_09470	operon_0476	NC_017188.1|gene1922|BAMTA208_09470|ylmE
BAMTA208_09475	operon_0476	NC_017188.1|gene1923|BAMTA208_09475|ylmD
BAMTA208_09480	operon_0476	NC_017188.1|gene1924|BAMTA208_09480|ylmC
BAMTA208_09485	operon_0476	NC_017188.1|gene1925|BAMTA208_09485|thiQ
BAMTA208_09490	operon_0476	NC_017188.1|gene1926|BAMTA208_09490|ylmA
BAMTA208_09495	operon_0477	NC_017188.1|gene1927|BAMTA208_09495
BAMTA208_09500	operon_0478	NC_017188.1|gene1928|BAMTA208_09500|sigG
BAMTA208_09505	operon_0478	NC_017188.1|gene1929|BAMTA208_09505|sigE
BAMTA208_09510	operon_0478	NC_017188.1|gene1930|BAMTA208_09510|spoIIGA
BAMTA208_09515	operon_0478	NC_017188.1|gene1931|BAMTA208_09515|bpr
BAMTA208_09520	operon_0478	NC_017188.1|gene1932|BAMTA208_09520|ftsZ
BAMTA208_09525	operon_0478	NC_017188.1|gene1933|BAMTA208_09525|ftsA
BAMTA208_09530	operon_0478	NC_017188.1|gene1934|BAMTA208_09530|divIB
BAMTA208_09535	operon_0478	NC_017188.1|gene1935|BAMTA208_09535|murB
BAMTA208_09540	operon_0478	NC_017188.1|gene1936|BAMTA208_09540|murG
BAMTA208_09545	operon_0478	NC_017188.1|gene1937|BAMTA208_09545|spoVE
BAMTA208_09550	operon_0478	NC_017188.1|gene1938|BAMTA208_09550|murD
BAMTA208_09555	operon_0478	NC_017188.1|gene1939|BAMTA208_09555|mraY
BAMTA208_09560	operon_0478	NC_017188.1|gene1940|BAMTA208_09560|murE
BAMTA208_09565	operon_0478	NC_017188.1|gene1941|BAMTA208_09565|spoVD
BAMTA208_09570	operon_0478	NC_017188.1|gene1942|BAMTA208_09570|pbpB
BAMTA208_09575	operon_0478	NC_017188.1|gene1943|BAMTA208_09575|ftsL
BAMTA208_09580	operon_0478	NC_017188.1|gene1944|BAMTA208_09580|mraW
BAMTA208_09585	operon_0478	NC_017188.1|gene1945|BAMTA208_09585|mraZ
BAMTA208_09590	operon_0478	NC_017188.1|gene1946|BAMTA208_09590|yllA
BAMTA208_09595	operon_0478	NC_017188.1|gene1947|BAMTA208_09595|ylbQ
BAMTA208_09600	operon_0479	NC_017188.1|gene1948|BAMTA208_09600|ylbP
BAMTA208_09605	operon_0480	NC_017188.1|gene1949|BAMTA208_09605|ylbO
BAMTA208_09610	operon_0480	NC_017188.1|gene1950|BAMTA208_09610|rpmF
BAMTA208_09615	operon_0480	NC_017188.1|gene1951|BAMTA208_09615|ylbN
BAMTA208_09620	operon_0481	NC_017188.1|gene1952|BAMTA208_09620|ylbM
BAMTA208_09625	operon_0482	NC_017188.1|gene1953|BAMTA208_09625|ylbL
BAMTA208_09630	operon_0482	NC_017188.1|gene1954|BAMTA208_09630|ylbK
BAMTA208_09635	operon_0483	NC_017188.1|gene1955|BAMTA208_09635|ylbJ
BAMTA208_09640	operon_0484	NC_017188.1|gene1956|BAMTA208_09640|coaD
BAMTA208_09645	operon_0484	NC_017188.1|gene1957|BAMTA208_09645|ylbH
BAMTA208_09650	operon_0484	NC_017188.1|gene1958|BAMTA208_09650
BAMTA208_09655	operon_0484	NC_017188.1|gene1959|BAMTA208_09655|ylbG
BAMTA208_09660	operon_0484	NC_017188.1|gene1960|BAMTA208_09660|ylbF
BAMTA208_09665	operon_0484	NC_017188.1|gene1961|BAMTA208_09665|ylbE
BAMTA208_09670	operon_0484	NC_017188.1|gene1962|BAMTA208_09670|ylbD
BAMTA208_09675	operon_0484	NC_017188.1|gene1963|BAMTA208_09675|ylbC
BAMTA208_09680	operon_0484	NC_017188.1|gene1964|BAMTA208_09680|ylbB
BAMTA208_09685	operon_0485	NC_017188.1|gene1965|BAMTA208_09685|ylbA
BAMTA208_09690	operon_0486	NC_017188.1|gene1966|BAMTA208_09690|ctaG
BAMTA208_09695	operon_0486	NC_017188.1|gene1967|BAMTA208_09695|ctaF
BAMTA208_09700	operon_0486	NC_017188.1|gene1968|BAMTA208_09700|ctaE
BAMTA208_09705	operon_0486	NC_017188.1|gene1969|BAMTA208_09705|ctaD
BAMTA208_09710	operon_0486	NC_017188.1|gene1970|BAMTA208_09710|ctaC
BAMTA208_09715	operon_0486	NC_017188.1|gene1971|BAMTA208_09715|ctaB
BAMTA208_09720	operon_0487	NC_017188.1|gene1972|BAMTA208_09720|ctaA
BAMTA208_09725	operon_0488	NC_017188.1|gene1973|BAMTA208_09725|pycA
BAMTA208_09730	operon_0488	NC_017188.1|gene1974|BAMTA208_09730|ftsW
BAMTA208_09735	operon_0488	NC_017188.1|gene1975|BAMTA208_09735|ylaN
BAMTA208_09740	operon_0488	NC_017188.1|gene1976|BAMTA208_09740|glsB
BAMTA208_09745	operon_0489	NC_017188.1|gene1977|BAMTA208_09745|ylaL
BAMTA208_09750	operon_0490	NC_017188.1|gene1978|BAMTA208_09750|ylaK
BAMTA208_09755	operon_0491	NC_017188.1|gene1979|BAMTA208_09755|ylaJ
BAMTA208_09760	operon_0491	NC_017188.1|gene1980|BAMTA208_09760|ylaI
BAMTA208_09765	operon_0492	NC_017188.1|gene1981|BAMTA208_09765|ylaH
BAMTA208_09770	operon_0492	NC_017188.1|gene1982|BAMTA208_09770|bipA
BAMTA208_09775	operon_0493	NC_017188.1|gene1983|BAMTA208_09775|ylaF
BAMTA208_09780	operon_0493	NC_017188.1|gene1984|BAMTA208_09780|ylaE
BAMTA208_09785	operon_0494	NC_017188.1|gene1985|BAMTA208_09785|ylaD
BAMTA208_09790	operon_0494	NC_017188.1|gene1986|BAMTA208_09790|ylaA
BAMTA208_09795	operon_0495	NC_017188.1|gene1987|BAMTA208_09795|nprE
BAMTA208_09800	operon_0496	NC_017188.1|gene1988|BAMTA208_09800|ykzC
BAMTA208_09805	operon_0496	NC_017188.1|gene1989|BAMTA208_09805|suhB
BAMTA208_09810	operon_0496	NC_017188.1|gene1990|BAMTA208_09810|ykzI
BAMTA208_09815	operon_0497	NC_017188.1|gene1991|BAMTA208_09815|yktB
BAMTA208_09820	operon_0498	NC_017188.1|gene1992|BAMTA208_09820|yktA
BAMTA208_09825	operon_0499	NC_017188.1|gene1993|BAMTA208_09825|speA
BAMTA208_09830	operon_0500	NC_017188.1|gene1994|BAMTA208_09830
BAMTA208_09835	operon_0501	NC_017188.1|gene1995|BAMTA208_09835|slp
BAMTA208_09840	operon_0502	NC_017188.1|gene1996|BAMTA208_09840|pdhD
BAMTA208_09845	operon_0502	NC_017188.1|gene1997|BAMTA208_09845|pdhC
BAMTA208_09850	operon_0502	NC_017188.1|gene1998|BAMTA208_09850|pdhB
BAMTA208_09855	operon_0502	NC_017188.1|gene1999|BAMTA208_09855|pdhA
BAMTA208_09860	operon_0502	NC_017188.1|gene2000|BAMTA208_09860|ykyA
BAMTA208_09865	operon_0503	NC_017188.1|gene2001|BAMTA208_09865|ykzV
BAMTA208_09870	operon_0503	NC_017188.1|gene2002|BAMTA208_09870|defB
BAMTA208_09875	operon_0504	NC_017188.1|gene2003|BAMTA208_09875|ykrA
BAMTA208_09880	operon_0505	NC_017188.1|gene2004|BAMTA208_09880|ykzG
BAMTA208_09885	operon_0505	NC_017188.1|gene2005|BAMTA208_09885|rnjA
BAMTA208_09890	operon_0506	NC_017188.1|gene2006|BAMTA208_09890|adeC
BAMTA208_09895	operon_0506	NC_017188.1|gene2007|BAMTA208_09895|ktrC
BAMTA208_09900	operon_0506	NC_017188.1|gene2008|BAMTA208_09900|ykqA
BAMTA208_09905	operon_0506	NC_017188.1|gene2009|BAMTA208_09905|kinC
BAMTA208_09910	operon_0506	NC_017188.1|gene2010|BAMTA208_09910|abh
BAMTA208_09915	operon_0507	NC_017188.1|gene2011|BAMTA208_09915|mreBH
BAMTA208_09920	operon_0507	NC_017188.1|gene2012|BAMTA208_09920|ykpC
BAMTA208_09925	operon_0507	NC_017188.1|gene2013|BAMTA208_09925|ampS
BAMTA208_09930	operon_0508	NC_017188.1|gene2014|BAMTA208_09930|panE
BAMTA208_09935	operon_0508	NC_017188.1|gene2015|BAMTA208_09935|ykpA
BAMTA208_09940	operon_0509	NC_017188.1|gene2016|BAMTA208_09940|ykoA
BAMTA208_09945	operon_0510	NC_017188.1|gene2017|BAMTA208_09945|sipT
BAMTA208_09950	operon_0510	NC_017188.1|gene2018|BAMTA208_09950|fruA
BAMTA208_09955	operon_0510	NC_017188.1|gene2019|BAMTA208_09955|fruK
BAMTA208_09960	operon_0510	NC_017188.1|gene2020|BAMTA208_09960|fruR
BAMTA208_09965	operon_0510	NC_017188.1|gene2021|BAMTA208_09965|yknZ
BAMTA208_09970	operon_0510	NC_017188.1|gene2022|BAMTA208_09970|yknY
BAMTA208_09975	operon_0510	NC_017188.1|gene2023|BAMTA208_09975|yknX
BAMTA208_09980	operon_0510	NC_017188.1|gene2024|BAMTA208_09980|yknW
BAMTA208_09985	operon_0511	NC_017188.1|gene2025|BAMTA208_09985
BAMTA208_09990	operon_0512	NC_017188.1|gene2026|BAMTA208_09990|moaD
BAMTA208_09995	operon_0512	NC_017188.1|gene2027|BAMTA208_09995|moaE
BAMTA208_10000	operon_0512	NC_017188.1|gene2028|BAMTA208_10000|mobB
BAMTA208_10005	operon_0512	NC_017188.1|gene2029|BAMTA208_10005|moeA
BAMTA208_10010	operon_0512	NC_017188.1|gene2030|BAMTA208_10010|moeB
BAMTA208_10015	operon_0512	NC_017188.1|gene2031|BAMTA208_10015|mobA
BAMTA208_10020	operon_0513	NC_017188.1|gene2032|BAMTA208_10020|yknT
BAMTA208_10025	operon_0514	NC_017188.1|gene2033|BAMTA208_10025|rok
BAMTA208_10030	operon_0514	NC_017188.1|gene2034|BAMTA208_10030|ykuV2
BAMTA208_10035	operon_0514	NC_017188.1|gene2035|BAMTA208_10035|ykuV1
BAMTA208_10040	operon_0515	NC_017188.1|gene2036|BAMTA208_10040|ykuT
BAMTA208_10045	operon_0516	NC_017188.1|gene2037|BAMTA208_10045|ykuS
BAMTA208_10050	operon_0516	NC_017188.1|gene2038|BAMTA208_10050|dapL
BAMTA208_10055	operon_0516	NC_017188.1|gene2039|BAMTA208_10055|dapH
BAMTA208_10060	operon_0516	NC_017188.1|gene2040|BAMTA208_10060|ykuP
BAMTA208_10065	operon_0516	NC_017188.1|gene2041|BAMTA208_10065|ykuO
BAMTA208_10070	operon_0516	NC_017188.1|gene2042|BAMTA208_10070|ykuN
BAMTA208_10075	operon_0516	NC_017188.1|gene2043|BAMTA208_10075|ccpC
BAMTA208_10080	operon_0516	NC_017188.1|gene2044|BAMTA208_10080|ykuL
BAMTA208_10085	operon_0516	NC_017188.1|gene2045|BAMTA208_10085|abbA
BAMTA208_10090	operon_0516	NC_017188.1|gene2046|BAMTA208_10090|ykuK
BAMTA208_10095	operon_0516	NC_017188.1|gene2047|BAMTA208_10095|ykuJ
BAMTA208_10100	operon_0516	NC_017188.1|gene2048|BAMTA208_10100|ykuI
BAMTA208_10105	operon_0516	NC_017188.1|gene2049|BAMTA208_10105|ykuH
BAMTA208_10110	operon_0516	NC_017188.1|gene2050|BAMTA208_10110|fadH
BAMTA208_10115	operon_0517	NC_017188.1|gene2051|BAMTA208_10115|ykuE
BAMTA208_10120	operon_0517	NC_017188.1|gene2052|BAMTA208_10120|ldt
BAMTA208_10125	operon_0517	NC_017188.1|gene2053|BAMTA208_10125|ykuC
BAMTA208_10130	operon_0517	NC_017188.1|gene2054|BAMTA208_10130|ykyB
BAMTA208_10135	operon_0518	NC_017188.1|gene2055|BAMTA208_10135|cheV
BAMTA208_10140	operon_0519	NC_017188.1|gene2056|BAMTA208_10140
BAMTA208_10145	operon_0519	NC_017188.1|gene2057|BAMTA208_10145|patA
BAMTA208_10150	operon_0520	NC_017188.1|gene2058|BAMTA208_10150|kinA
BAMTA208_10155	operon_0520	NC_017188.1|gene2059|BAMTA208_10155|pbpH
BAMTA208_10160	operon_0521	NC_017188.1|gene2060|BAMTA208_10160|ykwD
BAMTA208_10165	operon_0521	NC_017188.1|gene2061|BAMTA208_10165
BAMTA208_10170	operon_0522	NC_017188.1|gene2062|BAMTA208_10170|ykwC
BAMTA208_10175	operon_0522	NC_017188.1|gene2063|BAMTA208_10175|mcpC
BAMTA208_10180	operon_0522	NC_017188.1|gene2064|BAMTA208_10180|splB
BAMTA208_10185	operon_0522	NC_017188.1|gene2065|BAMTA208_10185|splA
BAMTA208_10190	operon_0522	NC_017188.1|gene2066|BAMTA208_10190|ptsI
BAMTA208_10195	operon_0522	NC_017188.1|gene2067|BAMTA208_10195|ptsH
BAMTA208_10200	operon_0522	NC_017188.1|gene2068|BAMTA208_10200|ptsG
BAMTA208_10205	operon_0522	NC_017188.1|gene2069|BAMTA208_10205|glcT
BAMTA208_10210	operon_0522	NC_017188.1|gene2070|BAMTA208_10210|ykvZ
BAMTA208_10215	operon_0523	NC_017188.1|gene2071|BAMTA208_10215
BAMTA208_10220	operon_0524	NC_017188.1|gene2072|BAMTA208_10220|ykvY
BAMTA208_10225	operon_0524	NC_017188.1|gene2073|BAMTA208_10225|zosA
BAMTA208_10230	operon_0524	NC_017188.1|gene2074|BAMTA208_10230|stoA
BAMTA208_10235	operon_0524	NC_017188.1|gene2075|BAMTA208_10235|ykvU
BAMTA208_10240	operon_0524	NC_017188.1|gene2076|BAMTA208_10240|ykvT
BAMTA208_10245	operon_0524	NC_017188.1|gene2077|BAMTA208_10245
BAMTA208_10250	operon_0525	NC_017188.1|gene2078|BAMTA208_10250|ykvS
BAMTA208_10255	operon_0526	NC_017188.1|gene2079|BAMTA208_10255|ykvR
BAMTA208_10260	operon_0526	NC_017188.1|gene2080|BAMTA208_10260|queF
BAMTA208_10265	operon_0526	NC_017188.1|gene2081|BAMTA208_10265|queE
BAMTA208_10270	operon_0526	NC_017188.1|gene2082|BAMTA208_10270|queD
BAMTA208_10275	operon_0526	NC_017188.1|gene2083|BAMTA208_10275|queC
BAMTA208_10280	operon_0526	NC_017188.1|gene2084|BAMTA208_10280
BAMTA208_10285	operon_0526	NC_017188.1|gene2085|BAMTA208_10285
BAMTA208_10290	operon_0526	NC_017188.1|gene2086|BAMTA208_10290|ykvI
BAMTA208_10295	operon_0527	NC_017188.1|gene2087|BAMTA208_10295|clpE
BAMTA208_10300	operon_0527	NC_017188.1|gene2088|BAMTA208_10300|motA
BAMTA208_10305	operon_0527	NC_017188.1|gene2089|BAMTA208_10305|motB
BAMTA208_10310	operon_0528	NC_017188.1|gene2090|BAMTA208_10310|mhqR
BAMTA208_10315	operon_0529	NC_017188.1|gene2091|BAMTA208_10315|kinD
BAMTA208_10320	operon_0530	NC_017188.1|gene2092|BAMTA208_10320|spo0E
BAMTA208_10325	operon_0530	NC_017188.1|gene2093|BAMTA208_10325|mtnD
BAMTA208_10330	operon_0530	NC_017188.1|gene2094|BAMTA208_10330|mtnB
BAMTA208_10335	operon_0530	NC_017188.1|gene2095|BAMTA208_10335|mtnX
BAMTA208_10340	operon_0530	NC_017188.1|gene2096|BAMTA208_10340|mtnW
BAMTA208_10345	operon_0530	NC_017188.1|gene2097|BAMTA208_10345|mtnE
BAMTA208_10350	operon_0531	NC_017188.1|gene2098|BAMTA208_10350|mtnU
BAMTA208_10355	operon_0531	NC_017188.1|gene2099|BAMTA208_10355|mtnK
BAMTA208_10360	operon_0531	NC_017188.1|gene2100|BAMTA208_10360|mtnA
BAMTA208_10365	operon_0532	NC_017188.1|gene2101|BAMTA208_10365
BAMTA208_10370	operon_0532	NC_017188.1|gene2102|BAMTA208_10370|ogt
BAMTA208_10375	operon_0532	NC_017188.1|gene2103|BAMTA208_10375|kinE
BAMTA208_10380	operon_0533	NC_017188.1|gene2104|BAMTA208_10380|ykrP
BAMTA208_10385	operon_0534	NC_017188.1|gene2105|BAMTA208_10385|ykzE
BAMTA208_10390	operon_0534	NC_017188.1|gene2106|BAMTA208_10390|ydfR
BAMTA208_10395	operon_0534	NC_017188.1|gene2107|BAMTA208_10395|ktrD
BAMTA208_10400	operon_0534	NC_017188.1|gene2108|BAMTA208_10400|htpX
BAMTA208_10405	operon_0535	NC_017188.1|gene2109|BAMTA208_10405|ykrK
BAMTA208_10410	operon_0535	NC_017188.1|gene2110|BAMTA208_10410|sspD
BAMTA208_10415	operon_0536	NC_017188.1|gene2111|BAMTA208_10415|rsgI
BAMTA208_10420	operon_0536	NC_017188.1|gene2112|BAMTA208_10420|sigI
BAMTA208_10425	operon_0536	NC_017188.1|gene2113|BAMTA208_10425|ykoY
BAMTA208_10430	operon_0536	NC_017188.1|gene2114|BAMTA208_10430|ykoX
BAMTA208_10435	operon_0537	NC_017188.1|gene2115|BAMTA208_10435|ykoW
BAMTA208_10440	operon_0537	NC_017188.1|gene2116|BAMTA208_10440|ykoV
BAMTA208_10445	operon_0537	NC_017188.1|gene2117|BAMTA208_10445|ykoU
BAMTA208_10450	operon_0538	NC_017188.1|gene2118|BAMTA208_10450|ykoP
BAMTA208_10455	operon_0538	NC_017188.1|gene2119|BAMTA208_10455|ykoM
BAMTA208_10460	operon_0538	NC_017188.1|gene2120|BAMTA208_10460|ykoL
BAMTA208_10465	operon_0538	NC_017188.1|gene2121|BAMTA208_10465|ykzB
BAMTA208_10470	operon_0539	NC_017188.1|gene2122|BAMTA208_10470|tnrA
BAMTA208_10475	operon_0540	NC_017188.1|gene2123|BAMTA208_10475|mgtE
BAMTA208_10480	operon_0540	NC_017188.1|gene2124|BAMTA208_10480
BAMTA208_10485	operon_0540	NC_017188.1|gene2125|BAMTA208_10485|ykzD
BAMTA208_10490	operon_0540	NC_017188.1|gene2126|BAMTA208_10490|ydhD
BAMTA208_10495	operon_0541	NC_017188.1|gene2127|BAMTA208_10495
BAMTA208_10500	operon_0541	NC_017188.1|gene2128|BAMTA208_10500|thiV
BAMTA208_10505	operon_0541	NC_017188.1|gene2129|BAMTA208_10505|thiW
BAMTA208_10510	operon_0541	NC_017188.1|gene2130|BAMTA208_10510|thiX
BAMTA208_10515	operon_0542	NC_017188.1|gene2131|BAMTA208_10515|rsbRB
BAMTA208_10520	operon_0543	NC_017188.1|gene2132|BAMTA208_10520|ispA
BAMTA208_10525	operon_0543	NC_017188.1|gene2133|BAMTA208_10525|metE
BAMTA208_10530	operon_0544	NC_017188.1|gene2134|BAMTA208_10530|yeiL
BAMTA208_10535	operon_0545	NC_017188.1|gene2135|BAMTA208_10535
BAMTA208_10540	operon_0545	NC_017188.1|gene2136|BAMTA208_10540
BAMTA208_10545	operon_0546	NC_017188.1|gene2137|BAMTA208_10545
BAMTA208_10550	operon_0546	NC_017188.1|gene2138|BAMTA208_10550
BAMTA208_10555	operon_0546	NC_017188.1|gene2139|BAMTA208_10555
BAMTA208_10560	operon_0546	NC_017188.1|gene2140|BAMTA208_10560
BAMTA208_10565	operon_0546	NC_017188.1|gene2141|BAMTA208_10565|ohrB
BAMTA208_10570	operon_0547	NC_017188.1|gene2142|BAMTA208_10570|ohrR
BAMTA208_10575	operon_0548	NC_017188.1|gene2143|BAMTA208_10575|ohrA
BAMTA208_10580	operon_0548	NC_017188.1|gene2144|BAMTA208_10580|proA
BAMTA208_10585	operon_0548	NC_017188.1|gene2145|BAMTA208_10585|proB
BAMTA208_10590	operon_0548	NC_017188.1|gene2146|BAMTA208_10590|purU
BAMTA208_10595	operon_0548	NC_017188.1|gene2147|BAMTA208_10595|ykkD
BAMTA208_10600	operon_0548	NC_017188.1|gene2148|BAMTA208_10600|ykkC
BAMTA208_10605	operon_0548	NC_017188.1|gene2149|BAMTA208_10605|ykkB
BAMTA208_10610	operon_0548	NC_017188.1|gene2150|BAMTA208_10610|ykhA
BAMTA208_10615	operon_0549	NC_017188.1|gene2151|BAMTA208_10615|ykgA
BAMTA208_10620	operon_0549	NC_017188.1|gene2152|BAMTA208_10620|ykgB
BAMTA208_10625	operon_0550	NC_017188.1|gene2153|BAMTA208_10625|ykfD
BAMTA208_10630	operon_0550	NC_017188.1|gene2154|BAMTA208_10630|ykfC
BAMTA208_10635	operon_0550	NC_017188.1|gene2155|BAMTA208_10635|ykfB
BAMTA208_10640	operon_0550	NC_017188.1|gene2156|BAMTA208_10640|ykfA
BAMTA208_10655	operon_0550	NC_017188.1|gene2157|BAMTA208_10655|dppD
BAMTA208_10660	operon_0550	NC_017188.1|gene2158|BAMTA208_10660|dppC
BAMTA208_10665	operon_0550	NC_017188.1|gene2159|BAMTA208_10665|dppB
BAMTA208_10670	operon_0550	NC_017188.1|gene2160|BAMTA208_10670|dppA
BAMTA208_10675	operon_0550	NC_017188.1|gene2161|BAMTA208_10675|yubD
BAMTA208_10680	operon_0551	NC_017188.1|gene2162|BAMTA208_10680|htrA
BAMTA208_10685	operon_0551	NC_017188.1|gene2163|BAMTA208_10685
BAMTA208_10690	operon_0552	NC_017188.1|gene2164|BAMTA208_10690|ykcC
BAMTA208_10695	operon_0552	NC_017188.1|gene2165|BAMTA208_10695|ykcB
BAMTA208_10700	operon_0552	NC_017188.1|gene2166|BAMTA208_10700|mhqA
BAMTA208_10705	operon_0553	NC_017188.1|gene2167|BAMTA208_10705|steT
BAMTA208_10710	operon_0553	NC_017188.1|gene2168|BAMTA208_10710|ykaA
BAMTA208_10715	operon_0553	NC_017188.1|gene2169|BAMTA208_10715|pit
BAMTA208_10720	operon_0553	NC_017188.1|gene2170|BAMTA208_10720|spoIISA
BAMTA208_10725	operon_0553	NC_017188.1|gene2171|BAMTA208_10725|spoIISB
BAMTA208_10730	operon_0554	NC_017188.1|gene2172|BAMTA208_10730|xlyA1
BAMTA208_10735	operon_0554	NC_017188.1|gene2173|BAMTA208_10735|xhlB5
BAMTA208_10740	operon_0554	NC_017188.1|gene2174|BAMTA208_10740|xhlA3
BAMTA208_10745	operon_0554	NC_017188.1|gene2175|BAMTA208_10745|xepA
BAMTA208_10750	operon_0554	NC_017188.1|gene2176|BAMTA208_10750|xkdX1
BAMTA208_10755	operon_0554	NC_017188.1|gene2177|BAMTA208_10755|yomQ1
BAMTA208_10760	operon_0554	NC_017188.1|gene2178|BAMTA208_10760|yomR1
BAMTA208_10765	operon_0554	NC_017188.1|gene2179|BAMTA208_10765|yqcB
BAMTA208_10770	operon_0554	NC_017188.1|gene2180|BAMTA208_10770|xkdU
BAMTA208_10775	operon_0554	NC_017188.1|gene2181|BAMTA208_10775|ykdT
BAMTA208_10780	operon_0554	NC_017188.1|gene2182|BAMTA208_10780|xkdS
BAMTA208_10785	operon_0554	NC_017188.1|gene2183|BAMTA208_10785|xkdR
BAMTA208_10790	operon_0554	NC_017188.1|gene2184|BAMTA208_10790|xkdQ
BAMTA208_10795	operon_0554	NC_017188.1|gene2185|BAMTA208_10795|xkdP
BAMTA208_10800	operon_0554	NC_017188.1|gene2186|BAMTA208_10800|xkdO2
BAMTA208_10805	operon_0554	NC_017188.1|gene2187|BAMTA208_10805|xkdN%23
BAMTA208_10810	operon_0554	NC_017188.1|gene2188|BAMTA208_10810|xkdN2
BAMTA208_10815	operon_0554	NC_017188.1|gene2189|BAMTA208_10815|xkdM
BAMTA208_10820	operon_0554	NC_017188.1|gene2190|BAMTA208_10820|xkdK
BAMTA208_10825	operon_0554	NC_017188.1|gene2191|BAMTA208_10825|ykzM
BAMTA208_10830	operon_0554	NC_017188.1|gene2192|BAMTA208_10830|xkdJ
BAMTA208_10835	operon_0554	NC_017188.1|gene2193|BAMTA208_10835|xkdI
BAMTA208_10840	operon_0554	NC_017188.1|gene2194|BAMTA208_10840|xkdH
BAMTA208_10845	operon_0554	NC_017188.1|gene2195|BAMTA208_10845
BAMTA208_10850	operon_0554	NC_017188.1|gene2196|BAMTA208_10850|xkdG
BAMTA208_10855	operon_0554	NC_017188.1|gene2197|BAMTA208_10855|xkdF
BAMTA208_10860	operon_0554	NC_017188.1|gene2198|BAMTA208_10860|xkdE
BAMTA208_10865	operon_0554	NC_017188.1|gene2199|BAMTA208_10865|xtmB3
BAMTA208_10870	operon_0554	NC_017188.1|gene2200|BAMTA208_10870|xtmA
BAMTA208_10875	operon_0554	NC_017188.1|gene2201|BAMTA208_10875|xpf3
BAMTA208_10880	operon_0554	NC_017188.1|gene2202|BAMTA208_10880|xtrA
BAMTA208_10885	operon_0554	NC_017188.1|gene2203|BAMTA208_10885|xkdD
BAMTA208_10890	operon_0554	NC_017188.1|gene2204|BAMTA208_10890
BAMTA208_10895	operon_0554	NC_017188.1|gene2205|BAMTA208_10895
BAMTA208_10900	operon_0554	NC_017188.1|gene2206|BAMTA208_10900|xkdC
BAMTA208_10905	operon_0554	NC_017188.1|gene2207|BAMTA208_10905|xkdB
BAMTA208_10910	operon_0554	NC_017188.1|gene2208|BAMTA208_10910
BAMTA208_10915	operon_0555	NC_017188.1|gene2209|BAMTA208_10915|xre
BAMTA208_10920	operon_0555	NC_017188.1|gene2210|BAMTA208_10920|xkdA
BAMTA208_10925	operon_0556	NC_017188.1|gene2211|BAMTA208_10925|yjqB
BAMTA208_10930	operon_0557	NC_017188.1|gene2212|BAMTA208_10930|yjqA
BAMTA208_10935	operon_0558	NC_017188.1|gene2213|BAMTA208_10935|xlyB7
BAMTA208_10940	operon_0558	NC_017188.1|gene2214|BAMTA208_10940|phrA
BAMTA208_10945	operon_0558	NC_017188.1|gene2215|BAMTA208_10945|rapA
BAMTA208_10950	operon_0559	NC_017188.1|gene2216|BAMTA208_10950|yjoA
BAMTA208_10955	operon_0559	NC_017188.1|gene2217|BAMTA208_10955|yjnA
BAMTA208_10960	operon_0560	NC_017188.1|gene2218|BAMTA208_10960
BAMTA208_10965	operon_0560	NC_017188.1|gene2219|BAMTA208_10965|ybdK
BAMTA208_10970	operon_0560	NC_017188.1|gene2220|BAMTA208_10970|yvrH2
BAMTA208_10975	operon_0560	NC_017188.1|gene2221|BAMTA208_10975|uxaA
BAMTA208_10980	operon_0560	NC_017188.1|gene2222|BAMTA208_10980|uxaB%23
BAMTA208_10985	operon_0560	NC_017188.1|gene2223|BAMTA208_10985|exuR
BAMTA208_10990	operon_0560	NC_017188.1|gene2224|BAMTA208_10990|uxaC
BAMTA208_10995	operon_0560	NC_017188.1|gene2225|BAMTA208_10995|ndh
BAMTA208_11000	operon_0560	NC_017188.1|gene2226|BAMTA208_11000|yjlC
BAMTA208_11005	operon_0560	NC_017188.1|gene2227|BAMTA208_11005|yjlB
BAMTA208_11010	operon_0561	NC_017188.1|gene2228|BAMTA208_11010|yjlA
BAMTA208_11015	operon_0561	NC_017188.1|gene2229|BAMTA208_11015|yjkB
BAMTA208_11020	operon_0561	NC_017188.1|gene2230|BAMTA208_11020|yjkA
BAMTA208_11025	operon_0562	NC_017188.1|gene2231|BAMTA208_11025|hemD
BAMTA208_11030	operon_0563	NC_017188.1|gene2232|BAMTA208_11030|yoyH3
BAMTA208_11035	operon_0564	NC_017188.1|gene2233|BAMTA208_11035|yjiC
BAMTA208_11040	operon_0564	NC_017188.1|gene2234|BAMTA208_11040|yjiB
BAMTA208_11045	operon_0564	NC_017188.1|gene2235|BAMTA208_11045|yjgD1
BAMTA208_11050	operon_0564	NC_017188.1|gene2236|BAMTA208_11050|yjgC
BAMTA208_11055	operon_0565	NC_017188.1|gene2237|BAMTA208_11055|yjgB
BAMTA208_11060	operon_0565	NC_017188.1|gene2238|BAMTA208_11060|yjgA
BAMTA208_11065	operon_0565	NC_017188.1|gene2239|BAMTA208_11065|yjfB
BAMTA208_11070	operon_0566	NC_017188.1|gene2240|BAMTA208_11070
BAMTA208_11075	operon_0567	NC_017188.1|gene2241|BAMTA208_11075|marR
BAMTA208_11080	operon_0567	NC_017188.1|gene2242|BAMTA208_11080
BAMTA208_11085	operon_0568	NC_017188.1|gene2243|BAMTA208_11085|pgm1
BAMTA208_11090	operon_0568	NC_017188.1|gene2244|BAMTA208_11090|lacR
BAMTA208_11095	operon_0569	NC_017188.1|gene2245|BAMTA208_11095|lacG
BAMTA208_11100	operon_0569	NC_017188.1|gene2246|BAMTA208_11100|lacF
BAMTA208_11105	operon_0569	NC_017188.1|gene2247|BAMTA208_11105|lacE
BAMTA208_11110	operon_0569	NC_017188.1|gene2248|BAMTA208_11110|galT1
BAMTA208_11115	operon_0569	NC_017188.1|gene2249|BAMTA208_11115|ganA
BAMTA208_11120	operon_0569	NC_017188.1|gene2250|BAMTA208_11120
BAMTA208_11125	operon_0569	NC_017188.1|gene2251|BAMTA208_11125|yfjF
BAMTA208_11130	operon_0570	NC_017188.1|gene2252|BAMTA208_11130|yjcS
BAMTA208_11135	operon_0570	NC_017188.1|gene2253|BAMTA208_11135|penP
BAMTA208_11140	operon_0570	NC_017188.1|gene2254|BAMTA208_11140
BAMTA208_11145	operon_0571	NC_017188.1|gene2255|BAMTA208_11145
BAMTA208_11150	operon_0572	NC_017188.1|gene2256|BAMTA208_11150|yxxE
BAMTA208_11155	operon_0572	NC_017188.1|gene2257|BAMTA208_11155
BAMTA208_11160	operon_0573	NC_017188.1|gene2258|BAMTA208_11160
BAMTA208_11165	operon_0573	NC_017188.1|gene2259|BAMTA208_11165|yoqO
BAMTA208_11170	operon_0574	NC_017188.1|gene2260|BAMTA208_11170
BAMTA208_11175	operon_0575	NC_017188.1|gene2261|BAMTA208_11175
BAMTA208_11180	operon_0576	NC_017188.1|gene2262|BAMTA208_11180|uvrX1
BAMTA208_11185	operon_0576	NC_017188.1|gene2263|BAMTA208_11185|yolD1
BAMTA208_11190	operon_0577	NC_017188.1|gene2264|BAMTA208_11190|yozM3
BAMTA208_11195	operon_0578	NC_017188.1|gene2265|BAMTA208_11195|yobI3
BAMTA208_11200	operon_0578	NC_017188.1|gene2266|BAMTA208_11200|yobI1
BAMTA208_11205	operon_0578	NC_017188.1|gene2267|BAMTA208_11205|yozM1
BAMTA208_11210	operon_0578	NC_017188.1|gene2268|BAMTA208_11210
BAMTA208_11215	operon_0578	NC_017188.1|gene2269|BAMTA208_11215|yokK
BAMTA208_11220	operon_0578	NC_017188.1|gene2270|BAMTA208_11220|apbA
BAMTA208_11225	operon_0578	NC_017188.1|gene2271|BAMTA208_11225|yokH
BAMTA208_11230	operon_0578	NC_017188.1|gene2272|BAMTA208_11230
BAMTA208_11235	operon_0579	NC_017188.1|gene2273|BAMTA208_11235|yqcG
BAMTA208_11240	operon_0579	NC_017188.1|gene2274|BAMTA208_11240|tRNA-Val4
BAMTA208_11245	operon_0580	NC_017188.1|gene2275|BAMTA208_11245
BAMTA208_11250	operon_0580	NC_017188.1|gene2276|BAMTA208_11250
BAMTA208_11255	operon_0580	NC_017188.1|gene2277|BAMTA208_11255
BAMTA208_11260	operon_0580	NC_017188.1|gene2278|BAMTA208_11260
BAMTA208_11265	operon_0581	NC_017188.1|gene2279|BAMTA208_11265
BAMTA208_11270	operon_0581	NC_017188.1|gene2280|BAMTA208_11270
BAMTA208_11275	operon_0582	NC_017188.1|gene2281|BAMTA208_11275
BAMTA208_11280	operon_0583	NC_017188.1|gene2282|BAMTA208_11280
BAMTA208_11285	operon_0583	NC_017188.1|gene2283|BAMTA208_11285
BAMTA208_11290	operon_0584	NC_017188.1|gene2284|BAMTA208_11290|blyA
BAMTA208_11295	operon_0584	NC_017188.1|gene2285|BAMTA208_11295|xhlB1
BAMTA208_11300	operon_0584	NC_017188.1|gene2286|BAMTA208_11300|xhlA1
BAMTA208_11305	operon_0584	NC_017188.1|gene2287|BAMTA208_11305
BAMTA208_11310	operon_0584	NC_017188.1|gene2288|BAMTA208_11310
BAMTA208_11315	operon_0584	NC_017188.1|gene2289|BAMTA208_11315
BAMTA208_11320	operon_0584	NC_017188.1|gene2290|BAMTA208_11320
BAMTA208_11325	operon_0584	NC_017188.1|gene2291|BAMTA208_11325
BAMTA208_11330	operon_0584	NC_017188.1|gene2292|BAMTA208_11330
BAMTA208_11335	operon_0584	NC_017188.1|gene2293|BAMTA208_11335
BAMTA208_11340	operon_0584	NC_017188.1|gene2294|BAMTA208_11340
BAMTA208_11345	operon_0584	NC_017188.1|gene2295|BAMTA208_11345
BAMTA208_11350	operon_0584	NC_017188.1|gene2296|BAMTA208_11350
BAMTA208_11355	operon_0584	NC_017188.1|gene2297|BAMTA208_11355|yqbO
BAMTA208_11360	operon_0584	NC_017188.1|gene2298|BAMTA208_11360
BAMTA208_11365	operon_0584	NC_017188.1|gene2299|BAMTA208_11365
BAMTA208_11370	operon_0584	NC_017188.1|gene2300|BAMTA208_11370
BAMTA208_11375	operon_0584	NC_017188.1|gene2301|BAMTA208_11375
BAMTA208_11380	operon_0584	NC_017188.1|gene2302|BAMTA208_11380
BAMTA208_11385	operon_0584	NC_017188.1|gene2303|BAMTA208_11385
BAMTA208_11390	operon_0584	NC_017188.1|gene2304|BAMTA208_11390
BAMTA208_11395	operon_0584	NC_017188.1|gene2305|BAMTA208_11395
BAMTA208_11400	operon_0584	NC_017188.1|gene2306|BAMTA208_11400
BAMTA208_11405	operon_0584	NC_017188.1|gene2307|BAMTA208_11405
BAMTA208_11410	operon_0584	NC_017188.1|gene2308|BAMTA208_11410
BAMTA208_11415	operon_0584	NC_017188.1|gene2309|BAMTA208_11415
BAMTA208_11420	operon_0584	NC_017188.1|gene2310|BAMTA208_11420
BAMTA208_11425	operon_0584	NC_017188.1|gene2311|BAMTA208_11425
BAMTA208_11430	operon_0584	NC_017188.1|gene2312|BAMTA208_11430
BAMTA208_11435	operon_0584	NC_017188.1|gene2313|BAMTA208_11435
BAMTA208_11440	operon_0584	NC_017188.1|gene2314|BAMTA208_11440
BAMTA208_11445	operon_0584	NC_017188.1|gene2315|BAMTA208_11445
BAMTA208_11450	operon_0584	NC_017188.1|gene2316|BAMTA208_11450
BAMTA208_11455	operon_0584	NC_017188.1|gene2317|BAMTA208_11455
BAMTA208_11460	operon_0584	NC_017188.1|gene2318|BAMTA208_11460
BAMTA208_11465	operon_0584	NC_017188.1|gene2319|BAMTA208_11465
BAMTA208_11470	operon_0584	NC_017188.1|gene2320|BAMTA208_11470
BAMTA208_11475	operon_0584	NC_017188.1|gene2321|BAMTA208_11475
BAMTA208_11480	operon_0584	NC_017188.1|gene2322|BAMTA208_11480
BAMTA208_11485	operon_0585	NC_017188.1|gene2323|BAMTA208_11485
BAMTA208_11490	operon_0586	NC_017188.1|gene2324|BAMTA208_11490
BAMTA208_11495	operon_0586	NC_017188.1|gene2325|BAMTA208_11495
BAMTA208_11500	operon_0586	NC_017188.1|gene2326|BAMTA208_11500
BAMTA208_11505	operon_0586	NC_017188.1|gene2327|BAMTA208_11505
BAMTA208_11510	operon_0586	NC_017188.1|gene2328|BAMTA208_11510
BAMTA208_11515	operon_0586	NC_017188.1|gene2329|BAMTA208_11515
BAMTA208_11520	operon_0586	NC_017188.1|gene2330|BAMTA208_11520
BAMTA208_11525	operon_0586	NC_017188.1|gene2331|BAMTA208_11525
BAMTA208_11530	operon_0586	NC_017188.1|gene2332|BAMTA208_11530
BAMTA208_11535	operon_0586	NC_017188.1|gene2333|BAMTA208_11535
BAMTA208_11540	operon_0586	NC_017188.1|gene2334|BAMTA208_11540
BAMTA208_11545	operon_0586	NC_017188.1|gene2335|BAMTA208_11545
BAMTA208_11550	operon_0586	NC_017188.1|gene2336|BAMTA208_11550
BAMTA208_11555	operon_0586	NC_017188.1|gene2337|BAMTA208_11555
BAMTA208_11560	operon_0586	NC_017188.1|gene2338|BAMTA208_11560
BAMTA208_11565	operon_0586	NC_017188.1|gene2339|BAMTA208_11565
BAMTA208_11570	operon_0586	NC_017188.1|gene2340|BAMTA208_11570
BAMTA208_11575	operon_0586	NC_017188.1|gene2341|BAMTA208_11575
BAMTA208_11580	operon_0586	NC_017188.1|gene2342|BAMTA208_11580
BAMTA208_11585	operon_0586	NC_017188.1|gene2343|BAMTA208_11585|yqaG
BAMTA208_11590	operon_0586	NC_017188.1|gene2344|BAMTA208_11590
BAMTA208_11595	operon_0586	NC_017188.1|gene2345|BAMTA208_11595
BAMTA208_11600	operon_0587	NC_017188.1|gene2346|BAMTA208_11600
BAMTA208_11605	operon_0587	NC_017188.1|gene2347|BAMTA208_11605
BAMTA208_11610	operon_0587	NC_017188.1|gene2348|BAMTA208_11610
BAMTA208_11615	operon_0587	NC_017188.1|gene2349|BAMTA208_11615
BAMTA208_11620	operon_0587	NC_017188.1|gene2350|BAMTA208_11620
BAMTA208_t20755	operon_0588	NC_017188.1|gene2351|BAMTA208_t20755
BAMTA208_11625	operon_0588	NC_017188.1|gene2352|BAMTA208_11625|metC
BAMTA208_11630	operon_0588	NC_017188.1|gene2353|BAMTA208_11630|metI
BAMTA208_11635	operon_0588	NC_017188.1|gene2354|BAMTA208_11635
BAMTA208_11640	operon_0589	NC_017188.1|gene2355|BAMTA208_11640|yjcH
BAMTA208_11645	operon_0589	NC_017188.1|gene2356|BAMTA208_11645|yjcG
BAMTA208_11650	operon_0589	NC_017188.1|gene2357|BAMTA208_11650|yjcF
BAMTA208_11655	operon_0589	NC_017188.1|gene2358|BAMTA208_11655
BAMTA208_11660	operon_0589	NC_017188.1|gene2359|BAMTA208_11660
BAMTA208_11665	operon_0589	NC_017188.1|gene2360|BAMTA208_11665
BAMTA208_11670	operon_0590	NC_017188.1|gene2361|BAMTA208_11670|blm
BAMTA208_11675	operon_0590	NC_017188.1|gene2362|BAMTA208_11675
BAMTA208_11680	operon_0591	NC_017188.1|gene2363|BAMTA208_11680|yjcD
BAMTA208_11685	operon_0592	NC_017188.1|gene2364|BAMTA208_11685|spoVIF
BAMTA208_11690	operon_0592	NC_017188.1|gene2365|BAMTA208_11690
BAMTA208_11695	operon_0592	NC_017188.1|gene2366|BAMTA208_11695
BAMTA208_11700	operon_0592	NC_017188.1|gene2367|BAMTA208_11700
BAMTA208_11705	operon_0592	NC_017188.1|gene2368|BAMTA208_11705|yjcA
BAMTA208_11710	operon_0593	NC_017188.1|gene2369|BAMTA208_11710|cotV
BAMTA208_11715	operon_0593	NC_017188.1|gene2370|BAMTA208_11715|cotW
BAMTA208_11720	operon_0593	NC_017188.1|gene2371|BAMTA208_11720|cotX
BAMTA208_11725	operon_0593	NC_017188.1|gene2372|BAMTA208_11725|cotY
BAMTA208_11730	operon_0593	NC_017188.1|gene2373|BAMTA208_11730|cotZ
BAMTA208_11735	operon_0594	NC_017188.1|gene2374|BAMTA208_11735|cotO
BAMTA208_11740	operon_0594	NC_017188.1|gene2375|BAMTA208_11740|fabI
BAMTA208_11745	operon_0594	NC_017188.1|gene2376|BAMTA208_11745|thiD
BAMTA208_11750	operon_0594	NC_017188.1|gene2377|BAMTA208_11750|thiF
BAMTA208_11755	operon_0594	NC_017188.1|gene2378|BAMTA208_11755|thiG
BAMTA208_11760	operon_0594	NC_017188.1|gene2379|BAMTA208_11760|thiS
BAMTA208_11765	operon_0594	NC_017188.1|gene2380|BAMTA208_11765|thiO
BAMTA208_11770	operon_0594	NC_017188.1|gene2381|BAMTA208_11770|tenI
BAMTA208_11775	operon_0594	NC_017188.1|gene2382|BAMTA208_11775|tenA
BAMTA208_11780	operon_0594	NC_017188.1|gene2383|BAMTA208_11780|yjbQ
BAMTA208_11785	operon_0595	NC_017188.1|gene2384|BAMTA208_11785|prpE
BAMTA208_11790	operon_0596	NC_017188.1|gene2385|BAMTA208_11790|yjbO
BAMTA208_11795	operon_0596	NC_017188.1|gene2386|BAMTA208_11795|nadF
BAMTA208_11800	operon_0596	NC_017188.1|gene2387|BAMTA208_11800|yjbM
BAMTA208_11805	operon_0596	NC_017188.1|gene2388|BAMTA208_11805|yjbL
BAMTA208_11810	operon_0597	NC_017188.1|gene2389|BAMTA208_11810|yjbK
BAMTA208_11815	operon_0597	NC_017188.1|gene2390|BAMTA208_11815|yjbJ
BAMTA208_11820	operon_0597	NC_017188.1|gene2391|BAMTA208_11820|yjbI
BAMTA208_11825	operon_0597	NC_017188.1|gene2392|BAMTA208_11825|yjbH
BAMTA208_11830	operon_0597	NC_017188.1|gene2393|BAMTA208_11830
BAMTA208_11835	operon_0598	NC_017188.1|gene2394|BAMTA208_11835|pepF
BAMTA208_11840	operon_0598	NC_017188.1|gene2395|BAMTA208_11840|coiA
BAMTA208_11845	operon_0598	NC_017188.1|gene2396|BAMTA208_11845|mecA
BAMTA208_11850	operon_0599	NC_017188.1|gene2397|BAMTA208_11850|yjbE
BAMTA208_11855	operon_0600	NC_017188.1|gene2398|BAMTA208_11855|spx
BAMTA208_11860	operon_0600	NC_017188.1|gene2399|BAMTA208_11860|yjbC
BAMTA208_11865	operon_0600	NC_017188.1|gene2400|BAMTA208_11865
BAMTA208_11870	operon_0600	NC_017188.1|gene2401|BAMTA208_11870|oppF
BAMTA208_11875	operon_0600	NC_017188.1|gene2402|BAMTA208_11875|oppD
BAMTA208_11880	operon_0600	NC_017188.1|gene2403|BAMTA208_11880|oppC
BAMTA208_11885	operon_0600	NC_017188.1|gene2404|BAMTA208_11885|oppB
BAMTA208_11890	operon_0600	NC_017188.1|gene2405|BAMTA208_11890|oppA
BAMTA208_11895	operon_0601	NC_017188.1|gene2406|BAMTA208_11895|trpS
BAMTA208_11900	operon_0602	NC_017188.1|gene2407|BAMTA208_11900|yjbA
BAMTA208_11905	operon_0602	NC_017188.1|gene2408|BAMTA208_11905|appC
BAMTA208_11910	operon_0602	NC_017188.1|gene2409|BAMTA208_11910|appB
BAMTA208_11915	operon_0602	NC_017188.1|gene2410|BAMTA208_11915|appA
BAMTA208_11920	operon_0602	NC_017188.1|gene2411|BAMTA208_11920|appF
BAMTA208_11925	operon_0602	NC_017188.1|gene2412|BAMTA208_11925|appD
BAMTA208_11930	operon_0602	NC_017188.1|gene2413|BAMTA208_11930|yjaZ
BAMTA208_11935	operon_0602	NC_017188.1|gene2414|BAMTA208_11935|fabF
BAMTA208_11940	operon_0602	NC_017188.1|gene2415|BAMTA208_11940|fabHA
BAMTA208_11945	operon_0603	NC_017188.1|gene2416|BAMTA208_11945|yjzB
BAMTA208_11950	operon_0604	NC_017188.1|gene2417|BAMTA208_11950|comZ
BAMTA208_11955	operon_0604	NC_017188.1|gene2418|BAMTA208_11955|med
BAMTA208_11960	operon_0604	NC_017188.1|gene2419|BAMTA208_11960|yjaV
BAMTA208_11965	operon_0604	NC_017188.1|gene2420|BAMTA208_11965|yjaU
BAMTA208_11970	operon_0605	NC_017188.1|gene2421|BAMTA208_11970|yjzD
BAMTA208_11975	operon_0606	NC_017188.1|gene2422|BAMTA208_11975|yjzC
BAMTA208_11980	operon_0606	NC_017188.1|gene2423|BAMTA208_11980|argF
BAMTA208_11985	operon_0606	NC_017188.1|gene2424|BAMTA208_11985|carB
BAMTA208_11990	operon_0606	NC_017188.1|gene2425|BAMTA208_11990|carA
BAMTA208_11995	operon_0606	NC_017188.1|gene2426|BAMTA208_11995|argD
BAMTA208_12000	operon_0606	NC_017188.1|gene2427|BAMTA208_12000|argB
BAMTA208_12005	operon_0606	NC_017188.1|gene2428|BAMTA208_12005|argJ
BAMTA208_12010	operon_0606	NC_017188.1|gene2429|BAMTA208_12010|argC
BAMTA208_12015	operon_0606	NC_017188.1|gene2430|BAMTA208_12015|yitZ
BAMTA208_12020	operon_0606	NC_017188.1|gene2431|BAMTA208_12020|yitY2
BAMTA208_12025	operon_0606	NC_017188.1|gene2432|BAMTA208_12025|drm
BAMTA208_12030	operon_0606	NC_017188.1|gene2433|BAMTA208_12030|xerD
BAMTA208_12035	operon_0606	NC_017188.1|gene2434|BAMTA208_12035
BAMTA208_12040	operon_0606	NC_017188.1|gene2435|BAMTA208_12040|fur
BAMTA208_12045	operon_0606	NC_017188.1|gene2436|BAMTA208_12045|spoIIM
BAMTA208_12050	operon_0606	NC_017188.1|gene2437|BAMTA208_12050|yqkK
BAMTA208_12055	operon_0606	NC_017188.1|gene2438|BAMTA208_12055
BAMTA208_12060	operon_0606	NC_017188.1|gene2439|BAMTA208_12060|mleA
BAMTA208_12065	operon_0606	NC_017188.1|gene2440|BAMTA208_12065|mleN
BAMTA208_12070	operon_0606	NC_017188.1|gene2441|BAMTA208_12070|ansB
BAMTA208_12075	operon_0606	NC_017188.1|gene2442|BAMTA208_12075|ansA
BAMTA208_12080	operon_0607	NC_017188.1|gene2443|BAMTA208_12080|ansR
BAMTA208_12085	operon_0608	NC_017188.1|gene2444|BAMTA208_12085|yqxK
BAMTA208_12090	operon_0608	NC_017188.1|gene2445|BAMTA208_12090|nudF
BAMTA208_12095	operon_0609	NC_017188.1|gene2446|BAMTA208_12095
BAMTA208_12100	operon_0609	NC_017188.1|gene2447|BAMTA208_12100|yqkF
BAMTA208_12105	operon_0610	NC_017188.1|gene2448|BAMTA208_12105|yqkE
BAMTA208_12110	operon_0611	NC_017188.1|gene2449|BAMTA208_12110|yqkD
BAMTA208_12115	operon_0612	NC_017188.1|gene2450|BAMTA208_12115|yqkC
BAMTA208_12120	operon_0612	NC_017188.1|gene2451|BAMTA208_12120|yqkB
BAMTA208_12125	operon_0612	NC_017188.1|gene2452|BAMTA208_12125|yqkA
BAMTA208_12130	operon_0612	NC_017188.1|gene2453|BAMTA208_12130|yqjZ
BAMTA208_12135	operon_0612	NC_017188.1|gene2454|BAMTA208_12135
BAMTA208_12140	operon_0612	NC_017188.1|gene2455|BAMTA208_12140|yqjY
BAMTA208_12145	operon_0613	NC_017188.1|gene2456|BAMTA208_12145|polYB
BAMTA208_12150	operon_0613	NC_017188.1|gene2457|BAMTA208_12150|yqjX
BAMTA208_12155	operon_0613	NC_017188.1|gene2458|BAMTA208_12155|yqzH
BAMTA208_12160	operon_0613	NC_017188.1|gene2459|BAMTA208_12160
BAMTA208_12165	operon_0613	NC_017188.1|gene2460|BAMTA208_12165
BAMTA208_12170	operon_0614	NC_017188.1|gene2461|BAMTA208_12170|coaA
BAMTA208_12175	operon_0614	NC_017188.1|gene2462|BAMTA208_12175|dsdA
BAMTA208_12180	operon_0614	NC_017188.1|gene2463|BAMTA208_12180|yqjQ
BAMTA208_12185	operon_0614	NC_017188.1|gene2464|BAMTA208_12185|yqjP
BAMTA208_12190	operon_0615	NC_017188.1|gene2465|BAMTA208_12190|proI
BAMTA208_12195	operon_0615	NC_017188.1|gene2466|BAMTA208_12195
BAMTA208_12200	operon_0616	NC_017188.1|gene2467|BAMTA208_12200
BAMTA208_12205	operon_0617	NC_017188.1|gene2468|BAMTA208_12205
BAMTA208_12210	operon_0617	NC_017188.1|gene2469|BAMTA208_12210|yqjM
BAMTA208_12215	operon_0617	NC_017188.1|gene2470|BAMTA208_12215|yqjL
BAMTA208_12220	operon_0618	NC_017188.1|gene2471|BAMTA208_12220|rpmG
BAMTA208_12225	operon_0618	NC_017188.1|gene2472|BAMTA208_12225|rnz
BAMTA208_12230	operon_0619	NC_017188.1|gene2473|BAMTA208_12230
BAMTA208_12235	operon_0619	NC_017188.1|gene2474|BAMTA208_12235|zwf
BAMTA208_12240	operon_0620	NC_017188.1|gene2475|BAMTA208_12240|gndA
BAMTA208_12245	operon_0620	NC_017188.1|gene2476|BAMTA208_12245|polY1
BAMTA208_12250	operon_0621	NC_017188.1|gene2477|BAMTA208_12250|yqzJ
BAMTA208_12255	operon_0621	NC_017188.1|gene2478|BAMTA208_12255|oxaAB
BAMTA208_12270	operon_0622	NC_017188.1|gene2479|BAMTA208_12270|yqjD
BAMTA208_12275	operon_0622	NC_017188.1|gene2480|BAMTA208_12275|yqjC
BAMTA208_12280	operon_0622	NC_017188.1|gene2481|BAMTA208_12280
BAMTA208_12285	operon_0622	NC_017188.1|gene2482|BAMTA208_12285|yqjB
BAMTA208_12290	operon_0622	NC_017188.1|gene2483|BAMTA208_12290|yqjA
BAMTA208_12295	operon_0622	NC_017188.1|gene2484|BAMTA208_12295|artM
BAMTA208_12300	operon_0622	NC_017188.1|gene2485|BAMTA208_12300|artQ
BAMTA208_12305	operon_0622	NC_017188.1|gene2486|BAMTA208_12305|artP
BAMTA208_12310	operon_0622	NC_017188.1|gene2487|BAMTA208_12310|yqiW
BAMTA208_12315	operon_0623	NC_017188.1|gene2488|BAMTA208_12315|bmrU
BAMTA208_12320	operon_0624	NC_017188.1|gene2489|BAMTA208_12320|bkdB
BAMTA208_12325	operon_0624	NC_017188.1|gene2490|BAMTA208_12325|bkdAB
BAMTA208_12330	operon_0624	NC_017188.1|gene2491|BAMTA208_12330|bkdAA
BAMTA208_12335	operon_0624	NC_017188.1|gene2492|BAMTA208_12335|lpdV
BAMTA208_12340	operon_0624	NC_017188.1|gene2493|BAMTA208_12340|buk
BAMTA208_12345	operon_0624	NC_017188.1|gene2494|BAMTA208_12345|bcd
BAMTA208_12350	operon_0624	NC_017188.1|gene2495|BAMTA208_12350|ptb
BAMTA208_12355	operon_0624	NC_017188.1|gene2496|BAMTA208_12355|bkdR
BAMTA208_12360	operon_0625	NC_017188.1|gene2497|BAMTA208_12360|yqzF
BAMTA208_12365	operon_0626	NC_017188.1|gene2498|BAMTA208_12365|prpB
BAMTA208_12370	operon_0626	NC_017188.1|gene2499|BAMTA208_12370|prpD
BAMTA208_12375	operon_0626	NC_017188.1|gene2500|BAMTA208_12375|prpC3
BAMTA208_12380	operon_0626	NC_017188.1|gene2501|BAMTA208_12380|mmgC
BAMTA208_12385	operon_0626	NC_017188.1|gene2502|BAMTA208_12385|mmgB
BAMTA208_12390	operon_0626	NC_017188.1|gene2503|BAMTA208_12390|mmgA
BAMTA208_12395	operon_0626	NC_017188.1|gene2504|BAMTA208_12395|yqiK
BAMTA208_12400	operon_0626	NC_017188.1|gene2505|BAMTA208_12400|yqiI
BAMTA208_12405	operon_0626	NC_017188.1|gene2506|BAMTA208_12405|yqiH
BAMTA208_12410	operon_0626	NC_017188.1|gene2507|BAMTA208_12410
BAMTA208_12415	operon_0627	NC_017188.1|gene2508|BAMTA208_12415
BAMTA208_12420	operon_0627	NC_017188.1|gene2509|BAMTA208_12420
BAMTA208_12425	operon_0627	NC_017188.1|gene2510|BAMTA208_12425
BAMTA208_12430	operon_0627	NC_017188.1|gene2511|BAMTA208_12430|yqiG
BAMTA208_12435	operon_0627	NC_017188.1|gene2512|BAMTA208_12435|ypzD
BAMTA208_12440	operon_0627	NC_017188.1|gene2513|BAMTA208_12440
BAMTA208_12445	operon_0627	NC_017188.1|gene2514|BAMTA208_12445|alrB
BAMTA208_12450	operon_0627	NC_017188.1|gene2515|BAMTA208_12450
BAMTA208_12455	operon_0628	NC_017188.1|gene2516|BAMTA208_12455|spo0A
BAMTA208_12460	operon_0628	NC_017188.1|gene2517|BAMTA208_12460|spoIVB
BAMTA208_12465	operon_0628	NC_017188.1|gene2518|BAMTA208_12465|recN
BAMTA208_12470	operon_0628	NC_017188.1|gene2519|BAMTA208_12470|ahrC
BAMTA208_12475	operon_0628	NC_017188.1|gene2520|BAMTA208_12475|yqxC
BAMTA208_12480	operon_0628	NC_017188.1|gene2521|BAMTA208_12480|dxs
BAMTA208_12485	operon_0628	NC_017188.1|gene2522|BAMTA208_12485|ispA3
BAMTA208_12490	operon_0628	NC_017188.1|gene2523|BAMTA208_12490|xseB
BAMTA208_12495	operon_0628	NC_017188.1|gene2524|BAMTA208_12495|xseA
BAMTA208_12500	operon_0628	NC_017188.1|gene2525|BAMTA208_12500|folD
BAMTA208_12505	operon_0628	NC_017188.1|gene2526|BAMTA208_12505|nusB
BAMTA208_12510	operon_0628	NC_017188.1|gene2527|BAMTA208_12510
BAMTA208_12515	operon_0628	NC_017188.1|gene2528|BAMTA208_12515|yqhY
BAMTA208_12520	operon_0628	NC_017188.1|gene2529|BAMTA208_12520|accC
BAMTA208_12525	operon_0628	NC_017188.1|gene2530|BAMTA208_12525|accB
BAMTA208_12530	operon_0628	NC_017188.1|gene2531|BAMTA208_12530|spoIIIAH
BAMTA208_12535	operon_0628	NC_017188.1|gene2532|BAMTA208_12535|spoIIIAG
BAMTA208_12540	operon_0628	NC_017188.1|gene2533|BAMTA208_12540|spoIIIAF
BAMTA208_12545	operon_0628	NC_017188.1|gene2534|BAMTA208_12545|spoIIIAE
BAMTA208_12550	operon_0628	NC_017188.1|gene2535|BAMTA208_12550|spoIIIAD
BAMTA208_12555	operon_0628	NC_017188.1|gene2536|BAMTA208_12555|spoIIIAC
BAMTA208_12560	operon_0628	NC_017188.1|gene2537|BAMTA208_12560|spoIIIAB
BAMTA208_12565	operon_0628	NC_017188.1|gene2538|BAMTA208_12565|spoIIIAA
BAMTA208_12570	operon_0628	NC_017188.1|gene2539|BAMTA208_12570|yqhV
BAMTA208_12575	operon_0628	NC_017188.1|gene2540|BAMTA208_12575|efp
BAMTA208_12580	operon_0628	NC_017188.1|gene2541|BAMTA208_12580|yqhT
BAMTA208_12585	operon_0628	NC_017188.1|gene2542|BAMTA208_12585|yqhR
BAMTA208_12590	operon_0629	NC_017188.1|gene2543|BAMTA208_12590|yqhQ
BAMTA208_12595	operon_0629	NC_017188.1|gene2544|BAMTA208_12595|yqhP
BAMTA208_12600	operon_0630	NC_017188.1|gene2545|BAMTA208_12600|yqhO
BAMTA208_12605	operon_0630	NC_017188.1|gene2546|BAMTA208_12605|mntR
BAMTA208_12610	operon_0630	NC_017188.1|gene2547|BAMTA208_12610|yqhM
BAMTA208_12615	operon_0631	NC_017188.1|gene2548|BAMTA208_12615|yqhL
BAMTA208_12620	operon_0632	NC_017188.1|gene2549|BAMTA208_12620|gcvPB
BAMTA208_12625	operon_0632	NC_017188.1|gene2550|BAMTA208_12625|gcvPA
BAMTA208_12630	operon_0632	NC_017188.1|gene2551|BAMTA208_12630|gcvT
BAMTA208_12635	operon_0633	NC_017188.1|gene2552|BAMTA208_12635|yqhH
BAMTA208_12640	operon_0633	NC_017188.1|gene2553|BAMTA208_12640|yqhG
BAMTA208_12645	operon_0633	NC_017188.1|gene2554|BAMTA208_12645|sinI
BAMTA208_12650	operon_0633	NC_017188.1|gene2555|BAMTA208_12650|sinR
BAMTA208_12655	operon_0634	NC_017188.1|gene2556|BAMTA208_12655|tasA
BAMTA208_12660	operon_0634	NC_017188.1|gene2557|BAMTA208_12660|sipW
BAMTA208_12665	operon_0634	NC_017188.1|gene2558|BAMTA208_12665|yqxM
BAMTA208_12670	operon_0635	NC_017188.1|gene2559|BAMTA208_12670|yqzG
BAMTA208_12675	operon_0636	NC_017188.1|gene2560|BAMTA208_12675|yqzE
BAMTA208_12680	operon_0636	NC_017188.1|gene2561|BAMTA208_12680|comGG
BAMTA208_12685	operon_0636	NC_017188.1|gene2562|BAMTA208_12685|comGF
BAMTA208_12690	operon_0636	NC_017188.1|gene2563|BAMTA208_12690|comGE
BAMTA208_12695	operon_0636	NC_017188.1|gene2564|BAMTA208_12695|comGD
BAMTA208_12700	operon_0636	NC_017188.1|gene2565|BAMTA208_12700|comGC
BAMTA208_12705	operon_0636	NC_017188.1|gene2566|BAMTA208_12705|comGB
BAMTA208_12710	operon_0636	NC_017188.1|gene2567|BAMTA208_12710|comGA
BAMTA208_12715	operon_0636	NC_017188.1|gene2568|BAMTA208_12715|corA
BAMTA208_12720	operon_0637	NC_017188.1|gene2569|BAMTA208_12720|yqhB
BAMTA208_12725	operon_0638	NC_017188.1|gene2570|BAMTA208_12725|rsbRD
BAMTA208_t20757	operon_0639	NC_017188.1|gene2571|BAMTA208_t20757
BAMTA208_12730	operon_0640	NC_017188.1|gene2572|BAMTA208_12730|mgsR
BAMTA208_12735	operon_0641	NC_017188.1|gene2573|BAMTA208_12735|yqgY
BAMTA208_12740	operon_0642	NC_017188.1|gene2574|BAMTA208_12740|yqgX
BAMTA208_12745	operon_0643	NC_017188.1|gene2575|BAMTA208_12745|yqgW
BAMTA208_12750	operon_0644	NC_017188.1|gene2576|BAMTA208_12750|yqgV
BAMTA208_12765	operon_0644	NC_017188.1|gene2577|BAMTA208_12765|yqgT
BAMTA208_12770	operon_0644	NC_017188.1|gene2578|BAMTA208_12770|glcK
BAMTA208_12775	operon_0644	NC_017188.1|gene2579|BAMTA208_12775|yqgQ
BAMTA208_12780	operon_0645	NC_017188.1|gene2580|BAMTA208_12780|nhaC
BAMTA208_12785	operon_0646	NC_017188.1|gene2581|BAMTA208_12785|yqgO
BAMTA208_12790	operon_0646	NC_017188.1|gene2582|BAMTA208_12790|yqgN
BAMTA208_12795	operon_0646	NC_017188.1|gene2583|BAMTA208_12795|rpmGA
BAMTA208_12800	operon_0647	NC_017188.1|gene2584|BAMTA208_12800|yqzD
BAMTA208_12805	operon_0647	NC_017188.1|gene2585|BAMTA208_12805|yqzC
BAMTA208_12810	operon_0648	NC_017188.1|gene2586|BAMTA208_12810|pstBB
BAMTA208_12815	operon_0648	NC_017188.1|gene2587|BAMTA208_12815|pstBA
BAMTA208_12820	operon_0648	NC_017188.1|gene2588|BAMTA208_12820|pstA
BAMTA208_12825	operon_0648	NC_017188.1|gene2589|BAMTA208_12825|pstC
BAMTA208_12830	operon_0648	NC_017188.1|gene2590|BAMTA208_12830|pstS
BAMTA208_12835	operon_0648	NC_017188.1|gene2591|BAMTA208_12835|pbpA
BAMTA208_12840	operon_0648	NC_017188.1|gene2592|BAMTA208_12840|yqgE
BAMTA208_12845	operon_0648	NC_017188.1|gene2593|BAMTA208_12845|sodA
BAMTA208_12850	operon_0648	NC_017188.1|gene2594|BAMTA208_12850|yqgC
BAMTA208_12855	operon_0649	NC_017188.1|gene2595|BAMTA208_12855|yqgB
BAMTA208_12860	operon_0649	NC_017188.1|gene2596|BAMTA208_12860|yqfZ
BAMTA208_12865	operon_0649	NC_017188.1|gene2597|BAMTA208_12865|ispG
BAMTA208_12870	operon_0650	NC_017188.1|gene2598|BAMTA208_12870|yqfX
BAMTA208_12875	operon_0651	NC_017188.1|gene2599|BAMTA208_12875|yqfW
BAMTA208_12880	operon_0652	NC_017188.1|gene2600|BAMTA208_12880|zur
BAMTA208_12885	operon_0652	NC_017188.1|gene2601|BAMTA208_12885|yqfU
BAMTA208_12890	operon_0653	NC_017188.1|gene2602|BAMTA208_12890|yqfT
BAMTA208_12895	operon_0654	NC_017188.1|gene2603|BAMTA208_12895|nvfo
BAMTA208_12900	operon_0654	NC_017188.1|gene2604|BAMTA208_12900|cshB
BAMTA208_12905	operon_0655	NC_017188.1|gene2605|BAMTA208_12905|yqfQ
BAMTA208_12910	operon_0655	NC_017188.1|gene2606|BAMTA208_12910|ispH
BAMTA208_12915	operon_0656	NC_017188.1|gene2607|BAMTA208_12915|yqfO
BAMTA208_12920	operon_0656	NC_017188.1|gene2608|BAMTA208_12920|trmK
BAMTA208_12925	operon_0656	NC_017188.1|gene2609|BAMTA208_12925|cccA
BAMTA208_12930	operon_0656	NC_017188.1|gene2610|BAMTA208_12930|sigA
BAMTA208_12935	operon_0656	NC_017188.1|gene2611|BAMTA208_12935|dnaG
BAMTA208_12940	operon_0656	NC_017188.1|gene2612|BAMTA208_12940|yqxD
BAMTA208_12945	operon_0656	NC_017188.1|gene2613|BAMTA208_12945|yqfL
BAMTA208_12950	operon_0656	NC_017188.1|gene2614|BAMTA208_12950|ccpN
BAMTA208_12955	operon_0656	NC_017188.1|gene2615|BAMTA208_12955|glyS
BAMTA208_12960	operon_0656	NC_017188.1|gene2616|BAMTA208_12960|glyQ
BAMTA208_12965	operon_0656	NC_017188.1|gene2617|BAMTA208_12965|recO
BAMTA208_12970	operon_0656	NC_017188.1|gene2618|BAMTA208_12970
BAMTA208_12975	operon_0656	NC_017188.1|gene2619|BAMTA208_12975|era
BAMTA208_12980	operon_0656	NC_017188.1|gene2620|BAMTA208_12980|cdd
BAMTA208_12985	operon_0656	NC_017188.1|gene2621|BAMTA208_12985|dgkA
BAMTA208_12990	operon_0656	NC_017188.1|gene2622|BAMTA208_12990|yqfG
BAMTA208_12995	operon_0656	NC_017188.1|gene2623|BAMTA208_12995|yqfF
BAMTA208_13000	operon_0656	NC_017188.1|gene2624|BAMTA208_13000|phoH
BAMTA208_13005	operon_0656	NC_017188.1|gene2625|BAMTA208_13005|yqfD
BAMTA208_13010	operon_0656	NC_017188.1|gene2626|BAMTA208_13010|yqfC
BAMTA208_13015	operon_0656	NC_017188.1|gene2627|BAMTA208_13015|yqfB
BAMTA208_13020	operon_0656	NC_017188.1|gene2628|BAMTA208_13020|yqfA
BAMTA208_13025	operon_0656	NC_017188.1|gene2629|BAMTA208_13025|yqeZ
BAMTA208_13030	operon_0656	NC_017188.1|gene2630|BAMTA208_13030|yqeY
BAMTA208_13035	operon_0656	NC_017188.1|gene2631|BAMTA208_13035|rpsU
BAMTA208_13040	operon_0657	NC_017188.1|gene2632|BAMTA208_13040|yqeW
BAMTA208_13045	operon_0658	NC_017188.1|gene2633|BAMTA208_13045|rimO
BAMTA208_13050	operon_0658	NC_017188.1|gene2634|BAMTA208_13050|rsmE
BAMTA208_13055	operon_0658	NC_017188.1|gene2635|BAMTA208_13055|prmA
BAMTA208_13060	operon_0658	NC_017188.1|gene2636|BAMTA208_13060|dnaJ
BAMTA208_13065	operon_0658	NC_017188.1|gene2637|BAMTA208_13065|dnaK
BAMTA208_13070	operon_0658	NC_017188.1|gene2638|BAMTA208_13070|grpE
BAMTA208_13075	operon_0658	NC_017188.1|gene2639|BAMTA208_13075|hrcA
BAMTA208_13080	operon_0658	NC_017188.1|gene2640|BAMTA208_13080|hemN
BAMTA208_13085	operon_0658	NC_017188.1|gene2641|BAMTA208_13085|lepA
BAMTA208_13090	operon_0658	NC_017188.1|gene2642|BAMTA208_13090|yqxA
BAMTA208_13095	operon_0658	NC_017188.1|gene2643|BAMTA208_13095|spoIIP
BAMTA208_13100	operon_0658	NC_017188.1|gene2644|BAMTA208_13100|gpr
BAMTA208_13105	operon_0659	NC_017188.1|gene2645|BAMTA208_13105|rpsT
BAMTA208_13110	operon_0660	NC_017188.1|gene2646|BAMTA208_13110|holA
BAMTA208_13115	operon_0661	NC_017188.1|gene2647|BAMTA208_13115|yqzM
BAMTA208_13120	operon_0662	NC_017188.1|gene2648|BAMTA208_13120|comEC
BAMTA208_13125	operon_0662	NC_017188.1|gene2649|BAMTA208_13125|comEB
BAMTA208_13130	operon_0662	NC_017188.1|gene2650|BAMTA208_13130|comEA
BAMTA208_13135	operon_0663	NC_017188.1|gene2651|BAMTA208_13135|comER
BAMTA208_13140	operon_0664	NC_017188.1|gene2652|BAMTA208_13140|yqeM
BAMTA208_13145	operon_0664	NC_017188.1|gene2653|BAMTA208_13145|yqeL
BAMTA208_13150	operon_0664	NC_017188.1|gene2654|BAMTA208_13150|yqeK
BAMTA208_13155	operon_0664	NC_017188.1|gene2655|BAMTA208_13155|nadD
BAMTA208_13160	operon_0664	NC_017188.1|gene2656|BAMTA208_13160|yqeI
BAMTA208_13165	operon_0664	NC_017188.1|gene2657|BAMTA208_13165|aroD
BAMTA208_13170	operon_0664	NC_017188.1|gene2658|BAMTA208_13170|yqeH
BAMTA208_13175	operon_0664	NC_017188.1|gene2659|BAMTA208_13175|yqeG
BAMTA208_13180	operon_0665	NC_017188.1|gene2660|BAMTA208_13180|sda
BAMTA208_13185	operon_0666	NC_017188.1|gene2661|BAMTA208_13185
BAMTA208_13190	operon_0666	NC_017188.1|gene2662|BAMTA208_13190|yqeF
BAMTA208_13195	operon_0666	NC_017188.1|gene2663|BAMTA208_13195
BAMTA208_13200	operon_0666	NC_017188.1|gene2664|BAMTA208_13200
BAMTA208_13205	operon_0667	NC_017188.1|gene2665|BAMTA208_13205|yqeD
BAMTA208_13210	operon_0668	NC_017188.1|gene2666|BAMTA208_13210
BAMTA208_13215	operon_0668	NC_017188.1|gene2667|BAMTA208_13215
BAMTA208_13220	operon_0669	NC_017188.1|gene2668|BAMTA208_13220
BAMTA208_13225	operon_0669	NC_017188.1|gene2669|BAMTA208_13225|spoIIIC
BAMTA208_13230	operon_0669	NC_017188.1|gene2670|BAMTA208_13230
BAMTA208_13235	operon_0669	NC_017188.1|gene2671|BAMTA208_13235
BAMTA208_13240	operon_0669	NC_017188.1|gene2672|BAMTA208_13240
BAMTA208_13245	operon_0669	NC_017188.1|gene2673|BAMTA208_13245
BAMTA208_13250	operon_0670	NC_017188.1|gene2674|BAMTA208_13250|yqaC
BAMTA208_13255	operon_0670	NC_017188.1|gene2675|BAMTA208_13255|yyaR2
BAMTA208_13260	operon_0670	NC_017188.1|gene2676|BAMTA208_13260|tetB
BAMTA208_13265	operon_0670	NC_017188.1|gene2677|BAMTA208_13265
BAMTA208_13270	operon_0670	NC_017188.1|gene2678|BAMTA208_13270|yrdA
BAMTA208_13275	operon_0670	NC_017188.1|gene2679|BAMTA208_13275
BAMTA208_13280	operon_0670	NC_017188.1|gene2680|BAMTA208_13280
BAMTA208_13285	operon_0671	NC_017188.1|gene2681|BAMTA208_13285
BAMTA208_13290	operon_0672	NC_017188.1|gene2682|BAMTA208_13290|manA
BAMTA208_13295	operon_0672	NC_017188.1|gene2683|BAMTA208_13295|manP
BAMTA208_13300	operon_0672	NC_017188.1|gene2684|BAMTA208_13300|manR
BAMTA208_13305	operon_0672	NC_017188.1|gene2685|BAMTA208_13305
BAMTA208_13310	operon_0672	NC_017188.1|gene2686|BAMTA208_13310|yjdI
BAMTA208_13315	operon_0672	NC_017188.1|gene2687|BAMTA208_13315
BAMTA208_13320	operon_0673	NC_017188.1|gene2688|BAMTA208_13320|yybF1
BAMTA208_13325	operon_0674	NC_017188.1|gene2689|BAMTA208_13325|cypB
BAMTA208_13330	operon_0674	NC_017188.1|gene2690|BAMTA208_13330|fatR
BAMTA208_13335	operon_0674	NC_017188.1|gene2691|BAMTA208_13335|yrhH
BAMTA208_13340	operon_0674	NC_017188.1|gene2692|BAMTA208_13340
BAMTA208_13345	operon_0674	NC_017188.1|gene2693|BAMTA208_13345|yrhG
BAMTA208_13350	operon_0674	NC_017188.1|gene2694|BAMTA208_13350|yrhF
BAMTA208_13355	operon_0675	NC_017188.1|gene2695|BAMTA208_13355|yrhE
BAMTA208_13360	operon_0675	NC_017188.1|gene2696|BAMTA208_13360|yrhD
BAMTA208_13365	operon_0676	NC_017188.1|gene2697|BAMTA208_13365|yrhC
BAMTA208_13370	operon_0676	NC_017188.1|gene2698|BAMTA208_13370|mccB
BAMTA208_13375	operon_0676	NC_017188.1|gene2699|BAMTA208_13375|mccA
BAMTA208_13380	operon_0676	NC_017188.1|gene2700|BAMTA208_13380|mtnN
BAMTA208_13385	operon_0676	NC_017188.1|gene2701|BAMTA208_13385|yrrT
BAMTA208_13390	operon_0677	NC_017188.1|gene2702|BAMTA208_13390|yrzA
BAMTA208_13395	operon_0678	NC_017188.1|gene2703|BAMTA208_13395|yrrS
BAMTA208_13400	operon_0678	NC_017188.1|gene2704|BAMTA208_13400|pbpI
BAMTA208_13405	operon_0678	NC_017188.1|gene2705|BAMTA208_13405|greA
BAMTA208_13410	operon_0678	NC_017188.1|gene2706|BAMTA208_13410|udk
BAMTA208_13415	operon_0678	NC_017188.1|gene2707|BAMTA208_13415|yrrO
BAMTA208_13420	operon_0678	NC_017188.1|gene2708|BAMTA208_13420|yrrN
BAMTA208_13425	operon_0678	NC_017188.1|gene2709|BAMTA208_13425|yrrM
BAMTA208_13430	operon_0678	NC_017188.1|gene2710|BAMTA208_13430|yrrL
BAMTA208_13435	operon_0678	NC_017188.1|gene2711|BAMTA208_13435|yrzB
BAMTA208_13440	operon_0678	NC_017188.1|gene2712|BAMTA208_13440|yrrK
BAMTA208_13445	operon_0678	NC_017188.1|gene2713|BAMTA208_13445|yrzL
BAMTA208_13450	operon_0678	NC_017188.1|gene2714|BAMTA208_13450|alaS
BAMTA208_13455	operon_0678	NC_017188.1|gene2715|BAMTA208_13455|yrrI
BAMTA208_13460	operon_0679	NC_017188.1|gene2716|BAMTA208_13460|glnQ
BAMTA208_13465	operon_0679	NC_017188.1|gene2717|BAMTA208_13465|glnH
BAMTA208_13470	operon_0679	NC_017188.1|gene2718|BAMTA208_13470|glnM
BAMTA208_13475	operon_0679	NC_017188.1|gene2719|BAMTA208_13475|glnP
BAMTA208_13480	operon_0680	NC_017188.1|gene2720|BAMTA208_13480|yrzQ
BAMTA208_13485	operon_0680	NC_017188.1|gene2721|BAMTA208_13485|yrzR
BAMTA208_13490	operon_0680	NC_017188.1|gene2722|BAMTA208_13490|yrrD
BAMTA208_13495	operon_0680	NC_017188.1|gene2723|BAMTA208_13495|yrrC
BAMTA208_13500	operon_0680	NC_017188.1|gene2724|BAMTA208_13500|yrrB
BAMTA208_13505	operon_0680	NC_017188.1|gene2725|BAMTA208_13505|trmU
BAMTA208_13510	operon_0680	NC_017188.1|gene2726|BAMTA208_13510|iscS
BAMTA208_13515	operon_0680	NC_017188.1|gene2727|BAMTA208_13515|cymR
BAMTA208_13520	operon_0681	NC_017188.1|gene2728|BAMTA208_13520|yrvN
BAMTA208_13525	operon_0682	NC_017188.1|gene2729|BAMTA208_13525|yrvM
BAMTA208_13530	operon_0682	NC_017188.1|gene2730|BAMTA208_13530|aspS
BAMTA208_13535	operon_0682	NC_017188.1|gene2731|BAMTA208_13535|hisS
BAMTA208_13540	operon_0682	NC_017188.1|gene2732|BAMTA208_13540
BAMTA208_13545	operon_0682	NC_017188.1|gene2733|BAMTA208_13545|yrzK
BAMTA208_13550	operon_0683	NC_017188.1|gene2734|BAMTA208_13550|yrvJ
BAMTA208_13555	operon_0684	NC_017188.1|gene2735|BAMTA208_13555|dtd
BAMTA208_13560	operon_0684	NC_017188.1|gene2736|BAMTA208_13560|relA
BAMTA208_13565	operon_0684	NC_017188.1|gene2737|BAMTA208_13565|apt
BAMTA208_13570	operon_0684	NC_017188.1|gene2738|BAMTA208_13570|recJ
BAMTA208_13575	operon_0684	NC_017188.1|gene2739|BAMTA208_13575|yrvD
BAMTA208_13580	operon_0684	NC_017188.1|gene2740|BAMTA208_13580|yrvC
BAMTA208_13585	operon_0684	NC_017188.1|gene2741|BAMTA208_13585|secDF
BAMTA208_13590	operon_0684	NC_017188.1|gene2742|BAMTA208_13590|comN
BAMTA208_13595	operon_0685	NC_017188.1|gene2743|BAMTA208_13595|spoVB
BAMTA208_13600	operon_0686	NC_017188.1|gene2744|BAMTA208_13600|yrbG
BAMTA208_13605	operon_0687	NC_017188.1|gene2745|BAMTA208_13605|yrzE
BAMTA208_13610	operon_0688	NC_017188.1|gene2746|BAMTA208_13610|yajC
BAMTA208_13615	operon_0688	NC_017188.1|gene2747|BAMTA208_13615|tgt
BAMTA208_13620	operon_0688	NC_017188.1|gene2748|BAMTA208_13620|queA
BAMTA208_13625	operon_0688	NC_017188.1|gene2749|BAMTA208_13625|yrzS
BAMTA208_13630	operon_0688	NC_017188.1|gene2750|BAMTA208_13630|ruvB
BAMTA208_13635	operon_0688	NC_017188.1|gene2751|BAMTA208_13635|ruvA
BAMTA208_13640	operon_0688	NC_017188.1|gene2752|BAMTA208_13640|bofC
BAMTA208_13645	operon_0688	NC_017188.1|gene2753|BAMTA208_13645
BAMTA208_13650	operon_0688	NC_017188.1|gene2754|BAMTA208_13650|coxA
BAMTA208_13655	operon_0688	NC_017188.1|gene2755|BAMTA208_13655|safA
BAMTA208_13660	operon_0688	NC_017188.1|gene2756|BAMTA208_13660|nadA
BAMTA208_13665	operon_0688	NC_017188.1|gene2757|BAMTA208_13665|nadC
BAMTA208_13670	operon_0688	NC_017188.1|gene2758|BAMTA208_13670|nadB
BAMTA208_13675	operon_0689	NC_017188.1|gene2759|BAMTA208_13675|nifS
BAMTA208_13680	operon_0689	NC_017188.1|gene2760|BAMTA208_13680|nadR
BAMTA208_13685	operon_0690	NC_017188.1|gene2761|BAMTA208_13685|pheA
BAMTA208_13690	operon_0690	NC_017188.1|gene2762|BAMTA208_13690|yszB
BAMTA208_13695	operon_0690	NC_017188.1|gene2763|BAMTA208_13695|obgE
BAMTA208_13700	operon_0690	NC_017188.1|gene2764|BAMTA208_13700|spo0B
BAMTA208_13705	operon_0690	NC_017188.1|gene2765|BAMTA208_13705|rpmA
BAMTA208_13710	operon_0690	NC_017188.1|gene2766|BAMTA208_13710|ysxB
BAMTA208_13715	operon_0690	NC_017188.1|gene2767|BAMTA208_13715|rplU
BAMTA208_13720	operon_0690	NC_017188.1|gene2768|BAMTA208_13720|spoIVFB
BAMTA208_13725	operon_0690	NC_017188.1|gene2769|BAMTA208_13725|spoIVFA
BAMTA208_13730	operon_0690	NC_017188.1|gene2770|BAMTA208_13730|minD
BAMTA208_13735	operon_0690	NC_017188.1|gene2771|BAMTA208_13735|minC
BAMTA208_13740	operon_0690	NC_017188.1|gene2772|BAMTA208_13740|mreD
BAMTA208_13745	operon_0690	NC_017188.1|gene2773|BAMTA208_13745|mreC
BAMTA208_13750	operon_0690	NC_017188.1|gene2774|BAMTA208_13750|mreB
BAMTA208_13755	operon_0690	NC_017188.1|gene2775|BAMTA208_13755|radC
BAMTA208_13760	operon_0690	NC_017188.1|gene2776|BAMTA208_13760|maf
BAMTA208_13765	operon_0690	NC_017188.1|gene2777|BAMTA208_13765|spoIIB
BAMTA208_13770	operon_0690	NC_017188.1|gene2778|BAMTA208_13770|comC
BAMTA208_13775	operon_0690	NC_017188.1|gene2779|BAMTA208_13775|folC
BAMTA208_13780	operon_0690	NC_017188.1|gene2780|BAMTA208_13780|valS
BAMTA208_13785	operon_0691	NC_017188.1|gene2781|BAMTA208_13785
BAMTA208_13790	operon_0692	NC_017188.1|gene2782|BAMTA208_13790|ysxE
BAMTA208_13795	operon_0692	NC_017188.1|gene2783|BAMTA208_13795|spoVID
BAMTA208_13800	operon_0692	NC_017188.1|gene2784|BAMTA208_13800|hemL
BAMTA208_13805	operon_0692	NC_017188.1|gene2785|BAMTA208_13805|hemB
BAMTA208_13810	operon_0692	NC_017188.1|gene2786|BAMTA208_13810|hemD3
BAMTA208_13815	operon_0692	NC_017188.1|gene2787|BAMTA208_13815|hemC
BAMTA208_13820	operon_0692	NC_017188.1|gene2788|BAMTA208_13820|hemX
BAMTA208_13825	operon_0692	NC_017188.1|gene2789|BAMTA208_13825|hemA
BAMTA208_13830	operon_0693	NC_017188.1|gene2790|BAMTA208_13830|ysxD
BAMTA208_13835	operon_0694	NC_017188.1|gene2791|BAMTA208_13835|ysxC
BAMTA208_13840	operon_0694	NC_017188.1|gene2792|BAMTA208_13840|lonA
BAMTA208_13845	operon_0694	NC_017188.1|gene2793|BAMTA208_13845|lonB
BAMTA208_13850	operon_0694	NC_017188.1|gene2794|BAMTA208_13850|clpX
BAMTA208_13855	operon_0694	NC_017188.1|gene2795|BAMTA208_13855|tig
BAMTA208_13860	operon_0694	NC_017188.1|gene2796|BAMTA208_13860|ysoA
BAMTA208_13865	operon_0694	NC_017188.1|gene2797|BAMTA208_13865
BAMTA208_13870	operon_0694	NC_017188.1|gene2798|BAMTA208_13870|leuD
BAMTA208_13875	operon_0694	NC_017188.1|gene2799|BAMTA208_13875|leuC
BAMTA208_13880	operon_0694	NC_017188.1|gene2800|BAMTA208_13880|leuB
BAMTA208_13885	operon_0694	NC_017188.1|gene2801|BAMTA208_13885|leuA
BAMTA208_13890	operon_0694	NC_017188.1|gene2802|BAMTA208_13890|ilvC
BAMTA208_13895	operon_0694	NC_017188.1|gene2803|BAMTA208_13895|ilvH
BAMTA208_13900	operon_0694	NC_017188.1|gene2804|BAMTA208_13900|ilvB
BAMTA208_13905	operon_0694	NC_017188.1|gene2805|BAMTA208_13905
BAMTA208_13910	operon_0694	NC_017188.1|gene2806|BAMTA208_13910
BAMTA208_13915	operon_0695	NC_017188.1|gene2807|BAMTA208_13915|ysnD
BAMTA208_13920	operon_0696	NC_017188.1|gene2808|BAMTA208_13920
BAMTA208_t20759	operon_0696	NC_017188.1|gene2809|BAMTA208_t20759
BAMTA208_t20761	operon_0696	NC_017188.1|gene2810|BAMTA208_t20761
BAMTA208_13925	operon_0696	NC_017188.1|gene2811|BAMTA208_13925|ysnB
BAMTA208_13930	operon_0696	NC_017188.1|gene2812|BAMTA208_13930|ysnA
BAMTA208_13935	operon_0696	NC_017188.1|gene2813|BAMTA208_13935|rph
BAMTA208_13940	operon_0696	NC_017188.1|gene2814|BAMTA208_13940|gerM
BAMTA208_13945	operon_0696	NC_017188.1|gene2815|BAMTA208_13945|racE
BAMTA208_13950	operon_0696	NC_017188.1|gene2816|BAMTA208_13950|ysmB
BAMTA208_13955	operon_0696	NC_017188.1|gene2817|BAMTA208_13955|gerE
BAMTA208_13960	operon_0696	NC_017188.1|gene2818|BAMTA208_13960|ysmA
BAMTA208_13965	operon_0696	NC_017188.1|gene2819|BAMTA208_13965|sdhB
BAMTA208_13970	operon_0696	NC_017188.1|gene2820|BAMTA208_13970|sdhA
BAMTA208_13975	operon_0696	NC_017188.1|gene2821|BAMTA208_13975|sdhC
BAMTA208_13980	operon_0697	NC_017188.1|gene2822|BAMTA208_13980|yslB
BAMTA208_13985	operon_0698	NC_017188.1|gene2823|BAMTA208_13985|lysC
BAMTA208_13990	operon_0698	NC_017188.1|gene2824|BAMTA208_13990|uvrC
BAMTA208_13995	operon_0698	NC_017188.1|gene2825|BAMTA208_13995|trxA
BAMTA208_14000	operon_0698	NC_017188.1|gene2826|BAMTA208_14000|abf2
BAMTA208_14005	operon_0698	NC_017188.1|gene2827|BAMTA208_14005|etfA
BAMTA208_14010	operon_0698	NC_017188.1|gene2828|BAMTA208_14010|etfB
BAMTA208_14015	operon_0698	NC_017188.1|gene2829|BAMTA208_14015|fadB
BAMTA208_14020	operon_0698	NC_017188.1|gene2830|BAMTA208_14020|fadR
BAMTA208_14025	operon_0698	NC_017188.1|gene2831|BAMTA208_14025|lcfA
BAMTA208_14030	operon_0699	NC_017188.1|gene2832|BAMTA208_14030
BAMTA208_14035	operon_0699	NC_017188.1|gene2833|BAMTA208_14035|ywbB
BAMTA208_14040	operon_0700	NC_017188.1|gene2834|BAMTA208_14040|yshE
BAMTA208_14045	operon_0700	NC_017188.1|gene2835|BAMTA208_14045|mutSB
BAMTA208_14050	operon_0700	NC_017188.1|gene2836|BAMTA208_14050|polX
BAMTA208_14055	operon_0700	NC_017188.1|gene2837|BAMTA208_14055|yshB
BAMTA208_14060	operon_0700	NC_017188.1|gene2838|BAMTA208_14060|yshA
BAMTA208_14065	operon_0701	NC_017188.1|gene2839|BAMTA208_14065|rnhC
BAMTA208_14070	operon_0702	NC_017188.1|gene2840|BAMTA208_14070|pheT
BAMTA208_14075	operon_0702	NC_017188.1|gene2841|BAMTA208_14075|pheS
BAMTA208_14080	operon_0702	NC_017188.1|gene2842|BAMTA208_14080|ysgA
BAMTA208_14085	operon_0703	NC_017188.1|gene2843|BAMTA208_14085|sspI
BAMTA208_14090	operon_0703	NC_017188.1|gene2844|BAMTA208_14090|ysfB
BAMTA208_14095	operon_0703	NC_017188.1|gene2845|BAMTA208_14095|glcD
BAMTA208_14100	operon_0703	NC_017188.1|gene2846|BAMTA208_14100|glcF
BAMTA208_14105	operon_0704	NC_017188.1|gene2847|BAMTA208_14105|cstA
BAMTA208_14110	operon_0704	NC_017188.1|gene2848|BAMTA208_14110|abfA
BAMTA208_14115	operon_0704	NC_017188.1|gene2849|BAMTA208_14115|araQ
BAMTA208_14120	operon_0704	NC_017188.1|gene2850|BAMTA208_14120|araP
BAMTA208_14125	operon_0704	NC_017188.1|gene2851|BAMTA208_14125|araN
BAMTA208_14130	operon_0704	NC_017188.1|gene2852|BAMTA208_14130|araM
BAMTA208_14135	operon_0704	NC_017188.1|gene2853|BAMTA208_14135|araL
BAMTA208_14140	operon_0704	NC_017188.1|gene2854|BAMTA208_14140|araD
BAMTA208_14145	operon_0704	NC_017188.1|gene2855|BAMTA208_14145|araB
BAMTA208_14150	operon_0704	NC_017188.1|gene2856|BAMTA208_14150|araA
BAMTA208_14155	operon_0704	NC_017188.1|gene2857|BAMTA208_14155|abnA
BAMTA208_14160	operon_0704	NC_017188.1|gene2858|BAMTA208_14160|ysdC
BAMTA208_14165	operon_0705	NC_017188.1|gene2859|BAMTA208_14165|ysdB
BAMTA208_14170	operon_0706	NC_017188.1|gene2860|BAMTA208_14170|ysdA
BAMTA208_14175	operon_0706	NC_017188.1|gene2861|BAMTA208_14175|rplT
BAMTA208_14180	operon_0706	NC_017188.1|gene2862|BAMTA208_14180|rpmI
BAMTA208_14185	operon_0706	NC_017188.1|gene2863|BAMTA208_14185|infC
BAMTA208_14190	operon_0706	NC_017188.1|gene2864|BAMTA208_14190|lrgB1
BAMTA208_14195	operon_0706	NC_017188.1|gene2865|BAMTA208_14195|lrgA
BAMTA208_14200	operon_0706	NC_017188.1|gene2866|BAMTA208_14200|lytT
BAMTA208_14205	operon_0706	NC_017188.1|gene2867|BAMTA208_14205|lytS
BAMTA208_14210	operon_0707	NC_017188.1|gene2868|BAMTA208_14210|ysaA
BAMTA208_14215	operon_0708	NC_017188.1|gene2869|BAMTA208_14215|thrS
BAMTA208_14220	operon_0708	NC_017188.1|gene2870|BAMTA208_14220|ytxC
BAMTA208_14225	operon_0708	NC_017188.1|gene2871|BAMTA208_14225|ytxB
BAMTA208_14230	operon_0708	NC_017188.1|gene2872|BAMTA208_14230|dnaI
BAMTA208_14235	operon_0708	NC_017188.1|gene2873|BAMTA208_14235|dnaB
BAMTA208_14240	operon_0708	NC_017188.1|gene2874|BAMTA208_14240|nrdR
BAMTA208_14245	operon_0708	NC_017188.1|gene2875|BAMTA208_14245|speD
BAMTA208_14250	operon_0708	NC_017188.1|gene2876|BAMTA208_14250|gapB
BAMTA208_14255	operon_0708	NC_017188.1|gene2877|BAMTA208_14255|ytcD
BAMTA208_14260	operon_0709	NC_017188.1|gene2878|BAMTA208_14260|ytbD
BAMTA208_14265	operon_0709	NC_017188.1|gene2879|BAMTA208_14265|ytbE
BAMTA208_14270	operon_0710	NC_017188.1|gene2880|BAMTA208_14270|coaE
BAMTA208_14275	operon_0710	NC_017188.1|gene2881|BAMTA208_14275|ytaF
BAMTA208_14280	operon_0710	NC_017188.1|gene2882|BAMTA208_14280|mutM
BAMTA208_14285	operon_0710	NC_017188.1|gene2883|BAMTA208_14285|polA
BAMTA208_14290	operon_0710	NC_017188.1|gene2884|BAMTA208_14290|phoR
BAMTA208_14295	operon_0710	NC_017188.1|gene2885|BAMTA208_14295|phoP
BAMTA208_14300	operon_0710	NC_017188.1|gene2886|BAMTA208_14300
BAMTA208_14305	operon_0710	NC_017188.1|gene2887|BAMTA208_14305|mdh
BAMTA208_14310	operon_0710	NC_017188.1|gene2888|BAMTA208_14310|icd
BAMTA208_14315	operon_0710	NC_017188.1|gene2889|BAMTA208_14315|citZ
BAMTA208_14320	operon_0711	NC_017188.1|gene2890|BAMTA208_14320
BAMTA208_14325	operon_0712	NC_017188.1|gene2891|BAMTA208_14325|ytwI
BAMTA208_14330	operon_0713	NC_017188.1|gene2892|BAMTA208_14330|ytvI
BAMTA208_14335	operon_0714	NC_017188.1|gene2893|BAMTA208_14335|ytzA
BAMTA208_14340	operon_0714	NC_017188.1|gene2894|BAMTA208_14340|pyk
BAMTA208_14345	operon_0714	NC_017188.1|gene2895|BAMTA208_14345|pfkA
BAMTA208_14350	operon_0714	NC_017188.1|gene2896|BAMTA208_14350|accA
BAMTA208_14355	operon_0714	NC_017188.1|gene2897|BAMTA208_14355|accD
BAMTA208_14360	operon_0714	NC_017188.1|gene2898|BAMTA208_14360
BAMTA208_14365	operon_0714	NC_017188.1|gene2899|BAMTA208_14365|ytsJ
BAMTA208_14370	operon_0714	NC_017188.1|gene2900|BAMTA208_14370|dnaE
BAMTA208_14375	operon_0715	NC_017188.1|gene2901|BAMTA208_14375|ytrH
BAMTA208_14380	operon_0715	NC_017188.1|gene2902|BAMTA208_14380|ytrI
BAMTA208_14385	operon_0715	NC_017188.1|gene2903|BAMTA208_14385|ytzJ
BAMTA208_14390	operon_0716	NC_017188.1|gene2904|BAMTA208_14390|nrnA
BAMTA208_14395	operon_0717	NC_017188.1|gene2905|BAMTA208_14395|ytpI
BAMTA208_14400	operon_0718	NC_017188.1|gene2906|BAMTA208_14400|ytoI
BAMTA208_14405	operon_0718	NC_017188.1|gene2907|BAMTA208_14405|ytkL
BAMTA208_14410	operon_0718	NC_017188.1|gene2908|BAMTA208_14410|ytkK
BAMTA208_14415	operon_0718	NC_017188.1|gene2909|BAMTA208_14415|ytzD
BAMTA208_14420	operon_0718	NC_017188.1|gene2910|BAMTA208_14420|argH
BAMTA208_14425	operon_0718	NC_017188.1|gene2911|BAMTA208_14425|argG
BAMTA208_14430	operon_0718	NC_017188.1|gene2912|BAMTA208_14430|moaB
BAMTA208_14435	operon_0718	NC_017188.1|gene2913|BAMTA208_14435|ackA
BAMTA208_14440	operon_0718	NC_017188.1|gene2914|BAMTA208_14440|ytxK
BAMTA208_14445	operon_0718	NC_017188.1|gene2915|BAMTA208_14445|tpx
BAMTA208_14450	operon_0718	NC_017188.1|gene2916|BAMTA208_14450|ytfJ
BAMTA208_14455	operon_0718	NC_017188.1|gene2917|BAMTA208_14455|ytfI
BAMTA208_14460	operon_0718	NC_017188.1|gene2918|BAMTA208_14460|yteJ
BAMTA208_14465	operon_0718	NC_017188.1|gene2919|BAMTA208_14465|sppA
BAMTA208_14470	operon_0719	NC_017188.1|gene2920|BAMTA208_14470|ppnK
BAMTA208_14475	operon_0720	NC_017188.1|gene2921|BAMTA208_14475|ytcJ
BAMTA208_14480	operon_0720	NC_017188.1|gene2922|BAMTA208_14480|ytcI
BAMTA208_14485	operon_0720	NC_017188.1|gene2923|BAMTA208_14485|sspA
BAMTA208_14490	operon_0720	NC_017188.1|gene2924|BAMTA208_14490|thiI
BAMTA208_14495	operon_0720	NC_017188.1|gene2925|BAMTA208_14495|iscS3
BAMTA208_14500	operon_0721	NC_017188.1|gene2926|BAMTA208_14500|braB
BAMTA208_14505	operon_0722	NC_017188.1|gene2927|BAMTA208_14505|ezrA
BAMTA208_14510	operon_0723	NC_017188.1|gene2928|BAMTA208_14510|hisJ
BAMTA208_14515	operon_0724	NC_017188.1|gene2929|BAMTA208_14515|yttP
BAMTA208_14520	operon_0725	NC_017188.1|gene2930|BAMTA208_14520|ytsP
BAMTA208_14525	operon_0726	NC_017188.1|gene2931|BAMTA208_14525|ytrP
BAMTA208_14530	operon_0727	NC_017188.1|gene2932|BAMTA208_14530
BAMTA208_14535	operon_0727	NC_017188.1|gene2933|BAMTA208_14535|rpsD
BAMTA208_14540	operon_0728	NC_017188.1|gene2934|BAMTA208_14540|hmp
BAMTA208_14545	operon_0729	NC_017188.1|gene2935|BAMTA208_14545
BAMTA208_14550	operon_0729	NC_017188.1|gene2936|BAMTA208_14550|yraA
BAMTA208_14555	operon_0729	NC_017188.1|gene2937|BAMTA208_14555
BAMTA208_14560	operon_0730	NC_017188.1|gene2938|BAMTA208_14560
BAMTA208_14565	operon_0730	NC_017188.1|gene2939|BAMTA208_14565
BAMTA208_14570	operon_0730	NC_017188.1|gene2940|BAMTA208_14570
BAMTA208_14575	operon_0731	NC_017188.1|gene2941|BAMTA208_14575
BAMTA208_14580	operon_0731	NC_017188.1|gene2942|BAMTA208_14580
BAMTA208_14585	operon_0731	NC_017188.1|gene2943|BAMTA208_14585
BAMTA208_14590	operon_0732	NC_017188.1|gene2944|BAMTA208_14590
BAMTA208_14595	operon_0732	NC_017188.1|gene2945|BAMTA208_14595|tyrS
BAMTA208_14600	operon_0732	NC_017188.1|gene2946|BAMTA208_14600|acsA
BAMTA208_14605	operon_0733	NC_017188.1|gene2947|BAMTA208_14605|acuA
BAMTA208_14610	operon_0733	NC_017188.1|gene2948|BAMTA208_14610|acuB
BAMTA208_14615	operon_0733	NC_017188.1|gene2949|BAMTA208_14615|acuC
BAMTA208_14620	operon_0734	NC_017188.1|gene2950|BAMTA208_14620|motS
BAMTA208_14625	operon_0734	NC_017188.1|gene2951|BAMTA208_14625|motP
BAMTA208_14630	operon_0734	NC_017188.1|gene2952|BAMTA208_14630|ccpA
BAMTA208_14635	operon_0734	NC_017188.1|gene2953|BAMTA208_14635|aroA
BAMTA208_14640	operon_0734	NC_017188.1|gene2954|BAMTA208_14640|ytxJ
BAMTA208_14645	operon_0734	NC_017188.1|gene2955|BAMTA208_14645|ytxH
BAMTA208_14650	operon_0734	NC_017188.1|gene2956|BAMTA208_14650|ytxG
BAMTA208_14655	operon_0734	NC_017188.1|gene2957|BAMTA208_14655|murC
BAMTA208_14660	operon_0734	NC_017188.1|gene2958|BAMTA208_14660|ytpS
BAMTA208_14665	operon_0734	NC_017188.1|gene2959|BAMTA208_14665|ytpR
BAMTA208_14670	operon_0734	NC_017188.1|gene2960|BAMTA208_14670|ytpQ
BAMTA208_14675	operon_0734	NC_017188.1|gene2961|BAMTA208_14675|ytpP
BAMTA208_14680	operon_0735	NC_017188.1|gene2962|BAMTA208_14680|ytoQ
BAMTA208_14685	operon_0736	NC_017188.1|gene2963|BAMTA208_14685|ytoP
BAMTA208_14690	operon_0737	NC_017188.1|gene2964|BAMTA208_14690|ytzB
BAMTA208_14695	operon_0738	NC_017188.1|gene2965|BAMTA208_14695|malS
BAMTA208_14700	operon_0738	NC_017188.1|gene2966|BAMTA208_14700|ytnP
BAMTA208_14705	operon_0738	NC_017188.1|gene2967|BAMTA208_14705|trmB
BAMTA208_14710	operon_0739	NC_017188.1|gene2968|BAMTA208_14710|ytzH
BAMTA208_14715	operon_0740	NC_017188.1|gene2969|BAMTA208_14715|ytmP
BAMTA208_14720	operon_0740	NC_017188.1|gene2970|BAMTA208_14720|ytlR
BAMTA208_14725	operon_0740	NC_017188.1|gene2971|BAMTA208_14725|ytlQ
BAMTA208_14730	operon_0740	NC_017188.1|gene2972|BAMTA208_14730|ytlP
BAMTA208_14735	operon_0741	NC_017188.1|gene2973|BAMTA208_14735|ytkP
BAMTA208_14740	operon_0742	NC_017188.1|gene2974|BAMTA208_14740|ytjP
BAMTA208_14745	operon_0743	NC_017188.1|gene2975|BAMTA208_14745|ytiP
BAMTA208_14750	operon_0744	NC_017188.1|gene2976|BAMTA208_14750|ythQ
BAMTA208_14755	operon_0744	NC_017188.1|gene2977|BAMTA208_14755|ythP
BAMTA208_14760	operon_0745	NC_017188.1|gene2978|BAMTA208_14760|ytzE
BAMTA208_14765	operon_0746	NC_017188.1|gene2979|BAMTA208_14765|ytzG
BAMTA208_14770	operon_0746	NC_017188.1|gene2980|BAMTA208_14770|ytgP
BAMTA208_14775	operon_0747	NC_017188.1|gene2981|BAMTA208_14775|ytfP
BAMTA208_14780	operon_0747	NC_017188.1|gene2982|BAMTA208_14780|opuD
BAMTA208_14785	operon_0748	NC_017188.1|gene2983|BAMTA208_14785|yteV
BAMTA208_14790	operon_0749	NC_017188.1|gene2984|BAMTA208_14790|msmR
BAMTA208_14795	operon_0749	NC_017188.1|gene2985|BAMTA208_14795|msmE
BAMTA208_14800	operon_0749	NC_017188.1|gene2986|BAMTA208_14800|amyD
BAMTA208_14805	operon_0749	NC_017188.1|gene2987|BAMTA208_14805|amyC
BAMTA208_14810	operon_0749	NC_017188.1|gene2988|BAMTA208_14810|melA
BAMTA208_14815	operon_0750	NC_017188.1|gene2989|BAMTA208_14815
BAMTA208_14820	operon_0750	NC_017188.1|gene2990|BAMTA208_14820|ytwF
BAMTA208_14825	operon_0750	NC_017188.1|gene2991|BAMTA208_14825|leuS
BAMTA208_14830	operon_0750	NC_017188.1|gene2992|BAMTA208_14830|ytvB
BAMTA208_14835	operon_0751	NC_017188.1|gene2993|BAMTA208_14835|ytvA
BAMTA208_14840	operon_0752	NC_017188.1|gene2994|BAMTA208_14840|yttB
BAMTA208_14845	operon_0752	NC_017188.1|gene2995|BAMTA208_14845|ywaF
BAMTA208_14850	operon_0752	NC_017188.1|gene2996|BAMTA208_14850|bceB
BAMTA208_14855	operon_0752	NC_017188.1|gene2997|BAMTA208_14855|bceA
BAMTA208_14860	operon_0752	NC_017188.1|gene2998|BAMTA208_14860|bceS
BAMTA208_14865	operon_0752	NC_017188.1|gene2999|BAMTA208_14865|bceR
BAMTA208_14870	operon_0752	NC_017188.1|gene3000|BAMTA208_14870|ytrF
BAMTA208_14875	operon_0752	NC_017188.1|gene3001|BAMTA208_14875|ytrE
BAMTA208_14880	operon_0752	NC_017188.1|gene3002|BAMTA208_14880|ytrD
BAMTA208_14885	operon_0752	NC_017188.1|gene3003|BAMTA208_14885|ytrC2
BAMTA208_14890	operon_0752	NC_017188.1|gene3004|BAMTA208_14890|ytrC1
BAMTA208_14905	operon_0752	NC_017188.1|gene3005|BAMTA208_14905|ytrA
BAMTA208_14910	operon_0752	NC_017188.1|gene3006|BAMTA208_14910|ytzC
BAMTA208_14915	operon_0753	NC_017188.1|gene3007|BAMTA208_14915
BAMTA208_14920	operon_0754	NC_017188.1|gene3008|BAMTA208_14920
BAMTA208_14925	operon_0755	NC_017188.1|gene3009|BAMTA208_14925|ytqA
BAMTA208_14930	operon_0755	NC_017188.1|gene3010|BAMTA208_14930|ytqB
BAMTA208_14935	operon_0755	NC_017188.1|gene3011|BAMTA208_14935
BAMTA208_14940	operon_0756	NC_017188.1|gene3012|BAMTA208_14940|ytpB
BAMTA208_14945	operon_0756	NC_017188.1|gene3013|BAMTA208_14945|ytpA
BAMTA208_14950	operon_0757	NC_017188.1|gene3014|BAMTA208_14950|ytoA
BAMTA208_14955	operon_0758	NC_017188.1|gene3015|BAMTA208_14955|ytnA
BAMTA208_14960	operon_0758	NC_017188.1|gene3016|BAMTA208_14960|asnB
BAMTA208_14965	operon_0758	NC_017188.1|gene3017|BAMTA208_14965|metK
BAMTA208_14970	operon_0758	NC_017188.1|gene3018|BAMTA208_14970
BAMTA208_14975	operon_0759	NC_017188.1|gene3019|BAMTA208_14975|pckA
BAMTA208_14980	operon_0760	NC_017188.1|gene3020|BAMTA208_14980|ytmB
BAMTA208_14985	operon_0760	NC_017188.1|gene3021|BAMTA208_14985|ytmA
BAMTA208_14990	operon_0761	NC_017188.1|gene3022|BAMTA208_14990|ytlA
BAMTA208_14995	operon_0761	NC_017188.1|gene3023|BAMTA208_14995|ytlC
BAMTA208_15000	operon_0761	NC_017188.1|gene3024|BAMTA208_15000|ytlD
BAMTA208_15005	operon_0762	NC_017188.1|gene3025|BAMTA208_15005|mutTA
BAMTA208_15010	operon_0762	NC_017188.1|gene3026|BAMTA208_15010|ytkC
BAMTA208_15015	operon_0762	NC_017188.1|gene3027|BAMTA208_15015|dps
BAMTA208_15020	operon_0763	NC_017188.1|gene3028|BAMTA208_15020|ytzI
BAMTA208_15025	operon_0764	NC_017188.1|gene3029|BAMTA208_15025|ytkA
BAMTA208_15030	operon_0764	NC_017188.1|gene3030|BAMTA208_15030|luxS
BAMTA208_15035	operon_0765	NC_017188.1|gene3031|BAMTA208_15035|ytjA
BAMTA208_15040	operon_0766	NC_017188.1|gene3032|BAMTA208_15040|ytiB
BAMTA208_15045	operon_0766	NC_017188.1|gene3033|BAMTA208_15045|rpmE2
BAMTA208_15050	operon_0767	NC_017188.1|gene3034|BAMTA208_15050|ythA
BAMTA208_15055	operon_0767	NC_017188.1|gene3035|BAMTA208_15055|ythB
BAMTA208_15060	operon_0767	NC_017188.1|gene3036|BAMTA208_15060
BAMTA208_15065	operon_0768	NC_017188.1|gene3037|BAMTA208_15065|menC
BAMTA208_15070	operon_0768	NC_017188.1|gene3038|BAMTA208_15070|menE
BAMTA208_15075	operon_0768	NC_017188.1|gene3039|BAMTA208_15075|menB
BAMTA208_15080	operon_0768	NC_017188.1|gene3040|BAMTA208_15080|ytxM
BAMTA208_15085	operon_0768	NC_017188.1|gene3041|BAMTA208_15085|menD
BAMTA208_15090	operon_0768	NC_017188.1|gene3042|BAMTA208_15090|menF
BAMTA208_15095	operon_0769	NC_017188.1|gene3043|BAMTA208_15095|yteA
BAMTA208_15100	operon_0769	NC_017188.1|gene3044|BAMTA208_15100|yteB
BAMTA208_t20763	operon_0770	NC_017188.1|gene3045|BAMTA208_t20763
BAMTA208_t20765	operon_0770	NC_017188.1|gene3046|BAMTA208_t20765
BAMTA208_t20767	operon_0770	NC_017188.1|gene3047|BAMTA208_t20767
BAMTA208_t20769	operon_0770	NC_017188.1|gene3048|BAMTA208_t20769
BAMTA208_t20771	operon_0770	NC_017188.1|gene3049|BAMTA208_t20771
BAMTA208_t20773	operon_0770	NC_017188.1|gene3050|BAMTA208_t20773
BAMTA208_t20775	operon_0770	NC_017188.1|gene3051|BAMTA208_t20775
BAMTA208_t20777	operon_0770	NC_017188.1|gene3052|BAMTA208_t20777
BAMTA208_t20779	operon_0770	NC_017188.1|gene3053|BAMTA208_t20779
BAMTA208_t20781	operon_0770	NC_017188.1|gene3054|BAMTA208_t20781
BAMTA208_t20783	operon_0770	NC_017188.1|gene3055|BAMTA208_t20783
BAMTA208_t20785	operon_0770	NC_017188.1|gene3056|BAMTA208_t20785
BAMTA208_t20787	operon_0770	NC_017188.1|gene3057|BAMTA208_t20787
BAMTA208_t20789	operon_0770	NC_017188.1|gene3058|BAMTA208_t20789
BAMTA208_t20791	operon_0770	NC_017188.1|gene3059|BAMTA208_t20791
BAMTA208_t20793	operon_0770	NC_017188.1|gene3060|BAMTA208_t20793
BAMTA208_t20795	operon_0770	NC_017188.1|gene3061|BAMTA208_t20795
BAMTA208_t20797	operon_0770	NC_017188.1|gene3062|BAMTA208_t20797
BAMTA208_t20799	operon_0770	NC_017188.1|gene3063|BAMTA208_t20799
BAMTA208_t20801	operon_0770	NC_017188.1|gene3064|BAMTA208_t20801
BAMTA208_t20803	operon_0770	NC_017188.1|gene3065|BAMTA208_t20803
BAMTA208_r20827	operon_0770	NC_017188.1|gene3066|BAMTA208_r20827
BAMTA208_r20851	operon_0770	NC_017188.1|gene3067|BAMTA208_r20851
BAMTA208_r20839	operon_0770	NC_017188.1|gene3068|BAMTA208_r20839
BAMTA208_15105	operon_0770	NC_017188.1|gene3069|BAMTA208_15105
BAMTA208_15110	operon_0771	NC_017188.1|gene3070|BAMTA208_15110|thiT
BAMTA208_15115	operon_0772	NC_017188.1|gene3071|BAMTA208_15115|yuaG
BAMTA208_15120	operon_0772	NC_017188.1|gene3072|BAMTA208_15120|yuaF
BAMTA208_15125	operon_0773	NC_017188.1|gene3073|BAMTA208_15125|yuaE
BAMTA208_15130	operon_0774	NC_017188.1|gene3074|BAMTA208_15130|yuaD
BAMTA208_15135	operon_0774	NC_017188.1|gene3075|BAMTA208_15135|gbsB
BAMTA208_15140	operon_0774	NC_017188.1|gene3076|BAMTA208_15140|gbsA
BAMTA208_15145	operon_0775	NC_017188.1|gene3077|BAMTA208_15145|yuaC
BAMTA208_15150	operon_0775	NC_017188.1|gene3078|BAMTA208_15150|yuaB
BAMTA208_15155	operon_0775	NC_017188.1|gene3079|BAMTA208_15155|ktrA
BAMTA208_15160	operon_0776	NC_017188.1|gene3080|BAMTA208_15160|lytG
BAMTA208_15165	operon_0776	NC_017188.1|gene3081|BAMTA208_15165|hmp1
BAMTA208_15180	operon_0776	NC_017188.1|gene3082|BAMTA208_15180
BAMTA208_15185	operon_0776	NC_017188.1|gene3083|BAMTA208_15185
BAMTA208_15190	operon_0776	NC_017188.1|gene3084|BAMTA208_15190
BAMTA208_15195	operon_0776	NC_017188.1|gene3085|BAMTA208_15195
BAMTA208_15200	operon_0776	NC_017188.1|gene3086|BAMTA208_15200
BAMTA208_15205	operon_0776	NC_017188.1|gene3087|BAMTA208_15205|rapH3
BAMTA208_15210	operon_0777	NC_017188.1|gene3088|BAMTA208_15210
BAMTA208_15215	operon_0778	NC_017188.1|gene3089|BAMTA208_15215
BAMTA208_15220	operon_0778	NC_017188.1|gene3090|BAMTA208_15220
BAMTA208_15225	operon_0778	NC_017188.1|gene3091|BAMTA208_15225
BAMTA208_15230	operon_0778	NC_017188.1|gene3092|BAMTA208_15230
BAMTA208_15235	operon_0778	NC_017188.1|gene3093|BAMTA208_15235
BAMTA208_15240	operon_0779	NC_017188.1|gene3094|BAMTA208_15240
BAMTA208_15245	operon_0779	NC_017188.1|gene3095|BAMTA208_15245
BAMTA208_15250	operon_0780	NC_017188.1|gene3096|BAMTA208_15250
BAMTA208_15255	operon_0780	NC_017188.1|gene3097|BAMTA208_15255
BAMTA208_15260	operon_0781	NC_017188.1|gene3098|BAMTA208_15260
BAMTA208_15265	operon_0782	NC_017188.1|gene3099|BAMTA208_15265
BAMTA208_15270	operon_0782	NC_017188.1|gene3100|BAMTA208_15270
BAMTA208_15275	operon_0782	NC_017188.1|gene3101|BAMTA208_15275|lysA3
BAMTA208_15280	operon_0782	NC_017188.1|gene3102|BAMTA208_15280|yqxH1
BAMTA208_15285	operon_0782	NC_017188.1|gene3103|BAMTA208_15285|xkdX3
BAMTA208_15290	operon_0782	NC_017188.1|gene3104|BAMTA208_15290|yomQ3
BAMTA208_15295	operon_0782	NC_017188.1|gene3105|BAMTA208_15295|yomR3
BAMTA208_15300	operon_0782	NC_017188.1|gene3106|BAMTA208_15300|yobO3
BAMTA208_15305	operon_0782	NC_017188.1|gene3107|BAMTA208_15305
BAMTA208_15310	operon_0782	NC_017188.1|gene3108|BAMTA208_15310
BAMTA208_15315	operon_0782	NC_017188.1|gene3109|BAMTA208_15315|yqbO3
BAMTA208_15320	operon_0782	NC_017188.1|gene3110|BAMTA208_15320
BAMTA208_15325	operon_0782	NC_017188.1|gene3111|BAMTA208_15325
BAMTA208_15330	operon_0782	NC_017188.1|gene3112|BAMTA208_15330
BAMTA208_15335	operon_0782	NC_017188.1|gene3113|BAMTA208_15335
BAMTA208_15340	operon_0782	NC_017188.1|gene3114|BAMTA208_15340
BAMTA208_15345	operon_0782	NC_017188.1|gene3115|BAMTA208_15345
BAMTA208_15350	operon_0782	NC_017188.1|gene3116|BAMTA208_15350
BAMTA208_15355	operon_0782	NC_017188.1|gene3117|BAMTA208_15355
BAMTA208_15360	operon_0782	NC_017188.1|gene3118|BAMTA208_15360
BAMTA208_15365	operon_0782	NC_017188.1|gene3119|BAMTA208_15365|gp3
BAMTA208_15370	operon_0782	NC_017188.1|gene3120|BAMTA208_15370
BAMTA208_15375	operon_0782	NC_017188.1|gene3121|BAMTA208_15375|gp2
BAMTA208_15380	operon_0782	NC_017188.1|gene3122|BAMTA208_15380|gp14
BAMTA208_15385	operon_0782	NC_017188.1|gene3123|BAMTA208_15385
BAMTA208_15390	operon_0782	NC_017188.1|gene3124|BAMTA208_15390
BAMTA208_15395	operon_0782	NC_017188.1|gene3125|BAMTA208_15395
BAMTA208_15400	operon_0782	NC_017188.1|gene3126|BAMTA208_15400
BAMTA208_15405	operon_0782	NC_017188.1|gene3127|BAMTA208_15405
BAMTA208_15410	operon_0782	NC_017188.1|gene3128|BAMTA208_15410
BAMTA208_15415	operon_0782	NC_017188.1|gene3129|BAMTA208_15415
BAMTA208_15420	operon_0782	NC_017188.1|gene3130|BAMTA208_15420
BAMTA208_15425	operon_0782	NC_017188.1|gene3131|BAMTA208_15425
BAMTA208_15430	operon_0782	NC_017188.1|gene3132|BAMTA208_15430
BAMTA208_15435	operon_0782	NC_017188.1|gene3133|BAMTA208_15435
BAMTA208_15440	operon_0782	NC_017188.1|gene3134|BAMTA208_15440
BAMTA208_15445	operon_0782	NC_017188.1|gene3135|BAMTA208_15445
BAMTA208_15450	operon_0783	NC_017188.1|gene3136|BAMTA208_15450
BAMTA208_15455	operon_0784	NC_017188.1|gene3137|BAMTA208_15455
BAMTA208_15460	operon_0784	NC_017188.1|gene3138|BAMTA208_15460|yopK
BAMTA208_15465	operon_0784	NC_017188.1|gene3139|BAMTA208_15465
BAMTA208_15470	operon_0785	NC_017188.1|gene3140|BAMTA208_15470
BAMTA208_15475	operon_0785	NC_017188.1|gene3141|BAMTA208_15475|ydcL3
BAMTA208_t20805	operon_0786	NC_017188.1|gene3142|BAMTA208_t20805
BAMTA208_15480	operon_0786	NC_017188.1|gene3143|BAMTA208_15480|yubB
BAMTA208_15485	operon_0786	NC_017188.1|gene3144|BAMTA208_15485|yubA
BAMTA208_15490	operon_0787	NC_017188.1|gene3145|BAMTA208_15490|yulF
BAMTA208_15495	operon_0788	NC_017188.1|gene3146|BAMTA208_15495
BAMTA208_15500	operon_0788	NC_017188.1|gene3147|BAMTA208_15500|tlpB
BAMTA208_15505	operon_0788	NC_017188.1|gene3148|BAMTA208_15505|mcpA
BAMTA208_15510	operon_0788	NC_017188.1|gene3149|BAMTA208_15510|tlpA
BAMTA208_15515	operon_0788	NC_017188.1|gene3150|BAMTA208_15515|mcpB
BAMTA208_15520	operon_0789	NC_017188.1|gene3151|BAMTA208_15520|tgl
BAMTA208_15525	operon_0790	NC_017188.1|gene3152|BAMTA208_15525
BAMTA208_15530	operon_0790	NC_017188.1|gene3153|BAMTA208_15530|yrpB
BAMTA208_15535	operon_0790	NC_017188.1|gene3154|BAMTA208_15535|yugT
BAMTA208_15540	operon_0790	NC_017188.1|gene3155|BAMTA208_15540
BAMTA208_15545	operon_0790	NC_017188.1|gene3156|BAMTA208_15545|yugS
BAMTA208_15550	operon_0790	NC_017188.1|gene3157|BAMTA208_15550|yugP
BAMTA208_15555	operon_0790	NC_017188.1|gene3158|BAMTA208_15555|yuzI
BAMTA208_15560	operon_0791	NC_017188.1|gene3159|BAMTA208_15560|mstX
BAMTA208_15565	operon_0791	NC_017188.1|gene3160|BAMTA208_15565|yugO
BAMTA208_15570	operon_0792	NC_017188.1|gene3161|BAMTA208_15570|yugN
BAMTA208_15575	operon_0792	NC_017188.1|gene3162|BAMTA208_15575|yugM
BAMTA208_15580	operon_0792	NC_017188.1|gene3163|BAMTA208_15580|pgi
BAMTA208_15585	operon_0792	NC_017188.1|gene3164|BAMTA208_15585|yugK
BAMTA208_15590	operon_0792	NC_017188.1|gene3165|BAMTA208_15590|yugJ
BAMTA208_15595	operon_0793	NC_017188.1|gene3166|BAMTA208_15595|yuzA
BAMTA208_15600	operon_0794	NC_017188.1|gene3167|BAMTA208_15600|yugI
BAMTA208_15605	operon_0794	NC_017188.1|gene3168|BAMTA208_15605|yugH
BAMTA208_15610	operon_0794	NC_017188.1|gene3169|BAMTA208_15610|yugG
BAMTA208_15615	operon_0795	NC_017188.1|gene3170|BAMTA208_15615|yugF
BAMTA208_15620	operon_0796	NC_017188.1|gene3171|BAMTA208_15620|yugE
BAMTA208_15625	operon_0797	NC_017188.1|gene3172|BAMTA208_15625|patB
BAMTA208_15630	operon_0797	NC_017188.1|gene3173|BAMTA208_15630|kinB
BAMTA208_15635	operon_0797	NC_017188.1|gene3174|BAMTA208_15635|kapB
BAMTA208_15640	operon_0798	NC_017188.1|gene3175|BAMTA208_15640|kapD
BAMTA208_15645	operon_0799	NC_017188.1|gene3176|BAMTA208_15645|yuxJ
BAMTA208_15650	operon_0799	NC_017188.1|gene3177|BAMTA208_15650|pbpD
BAMTA208_15655	operon_0799	NC_017188.1|gene3178|BAMTA208_15655|yuxK
BAMTA208_15660	operon_0800	NC_017188.1|gene3179|BAMTA208_15660|yufK
BAMTA208_15665	operon_0801	NC_017188.1|gene3180|BAMTA208_15665|malK
BAMTA208_15670	operon_0801	NC_017188.1|gene3181|BAMTA208_15670|malR3
BAMTA208_15675	operon_0801	NC_017188.1|gene3182|BAMTA208_15675|yufN
BAMTA208_15690	operon_0801	NC_017188.1|gene3183|BAMTA208_15690|yufP
BAMTA208_15695	operon_0801	NC_017188.1|gene3184|BAMTA208_15695|yufQ
BAMTA208_15700	operon_0802	NC_017188.1|gene3185|BAMTA208_15700|yufS
BAMTA208_15705	operon_0803	NC_017188.1|gene3186|BAMTA208_15705|mrpA
BAMTA208_15710	operon_0803	NC_017188.1|gene3187|BAMTA208_15710|mrpB
BAMTA208_15715	operon_0803	NC_017188.1|gene3188|BAMTA208_15715|mrpC
BAMTA208_15720	operon_0803	NC_017188.1|gene3189|BAMTA208_15720|mrpD
BAMTA208_15725	operon_0803	NC_017188.1|gene3190|BAMTA208_15725|mrpE
BAMTA208_15730	operon_0803	NC_017188.1|gene3191|BAMTA208_15730|mrpF
BAMTA208_15735	operon_0803	NC_017188.1|gene3192|BAMTA208_15735|mrpG
BAMTA208_15740	operon_0804	NC_017188.1|gene3193|BAMTA208_15740|yuxO
BAMTA208_15745	operon_0804	NC_017188.1|gene3194|BAMTA208_15745|comA
BAMTA208_15760	operon_0804	NC_017188.1|gene3195|BAMTA208_15760|comX
BAMTA208_15765	operon_0804	NC_017188.1|gene3196|BAMTA208_15765|comQ
BAMTA208_15770	operon_0804	NC_017188.1|gene3197|BAMTA208_15770|degQ
BAMTA208_15775	operon_0805	NC_017188.1|gene3198|BAMTA208_15775|yuzC
BAMTA208_15780	operon_0806	NC_017188.1|gene3199|BAMTA208_15780|yuxH
BAMTA208_15785	operon_0806	NC_017188.1|gene3200|BAMTA208_15785|pncB
BAMTA208_15790	operon_0806	NC_017188.1|gene3201|BAMTA208_15790|pncA
BAMTA208_15795	operon_0806	NC_017188.1|gene3202|BAMTA208_15795|yueI
BAMTA208_15800	operon_0806	NC_017188.1|gene3203|BAMTA208_15800|yueH
BAMTA208_15805	operon_0806	NC_017188.1|gene3204|BAMTA208_15805|yueG
BAMTA208_15810	operon_0806	NC_017188.1|gene3205|BAMTA208_15810|yueF
BAMTA208_15815	operon_0806	NC_017188.1|gene3206|BAMTA208_15815
BAMTA208_15820	operon_0806	NC_017188.1|gene3207|BAMTA208_15820|yueE
BAMTA208_15825	operon_0806	NC_017188.1|gene3208|BAMTA208_15825|yueD
BAMTA208_15830	operon_0806	NC_017188.1|gene3209|BAMTA208_15830|yueC
BAMTA208_15835	operon_0806	NC_017188.1|gene3210|BAMTA208_15835|yueB
BAMTA208_15840	operon_0806	NC_017188.1|gene3211|BAMTA208_15840|yukB
BAMTA208_15845	operon_0806	NC_017188.1|gene3212|BAMTA208_15845|yukC
BAMTA208_15850	operon_0806	NC_017188.1|gene3213|BAMTA208_15850|yukD
BAMTA208_15855	operon_0806	NC_017188.1|gene3214|BAMTA208_15855|yukE
BAMTA208_15860	operon_0807	NC_017188.1|gene3215|BAMTA208_15860|yukF
BAMTA208_15865	operon_0807	NC_017188.1|gene3216|BAMTA208_15865|ald
BAMTA208_15870	operon_0807	NC_017188.1|gene3217|BAMTA208_15870|yukJ
BAMTA208_15875	operon_0808	NC_017188.1|gene3218|BAMTA208_15875
BAMTA208_15880	operon_0808	NC_017188.1|gene3219|BAMTA208_15880|dhbF
BAMTA208_15885	operon_0808	NC_017188.1|gene3220|BAMTA208_15885|dhbB
BAMTA208_15890	operon_0808	NC_017188.1|gene3221|BAMTA208_15890|dhbE
BAMTA208_15895	operon_0808	NC_017188.1|gene3222|BAMTA208_15895|dhbC
BAMTA208_15900	operon_0808	NC_017188.1|gene3223|BAMTA208_15900|dhbA
BAMTA208_15905	operon_0808	NC_017188.1|gene3224|BAMTA208_15905|besA
BAMTA208_15910	operon_0808	NC_017188.1|gene3225|BAMTA208_15910|yuiH
BAMTA208_15915	operon_0809	NC_017188.1|gene3226|BAMTA208_15915|bioYB
BAMTA208_15920	operon_0810	NC_017188.1|gene3227|BAMTA208_15920|yuiF
BAMTA208_15925	operon_0810	NC_017188.1|gene3228|BAMTA208_15925|pepA
BAMTA208_15930	operon_0811	NC_017188.1|gene3229|BAMTA208_15930|yuiD
BAMTA208_15935	operon_0812	NC_017188.1|gene3230|BAMTA208_15935|yuiC
BAMTA208_15940	operon_0812	NC_017188.1|gene3231|BAMTA208_15940|yuiB
BAMTA208_15945	operon_0813	NC_017188.1|gene3232|BAMTA208_15945|yuiA
BAMTA208_15950	operon_0814	NC_017188.1|gene3233|BAMTA208_15950|yumB
BAMTA208_15955	operon_0815	NC_017188.1|gene3234|BAMTA208_15955
BAMTA208_15960	operon_0815	NC_017188.1|gene3235|BAMTA208_15960|yumC
BAMTA208_15965	operon_0816	NC_017188.1|gene3236|BAMTA208_15965|yuzG
BAMTA208_15970	operon_0817	NC_017188.1|gene3237|BAMTA208_15970|guaC
BAMTA208_15975	operon_0818	NC_017188.1|gene3238|BAMTA208_15975
BAMTA208_15980	operon_0818	NC_017188.1|gene3239|BAMTA208_15980
BAMTA208_15985	operon_0818	NC_017188.1|gene3240|BAMTA208_15985
BAMTA208_15990	operon_0818	NC_017188.1|gene3241|BAMTA208_15990
BAMTA208_15995	operon_0818	NC_017188.1|gene3242|BAMTA208_15995
BAMTA208_16000	operon_0818	NC_017188.1|gene3243|BAMTA208_16000
BAMTA208_16005	operon_0818	NC_017188.1|gene3244|BAMTA208_16005
BAMTA208_16010	operon_0818	NC_017188.1|gene3245|BAMTA208_16010|yjcK2
BAMTA208_16020	operon_0819	NC_017188.1|gene3246|BAMTA208_16020|dltE
BAMTA208_16025	operon_0819	NC_017188.1|gene3247|BAMTA208_16025
BAMTA208_16030	operon_0820	NC_017188.1|gene3248|BAMTA208_16030
BAMTA208_16035	operon_0820	NC_017188.1|gene3249|BAMTA208_16035
BAMTA208_16040	operon_0820	NC_017188.1|gene3250|BAMTA208_16040|xlyB5
BAMTA208_16045	operon_0820	NC_017188.1|gene3251|BAMTA208_16045
BAMTA208_16050	operon_0820	NC_017188.1|gene3252|BAMTA208_16050|bhlA3
BAMTA208_16055	operon_0820	NC_017188.1|gene3253|BAMTA208_16055
BAMTA208_16060	operon_0820	NC_017188.1|gene3254|BAMTA208_16060|xkdV
BAMTA208_16065	operon_0820	NC_017188.1|gene3255|BAMTA208_16065|phi105_21
BAMTA208_16070	operon_0820	NC_017188.1|gene3256|BAMTA208_16070
BAMTA208_16075	operon_0820	NC_017188.1|gene3257|BAMTA208_16075|lytG1
BAMTA208_16080	operon_0820	NC_017188.1|gene3258|BAMTA208_16080
BAMTA208_16085	operon_0820	NC_017188.1|gene3259|BAMTA208_16085
BAMTA208_16090	operon_0820	NC_017188.1|gene3260|BAMTA208_16090
BAMTA208_16095	operon_0820	NC_017188.1|gene3261|BAMTA208_16095
BAMTA208_16100	operon_0820	NC_017188.1|gene3262|BAMTA208_16100
BAMTA208_16105	operon_0820	NC_017188.1|gene3263|BAMTA208_16105
BAMTA208_16110	operon_0820	NC_017188.1|gene3264|BAMTA208_16110
BAMTA208_16115	operon_0820	NC_017188.1|gene3265|BAMTA208_16115
BAMTA208_16120	operon_0820	NC_017188.1|gene3266|BAMTA208_16120
BAMTA208_16125	operon_0820	NC_017188.1|gene3267|BAMTA208_16125
BAMTA208_16130	operon_0820	NC_017188.1|gene3268|BAMTA208_16130
BAMTA208_16135	operon_0820	NC_017188.1|gene3269|BAMTA208_16135
BAMTA208_16140	operon_0820	NC_017188.1|gene3270|BAMTA208_16140
BAMTA208_16145	operon_0820	NC_017188.1|gene3271|BAMTA208_16145
BAMTA208_16150	operon_0820	NC_017188.1|gene3272|BAMTA208_16150
BAMTA208_16155	operon_0820	NC_017188.1|gene3273|BAMTA208_16155
BAMTA208_16160	operon_0821	NC_017188.1|gene3274|BAMTA208_16160|xerD2
BAMTA208_16165	operon_0822	NC_017188.1|gene3275|BAMTA208_16165
BAMTA208_16170	operon_0822	NC_017188.1|gene3276|BAMTA208_16170
BAMTA208_16175	operon_0822	NC_017188.1|gene3277|BAMTA208_16175
BAMTA208_16180	operon_0822	NC_017188.1|gene3278|BAMTA208_16180
BAMTA208_16185	operon_0822	NC_017188.1|gene3279|BAMTA208_16185
BAMTA208_16190	operon_0822	NC_017188.1|gene3280|BAMTA208_16190
BAMTA208_16195	operon_0822	NC_017188.1|gene3281|BAMTA208_16195
BAMTA208_16200	operon_0822	NC_017188.1|gene3282|BAMTA208_16200
BAMTA208_16205	operon_0822	NC_017188.1|gene3283|BAMTA208_16205
BAMTA208_16210	operon_0822	NC_017188.1|gene3284|BAMTA208_16210
BAMTA208_16215	operon_0822	NC_017188.1|gene3285|BAMTA208_16215
BAMTA208_16220	operon_0822	NC_017188.1|gene3286|BAMTA208_16220
BAMTA208_16225	operon_0822	NC_017188.1|gene3287|BAMTA208_16225
BAMTA208_16230	operon_0822	NC_017188.1|gene3288|BAMTA208_16230
BAMTA208_16235	operon_0822	NC_017188.1|gene3289|BAMTA208_16235
BAMTA208_16240	operon_0822	NC_017188.1|gene3290|BAMTA208_16240
BAMTA208_16245	operon_0823	NC_017188.1|gene3291|BAMTA208_16245
BAMTA208_16250	operon_0824	NC_017188.1|gene3292|BAMTA208_16250
BAMTA208_16255	operon_0824	NC_017188.1|gene3293|BAMTA208_16255
BAMTA208_16260	operon_0824	NC_017188.1|gene3294|BAMTA208_16260
BAMTA208_16265	operon_0825	NC_017188.1|gene3295|BAMTA208_16265
BAMTA208_16270	operon_0825	NC_017188.1|gene3296|BAMTA208_16270
BAMTA208_16275	operon_0826	NC_017188.1|gene3297|BAMTA208_16275
BAMTA208_16280	operon_0826	NC_017188.1|gene3298|BAMTA208_16280
BAMTA208_16285	operon_0826	NC_017188.1|gene3299|BAMTA208_16285
BAMTA208_16290	operon_0826	NC_017188.1|gene3300|BAMTA208_16290|dapF
BAMTA208_16295	operon_0826	NC_017188.1|gene3301|BAMTA208_16295|yutK
BAMTA208_16300	operon_0826	NC_017188.1|gene3302|BAMTA208_16300|yuzB
BAMTA208_16305	operon_0827	NC_017188.1|gene3303|BAMTA208_16305|yutJ
BAMTA208_16310	operon_0828	NC_017188.1|gene3304|BAMTA208_16310|yuzD
BAMTA208_16315	operon_0829	NC_017188.1|gene3305|BAMTA208_16315|yutI
BAMTA208_16320	operon_0830	NC_017188.1|gene3306|BAMTA208_16320|yuxL
BAMTA208_16325	operon_0830	NC_017188.1|gene3307|BAMTA208_16325|thrB
BAMTA208_16330	operon_0830	NC_017188.1|gene3308|BAMTA208_16330|thrC
BAMTA208_16335	operon_0830	NC_017188.1|gene3309|BAMTA208_16335|hom
BAMTA208_16340	operon_0830	NC_017188.1|gene3310|BAMTA208_16340|yutH
BAMTA208_16345	operon_0831	NC_017188.1|gene3311|BAMTA208_16345|yutG
BAMTA208_16350	operon_0832	NC_017188.1|gene3312|BAMTA208_16350|yutF
BAMTA208_16355	operon_0832	NC_017188.1|gene3313|BAMTA208_16355|yutE
BAMTA208_16360	operon_0832	NC_017188.1|gene3314|BAMTA208_16360|yutD
BAMTA208_16365	operon_0832	NC_017188.1|gene3315|BAMTA208_16365|lipA
BAMTA208_16370	operon_0833	NC_017188.1|gene3316|BAMTA208_16370|lytH
BAMTA208_16375	operon_0834	NC_017188.1|gene3317|BAMTA208_16375|yunB3
BAMTA208_16380	operon_0834	NC_017188.1|gene3318|BAMTA208_16380|yunD
BAMTA208_16385	operon_0834	NC_017188.1|gene3319|BAMTA208_16385|yunE
BAMTA208_16390	operon_0834	NC_017188.1|gene3320|BAMTA208_16390|yunF
BAMTA208_16395	operon_0834	NC_017188.1|gene3321|BAMTA208_16395|yunG
BAMTA208_16400	operon_0834	NC_017188.1|gene3322|BAMTA208_16400|pucH
BAMTA208_16405	operon_0835	NC_017188.1|gene3323|BAMTA208_16405|pucR
BAMTA208_16410	operon_0835	NC_017188.1|gene3324|BAMTA208_16410
BAMTA208_16415	operon_0836	NC_017188.1|gene3325|BAMTA208_16415
BAMTA208_16420	operon_0836	NC_017188.1|gene3326|BAMTA208_16420
BAMTA208_16425	operon_0836	NC_017188.1|gene3327|BAMTA208_16425|pucG
BAMTA208_16430	operon_0836	NC_017188.1|gene3328|BAMTA208_16430|pucF
BAMTA208_16435	operon_0837	NC_017188.1|gene3329|BAMTA208_16435|bsn
BAMTA208_16440	operon_0838	NC_017188.1|gene3330|BAMTA208_16440|yurJ
BAMTA208_16445	operon_0839	NC_017188.1|gene3331|BAMTA208_16445|frlR
BAMTA208_16450	operon_0840	NC_017188.1|gene3332|BAMTA208_16450|frlD
BAMTA208_16455	operon_0840	NC_017188.1|gene3333|BAMTA208_16455|frlM
BAMTA208_16460	operon_0840	NC_017188.1|gene3334|BAMTA208_16460|frlN
BAMTA208_16465	operon_0840	NC_017188.1|gene3335|BAMTA208_16465|frlO
BAMTA208_16470	operon_0840	NC_017188.1|gene3336|BAMTA208_16470|frlB
BAMTA208_16475	operon_0841	NC_017188.1|gene3337|BAMTA208_16475
BAMTA208_16480	operon_0842	NC_017188.1|gene3338|BAMTA208_16480|yitM
BAMTA208_16485	operon_0842	NC_017188.1|gene3339|BAMTA208_16485|yitO
BAMTA208_16490	operon_0842	NC_017188.1|gene3340|BAMTA208_16490|yitP
BAMTA208_16495	operon_0843	NC_017188.1|gene3341|BAMTA208_16495|ybgB
BAMTA208_16500	operon_0844	NC_017188.1|gene3342|BAMTA208_16500|yurQ
BAMTA208_16505	operon_0844	NC_017188.1|gene3343|BAMTA208_16505|yurR
BAMTA208_16510	operon_0844	NC_017188.1|gene3344|BAMTA208_16510
BAMTA208_16515	operon_0845	NC_017188.1|gene3345|BAMTA208_16515|yncE
BAMTA208_16520	operon_0845	NC_017188.1|gene3346|BAMTA208_16520|csn
BAMTA208_16525	operon_0846	NC_017188.1|gene3347|BAMTA208_16525|sufB
BAMTA208_16530	operon_0846	NC_017188.1|gene3348|BAMTA208_16530|iscU
BAMTA208_16535	operon_0846	NC_017188.1|gene3349|BAMTA208_16535|sufS
BAMTA208_16540	operon_0846	NC_017188.1|gene3350|BAMTA208_16540|sufD
BAMTA208_16545	operon_0846	NC_017188.1|gene3351|BAMTA208_16545|sufC
BAMTA208_16550	operon_0846	NC_017188.1|gene3352|BAMTA208_16550|yuzK
BAMTA208_16555	operon_0846	NC_017188.1|gene3353|BAMTA208_16555|yurZ
BAMTA208_16560	operon_0846	NC_017188.1|gene3354|BAMTA208_16560|metN
BAMTA208_16565	operon_0846	NC_017188.1|gene3355|BAMTA208_16565|metP
BAMTA208_16570	operon_0846	NC_017188.1|gene3356|BAMTA208_16570|metQ
BAMTA208_16575	operon_0846	NC_017188.1|gene3357|BAMTA208_16575|yusD
BAMTA208_16580	operon_0846	NC_017188.1|gene3358|BAMTA208_16580|yusE
BAMTA208_16585	operon_0846	NC_017188.1|gene3359|BAMTA208_16585|yusF
BAMTA208_16590	operon_0846	NC_017188.1|gene3360|BAMTA208_16590|yusG
BAMTA208_16595	operon_0846	NC_017188.1|gene3361|BAMTA208_16595|yusH
BAMTA208_16600	operon_0846	NC_017188.1|gene3362|BAMTA208_16600|yusI
BAMTA208_16605	operon_0846	NC_017188.1|gene3363|BAMTA208_16605|fadE
BAMTA208_16610	operon_0846	NC_017188.1|gene3364|BAMTA208_16610|fadA
BAMTA208_16615	operon_0846	NC_017188.1|gene3365|BAMTA208_16615|fadN
BAMTA208_16620	operon_0847	NC_017188.1|gene3366|BAMTA208_16620
BAMTA208_16625	operon_0848	NC_017188.1|gene3367|BAMTA208_16625|fadM
BAMTA208_16630	operon_0849	NC_017188.1|gene3368|BAMTA208_16630
BAMTA208_16635	operon_0849	NC_017188.1|gene3369|BAMTA208_16635|yusN
BAMTA208_16640	operon_0849	NC_017188.1|gene3370|BAMTA208_16640|mdtR
BAMTA208_16645	operon_0849	NC_017188.1|gene3371|BAMTA208_16645|mdtP
BAMTA208_16650	operon_0850	NC_017188.1|gene3372|BAMTA208_16650
BAMTA208_16655	operon_0850	NC_017188.1|gene3373|BAMTA208_16655
BAMTA208_16660	operon_0851	NC_017188.1|gene3374|BAMTA208_16660
BAMTA208_16665	operon_0852	NC_017188.1|gene3375|BAMTA208_16665|yusU
BAMTA208_16670	operon_0852	NC_017188.1|gene3376|BAMTA208_16670|yusV
BAMTA208_16675	operon_0852	NC_017188.1|gene3377|BAMTA208_16675|yusW
BAMTA208_16680	operon_0852	NC_017188.1|gene3378|BAMTA208_16680|yusY
BAMTA208_16685	operon_0853	NC_017188.1|gene3379|BAMTA208_16685|yusZ
BAMTA208_16690	operon_0853	NC_017188.1|gene3380|BAMTA208_16690|mrgA
BAMTA208_16695	operon_0854	NC_017188.1|gene3381|BAMTA208_16695|htrB
BAMTA208_16700	operon_0855	NC_017188.1|gene3382|BAMTA208_16700|cssR
BAMTA208_16705	operon_0855	NC_017188.1|gene3383|BAMTA208_16705|cssS
BAMTA208_16710	operon_0856	NC_017188.1|gene3384|BAMTA208_16710|yirB
BAMTA208_16715	operon_0857	NC_017188.1|gene3385|BAMTA208_16715|yuxN
BAMTA208_16720	operon_0858	NC_017188.1|gene3386|BAMTA208_16720|fumC
BAMTA208_16725	operon_0858	NC_017188.1|gene3387|BAMTA208_16725
BAMTA208_16730	operon_0859	NC_017188.1|gene3388|BAMTA208_16730|gerAA
BAMTA208_16735	operon_0859	NC_017188.1|gene3389|BAMTA208_16735|gerAB
BAMTA208_16740	operon_0859	NC_017188.1|gene3390|BAMTA208_16740|gerAC
BAMTA208_16745	operon_0860	NC_017188.1|gene3391|BAMTA208_16745|liaR
BAMTA208_16750	operon_0860	NC_017188.1|gene3392|BAMTA208_16750|liaS
BAMTA208_16755	operon_0860	NC_017188.1|gene3393|BAMTA208_16755|liaF
BAMTA208_16760	operon_0860	NC_017188.1|gene3394|BAMTA208_16760|liaG
BAMTA208_16765	operon_0860	NC_017188.1|gene3395|BAMTA208_16765|liaH
BAMTA208_16770	operon_0860	NC_017188.1|gene3396|BAMTA208_16770|liaI
BAMTA208_16775	operon_0860	NC_017188.1|gene3397|BAMTA208_16775|yvqJ
BAMTA208_16780	operon_0860	NC_017188.1|gene3398|BAMTA208_16780|yvqK
BAMTA208_16785	operon_0860	NC_017188.1|gene3399|BAMTA208_16785|yvrA
BAMTA208_16790	operon_0860	NC_017188.1|gene3400|BAMTA208_16790|yvrB
BAMTA208_16795	operon_0860	NC_017188.1|gene3401|BAMTA208_16795|yvrC
BAMTA208_16800	operon_0861	NC_017188.1|gene3402|BAMTA208_16800|yvrD
BAMTA208_16805	operon_0862	NC_017188.1|gene3403|BAMTA208_16805|yvrE
BAMTA208_16810	operon_0862	NC_017188.1|gene3404|BAMTA208_16810|yvrG2
BAMTA208_16815	operon_0862	NC_017188.1|gene3405|BAMTA208_16815|yvrHb
BAMTA208_16820	operon_0862	NC_017188.1|gene3406|BAMTA208_16820|yvrHa
BAMTA208_16825	operon_0862	NC_017188.1|gene3407|BAMTA208_16825|yvrI
BAMTA208_16830	operon_0863	NC_017188.1|gene3408|BAMTA208_16830|yvrJ
BAMTA208_16835	operon_0863	NC_017188.1|gene3409|BAMTA208_16835|oxdC
BAMTA208_16840	operon_0863	NC_017188.1|gene3410|BAMTA208_16840|yvrL
BAMTA208_16845	operon_0864	NC_017188.1|gene3411|BAMTA208_16845|fhuC
BAMTA208_16850	operon_0864	NC_017188.1|gene3412|BAMTA208_16850|fhuG
BAMTA208_16855	operon_0864	NC_017188.1|gene3413|BAMTA208_16855|fhuB
BAMTA208_16860	operon_0865	NC_017188.1|gene3414|BAMTA208_16860|fhuD
BAMTA208_16865	operon_0865	NC_017188.1|gene3415|BAMTA208_16865|yktD
BAMTA208_16870	operon_0866	NC_017188.1|gene3416|BAMTA208_16870|lysP
BAMTA208_16875	operon_0866	NC_017188.1|gene3417|BAMTA208_16875|sspJ
BAMTA208_16880	operon_0867	NC_017188.1|gene3418|BAMTA208_16880|yvsG
BAMTA208_16885	operon_0867	NC_017188.1|gene3419|BAMTA208_16885|yvgJ
BAMTA208_16890	operon_0868	NC_017188.1|gene3420|BAMTA208_16890|yvgK
BAMTA208_16895	operon_0869	NC_017188.1|gene3421|BAMTA208_16895|yvgL
BAMTA208_16900	operon_0869	NC_017188.1|gene3422|BAMTA208_16900|yvgM
BAMTA208_16905	operon_0869	NC_017188.1|gene3423|BAMTA208_16905
BAMTA208_16910	operon_0869	NC_017188.1|gene3424|BAMTA208_16910
BAMTA208_16915	operon_0869	NC_017188.1|gene3425|BAMTA208_16915
BAMTA208_16920	operon_0869	NC_017188.1|gene3426|BAMTA208_16920
BAMTA208_16925	operon_0869	NC_017188.1|gene3427|BAMTA208_16925
BAMTA208_16930	operon_0870	NC_017188.1|gene3428|BAMTA208_16930|yvgN
BAMTA208_16935	operon_0871	NC_017188.1|gene3429|BAMTA208_16935|yvgO
BAMTA208_16940	operon_0872	NC_017188.1|gene3430|BAMTA208_16940|nhaK
BAMTA208_16945	operon_0872	NC_017188.1|gene3431|BAMTA208_16945|cysI
BAMTA208_16950	operon_0872	NC_017188.1|gene3432|BAMTA208_16950|cysJ
BAMTA208_16955	operon_0872	NC_017188.1|gene3433|BAMTA208_16955|helD
BAMTA208_16960	operon_0872	NC_017188.1|gene3434|BAMTA208_16960|yvgT
BAMTA208_16965	operon_0873	NC_017188.1|gene3435|BAMTA208_16965
BAMTA208_16970	operon_0874	NC_017188.1|gene3436|BAMTA208_16970|bdbC
BAMTA208_16975	operon_0874	NC_017188.1|gene3437|BAMTA208_16975|bdbD
BAMTA208_16980	operon_0874	NC_017188.1|gene3438|BAMTA208_16980|cadA
BAMTA208_16985	operon_0874	NC_017188.1|gene3439|BAMTA208_16985|copA
BAMTA208_16990	operon_0874	NC_017188.1|gene3440|BAMTA208_16990|copZ
BAMTA208_16995	operon_0874	NC_017188.1|gene3441|BAMTA208_16995|csoR
BAMTA208_17000	operon_0875	NC_017188.1|gene3442|BAMTA208_17000|yvaA
BAMTA208_17005	operon_0876	NC_017188.1|gene3443|BAMTA208_17005|azoR
BAMTA208_17010	operon_0876	NC_017188.1|gene3444|BAMTA208_17010|ytnJ
BAMTA208_17015	operon_0876	NC_017188.1|gene3445|BAMTA208_17015|ytnI
BAMTA208_17020	operon_0876	NC_017188.1|gene3446|BAMTA208_17020|ytmO
BAMTA208_17025	operon_0876	NC_017188.1|gene3447|BAMTA208_17025|tcyN
BAMTA208_17030	operon_0876	NC_017188.1|gene3448|BAMTA208_17030|tcyM
BAMTA208_17035	operon_0876	NC_017188.1|gene3449|BAMTA208_17035|tcyL
BAMTA208_17040	operon_0876	NC_017188.1|gene3450|BAMTA208_17040|tcyK
BAMTA208_17045	operon_0876	NC_017188.1|gene3451|BAMTA208_17045|tcyJ
BAMTA208_17050	operon_0876	NC_017188.1|gene3452|BAMTA208_17050|ytmI
BAMTA208_17055	operon_0877	NC_017188.1|gene3453|BAMTA208_17055|ytlI
BAMTA208_17060	operon_0878	NC_017188.1|gene3454|BAMTA208_17060|yvaG
BAMTA208_17065	operon_0878	NC_017188.1|gene3455|BAMTA208_17065|yrdF
BAMTA208_17070	operon_0878	NC_017188.1|gene3456|BAMTA208_17070|smpB
BAMTA208_17075	operon_0878	NC_017188.1|gene3457|BAMTA208_17075
BAMTA208_17080	operon_0878	NC_017188.1|gene3458|BAMTA208_17080|rnr
BAMTA208_17085	operon_0878	NC_017188.1|gene3459|BAMTA208_17085|yvaK
BAMTA208_17090	operon_0878	NC_017188.1|gene3460|BAMTA208_17090|secG
BAMTA208_17095	operon_0878	NC_017188.1|gene3461|BAMTA208_17095|yvzC
BAMTA208_17100	operon_0879	NC_017188.1|gene3462|BAMTA208_17100|rghR
BAMTA208_17105	operon_0879	NC_017188.1|gene3463|BAMTA208_17105|rghRB
BAMTA208_17110	operon_0879	NC_017188.1|gene3464|BAMTA208_17110|yvaP
BAMTA208_17115	operon_0880	NC_017188.1|gene3465|BAMTA208_17115|spaK
BAMTA208_17120	operon_0880	NC_017188.1|gene3466|BAMTA208_17120|spaR
BAMTA208_17125	operon_0880	NC_017188.1|gene3467|BAMTA208_17125|spaG
BAMTA208_17130	operon_0880	NC_017188.1|gene3468|BAMTA208_17130|spaE
BAMTA208_17135	operon_0880	NC_017188.1|gene3469|BAMTA208_17135|spaF
BAMTA208_17140	operon_0880	NC_017188.1|gene3470|BAMTA208_17140|opuCD1
BAMTA208_17145	operon_0880	NC_017188.1|gene3471|BAMTA208_17145|opuBC
BAMTA208_17150	operon_0880	NC_017188.1|gene3472|BAMTA208_17150|opuCB1
BAMTA208_17155	operon_0880	NC_017188.1|gene3473|BAMTA208_17155|opuBA
BAMTA208_17160	operon_0881	NC_017188.1|gene3474|BAMTA208_17160|yvaV
BAMTA208_17165	operon_0882	NC_017188.1|gene3475|BAMTA208_17165|opuCD
BAMTA208_17170	operon_0882	NC_017188.1|gene3476|BAMTA208_17170|opuCC
BAMTA208_17175	operon_0882	NC_017188.1|gene3477|BAMTA208_17175|opuCB
BAMTA208_17180	operon_0882	NC_017188.1|gene3478|BAMTA208_17180|opuCA
BAMTA208_17185	operon_0883	NC_017188.1|gene3479|BAMTA208_17185|yvbF
BAMTA208_17190	operon_0884	NC_017188.1|gene3480|BAMTA208_17190|yvbG
BAMTA208_17195	operon_0884	NC_017188.1|gene3481|BAMTA208_17195
BAMTA208_17200	operon_0885	NC_017188.1|gene3482|BAMTA208_17200|yvbI
BAMTA208_17205	operon_0886	NC_017188.1|gene3483|BAMTA208_17205|yvbJ
BAMTA208_17210	operon_0887	NC_017188.1|gene3484|BAMTA208_17210|yvbK
BAMTA208_17215	operon_0888	NC_017188.1|gene3485|BAMTA208_17215
BAMTA208_17220	operon_0888	NC_017188.1|gene3486|BAMTA208_17220
BAMTA208_17225	operon_0888	NC_017188.1|gene3487|BAMTA208_17225
BAMTA208_17230	operon_0888	NC_017188.1|gene3488|BAMTA208_17230
BAMTA208_17235	operon_0888	NC_017188.1|gene3489|BAMTA208_17235
BAMTA208_17240	operon_0888	NC_017188.1|gene3490|BAMTA208_17240
BAMTA208_17245	operon_0888	NC_017188.1|gene3491|BAMTA208_17245
BAMTA208_17250	operon_0888	NC_017188.1|gene3492|BAMTA208_17250|spsC1
BAMTA208_17255	operon_0888	NC_017188.1|gene3493|BAMTA208_17255
BAMTA208_17260	operon_0888	NC_017188.1|gene3494|BAMTA208_17260|ywaD
BAMTA208_17265	operon_0888	NC_017188.1|gene3495|BAMTA208_17265|eno
BAMTA208_17270	operon_0888	NC_017188.1|gene3496|BAMTA208_17270|pgm
BAMTA208_17275	operon_0888	NC_017188.1|gene3497|BAMTA208_17275|tpiA
BAMTA208_17280	operon_0888	NC_017188.1|gene3498|BAMTA208_17280|pgk
BAMTA208_17285	operon_0888	NC_017188.1|gene3499|BAMTA208_17285|gapA
BAMTA208_17290	operon_0888	NC_017188.1|gene3500|BAMTA208_17290|cggR
BAMTA208_17295	operon_0888	NC_017188.1|gene3501|BAMTA208_17295|araE
BAMTA208_17300	operon_0889	NC_017188.1|gene3502|BAMTA208_17300|araR
BAMTA208_17305	operon_0890	NC_017188.1|gene3503|BAMTA208_17305|yvbT
BAMTA208_17310	operon_0890	NC_017188.1|gene3504|BAMTA208_17310|yvbU
BAMTA208_17315	operon_0891	NC_017188.1|gene3505|BAMTA208_17315|cyeB
BAMTA208_17320	operon_0892	NC_017188.1|gene3506|BAMTA208_17320|yvbW
BAMTA208_17325	operon_0892	NC_017188.1|gene3507|BAMTA208_17325
BAMTA208_17330	operon_0893	NC_017188.1|gene3508|BAMTA208_17330
BAMTA208_17335	operon_0893	NC_017188.1|gene3509|BAMTA208_17335|gntK
BAMTA208_17340	operon_0893	NC_017188.1|gene3510|BAMTA208_17340|yojA
BAMTA208_17345	operon_0894	NC_017188.1|gene3511|BAMTA208_17345|lutC
BAMTA208_17350	operon_0894	NC_017188.1|gene3512|BAMTA208_17350|lutB
BAMTA208_17355	operon_0894	NC_017188.1|gene3513|BAMTA208_17355|lutA
BAMTA208_17360	operon_0894	NC_017188.1|gene3514|BAMTA208_17360
BAMTA208_17365	operon_0894	NC_017188.1|gene3515|BAMTA208_17365|lutR
BAMTA208_17370	operon_0895	NC_017188.1|gene3516|BAMTA208_17370|lutP
BAMTA208_17375	operon_0896	NC_017188.1|gene3517|BAMTA208_17375|sigL
BAMTA208_17380	operon_0897	NC_017188.1|gene3518|BAMTA208_17380|yvfG
BAMTA208_17385	operon_0898	NC_017188.1|gene3519|BAMTA208_17385|epsO
BAMTA208_17390	operon_0898	NC_017188.1|gene3520|BAMTA208_17390|epsN
BAMTA208_17395	operon_0898	NC_017188.1|gene3521|BAMTA208_17395|epsM
BAMTA208_17400	operon_0898	NC_017188.1|gene3522|BAMTA208_17400|epsL
BAMTA208_17405	operon_0898	NC_017188.1|gene3523|BAMTA208_17405|epsK
BAMTA208_17410	operon_0898	NC_017188.1|gene3524|BAMTA208_17410|epsJ
BAMTA208_17415	operon_0898	NC_017188.1|gene3525|BAMTA208_17415|epsI
BAMTA208_17420	operon_0898	NC_017188.1|gene3526|BAMTA208_17420|epsH
BAMTA208_17425	operon_0898	NC_017188.1|gene3527|BAMTA208_17425|epsG
BAMTA208_17430	operon_0898	NC_017188.1|gene3528|BAMTA208_17430|epsF
BAMTA208_17435	operon_0898	NC_017188.1|gene3529|BAMTA208_17435|epsE
BAMTA208_17440	operon_0898	NC_017188.1|gene3530|BAMTA208_17440|epsD
BAMTA208_17445	operon_0898	NC_017188.1|gene3531|BAMTA208_17445|epsC
BAMTA208_17450	operon_0898	NC_017188.1|gene3532|BAMTA208_17450|epsB
BAMTA208_17455	operon_0898	NC_017188.1|gene3533|BAMTA208_17455|epsA
BAMTA208_17460	operon_0899	NC_017188.1|gene3534|BAMTA208_17460|slrR
BAMTA208_17465	operon_0899	NC_017188.1|gene3535|BAMTA208_17465|pnbA
BAMTA208_17470	operon_0899	NC_017188.1|gene3536|BAMTA208_17470
BAMTA208_17475	operon_0900	NC_017188.1|gene3537|BAMTA208_17475|ywjB
BAMTA208_17480	operon_0901	NC_017188.1|gene3538|BAMTA208_17480|tetX
BAMTA208_17485	operon_0901	NC_017188.1|gene3539|BAMTA208_17485
BAMTA208_17490	operon_0902	NC_017188.1|gene3540|BAMTA208_17490|yyaS
BAMTA208_17495	operon_0903	NC_017188.1|gene3541|BAMTA208_17495|paiA
BAMTA208_17500	operon_0904	NC_017188.1|gene3542|BAMTA208_17500|padC
BAMTA208_17505	operon_0904	NC_017188.1|gene3543|BAMTA208_17505|yveG
BAMTA208_17510	operon_0904	NC_017188.1|gene3544|BAMTA208_17510
BAMTA208_17515	operon_0904	NC_017188.1|gene3545|BAMTA208_17515
BAMTA208_17520	operon_0904	NC_017188.1|gene3546|BAMTA208_17520
BAMTA208_17525	operon_0905	NC_017188.1|gene3547|BAMTA208_17525
BAMTA208_17530	operon_0905	NC_017188.1|gene3548|BAMTA208_17530
BAMTA208_t20807	operon_0906	NC_017188.1|gene3549|BAMTA208_t20807
BAMTA208_17535	operon_0907	NC_017188.1|gene3550|BAMTA208_17535
BAMTA208_17540	operon_0908	NC_017188.1|gene3551|BAMTA208_17540
BAMTA208_17545	operon_0908	NC_017188.1|gene3552|BAMTA208_17545|lacY
BAMTA208_17550	operon_0909	NC_017188.1|gene3553|BAMTA208_17550
BAMTA208_17555	operon_0909	NC_017188.1|gene3554|BAMTA208_17555|clpP
BAMTA208_17560	operon_0910	NC_017188.1|gene3555|BAMTA208_17560|yraN
BAMTA208_17565	operon_0911	NC_017188.1|gene3556|BAMTA208_17565|yraM
BAMTA208_17570	operon_0911	NC_017188.1|gene3557|BAMTA208_17570
BAMTA208_17575	operon_0911	NC_017188.1|gene3558|BAMTA208_17575
BAMTA208_17580	operon_0912	NC_017188.1|gene3559|BAMTA208_17580|yvdD
BAMTA208_17585	operon_0913	NC_017188.1|gene3560|BAMTA208_17585|yvdC
BAMTA208_17590	operon_0914	NC_017188.1|gene3561|BAMTA208_17590|yvdB
BAMTA208_17595	operon_0914	NC_017188.1|gene3562|BAMTA208_17595|yvdA
BAMTA208_17600	operon_0915	NC_017188.1|gene3563|BAMTA208_17600
BAMTA208_17605	operon_0915	NC_017188.1|gene3564|BAMTA208_17605|yvcT
BAMTA208_17610	operon_0915	NC_017188.1|gene3565|BAMTA208_17610
BAMTA208_17615	operon_0916	NC_017188.1|gene3566|BAMTA208_17615|yvcN
BAMTA208_17620	operon_0916	NC_017188.1|gene3567|BAMTA208_17620|crh
BAMTA208_17625	operon_0916	NC_017188.1|gene3568|BAMTA208_17625|whiA
BAMTA208_17630	operon_0916	NC_017188.1|gene3569|BAMTA208_17630|yvcK
BAMTA208_17635	operon_0916	NC_017188.1|gene3570|BAMTA208_17635|yvcJ
BAMTA208_17640	operon_0916	NC_017188.1|gene3571|BAMTA208_17640|yvcI
BAMTA208_17645	operon_0916	NC_017188.1|gene3572|BAMTA208_17645|trxB
BAMTA208_17650	operon_0916	NC_017188.1|gene3573|BAMTA208_17650|cwlO
BAMTA208_17655	operon_0916	NC_017188.1|gene3574|BAMTA208_17655|yvcD
BAMTA208_17660	operon_0916	NC_017188.1|gene3575|BAMTA208_17660
BAMTA208_17665	operon_0916	NC_017188.1|gene3576|BAMTA208_17665
BAMTA208_17670	operon_0916	NC_017188.1|gene3577|BAMTA208_17670|bmrA
BAMTA208_17675	operon_0916	NC_017188.1|gene3578|BAMTA208_17675|hisI
BAMTA208_17680	operon_0916	NC_017188.1|gene3579|BAMTA208_17680|hisF
BAMTA208_17685	operon_0916	NC_017188.1|gene3580|BAMTA208_17685|hisA
BAMTA208_17690	operon_0916	NC_017188.1|gene3581|BAMTA208_17690|hisH
BAMTA208_17695	operon_0916	NC_017188.1|gene3582|BAMTA208_17695|hisB
BAMTA208_17700	operon_0916	NC_017188.1|gene3583|BAMTA208_17700|hisD
BAMTA208_17705	operon_0916	NC_017188.1|gene3584|BAMTA208_17705|hisG
BAMTA208_17710	operon_0916	NC_017188.1|gene3585|BAMTA208_17710|hisZ
BAMTA208_17715	operon_0917	NC_017188.1|gene3586|BAMTA208_17715|yvpB
BAMTA208_17720	operon_0918	NC_017188.1|gene3587|BAMTA208_17720|yvoF
BAMTA208_17725	operon_0918	NC_017188.1|gene3588|BAMTA208_17725|ppaX
BAMTA208_17730	operon_0918	NC_017188.1|gene3589|BAMTA208_17730|lgt
BAMTA208_17735	operon_0918	NC_017188.1|gene3590|BAMTA208_17735|hprK
BAMTA208_17740	operon_0919	NC_017188.1|gene3591|BAMTA208_17740|nagA
BAMTA208_17745	operon_0919	NC_017188.1|gene3592|BAMTA208_17745|nagBA
BAMTA208_17750	operon_0919	NC_017188.1|gene3593|BAMTA208_17750|yvoA
BAMTA208_17755	operon_0920	NC_017188.1|gene3594|BAMTA208_17755|yxaF
BAMTA208_17760	operon_0920	NC_017188.1|gene3595|BAMTA208_17760|yvnB
BAMTA208_17765	operon_0920	NC_017188.1|gene3596|BAMTA208_17765|yvlD
BAMTA208_17770	operon_0920	NC_017188.1|gene3597|BAMTA208_17770|yvlC
BAMTA208_17775	operon_0920	NC_017188.1|gene3598|BAMTA208_17775|yvlB
BAMTA208_17780	operon_0920	NC_017188.1|gene3599|BAMTA208_17780|yvlA
BAMTA208_17785	operon_0921	NC_017188.1|gene3600|BAMTA208_17785|yvkN
BAMTA208_17790	operon_0922	NC_017188.1|gene3601|BAMTA208_17790|uvrA
BAMTA208_17795	operon_0922	NC_017188.1|gene3602|BAMTA208_17795|uvrB
BAMTA208_17800	operon_0922	NC_017188.1|gene3603|BAMTA208_17800|csbA
BAMTA208_17805	operon_0923	NC_017188.1|gene3604|BAMTA208_17805|yvkC
BAMTA208_17810	operon_0923	NC_017188.1|gene3605|BAMTA208_17810|yvkB
BAMTA208_17815	operon_0923	NC_017188.1|gene3606|BAMTA208_17815|yvkA
BAMTA208_17820	operon_0923	NC_017188.1|gene3607|BAMTA208_17820
BAMTA208_17825	operon_0923	NC_017188.1|gene3608|BAMTA208_17825
BAMTA208_17830	operon_0924	NC_017188.1|gene3609|BAMTA208_17830|minJ
BAMTA208_17835	operon_0924	NC_017188.1|gene3610|BAMTA208_17835|swrA
BAMTA208_17840	operon_0924	NC_017188.1|gene3611|BAMTA208_17840|ctpB
BAMTA208_17845	operon_0925	NC_017188.1|gene3612|BAMTA208_17845|ywoF
BAMTA208_17850	operon_0926	NC_017188.1|gene3613|BAMTA208_17850|ftsX
BAMTA208_17855	operon_0926	NC_017188.1|gene3614|BAMTA208_17855|ftsE
BAMTA208_17860	operon_0926	NC_017188.1|gene3615|BAMTA208_17860|cccB
BAMTA208_17865	operon_0926	NC_017188.1|gene3616|BAMTA208_17865|yvjA
BAMTA208_17870	operon_0926	NC_017188.1|gene3617|BAMTA208_17870|prfB
BAMTA208_17875	operon_0926	NC_017188.1|gene3618|BAMTA208_17875|secA
BAMTA208_17880	operon_0926	NC_017188.1|gene3619|BAMTA208_17880|yvyD
BAMTA208_17885	operon_0926	NC_017188.1|gene3620|BAMTA208_17885
BAMTA208_17890	operon_0926	NC_017188.1|gene3621|BAMTA208_17890|fliT
BAMTA208_17895	operon_0926	NC_017188.1|gene3622|BAMTA208_17895|fliS
BAMTA208_17900	operon_0926	NC_017188.1|gene3623|BAMTA208_17900|fliD
BAMTA208_17905	operon_0926	NC_017188.1|gene3624|BAMTA208_17905|hag
BAMTA208_17910	operon_0926	NC_017188.1|gene3625|BAMTA208_17910|csrA
BAMTA208_17915	operon_0926	NC_017188.1|gene3626|BAMTA208_17915|fliW
BAMTA208_17920	operon_0926	NC_017188.1|gene3627|BAMTA208_17920|yviE
BAMTA208_17925	operon_0926	NC_017188.1|gene3628|BAMTA208_17925|flgL
BAMTA208_17930	operon_0926	NC_017188.1|gene3629|BAMTA208_17930|flgK
BAMTA208_17935	operon_0926	NC_017188.1|gene3630|BAMTA208_17935|yvyG
BAMTA208_17940	operon_0926	NC_017188.1|gene3631|BAMTA208_17940|flgM
BAMTA208_17945	operon_0926	NC_017188.1|gene3632|BAMTA208_17945|yvyF
BAMTA208_17950	operon_0926	NC_017188.1|gene3633|BAMTA208_17950|comFC
BAMTA208_17955	operon_0926	NC_017188.1|gene3634|BAMTA208_17955|comFB
BAMTA208_17960	operon_0926	NC_017188.1|gene3635|BAMTA208_17960|comFA
BAMTA208_17965	operon_0926	NC_017188.1|gene3636|BAMTA208_17965|degV
BAMTA208_17970	operon_0926	NC_017188.1|gene3637|BAMTA208_17970|degU
BAMTA208_17975	operon_0926	NC_017188.1|gene3638|BAMTA208_17975|degS
BAMTA208_17980	operon_0927	NC_017188.1|gene3639|BAMTA208_17980|yvyE
BAMTA208_17985	operon_0927	NC_017188.1|gene3640|BAMTA208_17985|yvhJ
BAMTA208_17990	operon_0928	NC_017188.1|gene3641|BAMTA208_17990|tagO
BAMTA208_17995	operon_0928	NC_017188.1|gene3642|BAMTA208_17995|tuaH
BAMTA208_18000	operon_0928	NC_017188.1|gene3643|BAMTA208_18000|tuaG
BAMTA208_18005	operon_0928	NC_017188.1|gene3644|BAMTA208_18005|tuaF
BAMTA208_18010	operon_0928	NC_017188.1|gene3645|BAMTA208_18010|tuaE
BAMTA208_18015	operon_0928	NC_017188.1|gene3646|BAMTA208_18015|tuaD
BAMTA208_18020	operon_0928	NC_017188.1|gene3647|BAMTA208_18020|tuaC
BAMTA208_18025	operon_0928	NC_017188.1|gene3648|BAMTA208_18025|tuaB
BAMTA208_18030	operon_0928	NC_017188.1|gene3649|BAMTA208_18030|tuaA
BAMTA208_18035	operon_0928	NC_017188.1|gene3650|BAMTA208_18035|lytC
BAMTA208_18040	operon_0928	NC_017188.1|gene3651|BAMTA208_18040|lytB
BAMTA208_18045	operon_0928	NC_017188.1|gene3652|BAMTA208_18045|lytA
BAMTA208_18050	operon_0929	NC_017188.1|gene3653|BAMTA208_18050|lytR
BAMTA208_18055	operon_0930	NC_017188.1|gene3654|BAMTA208_18055|mnaA
BAMTA208_18060	operon_0931	NC_017188.1|gene3655|BAMTA208_18060|gtaB
BAMTA208_18065	operon_0932	NC_017188.1|gene3656|BAMTA208_18065|tagH
BAMTA208_18070	operon_0932	NC_017188.1|gene3657|BAMTA208_18070|tagG
BAMTA208_18075	operon_0932	NC_017188.1|gene3658|BAMTA208_18075|tagF
BAMTA208_18080	operon_0932	NC_017188.1|gene3659|BAMTA208_18080|tagE
BAMTA208_18085	operon_0932	NC_017188.1|gene3660|BAMTA208_18085|tagD
BAMTA208_18090	operon_0933	NC_017188.1|gene3661|BAMTA208_18090|tagA
BAMTA208_18095	operon_0933	NC_017188.1|gene3662|BAMTA208_18095|tagB
BAMTA208_18100	operon_0934	NC_017188.1|gene3663|BAMTA208_18100|lytD
BAMTA208_18105	operon_0934	NC_017188.1|gene3664|BAMTA208_18105|yvyI
BAMTA208_18110	operon_0935	NC_017188.1|gene3665|BAMTA208_18110|gerBA
BAMTA208_18115	operon_0935	NC_017188.1|gene3666|BAMTA208_18115|gerBB
BAMTA208_18120	operon_0935	NC_017188.1|gene3667|BAMTA208_18120|gerBC
BAMTA208_18125	operon_0936	NC_017188.1|gene3668|BAMTA208_18125
BAMTA208_18130	operon_0936	NC_017188.1|gene3669|BAMTA208_18130|ywtG
BAMTA208_18135	operon_0937	NC_017188.1|gene3670|BAMTA208_18135|ywtF
BAMTA208_18140	operon_0937	NC_017188.1|gene3671|BAMTA208_18140|ywtE
BAMTA208_18145	operon_0937	NC_017188.1|gene3672|BAMTA208_18145|yttA
BAMTA208_18150	operon_0938	NC_017188.1|gene3673|BAMTA208_18150|pgdS
BAMTA208_18155	operon_0938	NC_017188.1|gene3674|BAMTA208_18155|pgsE
BAMTA208_18160	operon_0938	NC_017188.1|gene3675|BAMTA208_18160|pgsA3
BAMTA208_18165	operon_0938	NC_017188.1|gene3676|BAMTA208_18165|capC
BAMTA208_18170	operon_0938	NC_017188.1|gene3677|BAMTA208_18170|capB
BAMTA208_18175	operon_0938	NC_017188.1|gene3678|BAMTA208_18175
BAMTA208_18180	operon_0939	NC_017188.1|gene3679|BAMTA208_18180|gerKA1
BAMTA208_18185	operon_0939	NC_017188.1|gene3680|BAMTA208_18185|gerKB1
BAMTA208_18190	operon_0939	NC_017188.1|gene3681|BAMTA208_18190|gerKC1
BAMTA208_18195	operon_0939	NC_017188.1|gene3682|BAMTA208_18195|rbsR
BAMTA208_18200	operon_0939	NC_017188.1|gene3683|BAMTA208_18200|rbsK
BAMTA208_18205	operon_0939	NC_017188.1|gene3684|BAMTA208_18205|rbsD
BAMTA208_18210	operon_0939	NC_017188.1|gene3685|BAMTA208_18210|rbsA
BAMTA208_18215	operon_0939	NC_017188.1|gene3686|BAMTA208_18215|rbsC
BAMTA208_18220	operon_0939	NC_017188.1|gene3687|BAMTA208_18220|rbsB
BAMTA208_18225	operon_0939	NC_017188.1|gene3688|BAMTA208_18225|ywsB
BAMTA208_18230	operon_0940	NC_017188.1|gene3689|BAMTA208_18230|ywrO
BAMTA208_18235	operon_0940	NC_017188.1|gene3690|BAMTA208_18235|alsD
BAMTA208_18240	operon_0940	NC_017188.1|gene3691|BAMTA208_18240|alsS
BAMTA208_18245	operon_0941	NC_017188.1|gene3692|BAMTA208_18245|alsR
BAMTA208_18250	operon_0941	NC_017188.1|gene3693|BAMTA208_18250|ywrK
BAMTA208_18255	operon_0942	NC_017188.1|gene3694|BAMTA208_18255|ywrJ
BAMTA208_18260	operon_0942	NC_017188.1|gene3695|BAMTA208_18260|cotB
BAMTA208_18265	operon_0942	NC_017188.1|gene3696|BAMTA208_18265|cotH
BAMTA208_18270	operon_0943	NC_017188.1|gene3697|BAMTA208_18270
BAMTA208_18275	operon_0943	NC_017188.1|gene3698|BAMTA208_18275|ywrF
BAMTA208_18280	operon_0943	NC_017188.1|gene3699|BAMTA208_18280
BAMTA208_18285	operon_0944	NC_017188.1|gene3700|BAMTA208_18285|ywrD
BAMTA208_18290	operon_0945	NC_017188.1|gene3701|BAMTA208_18290|ywrC
BAMTA208_18295	operon_0945	NC_017188.1|gene3702|BAMTA208_18295|ywrB
BAMTA208_18300	operon_0945	NC_017188.1|gene3703|BAMTA208_18300|ywrA
BAMTA208_18305	operon_0946	NC_017188.1|gene3704|BAMTA208_18305
BAMTA208_18310	operon_0946	NC_017188.1|gene3705|BAMTA208_18310
BAMTA208_18315	operon_0946	NC_017188.1|gene3706|BAMTA208_18315|yxxD
BAMTA208_18320	operon_0946	NC_017188.1|gene3707|BAMTA208_18320
BAMTA208_18325	operon_0946	NC_017188.1|gene3708|BAMTA208_18325
BAMTA208_18330	operon_0946	NC_017188.1|gene3709|BAMTA208_18330|ywqJ
BAMTA208_18335	operon_0946	NC_017188.1|gene3710|BAMTA208_18335|ywqI
BAMTA208_18340	operon_0946	NC_017188.1|gene3711|BAMTA208_18340|ywqH
BAMTA208_18345	operon_0946	NC_017188.1|gene3712|BAMTA208_18345|ywqG
BAMTA208_18350	operon_0946	NC_017188.1|gene3713|BAMTA208_18350|ywqF
BAMTA208_18355	operon_0946	NC_017188.1|gene3714|BAMTA208_18355
BAMTA208_18360	operon_0947	NC_017188.1|gene3715|BAMTA208_18360
BAMTA208_18365	operon_0948	NC_017188.1|gene3716|BAMTA208_18365|ptpZ
BAMTA208_18370	operon_0948	NC_017188.1|gene3717|BAMTA208_18370|ptkA
BAMTA208_18375	operon_0948	NC_017188.1|gene3718|BAMTA208_18375|tkmA
BAMTA208_18380	operon_0948	NC_017188.1|gene3719|BAMTA208_18380|ywzD
BAMTA208_18385	operon_0949	NC_017188.1|gene3720|BAMTA208_18385|ywqB
BAMTA208_18390	operon_0949	NC_017188.1|gene3721|BAMTA208_18390|ywqA
BAMTA208_18395	operon_0950	NC_017188.1|gene3722|BAMTA208_18395|ywpJ
BAMTA208_18400	operon_0950	NC_017188.1|gene3723|BAMTA208_18400|glcR
BAMTA208_18405	operon_0950	NC_017188.1|gene3724|BAMTA208_18405|ssbB
BAMTA208_18410	operon_0950	NC_017188.1|gene3725|BAMTA208_18410|ywpG
BAMTA208_18415	operon_0951	NC_017188.1|gene3726|BAMTA208_18415|ywpF
BAMTA208_18420	operon_0952	NC_017188.1|gene3727|BAMTA208_18420|mscL
BAMTA208_18425	operon_0952	NC_017188.1|gene3728|BAMTA208_18425|fabZ
BAMTA208_18430	operon_0953	NC_017188.1|gene3729|BAMTA208_18430|rapD
BAMTA208_18435	operon_0954	NC_017188.1|gene3730|BAMTA208_18435|flhP
BAMTA208_18440	operon_0954	NC_017188.1|gene3731|BAMTA208_18440|flhO
BAMTA208_18445	operon_0954	NC_017188.1|gene3732|BAMTA208_18445|mbl
BAMTA208_18450	operon_0954	NC_017188.1|gene3733|BAMTA208_18450|spoIIID
BAMTA208_18455	operon_0955	NC_017188.1|gene3734|BAMTA208_18455|ywoH
BAMTA208_18460	operon_0955	NC_017188.1|gene3735|BAMTA208_18460|ywoG
BAMTA208_18465	operon_0956	NC_017188.1|gene3736|BAMTA208_18465|pucI
BAMTA208_18480	operon_0956	NC_017188.1|gene3737|BAMTA208_18480|ywoC
BAMTA208_18485	operon_0957	NC_017188.1|gene3738|BAMTA208_18485|amtB
BAMTA208_18490	operon_0957	NC_017188.1|gene3739|BAMTA208_18490|glnK3
BAMTA208_18495	operon_0958	NC_017188.1|gene3740|BAMTA208_18495
BAMTA208_18500	operon_0959	NC_017188.1|gene3741|BAMTA208_18500|bcrC
BAMTA208_18505	operon_0960	NC_017188.1|gene3742|BAMTA208_18505|ywnJ
BAMTA208_18510	operon_0960	NC_017188.1|gene3743|BAMTA208_18510|spoIIQ
BAMTA208_18515	operon_0961	NC_017188.1|gene3744|BAMTA208_18515|ywnH
BAMTA208_18520	operon_0961	NC_017188.1|gene3745|BAMTA208_18520|ywnG
BAMTA208_18525	operon_0962	NC_017188.1|gene3746|BAMTA208_18525|ywnF
BAMTA208_18530	operon_0962	NC_017188.1|gene3747|BAMTA208_18530
BAMTA208_18535	operon_0963	NC_017188.1|gene3748|BAMTA208_18535|clsA
BAMTA208_18540	operon_0963	NC_017188.1|gene3749|BAMTA208_18540
BAMTA208_18545	operon_0963	NC_017188.1|gene3750|BAMTA208_18545|ywnC
BAMTA208_18550	operon_0964	NC_017188.1|gene3751|BAMTA208_18550|ywnB
BAMTA208_18555	operon_0964	NC_017188.1|gene3752|BAMTA208_18555|ywnA
BAMTA208_18560	operon_0964	NC_017188.1|gene3753|BAMTA208_18560|ureC
BAMTA208_18565	operon_0964	NC_017188.1|gene3754|BAMTA208_18565|ureB
BAMTA208_18570	operon_0964	NC_017188.1|gene3755|BAMTA208_18570|ureA
BAMTA208_18575	operon_0964	NC_017188.1|gene3756|BAMTA208_18575|csbD
BAMTA208_18580	operon_0964	NC_017188.1|gene3757|BAMTA208_18580|ywmf
BAMTA208_18585	operon_0964	NC_017188.1|gene3758|BAMTA208_18585|rapB
BAMTA208_18590	operon_0964	NC_017188.1|gene3759|BAMTA208_18590|moaA
BAMTA208_18595	operon_0964	NC_017188.1|gene3760|BAMTA208_18595|fdhD
BAMTA208_18600	operon_0964	NC_017188.1|gene3761|BAMTA208_18600
BAMTA208_18605	operon_0964	NC_017188.1|gene3762|BAMTA208_18605|ywmD
BAMTA208_18610	operon_0964	NC_017188.1|gene3763|BAMTA208_18610|ywmC
BAMTA208_18615	operon_0964	NC_017188.1|gene3764|BAMTA208_18615|spoIID
BAMTA208_18620	operon_0964	NC_017188.1|gene3765|BAMTA208_18620|murAA
BAMTA208_18625	operon_0964	NC_017188.1|gene3766|BAMTA208_18625|ywmB
BAMTA208_18630	operon_0964	NC_017188.1|gene3767|BAMTA208_18630|ywzB
BAMTA208_18635	operon_0965	NC_017188.1|gene3768|BAMTA208_18635|ywmA
BAMTA208_18640	operon_0966	NC_017188.1|gene3769|BAMTA208_18640|atpC
BAMTA208_18645	operon_0966	NC_017188.1|gene3770|BAMTA208_18645|atpD
BAMTA208_18650	operon_0966	NC_017188.1|gene3771|BAMTA208_18650|atpG
BAMTA208_18655	operon_0966	NC_017188.1|gene3772|BAMTA208_18655|atpA
BAMTA208_18660	operon_0966	NC_017188.1|gene3773|BAMTA208_18660|atpH
BAMTA208_18665	operon_0966	NC_017188.1|gene3774|BAMTA208_18665|atpF
BAMTA208_18670	operon_0966	NC_017188.1|gene3775|BAMTA208_18670|atpE
BAMTA208_18675	operon_0966	NC_017188.1|gene3776|BAMTA208_18675|atpB
BAMTA208_18680	operon_0966	NC_017188.1|gene3777|BAMTA208_18680|atpI
BAMTA208_18685	operon_0966	NC_017188.1|gene3778|BAMTA208_18685|upp
BAMTA208_18690	operon_0966	NC_017188.1|gene3779|BAMTA208_18690|glyA
BAMTA208_18695	operon_0966	NC_017188.1|gene3780|BAMTA208_18695|ywlG
BAMTA208_18700	operon_0966	NC_017188.1|gene3781|BAMTA208_18700|ywlF
BAMTA208_18705	operon_0966	NC_017188.1|gene3782|BAMTA208_18705|ywlE
BAMTA208_18710	operon_0966	NC_017188.1|gene3783|BAMTA208_18710|ywlD
BAMTA208_18715	operon_0966	NC_017188.1|gene3784|BAMTA208_18715|ywlC
BAMTA208_18720	operon_0966	NC_017188.1|gene3785|BAMTA208_18720|ywlB
BAMTA208_18725	operon_0966	NC_017188.1|gene3786|BAMTA208_18725|spoIIR
BAMTA208_18730	operon_0967	NC_017188.1|gene3787|BAMTA208_18730|ywlA
BAMTA208_18735	operon_0967	NC_017188.1|gene3788|BAMTA208_18735
BAMTA208_18740	operon_0968	NC_017188.1|gene3789|BAMTA208_18740|ywkF
BAMTA208_18745	operon_0968	NC_017188.1|gene3790|BAMTA208_18745|prmC
BAMTA208_18750	operon_0968	NC_017188.1|gene3791|BAMTA208_18750|prfA
BAMTA208_18755	operon_0969	NC_017188.1|gene3792|BAMTA208_18755|ywkD
BAMTA208_18760	operon_0969	NC_017188.1|gene3793|BAMTA208_18760|racA
BAMTA208_18765	operon_0970	NC_017188.1|gene3794|BAMTA208_18765|ywkB
BAMTA208_18770	operon_0970	NC_017188.1|gene3795|BAMTA208_18770|maeA
BAMTA208_18775	operon_0970	NC_017188.1|gene3796|BAMTA208_18775|tdk
BAMTA208_18780	operon_0970	NC_017188.1|gene3797|BAMTA208_18780|rpmE
BAMTA208_18785	operon_0971	NC_017188.1|gene3798|BAMTA208_18785
BAMTA208_18790	operon_0972	NC_017188.1|gene3799|BAMTA208_18790|rho
BAMTA208_18795	operon_0972	NC_017188.1|gene3800|BAMTA208_18795|glpX
BAMTA208_18800	operon_0972	NC_017188.1|gene3801|BAMTA208_18800|murAB
BAMTA208_18805	operon_0972	NC_017188.1|gene3802|BAMTA208_18805|ywjH
BAMTA208_18810	operon_0972	NC_017188.1|gene3803|BAMTA208_18810|fbaA
BAMTA208_18815	operon_0972	NC_017188.1|gene3804|BAMTA208_18815|spo0F
BAMTA208_18820	operon_0973	NC_017188.1|gene3805|BAMTA208_18820|ywjG
BAMTA208_18825	operon_0974	NC_017188.1|gene3806|BAMTA208_18825|pyrG
BAMTA208_18830	operon_0974	NC_017188.1|gene3807|BAMTA208_18830|rpoE
BAMTA208_18835	operon_0974	NC_017188.1|gene3808|BAMTA208_18835|fadF
BAMTA208_18840	operon_0975	NC_017188.1|gene3809|BAMTA208_18840|acdA
BAMTA208_18845	operon_0975	NC_017188.1|gene3810|BAMTA208_18845|uvsE
BAMTA208_18850	operon_0975	NC_017188.1|gene3811|BAMTA208_18850|ywjC
BAMTA208_18855	operon_0976	NC_017188.1|gene3812|BAMTA208_18855|ywjA
BAMTA208_18860	operon_0976	NC_017188.1|gene3813|BAMTA208_18860|ywiE
BAMTA208_18865	operon_0976	NC_017188.1|gene3814|BAMTA208_18865|narI
BAMTA208_18870	operon_0976	NC_017188.1|gene3815|BAMTA208_18870|narJ
BAMTA208_18875	operon_0976	NC_017188.1|gene3816|BAMTA208_18875|narH
BAMTA208_18880	operon_0976	NC_017188.1|gene3817|BAMTA208_18880|narG
BAMTA208_18885	operon_0976	NC_017188.1|gene3818|BAMTA208_18885|arfM
BAMTA208_18890	operon_0977	NC_017188.1|gene3819|BAMTA208_18890|ywiC
BAMTA208_18895	operon_0978	NC_017188.1|gene3820|BAMTA208_18895|fnr
BAMTA208_18900	operon_0978	NC_017188.1|gene3821|BAMTA208_18900|narK
BAMTA208_18905	operon_0978	NC_017188.1|gene3822|BAMTA208_18905|argS
BAMTA208_18910	operon_0978	NC_017188.1|gene3823|BAMTA208_18910|ywiB
BAMTA208_18915	operon_0979	NC_017188.1|gene3824|BAMTA208_18915|albG
BAMTA208_18920	operon_0980	NC_017188.1|gene3825|BAMTA208_18920|ywhL
BAMTA208_18925	operon_0981	NC_017188.1|gene3826|BAMTA208_18925|rapF
BAMTA208_18930	operon_0981	NC_017188.1|gene3827|BAMTA208_18930
BAMTA208_18935	operon_0982	NC_017188.1|gene3828|BAMTA208_18935|speB
BAMTA208_18940	operon_0982	NC_017188.1|gene3829|BAMTA208_18940|speE
BAMTA208_18945	operon_0983	NC_017188.1|gene3830|BAMTA208_18945|pbpG
BAMTA208_18950	operon_0984	NC_017188.1|gene3831|BAMTA208_18950
BAMTA208_18955	operon_0984	NC_017188.1|gene3832|BAMTA208_18955|ywhD
BAMTA208_18960	operon_0984	NC_017188.1|gene3833|BAMTA208_18960|ywhC
BAMTA208_18965	operon_0985	NC_017188.1|gene3834|BAMTA208_18965|ywhB
BAMTA208_18970	operon_0986	NC_017188.1|gene3835|BAMTA208_18970|ywhA
BAMTA208_18975	operon_0987	NC_017188.1|gene3836|BAMTA208_18975
BAMTA208_18980	operon_0988	NC_017188.1|gene3837|BAMTA208_18980|ywgA
BAMTA208_18985	operon_0988	NC_017188.1|gene3838|BAMTA208_18985|ywfO
BAMTA208_18990	operon_0988	NC_017188.1|gene3839|BAMTA208_18990|ywzC
BAMTA208_18995	operon_0988	NC_017188.1|gene3840|BAMTA208_18995
BAMTA208_19000	operon_0989	NC_017188.1|gene3841|BAMTA208_19000|rsfA
BAMTA208_19005	operon_0989	NC_017188.1|gene3842|BAMTA208_19005
BAMTA208_19010	operon_0989	NC_017188.1|gene3843|BAMTA208_19010
BAMTA208_19025	operon_0989	NC_017188.1|gene3844|BAMTA208_19025
BAMTA208_19030	operon_0990	NC_017188.1|gene3845|BAMTA208_19030
BAMTA208_19035	operon_0990	NC_017188.1|gene3846|BAMTA208_19035
BAMTA208_19040	operon_0990	NC_017188.1|gene3847|BAMTA208_19040
BAMTA208_19045	operon_0990	NC_017188.1|gene3848|BAMTA208_19045|ywfL
BAMTA208_19050	operon_0990	NC_017188.1|gene3849|BAMTA208_19050|cysL
BAMTA208_19055	operon_0991	NC_017188.1|gene3850|BAMTA208_19055
BAMTA208_19060	operon_0992	NC_017188.1|gene3851|BAMTA208_19060|eutD
BAMTA208_19065	operon_0993	NC_017188.1|gene3852|BAMTA208_19065|ywfI
BAMTA208_19070	operon_0993	NC_017188.1|gene3853|BAMTA208_19070|ywfH
BAMTA208_19075	operon_0994	NC_017188.1|gene3854|BAMTA208_19075|bacF
BAMTA208_19080	operon_0994	NC_017188.1|gene3855|BAMTA208_19080|bacE
BAMTA208_19085	operon_0994	NC_017188.1|gene3856|BAMTA208_19085|bacD
BAMTA208_19090	operon_0994	NC_017188.1|gene3857|BAMTA208_19090|bacC
BAMTA208_19095	operon_0994	NC_017188.1|gene3858|BAMTA208_19095|bacB
BAMTA208_19100	operon_0994	NC_017188.1|gene3859|BAMTA208_19100|bacA
BAMTA208_19105	operon_0994	NC_017188.1|gene3860|BAMTA208_19105|ywfA
BAMTA208_19110	operon_0995	NC_017188.1|gene3861|BAMTA208_19110
BAMTA208_19115	operon_0996	NC_017188.1|gene3862|BAMTA208_19115|rocC
BAMTA208_19120	operon_0996	NC_017188.1|gene3863|BAMTA208_19120|rocB
BAMTA208_19125	operon_0996	NC_017188.1|gene3864|BAMTA208_19125|rocA
BAMTA208_19130	operon_0996	NC_017188.1|gene3865|BAMTA208_19130
BAMTA208_19135	operon_0996	NC_017188.1|gene3866|BAMTA208_19135|rocG
BAMTA208_19140	operon_0996	NC_017188.1|gene3867|BAMTA208_19140|yweA
BAMTA208_19145	operon_0996	NC_017188.1|gene3868|BAMTA208_19145|spsL
BAMTA208_19150	operon_0996	NC_017188.1|gene3869|BAMTA208_19150|spsK
BAMTA208_19155	operon_0996	NC_017188.1|gene3870|BAMTA208_19155|spsJ
BAMTA208_19160	operon_0996	NC_017188.1|gene3871|BAMTA208_19160|spsI
BAMTA208_19165	operon_0996	NC_017188.1|gene3872|BAMTA208_19165|spsG
BAMTA208_19170	operon_0996	NC_017188.1|gene3873|BAMTA208_19170|spsF
BAMTA208_19175	operon_0996	NC_017188.1|gene3874|BAMTA208_19175|spsE
BAMTA208_19180	operon_0996	NC_017188.1|gene3875|BAMTA208_19180|spsD
BAMTA208_19185	operon_0996	NC_017188.1|gene3876|BAMTA208_19185|spsC
BAMTA208_19190	operon_0996	NC_017188.1|gene3877|BAMTA208_19190|spsB
BAMTA208_19195	operon_0996	NC_017188.1|gene3878|BAMTA208_19195|spsA
BAMTA208_19200	operon_0997	NC_017188.1|gene3879|BAMTA208_19200|gerQ
BAMTA208_19205	operon_0998	NC_017188.1|gene3880|BAMTA208_19205|ywdK
BAMTA208_19210	operon_0998	NC_017188.1|gene3881|BAMTA208_19210|ywdJ
BAMTA208_19215	operon_0998	NC_017188.1|gene3882|BAMTA208_19215|ywdI
BAMTA208_19220	operon_0998	NC_017188.1|gene3883|BAMTA208_19220|ung
BAMTA208_19225	operon_0998	NC_017188.1|gene3884|BAMTA208_19225|ywdF
BAMTA208_19230	operon_0998	NC_017188.1|gene3885|BAMTA208_19230|ywdE
BAMTA208_19235	operon_0999	NC_017188.1|gene3886|BAMTA208_19235|pdxK
BAMTA208_19240	operon_1000	NC_017188.1|gene3887|BAMTA208_19240|ywdA
BAMTA208_19245	operon_1000	NC_017188.1|gene3888|BAMTA208_19245|sacA
BAMTA208_19250	operon_1000	NC_017188.1|gene3889|BAMTA208_19250|sacP
BAMTA208_19255	operon_1000	NC_017188.1|gene3890|BAMTA208_19255|sacT
BAMTA208_19260	operon_1000	NC_017188.1|gene3891|BAMTA208_19260|ywcI
BAMTA208_19265	operon_1001	NC_017188.1|gene3892|BAMTA208_19265|vpr
BAMTA208_19270	operon_1002	NC_017188.1|gene3893|BAMTA208_19270|ywcH
BAMTA208_19275	operon_1003	NC_017188.1|gene3894|BAMTA208_19275|yobV1
BAMTA208_19280	operon_1003	NC_017188.1|gene3895|BAMTA208_19280|yvrD1
BAMTA208_19285	operon_1003	NC_017188.1|gene3896|BAMTA208_19285
BAMTA208_19290	operon_1003	NC_017188.1|gene3897|BAMTA208_19290
BAMTA208_19295	operon_1004	NC_017188.1|gene3898|BAMTA208_19295|nfrA
BAMTA208_19300	operon_1004	NC_017188.1|gene3899|BAMTA208_19300|rodA
BAMTA208_19305	operon_1004	NC_017188.1|gene3900|BAMTA208_19305|ysnE
BAMTA208_19310	operon_1005	NC_017188.1|gene3901|BAMTA208_19310|ywcE
BAMTA208_19315	operon_1006	NC_017188.1|gene3902|BAMTA208_19315|qoxD
BAMTA208_19320	operon_1006	NC_017188.1|gene3903|BAMTA208_19320|qoxC
BAMTA208_19325	operon_1006	NC_017188.1|gene3904|BAMTA208_19325|qoxB
BAMTA208_19330	operon_1006	NC_017188.1|gene3905|BAMTA208_19330|qoxA
BAMTA208_19335	operon_1007	NC_017188.1|gene3906|BAMTA208_19335|ywzA
BAMTA208_19340	operon_1008	NC_017188.1|gene3907|BAMTA208_19340|galT
BAMTA208_19345	operon_1008	NC_017188.1|gene3908|BAMTA208_19345|galK
BAMTA208_19350	operon_1008	NC_017188.1|gene3909|BAMTA208_19350|gtaC
BAMTA208_19355	operon_1008	NC_017188.1|gene3910|BAMTA208_19355|ywcC
BAMTA208_19360	operon_1009	NC_017188.1|gene3911|BAMTA208_19360
BAMTA208_19365	operon_1009	NC_017188.1|gene3912|BAMTA208_19365
BAMTA208_19370	operon_1009	NC_017188.1|gene3913|BAMTA208_19370
BAMTA208_19375	operon_1010	NC_017188.1|gene3914|BAMTA208_19375|ywbO
BAMTA208_19380	operon_1010	NC_017188.1|gene3915|BAMTA208_19380|efeN
BAMTA208_19385	operon_1010	NC_017188.1|gene3916|BAMTA208_19385|efeM
BAMTA208_19390	operon_1010	NC_017188.1|gene3917|BAMTA208_19390|efeU
BAMTA208_19395	operon_1010	NC_017188.1|gene3918|BAMTA208_19395|thiE
BAMTA208_19400	operon_1010	NC_017188.1|gene3919|BAMTA208_19400|thiM
BAMTA208_19405	operon_1010	NC_017188.1|gene3920|BAMTA208_19405|ywbI
BAMTA208_19410	operon_1011	NC_017188.1|gene3921|BAMTA208_19410|cidA
BAMTA208_19415	operon_1011	NC_017188.1|gene3922|BAMTA208_19415|lrgB3
BAMTA208_19420	operon_1011	NC_017188.1|gene3923|BAMTA208_19420|ywbE
BAMTA208_19425	operon_1011	NC_017188.1|gene3924|BAMTA208_19425
BAMTA208_19430	operon_1011	NC_017188.1|gene3925|BAMTA208_19430
BAMTA208_19435	operon_1012	NC_017188.1|gene3926|BAMTA208_19435|ywbD
BAMTA208_19440	operon_1013	NC_017188.1|gene3927|BAMTA208_19440|ywbC
BAMTA208_19445	operon_1014	NC_017188.1|gene3928|BAMTA208_19445|ywbA
BAMTA208_19450	operon_1015	NC_017188.1|gene3929|BAMTA208_19450|epr
BAMTA208_19455	operon_1016	NC_017188.1|gene3930|BAMTA208_19455|gspA
BAMTA208_19460	operon_1017	NC_017188.1|gene3931|BAMTA208_19460
BAMTA208_19465	operon_1018	NC_017188.1|gene3932|BAMTA208_19465|ywaC
BAMTA208_19470	operon_1018	NC_017188.1|gene3933|BAMTA208_19470|menA
BAMTA208_19475	operon_1019	NC_017188.1|gene3934|BAMTA208_19475
BAMTA208_19480	operon_1019	NC_017188.1|gene3935|BAMTA208_19480|dltA
BAMTA208_19485	operon_1019	NC_017188.1|gene3936|BAMTA208_19485|dltB
BAMTA208_19490	operon_1019	NC_017188.1|gene3937|BAMTA208_19490|dltC
BAMTA208_19495	operon_1019	NC_017188.1|gene3938|BAMTA208_19495|dltD
BAMTA208_19500	operon_1019	NC_017188.1|gene3939|BAMTA208_19500|ilvK
BAMTA208_19505	operon_1020	NC_017188.1|gene3940|BAMTA208_19505|licH
BAMTA208_19510	operon_1020	NC_017188.1|gene3941|BAMTA208_19510|licA
BAMTA208_19515	operon_1020	NC_017188.1|gene3942|BAMTA208_19515|licC
BAMTA208_19520	operon_1020	NC_017188.1|gene3943|BAMTA208_19520|licB
BAMTA208_19525	operon_1020	NC_017188.1|gene3944|BAMTA208_19525|licR
BAMTA208_19530	operon_1020	NC_017188.1|gene3945|BAMTA208_19530|yxzF
BAMTA208_19535	operon_1020	NC_017188.1|gene3946|BAMTA208_19535|aag
BAMTA208_19540	operon_1021	NC_017188.1|gene3947|BAMTA208_19540
BAMTA208_19545	operon_1021	NC_017188.1|gene3948|BAMTA208_19545
BAMTA208_19550	operon_1021	NC_017188.1|gene3949|BAMTA208_19550
BAMTA208_19555	operon_1021	NC_017188.1|gene3950|BAMTA208_19555|aseR
BAMTA208_19560	operon_1021	NC_017188.1|gene3951|BAMTA208_19560|aseA
BAMTA208_19565	operon_1021	NC_017188.1|gene3952|BAMTA208_19565|ydhM
BAMTA208_19570	operon_1021	NC_017188.1|gene3953|BAMTA208_19570|ydhN
BAMTA208_19575	operon_1021	NC_017188.1|gene3954|BAMTA208_19575|ydhO
BAMTA208_19580	operon_1021	NC_017188.1|gene3955|BAMTA208_19580|ydhP
BAMTA208_19585	operon_1021	NC_017188.1|gene3956|BAMTA208_19585|ydhR
BAMTA208_19590	operon_1021	NC_017188.1|gene3957|BAMTA208_19590|ydhS
BAMTA208_19595	operon_1021	NC_017188.1|gene3958|BAMTA208_19595|ydhT
BAMTA208_19600	operon_1021	NC_017188.1|gene3959|BAMTA208_19600|katX
BAMTA208_19605	operon_1022	NC_017188.1|gene3960|BAMTA208_19605|yxeI
BAMTA208_19610	operon_1023	NC_017188.1|gene3961|BAMTA208_19610|yxlA
BAMTA208_19615	operon_1024	NC_017188.1|gene3962|BAMTA208_19615|yxkO
BAMTA208_19620	operon_1024	NC_017188.1|gene3963|BAMTA208_19620|cydD
BAMTA208_19625	operon_1024	NC_017188.1|gene3964|BAMTA208_19625|cydC
BAMTA208_19630	operon_1024	NC_017188.1|gene3965|BAMTA208_19630|cydB
BAMTA208_19635	operon_1024	NC_017188.1|gene3966|BAMTA208_19635|cydA
BAMTA208_19640	operon_1025	NC_017188.1|gene3967|BAMTA208_19640|cimH
BAMTA208_19645	operon_1026	NC_017188.1|gene3968|BAMTA208_19645|yxkH
BAMTA208_19650	operon_1026	NC_017188.1|gene3969|BAMTA208_19650|msmX
BAMTA208_19655	operon_1026	NC_017188.1|gene3970|BAMTA208_19655|yxkF
BAMTA208_19660	operon_1026	NC_017188.1|gene3971|BAMTA208_19660|yxkD
BAMTA208_19665	operon_1026	NC_017188.1|gene3972|BAMTA208_19665
BAMTA208_19670	operon_1027	NC_017188.1|gene3973|BAMTA208_19670|yxkC
BAMTA208_19675	operon_1028	NC_017188.1|gene3974|BAMTA208_19675|galE
BAMTA208_19680	operon_1029	NC_017188.1|gene3975|BAMTA208_19680|pepT
BAMTA208_19685	operon_1029	NC_017188.1|gene3976|BAMTA208_19685
BAMTA208_19690	operon_1029	NC_017188.1|gene3977|BAMTA208_19690
BAMTA208_19695	operon_1029	NC_017188.1|gene3978|BAMTA208_19695|yxjI
BAMTA208_19700	operon_1029	NC_017188.1|gene3979|BAMTA208_19700|yxjG
BAMTA208_19705	operon_1030	NC_017188.1|gene3980|BAMTA208_19705|yxjB
BAMTA208_19710	operon_1031	NC_017188.1|gene3981|BAMTA208_19710|nupG
BAMTA208_19715	operon_1032	NC_017188.1|gene3982|BAMTA208_19715
BAMTA208_19720	operon_1032	NC_017188.1|gene3983|BAMTA208_19720|yxiS
BAMTA208_19725	operon_1032	NC_017188.1|gene3984|BAMTA208_19725
BAMTA208_19730	operon_1032	NC_017188.1|gene3985|BAMTA208_19730|katE
BAMTA208_19735	operon_1033	NC_017188.1|gene3986|BAMTA208_19735|citH
BAMTA208_19740	operon_1034	NC_017188.1|gene3987|BAMTA208_19740|bglS
BAMTA208_19745	operon_1034	NC_017188.1|gene3988|BAMTA208_19745|licT
BAMTA208_19750	operon_1035	NC_017188.1|gene3989|BAMTA208_19750|yxiO
BAMTA208_19755	operon_1036	NC_017188.1|gene3990|BAMTA208_19755|hbs3
BAMTA208_19760	operon_1036	NC_017188.1|gene3991|BAMTA208_19760
BAMTA208_19765	operon_1036	NC_017188.1|gene3992|BAMTA208_19765|yxzC
BAMTA208_19770	operon_1036	NC_017188.1|gene3993|BAMTA208_19770|yxiJ
BAMTA208_19775	operon_1036	NC_017188.1|gene3994|BAMTA208_19775|yxzG
BAMTA208_19780	operon_1036	NC_017188.1|gene3995|BAMTA208_19780
BAMTA208_19785	operon_1036	NC_017188.1|gene3996|BAMTA208_19785|yxiG
BAMTA208_19790	operon_1036	NC_017188.1|gene3997|BAMTA208_19790|yxxG
BAMTA208_19795	operon_1036	NC_017188.1|gene3998|BAMTA208_19795
BAMTA208_19800	operon_1036	NC_017188.1|gene3999|BAMTA208_19800
BAMTA208_19805	operon_1036	NC_017188.1|gene4000|BAMTA208_19805|pelB
BAMTA208_19810	operon_1036	NC_017188.1|gene4001|BAMTA208_19810|yxxF
BAMTA208_19815	operon_1036	NC_017188.1|gene4002|BAMTA208_19815|yxiE
BAMTA208_19820	operon_1036	NC_017188.1|gene4003|BAMTA208_19820|bglH
BAMTA208_19825	operon_1036	NC_017188.1|gene4004|BAMTA208_19825|bglP
BAMTA208_19830	operon_1036	NC_017188.1|gene4005|BAMTA208_19830|vsr
BAMTA208_19835	operon_1037	NC_017188.1|gene4006|BAMTA208_19835
BAMTA208_19840	operon_1037	NC_017188.1|gene4007|BAMTA208_19840
BAMTA208_19845	operon_1037	NC_017188.1|gene4008|BAMTA208_19845
BAMTA208_19850	operon_1037	NC_017188.1|gene4009|BAMTA208_19850
BAMTA208_19855	operon_1037	NC_017188.1|gene4010|BAMTA208_19855
BAMTA208_19870	operon_1038	NC_017188.1|gene4011|BAMTA208_19870|abn2
BAMTA208_19875	operon_1039	NC_017188.1|gene4012|BAMTA208_19875|hutP
BAMTA208_19880	operon_1039	NC_017188.1|gene4013|BAMTA208_19880|hutH
BAMTA208_19885	operon_1039	NC_017188.1|gene4014|BAMTA208_19885|hutU
BAMTA208_19890	operon_1039	NC_017188.1|gene4015|BAMTA208_19890|hutI
BAMTA208_19895	operon_1039	NC_017188.1|gene4016|BAMTA208_19895|hutG
BAMTA208_19900	operon_1039	NC_017188.1|gene4017|BAMTA208_19900|hutM
BAMTA208_19905	operon_1040	NC_017188.1|gene4018|BAMTA208_19905|pdp
BAMTA208_19910	operon_1040	NC_017188.1|gene4019|BAMTA208_19910|nupC
BAMTA208_19915	operon_1040	NC_017188.1|gene4020|BAMTA208_19915|dra
BAMTA208_19920	operon_1040	NC_017188.1|gene4021|BAMTA208_19920|deoR
BAMTA208_19925	operon_1040	NC_017188.1|gene4022|BAMTA208_19925|yxeH
BAMTA208_19930	operon_1040	NC_017188.1|gene4023|BAMTA208_19930|yxeG
BAMTA208_19935	operon_1040	NC_017188.1|gene4024|BAMTA208_19935|yxeF
BAMTA208_19940	operon_1041	NC_017188.1|gene4025|BAMTA208_19940|yxeE
BAMTA208_19945	operon_1041	NC_017188.1|gene4026|BAMTA208_19945|yxeD
BAMTA208_19950	operon_1042	NC_017188.1|gene4027|BAMTA208_19950|yxeC
BAMTA208_19955	operon_1043	NC_017188.1|gene4028|BAMTA208_19955|yxeB
BAMTA208_19960	operon_1044	NC_017188.1|gene4029|BAMTA208_19960|yxeA
BAMTA208_19965	operon_1044	NC_017188.1|gene4030|BAMTA208_19965|yxdM
BAMTA208_19970	operon_1044	NC_017188.1|gene4031|BAMTA208_19970|yxdL
BAMTA208_19975	operon_1044	NC_017188.1|gene4032|BAMTA208_19975|yxdK
BAMTA208_19980	operon_1044	NC_017188.1|gene4033|BAMTA208_19980|yxdJ
BAMTA208_19985	operon_1044	NC_017188.1|gene4034|BAMTA208_19985|iolJ
BAMTA208_19990	operon_1044	NC_017188.1|gene4035|BAMTA208_19990|iolI
BAMTA208_19995	operon_1044	NC_017188.1|gene4036|BAMTA208_19995|iolH
BAMTA208_20000	operon_1044	NC_017188.1|gene4037|BAMTA208_20000|iolG
BAMTA208_20005	operon_1044	NC_017188.1|gene4038|BAMTA208_20005|iolF
BAMTA208_20010	operon_1044	NC_017188.1|gene4039|BAMTA208_20010|iolE
BAMTA208_20015	operon_1044	NC_017188.1|gene4040|BAMTA208_20015|iolD
BAMTA208_20020	operon_1044	NC_017188.1|gene4041|BAMTA208_20020|iolC
BAMTA208_20025	operon_1044	NC_017188.1|gene4042|BAMTA208_20025|iolB
BAMTA208_20030	operon_1044	NC_017188.1|gene4043|BAMTA208_20030|mmsA
BAMTA208_20035	operon_1045	NC_017188.1|gene4044|BAMTA208_20035|iolR
BAMTA208_20040	operon_1045	NC_017188.1|gene4045|BAMTA208_20040|iolS
BAMTA208_20045	operon_1045	NC_017188.1|gene4046|BAMTA208_20045|csbC
BAMTA208_20050	operon_1046	NC_017188.1|gene4047|BAMTA208_20050|htpG
BAMTA208_20055	operon_1047	NC_017188.1|gene4048|BAMTA208_20055|yxbG
BAMTA208_20060	operon_1048	NC_017188.1|gene4049|BAMTA208_20060|desR
BAMTA208_20065	operon_1048	NC_017188.1|gene4050|BAMTA208_20065|desK
BAMTA208_20070	operon_1048	NC_017188.1|gene4051|BAMTA208_20070|des
BAMTA208_20075	operon_1048	NC_017188.1|gene4052|BAMTA208_20075|yxbF
BAMTA208_20080	operon_1049	NC_017188.1|gene4053|BAMTA208_20080|aldX
BAMTA208_20085	operon_1050	NC_017188.1|gene4054|BAMTA208_20085|yxaL
BAMTA208_20090	operon_1050	NC_017188.1|gene4055|BAMTA208_20090|yxaJ
BAMTA208_20095	operon_1051	NC_017188.1|gene4056|BAMTA208_20095|arsR
BAMTA208_20100	operon_1051	NC_017188.1|gene4057|BAMTA208_20100
BAMTA208_20105	operon_1051	NC_017188.1|gene4058|BAMTA208_20105|yxaI
BAMTA208_20110	operon_1052	NC_017188.1|gene4059|BAMTA208_20110
BAMTA208_20115	operon_1053	NC_017188.1|gene4060|BAMTA208_20115|ahpC
BAMTA208_20120	operon_1053	NC_017188.1|gene4061|BAMTA208_20120|ahpF
BAMTA208_20125	operon_1054	NC_017188.1|gene4062|BAMTA208_20125
BAMTA208_20130	operon_1054	NC_017188.1|gene4063|BAMTA208_20130|ydgF
BAMTA208_20135	operon_1054	NC_017188.1|gene4064|BAMTA208_20135
BAMTA208_20140	operon_1055	NC_017188.1|gene4065|BAMTA208_20140
BAMTA208_20145	operon_1055	NC_017188.1|gene4066|BAMTA208_20145
BAMTA208_20150	operon_1056	NC_017188.1|gene4067|BAMTA208_20150
BAMTA208_20155	operon_1057	NC_017188.1|gene4068|BAMTA208_20155|fbp
BAMTA208_20160	operon_1058	NC_017188.1|gene4069|BAMTA208_20160
BAMTA208_20165	operon_1058	NC_017188.1|gene4070|BAMTA208_20165
BAMTA208_20170	operon_1058	NC_017188.1|gene4071|BAMTA208_20170
BAMTA208_20175	operon_1058	NC_017188.1|gene4072|BAMTA208_20175
BAMTA208_20180	operon_1058	NC_017188.1|gene4073|BAMTA208_20180
BAMTA208_20185	operon_1058	NC_017188.1|gene4074|BAMTA208_20185
BAMTA208_20190	operon_1059	NC_017188.1|gene4075|BAMTA208_20190
BAMTA208_20195	operon_1059	NC_017188.1|gene4076|BAMTA208_20195
BAMTA208_20200	operon_1060	NC_017188.1|gene4077|BAMTA208_20200|pcrA3
BAMTA208_20205	operon_1060	NC_017188.1|gene4078|BAMTA208_20205
BAMTA208_20210	operon_1060	NC_017188.1|gene4079|BAMTA208_20210
BAMTA208_20215	operon_1060	NC_017188.1|gene4080|BAMTA208_20215|toprim
BAMTA208_20220	operon_1060	NC_017188.1|gene4081|BAMTA208_20220|yydA
BAMTA208_20225	operon_1060	NC_017188.1|gene4082|BAMTA208_20225|yyzF
BAMTA208_20230	operon_1060	NC_017188.1|gene4083|BAMTA208_20230
BAMTA208_20235	operon_1060	NC_017188.1|gene4084|BAMTA208_20235
BAMTA208_20240	operon_1060	NC_017188.1|gene4085|BAMTA208_20240|yycP
BAMTA208_20245	operon_1060	NC_017188.1|gene4086|BAMTA208_20245|yycO
BAMTA208_20250	operon_1061	NC_017188.1|gene4087|BAMTA208_20250
BAMTA208_20255	operon_1062	NC_017188.1|gene4088|BAMTA208_20255|yycN
BAMTA208_20260	operon_1062	NC_017188.1|gene4089|BAMTA208_20260
BAMTA208_20265	operon_1062	NC_017188.1|gene4090|BAMTA208_20265
BAMTA208_20270	operon_1062	NC_017188.1|gene4091|BAMTA208_20270|argI
BAMTA208_20275	operon_1062	NC_017188.1|gene4092|BAMTA208_20275|rocE
BAMTA208_20280	operon_1062	NC_017188.1|gene4093|BAMTA208_20280|rocD
BAMTA208_20285	operon_1062	NC_017188.1|gene4094|BAMTA208_20285|sdpI
BAMTA208_20290	operon_1062	NC_017188.1|gene4095|BAMTA208_20290|sdpR
BAMTA208_20295	operon_1063	NC_017188.1|gene4096|BAMTA208_20295|rocR
BAMTA208_20300	operon_1064	NC_017188.1|gene4097|BAMTA208_20300
BAMTA208_20305	operon_1064	NC_017188.1|gene4098|BAMTA208_20305
BAMTA208_20310	operon_1064	NC_017188.1|gene4099|BAMTA208_20310
BAMTA208_20315	operon_1064	NC_017188.1|gene4100|BAMTA208_20315
BAMTA208_20320	operon_1065	NC_017188.1|gene4101|BAMTA208_20320
BAMTA208_20325	operon_1066	NC_017188.1|gene4102|BAMTA208_20325|htrC
BAMTA208_20330	operon_1066	NC_017188.1|gene4103|BAMTA208_20330|yycJ
BAMTA208_20335	operon_1066	NC_017188.1|gene4104|BAMTA208_20335|yycI
BAMTA208_20340	operon_1066	NC_017188.1|gene4105|BAMTA208_20340|walH
BAMTA208_20345	operon_1066	NC_017188.1|gene4106|BAMTA208_20345|walK
BAMTA208_20350	operon_1066	NC_017188.1|gene4107|BAMTA208_20350|walR
BAMTA208_20355	operon_1066	NC_017188.1|gene4108|BAMTA208_20355
BAMTA208_t20809	operon_1066	NC_017188.1|gene4109|BAMTA208_t20809
BAMTA208_t20811	operon_1066	NC_017188.1|gene4110|BAMTA208_t20811
BAMTA208_t20813	operon_1066	NC_017188.1|gene4111|BAMTA208_t20813
BAMTA208_t20815	operon_1066	NC_017188.1|gene4112|BAMTA208_t20815
BAMTA208_20360	operon_1066	NC_017188.1|gene4113|BAMTA208_20360
BAMTA208_20365	operon_1067	NC_017188.1|gene4114|BAMTA208_20365
BAMTA208_20370	operon_1068	NC_017188.1|gene4115|BAMTA208_20370|yycE
BAMTA208_20375	operon_1068	NC_017188.1|gene4116|BAMTA208_20375|dnaC3
BAMTA208_20380	operon_1069	NC_017188.1|gene4117|BAMTA208_20380|yycD
BAMTA208_20385	operon_1070	NC_017188.1|gene4118|BAMTA208_20385|yyzB
BAMTA208_20390	operon_1071	NC_017188.1|gene4119|BAMTA208_20390|yycC
BAMTA208_20395	operon_1072	NC_017188.1|gene4120|BAMTA208_20395
BAMTA208_20400	operon_1072	NC_017188.1|gene4121|BAMTA208_20400
BAMTA208_20405	operon_1072	NC_017188.1|gene4122|BAMTA208_20405
BAMTA208_20410	operon_1072	NC_017188.1|gene4123|BAMTA208_20410
BAMTA208_20415	operon_1072	NC_017188.1|gene4124|BAMTA208_20415
BAMTA208_20420	operon_1072	NC_017188.1|gene4125|BAMTA208_20420
BAMTA208_20425	operon_1072	NC_017188.1|gene4126|BAMTA208_20425|rplI
BAMTA208_20430	operon_1072	NC_017188.1|gene4127|BAMTA208_20430|yybT
BAMTA208_20435	operon_1072	NC_017188.1|gene4128|BAMTA208_20435|yybS
BAMTA208_20440	operon_1072	NC_017188.1|gene4129|BAMTA208_20440|yyzH
BAMTA208_20445	operon_1073	NC_017188.1|gene4130|BAMTA208_20445|cotF
BAMTA208_20450	operon_1074	NC_017188.1|gene4131|BAMTA208_20450|yybR
BAMTA208_20455	operon_1075	NC_017188.1|gene4132|BAMTA208_20455|ppaC
BAMTA208_20460	operon_1075	NC_017188.1|gene4133|BAMTA208_20460
BAMTA208_20465	operon_1075	NC_017188.1|gene4134|BAMTA208_20465|sacB
BAMTA208_20470	operon_1075	NC_017188.1|gene4135|BAMTA208_20470|levB
BAMTA208_20475	operon_1075	NC_017188.1|gene4136|BAMTA208_20475
BAMTA208_20480	operon_1076	NC_017188.1|gene4137|BAMTA208_20480|dinB
BAMTA208_20485	operon_1076	NC_017188.1|gene4138|BAMTA208_20485|yfmI1
BAMTA208_20490	operon_1076	NC_017188.1|gene4139|BAMTA208_20490
BAMTA208_20495	operon_1076	NC_017188.1|gene4140|BAMTA208_20495|ydgI
BAMTA208_20500	operon_1076	NC_017188.1|gene4141|BAMTA208_20500|ydgJ
BAMTA208_20505	operon_1076	NC_017188.1|gene4142|BAMTA208_20505|ydeO
BAMTA208_20510	operon_1076	NC_017188.1|gene4143|BAMTA208_20510|yybA
BAMTA208_20515	operon_1077	NC_017188.1|gene4144|BAMTA208_20515|yyaT
BAMTA208_20520	operon_1078	NC_017188.1|gene4145|BAMTA208_20520
BAMTA208_20525	operon_1078	NC_017188.1|gene4146|BAMTA208_20525
BAMTA208_20530	operon_1079	NC_017188.1|gene4147|BAMTA208_20530
BAMTA208_20535	operon_1079	NC_017188.1|gene4148|BAMTA208_20535
BAMTA208_20540	operon_1080	NC_017188.1|gene4149|BAMTA208_20540
BAMTA208_20545	operon_1081	NC_017188.1|gene4150|BAMTA208_20545|yyaL
BAMTA208_20550	operon_1082	NC_017188.1|gene4151|BAMTA208_20550|yyaK
BAMTA208_20555	operon_1083	NC_017188.1|gene4152|BAMTA208_20555|yyaJ
BAMTA208_20560	operon_1084	NC_017188.1|gene4153|BAMTA208_20560|yyaH
BAMTA208_20565	operon_1084	NC_017188.1|gene4154|BAMTA208_20565|ccpB
BAMTA208_20570	operon_1084	NC_017188.1|gene4155|BAMTA208_20570|exoAA
BAMTA208_20575	operon_1084	NC_017188.1|gene4156|BAMTA208_20575|adaB
BAMTA208_20580	operon_1084	NC_017188.1|gene4157|BAMTA208_20580|adaA
BAMTA208_20585	operon_1084	NC_017188.1|gene4158|BAMTA208_20585|rpsR
BAMTA208_20590	operon_1084	NC_017188.1|gene4159|BAMTA208_20590|ssbA
BAMTA208_20595	operon_1084	NC_017188.1|gene4160|BAMTA208_20595|rpsF
BAMTA208_20600	operon_1084	NC_017188.1|gene4161|BAMTA208_20600|engD
BAMTA208_20605	operon_1084	NC_017188.1|gene4162|BAMTA208_20605|yyaE
BAMTA208_20610	operon_1084	NC_017188.1|gene4163|BAMTA208_20610|yyzM
BAMTA208_20615	operon_1084	NC_017188.1|gene4164|BAMTA208_20615|yyaD
BAMTA208_20620	operon_1085	NC_017188.1|gene4165|BAMTA208_20620
BAMTA208_20625	operon_1085	NC_017188.1|gene4166|BAMTA208_20625|yyaC
BAMTA208_20630	operon_1086	NC_017188.1|gene4167|BAMTA208_20630|parB
BAMTA208_20635	operon_1086	NC_017188.1|gene4168|BAMTA208_20635|parA
BAMTA208_20640	operon_1086	NC_017188.1|gene4169|BAMTA208_20640|noc
BAMTA208_20645	operon_1086	NC_017188.1|gene4170|BAMTA208_20645|rsmG
BAMTA208_20650	operon_1086	NC_017188.1|gene4171|BAMTA208_20650|trmF
BAMTA208_20655	operon_1086	NC_017188.1|gene4172|BAMTA208_20655|trmE
BAMTA208_20660	operon_1086	NC_017188.1|gene4173|BAMTA208_20660|jag
BAMTA208_20665	operon_1086	NC_017188.1|gene4174|BAMTA208_20665|spoIIIJ
BAMTA208_20670	operon_1086	NC_017188.1|gene4175|BAMTA208_20670|rnpA
BAMTA208_20675	operon_1086	NC_017188.1|gene4176|BAMTA208_20675|rpmH