Locus_tag	OperonID	Description
UMNK88_1	operon_0001	NC_017641.1|gene0|UMNK88_1
UMNK88_2	operon_0001	NC_017641.1|gene1|UMNK88_2|thrB
UMNK88_3	operon_0001	NC_017641.1|gene2|UMNK88_3|thrC
UMNK88_4	operon_0001	NC_017641.1|gene3|UMNK88_4
UMNK88_5	operon_0002	NC_017641.1|gene4|UMNK88_5
UMNK88_6	operon_0002	NC_017641.1|gene5|UMNK88_6|alsT
UMNK88_7	operon_0003	NC_017641.1|gene6|UMNK88_7|talB
UMNK88_8	operon_0003	NC_017641.1|gene7|UMNK88_8|mogA
UMNK88_9	operon_0004	NC_017641.1|gene8|UMNK88_9
UMNK88_10	operon_0004	NC_017641.1|gene9|UMNK88_10
UMNK88_11	operon_0004	NC_017641.1|gene10|UMNK88_11
UMNK88_12	operon_0005	NC_017641.1|gene11|UMNK88_12|dnaK
UMNK88_13	operon_0005	NC_017641.1|gene12|UMNK88_13|dnaJ
UMNK88_14	operon_0005	NC_017641.1|gene13|UMNK88_14
UMNK88_15	operon_0005	NC_017641.1|gene14|UMNK88_15|nhaA
UMNK88_16	operon_0005	NC_017641.1|gene15|UMNK88_16
UMNK88_17	operon_0006	NC_017641.1|gene16|UMNK88_17
UMNK88_18	operon_0006	NC_017641.1|gene17|UMNK88_18
UMNK88_19	operon_0006	NC_017641.1|gene18|UMNK88_19
UMNK88_20	operon_0007	NC_017641.1|gene19|UMNK88_20
UMNK88_21	operon_0007	NC_017641.1|gene20|UMNK88_21
UMNK88_22	operon_0008	NC_017641.1|gene21|UMNK88_22|rpsT
UMNK88_23	operon_0009	NC_017641.1|gene22|UMNK88_23|ribF
UMNK88_24	operon_0009	NC_017641.1|gene23|UMNK88_24|ileS
UMNK88_25	operon_0009	NC_017641.1|gene24|UMNK88_25|lspA
UMNK88_26	operon_0009	NC_017641.1|gene25|UMNK88_26
UMNK88_27	operon_0009	NC_017641.1|gene26|UMNK88_27|ispH
UMNK88_28	operon_0009	NC_017641.1|gene27|UMNK88_28
UMNK88_29	operon_0009	NC_017641.1|gene28|UMNK88_29|dapB
UMNK88_30	operon_0009	NC_017641.1|gene29|UMNK88_30
UMNK88_31	operon_0009	NC_017641.1|gene30|UMNK88_31|carA
UMNK88_32	operon_0009	NC_017641.1|gene31|UMNK88_32|carB
UMNK88_33	operon_0010	NC_017641.1|gene32|UMNK88_33
UMNK88_34	operon_0011	NC_017641.1|gene33|UMNK88_34
UMNK88_35	operon_0012	NC_017641.1|gene34|UMNK88_35
UMNK88_36	operon_0012	NC_017641.1|gene35|UMNK88_36
UMNK88_37	operon_0012	NC_017641.1|gene36|UMNK88_37
UMNK88_38	operon_0012	NC_017641.1|gene37|UMNK88_38
UMNK88_39	operon_0013	NC_017641.1|gene38|UMNK88_39
UMNK88_40	operon_0013	NC_017641.1|gene39|UMNK88_40
UMNK88_41	operon_0014	NC_017641.1|gene40|UMNK88_41
UMNK88_42	operon_0014	NC_017641.1|gene41|UMNK88_42
UMNK88_43	operon_0014	NC_017641.1|gene42|UMNK88_43
UMNK88_44	operon_0014	NC_017641.1|gene43|UMNK88_44
UMNK88_45	operon_0014	NC_017641.1|gene44|UMNK88_45
UMNK88_46	operon_0014	NC_017641.1|gene45|UMNK88_46
UMNK88_47	operon_0014	NC_017641.1|gene46|UMNK88_47
UMNK88_48	operon_0014	NC_017641.1|gene47|UMNK88_48
UMNK88_49	operon_0015	NC_017641.1|gene48|UMNK88_49
UMNK88_50	operon_0015	NC_017641.1|gene49|UMNK88_50
UMNK88_51	operon_0015	NC_017641.1|gene50|UMNK88_51|ksgA
UMNK88_52	operon_0015	NC_017641.1|gene51|UMNK88_52|pdxA
UMNK88_53	operon_0015	NC_017641.1|gene52|UMNK88_53
UMNK88_54	operon_0016	NC_017641.1|gene53|UMNK88_54
UMNK88_55	operon_0017	NC_017641.1|gene54|UMNK88_55
UMNK88_56	operon_0018	NC_017641.1|gene55|UMNK88_56
UMNK88_57	operon_0018	NC_017641.1|gene56|UMNK88_57
UMNK88_58	operon_0018	NC_017641.1|gene57|UMNK88_58
UMNK88_59	operon_0018	NC_017641.1|gene58|UMNK88_59|araD
UMNK88_60	operon_0019	NC_017641.1|gene59|UMNK88_60
UMNK88_61	operon_0019	NC_017641.1|gene60|UMNK88_61|araB
UMNK88_62	operon_0020	NC_017641.1|gene61|UMNK88_62
UMNK88_63	operon_0020	NC_017641.1|gene62|UMNK88_63
UMNK88_64	operon_0021	NC_017641.1|gene63|UMNK88_64|thiQ
UMNK88_65	operon_0021	NC_017641.1|gene64|UMNK88_65|thiP
UMNK88_66	operon_0021	NC_017641.1|gene65|UMNK88_66|thiB
UMNK88_67	operon_0021	NC_017641.1|gene66|UMNK88_67
UMNK88_68	operon_0022	NC_017641.1|gene67|UMNK88_68
UMNK88_69	operon_0023	NC_017641.1|gene68|UMNK88_69
UMNK88_70	operon_0024	NC_017641.1|gene69|UMNK88_70|leuD
UMNK88_71	operon_0024	NC_017641.1|gene70|UMNK88_71|leuC
UMNK88_72	operon_0024	NC_017641.1|gene71|UMNK88_72|leuB
UMNK88_73	operon_0024	NC_017641.1|gene72|UMNK88_73|leuA
UMNK88_74	operon_0025	NC_017641.1|gene73|UMNK88_74
UMNK88_75	operon_0026	NC_017641.1|gene74|UMNK88_75
UMNK88_76	operon_0027	NC_017641.1|gene75|UMNK88_76|ilvI
UMNK88_77	operon_0027	NC_017641.1|gene76|UMNK88_77|ilvN
UMNK88_78	operon_0027	NC_017641.1|gene77|UMNK88_78
UMNK88_79	operon_0027	NC_017641.1|gene78|UMNK88_79
UMNK88_80	operon_0028	NC_017641.1|gene79|UMNK88_80
UMNK88_81	operon_0029	NC_017641.1|gene80|UMNK88_81
UMNK88_82	operon_0029	NC_017641.1|gene81|UMNK88_82|mraW
UMNK88_83	operon_0029	NC_017641.1|gene82|UMNK88_83|ftsL
UMNK88_84	operon_0029	NC_017641.1|gene83|UMNK88_84
UMNK88_85	operon_0029	NC_017641.1|gene84|UMNK88_85|murE
UMNK88_86	operon_0029	NC_017641.1|gene85|UMNK88_86|murF
UMNK88_87	operon_0029	NC_017641.1|gene86|UMNK88_87|mraY
UMNK88_88	operon_0029	NC_017641.1|gene87|UMNK88_88|murD
UMNK88_89	operon_0029	NC_017641.1|gene88|UMNK88_89|ftsW
UMNK88_90	operon_0029	NC_017641.1|gene89|UMNK88_90|murG
UMNK88_91	operon_0029	NC_017641.1|gene90|UMNK88_91|murC
UMNK88_92	operon_0029	NC_017641.1|gene91|UMNK88_92
UMNK88_93	operon_0029	NC_017641.1|gene92|UMNK88_93
UMNK88_94	operon_0029	NC_017641.1|gene93|UMNK88_94|ftsA
UMNK88_95	operon_0029	NC_017641.1|gene94|UMNK88_95|ftsZ
UMNK88_96	operon_0029	NC_017641.1|gene95|UMNK88_96|lpxC
UMNK88_97	operon_0029	NC_017641.1|gene96|UMNK88_97
UMNK88_98	operon_0029	NC_017641.1|gene97|UMNK88_98|secA
UMNK88_99	operon_0029	NC_017641.1|gene98|UMNK88_99
UMNK88_100	operon_0030	NC_017641.1|gene99|UMNK88_100
UMNK88_101	operon_0030	NC_017641.1|gene100|UMNK88_101
UMNK88_102	operon_0030	NC_017641.1|gene101|UMNK88_102|coaE
UMNK88_103	operon_0031	NC_017641.1|gene102|UMNK88_103|guaC
UMNK88_104	operon_0032	NC_017641.1|gene103|UMNK88_104
UMNK88_105	operon_0032	NC_017641.1|gene104|UMNK88_105|hofB
UMNK88_106	operon_0032	NC_017641.1|gene105|UMNK88_106
UMNK88_107	operon_0032	NC_017641.1|gene106|UMNK88_107|nadC
UMNK88_108	operon_0033	NC_017641.1|gene107|UMNK88_108
UMNK88_109	operon_0033	NC_017641.1|gene108|UMNK88_109
UMNK88_110	operon_0034	NC_017641.1|gene109|UMNK88_110
UMNK88_111	operon_0035	NC_017641.1|gene110|UMNK88_111
UMNK88_112	operon_0035	NC_017641.1|gene111|UMNK88_112|aceE
UMNK88_113	operon_0035	NC_017641.1|gene112|UMNK88_113|aceF
UMNK88_114	operon_0035	NC_017641.1|gene113|UMNK88_114|lpdA
UMNK88_115	operon_0036	NC_017641.1|gene114|UMNK88_115
UMNK88_116	operon_0037	NC_017641.1|gene115|UMNK88_116|acnB
UMNK88_117	operon_0037	NC_017641.1|gene116|UMNK88_117
UMNK88_118	operon_0038	NC_017641.1|gene117|UMNK88_118|speD
UMNK88_119	operon_0038	NC_017641.1|gene118|UMNK88_119|speE
UMNK88_120	operon_0039	NC_017641.1|gene119|UMNK88_120
UMNK88_121	operon_0040	NC_017641.1|gene120|UMNK88_121
UMNK88_122	operon_0041	NC_017641.1|gene121|UMNK88_122
UMNK88_123	operon_0041	NC_017641.1|gene122|UMNK88_123
UMNK88_124	operon_0042	NC_017641.1|gene123|UMNK88_124|hpt
UMNK88_125	operon_0043	NC_017641.1|gene124|UMNK88_125
UMNK88_126	operon_0044	NC_017641.1|gene125|UMNK88_126
UMNK88_127	operon_0044	NC_017641.1|gene126|UMNK88_127
UMNK88_128	operon_0045	NC_017641.1|gene127|UMNK88_128
UMNK88_129	operon_0045	NC_017641.1|gene128|UMNK88_129
UMNK88_130	operon_0046	NC_017641.1|gene129|UMNK88_130|panD
UMNK88_131	operon_0047	NC_017641.1|gene130|UMNK88_131
UMNK88_132	operon_0048	NC_017641.1|gene131|UMNK88_132
UMNK88_133	operon_0049	NC_017641.1|gene132|UMNK88_133|panC
UMNK88_134	operon_0049	NC_017641.1|gene133|UMNK88_134|panB
UMNK88_135	operon_0049	NC_017641.1|gene134|UMNK88_135
UMNK88_136	operon_0049	NC_017641.1|gene135|UMNK88_136
UMNK88_137	operon_0049	NC_017641.1|gene136|UMNK88_137
UMNK88_138	operon_0049	NC_017641.1|gene137|UMNK88_138
UMNK88_140	operon_0049	NC_017641.1|gene138|UMNK88_140|putative fimbrial usher gene%3B pseudogene%3B possible frameshift
UMNK88_142	operon_0049	NC_017641.1|gene139|UMNK88_142
UMNK88_143	operon_0050	NC_017641.1|gene140|UMNK88_143
UMNK88_144	operon_0051	NC_017641.1|gene141|UMNK88_144
UMNK88_145	operon_0052	NC_017641.1|gene142|UMNK88_145
UMNK88_146	operon_0053	NC_017641.1|gene143|UMNK88_146|folK
UMNK88_147	operon_0053	NC_017641.1|gene144|UMNK88_147|pcnB
UMNK88_148	operon_0053	NC_017641.1|gene145|UMNK88_148
UMNK88_149	operon_0053	NC_017641.1|gene146|UMNK88_149|dksA
UMNK88_150	operon_0053	NC_017641.1|gene147|UMNK88_150|sfsA
UMNK88_151	operon_0053	NC_017641.1|gene148|UMNK88_151
UMNK88_152	operon_0054	NC_017641.1|gene149|UMNK88_152|hrpB
UMNK88_153	operon_0054	NC_017641.1|gene150|UMNK88_153|mrcB
UMNK88_154	operon_0054	NC_017641.1|gene151|UMNK88_154
UMNK88_155	operon_0055	NC_017641.1|gene152|UMNK88_155
UMNK88_156	operon_0055	NC_017641.1|gene153|UMNK88_156
UMNK88_157	operon_0055	NC_017641.1|gene154|UMNK88_157
UMNK88_158	operon_0056	NC_017641.1|gene155|UMNK88_158|hemL
UMNK88_159	operon_0057	NC_017641.1|gene156|UMNK88_159
UMNK88_160	operon_0057	NC_017641.1|gene157|UMNK88_160
UMNK88_161	operon_0058	NC_017641.1|gene158|UMNK88_161
UMNK88_162	operon_0058	NC_017641.1|gene159|UMNK88_162
UMNK88_163	operon_0058	NC_017641.1|gene160|UMNK88_163|mtnN
UMNK88_164	operon_0059	NC_017641.1|gene161|UMNK88_164|dgt
UMNK88_165	operon_0059	NC_017641.1|gene162|UMNK88_165
UMNK88_166	operon_0060	NC_017641.1|gene163|UMNK88_166
UMNK88_167	operon_0061	NC_017641.1|gene164|UMNK88_167
UMNK88_168	operon_0061	NC_017641.1|gene165|UMNK88_168
UMNK88_169	operon_0061	NC_017641.1|gene166|UMNK88_169|dapD
UMNK88_170	operon_0061	NC_017641.1|gene167|UMNK88_170|glnD
UMNK88_171	operon_0061	NC_017641.1|gene168|UMNK88_171|map
UMNK88_173	operon_0062	NC_017641.1|gene169|UMNK88_173|rpsB
UMNK88_172	operon_0063	NC_017641.1|gene170|UMNK88_172
UMNK88_174	operon_0064	NC_017641.1|gene171|UMNK88_174|tsf
UMNK88_175	operon_0064	NC_017641.1|gene172|UMNK88_175|pyrH
UMNK88_176	operon_0064	NC_017641.1|gene173|UMNK88_176|frr
UMNK88_177	operon_0064	NC_017641.1|gene174|UMNK88_177|dxr
UMNK88_178	operon_0064	NC_017641.1|gene175|UMNK88_178|yaeS
UMNK88_180	operon_0064	NC_017641.1|gene176|UMNK88_180
UMNK88_181	operon_0064	NC_017641.1|gene177|UMNK88_181|rseP
UMNK88_182	operon_0064	NC_017641.1|gene178|UMNK88_182|yaeT
UMNK88_183	operon_0064	NC_017641.1|gene179|UMNK88_183
UMNK88_184	operon_0064	NC_017641.1|gene180|UMNK88_184|lpxD
UMNK88_185	operon_0064	NC_017641.1|gene181|UMNK88_185|fabZ
UMNK88_186	operon_0064	NC_017641.1|gene182|UMNK88_186|lpxA
UMNK88_187	operon_0064	NC_017641.1|gene183|UMNK88_187|lpxB
UMNK88_188	operon_0064	NC_017641.1|gene184|UMNK88_188
UMNK88_189	operon_0064	NC_017641.1|gene185|UMNK88_189|dnaE
UMNK88_190	operon_0064	NC_017641.1|gene186|UMNK88_190|accA
UMNK88_191	operon_0064	NC_017641.1|gene187|UMNK88_191
UMNK88_192	operon_0064	NC_017641.1|gene188|UMNK88_192
UMNK88_193	operon_0065	NC_017641.1|gene189|UMNK88_193|tilS
UMNK88_194	operon_0066	NC_017641.1|gene190|UMNK88_194
UMNK88_195	operon_0066	NC_017641.1|gene191|UMNK88_195
UMNK88_196	operon_0067	NC_017641.1|gene192|UMNK88_196
UMNK88_197	operon_0067	NC_017641.1|gene193|UMNK88_197
UMNK88_198	operon_0067	NC_017641.1|gene194|UMNK88_198
UMNK88_199	operon_0068	NC_017641.1|gene195|UMNK88_199
UMNK88_200	operon_0068	NC_017641.1|gene196|UMNK88_200|proS
UMNK88_201	operon_0069	NC_017641.1|gene197|UMNK88_201
UMNK88_202	operon_0069	NC_017641.1|gene198|UMNK88_202
UMNK88_203	operon_0070	NC_017641.1|gene199|UMNK88_203
UMNK88_204	operon_0070	NC_017641.1|gene200|UMNK88_204
UMNK88_205	operon_0070	NC_017641.1|gene201|UMNK88_205|metN
UMNK88_206	operon_0071	NC_017641.1|gene202|UMNK88_206|gmhB
UMNK88_r01	operon_0071	NC_017641.1|gene203|UMNK88_r01
UMNK88_t01	operon_0071	NC_017641.1|gene204|UMNK88_t01
UMNK88_t02	operon_0071	NC_017641.1|gene205|UMNK88_t02
UMNK88_r02	operon_0071	NC_017641.1|gene206|UMNK88_r02
UMNK88_r03	operon_0071	NC_017641.1|gene207|UMNK88_r03
UMNK88_t03	operon_0071	NC_017641.1|gene208|UMNK88_t03
UMNK88_215	operon_0071	NC_017641.1|gene209|UMNK88_215
UMNK88_214	operon_0072	NC_017641.1|gene210|UMNK88_214
UMNK88_216	operon_0073	NC_017641.1|gene211|UMNK88_216
UMNK88_217	operon_0073	NC_017641.1|gene212|UMNK88_217
UMNK88_218	operon_0074	NC_017641.1|gene213|UMNK88_218
UMNK88_219	operon_0074	NC_017641.1|gene214|UMNK88_219|gloB
UMNK88_221	operon_0075	NC_017641.1|gene215|UMNK88_221
UMNK88_220	operon_0076	NC_017641.1|gene216|UMNK88_220
UMNK88_222	operon_0077	NC_017641.1|gene217|UMNK88_222|dnaQ
UMNK88_t04	operon_0077	NC_017641.1|gene218|UMNK88_t04
UMNK88_224	operon_0077	NC_017641.1|gene219|UMNK88_224
UMNK88_225	operon_0078	NC_017641.1|gene220|UMNK88_225
UMNK88_226	operon_0078	NC_017641.1|gene221|UMNK88_226
UMNK88_227	operon_0078	NC_017641.1|gene222|UMNK88_227
UMNK88_228	operon_0078	NC_017641.1|gene223|UMNK88_228
UMNK88_229	operon_0078	NC_017641.1|gene224|UMNK88_229
UMNK88_230	operon_0078	NC_017641.1|gene225|UMNK88_230
UMNK88_231	operon_0078	NC_017641.1|gene226|UMNK88_231
UMNK88_232	operon_0078	NC_017641.1|gene227|UMNK88_232|clpB
UMNK88_233	operon_0078	NC_017641.1|gene228|UMNK88_233
UMNK88_234	operon_0078	NC_017641.1|gene229|UMNK88_234
UMNK88_235	operon_0078	NC_017641.1|gene230|UMNK88_235
UMNK88_236	operon_0078	NC_017641.1|gene231|UMNK88_236
UMNK88_237	operon_0078	NC_017641.1|gene232|UMNK88_237
UMNK88_238	operon_0078	NC_017641.1|gene233|UMNK88_238
UMNK88_239	operon_0078	NC_017641.1|gene234|UMNK88_239
UMNK88_240	operon_0078	NC_017641.1|gene235|UMNK88_240
UMNK88_241	operon_0078	NC_017641.1|gene236|UMNK88_241
UMNK88_242	operon_0078	NC_017641.1|gene237|UMNK88_242
UMNK88_243	operon_0079	NC_017641.1|gene238|UMNK88_243
UMNK88_244	operon_0079	NC_017641.1|gene239|UMNK88_244
UMNK88_245	operon_0080	NC_017641.1|gene240|UMNK88_245
UMNK88_246	operon_0080	NC_017641.1|gene241|UMNK88_246
UMNK88_247	operon_0080	NC_017641.1|gene242|UMNK88_247
UMNK88_248	operon_0080	NC_017641.1|gene243|UMNK88_248
UMNK88_249	operon_0080	NC_017641.1|gene244|UMNK88_249
UMNK88_250	operon_0080	NC_017641.1|gene245|UMNK88_250
UMNK88_251	operon_0081	NC_017641.1|gene246|UMNK88_251
UMNK88_252	operon_0082	NC_017641.1|gene247|UMNK88_252
UMNK88_253	operon_0083	NC_017641.1|gene248|UMNK88_253
UMNK88_254	operon_0084	NC_017641.1|gene249|UMNK88_254
UMNK88_255	operon_0085	NC_017641.1|gene250|UMNK88_255|gmhA
UMNK88_257	operon_0085	NC_017641.1|gene251|UMNK88_257
UMNK88_256	operon_0086	NC_017641.1|gene252|UMNK88_256
UMNK88_258	operon_0086	NC_017641.1|gene253|UMNK88_258
UMNK88_259	operon_0086	NC_017641.1|gene254|UMNK88_259
UMNK88_261	operon_0087	NC_017641.1|gene255|UMNK88_261
UMNK88_262	operon_0088	NC_017641.1|gene256|UMNK88_262
UMNK88_263	operon_0089	NC_017641.1|gene257|UMNK88_263
UMNK88_264	operon_0090	NC_017641.1|gene258|UMNK88_264
UMNK88_265	operon_0090	NC_017641.1|gene259|UMNK88_265
UMNK88_266	operon_0090	NC_017641.1|gene260|UMNK88_266
UMNK88_267	operon_0090	NC_017641.1|gene261|UMNK88_267
UMNK88_268	operon_0090	NC_017641.1|gene262|UMNK88_268
UMNK88_269	operon_0090	NC_017641.1|gene263|UMNK88_269
UMNK88_270	operon_0090	NC_017641.1|gene264|UMNK88_270|prfH
UMNK88_271	operon_0091	NC_017641.1|gene265|UMNK88_271|pepD
UMNK88_272	operon_0092	NC_017641.1|gene266|UMNK88_272
UMNK88_273	operon_0093	NC_017641.1|gene267|UMNK88_273
UMNK88_274	operon_0093	NC_017641.1|gene268|UMNK88_274
UMNK88_275	operon_0094	NC_017641.1|gene269|UMNK88_275
UMNK88_276	operon_0095	NC_017641.1|gene270|UMNK88_276|proB
UMNK88_277	operon_0095	NC_017641.1|gene271|UMNK88_277|proA
UMNK88_t05	operon_0095	NC_017641.1|gene272|UMNK88_t05
UMNK88_279	operon_0096	NC_017641.1|gene273|UMNK88_279
UMNK88_280	operon_0096	NC_017641.1|gene274|UMNK88_280
UMNK88_281	operon_0096	NC_017641.1|gene275|UMNK88_281
UMNK88_282	operon_0096	NC_017641.1|gene276|UMNK88_282
UMNK88_283	operon_0097	NC_017641.1|gene277|UMNK88_283
UMNK88_284	operon_0098	NC_017641.1|gene278|UMNK88_284
UMNK88_285	operon_0099	NC_017641.1|gene279|UMNK88_285
UMNK88_286	operon_0099	NC_017641.1|gene280|UMNK88_286
UMNK88_287	operon_0099	NC_017641.1|gene281|UMNK88_287
UMNK88_288	operon_0099	NC_017641.1|gene282|UMNK88_288
UMNK88_289	operon_0099	NC_017641.1|gene283|UMNK88_289
UMNK88_290	operon_0099	NC_017641.1|gene284|UMNK88_290
UMNK88_291	operon_0099	NC_017641.1|gene285|UMNK88_291
UMNK88_292	operon_0099	NC_017641.1|gene286|UMNK88_292
UMNK88_293	operon_0099	NC_017641.1|gene287|UMNK88_293
UMNK88_294	operon_0100	NC_017641.1|gene288|UMNK88_294
UMNK88_295	operon_0101	NC_017641.1|gene289|UMNK88_295
UMNK88_296	operon_0101	NC_017641.1|gene290|UMNK88_296
UMNK88_297	operon_0101	NC_017641.1|gene291|UMNK88_297
UMNK88_298	operon_0102	NC_017641.1|gene292|UMNK88_298
UMNK88_299	operon_0103	NC_017641.1|gene293|UMNK88_299
UMNK88_300	operon_0103	NC_017641.1|gene294|UMNK88_300
UMNK88_301	operon_0103	NC_017641.1|gene295|UMNK88_301
UMNK88_302	operon_0103	NC_017641.1|gene296|UMNK88_302
UMNK88_303	operon_0103	NC_017641.1|gene297|UMNK88_303
UMNK88_304	operon_0103	NC_017641.1|gene298|UMNK88_304
UMNK88_305	operon_0103	NC_017641.1|gene299|UMNK88_305
UMNK88_306	operon_0104	NC_017641.1|gene300|UMNK88_306
UMNK88_307	operon_0104	NC_017641.1|gene301|UMNK88_307
UMNK88_308	operon_0104	NC_017641.1|gene302|UMNK88_308
UMNK88_309	operon_0104	NC_017641.1|gene303|UMNK88_309
UMNK88_310	operon_0104	NC_017641.1|gene304|UMNK88_310
UMNK88_311	operon_0104	NC_017641.1|gene305|UMNK88_311
UMNK88_312	operon_0104	NC_017641.1|gene306|UMNK88_312
UMNK88_313	operon_0104	NC_017641.1|gene307|UMNK88_313
UMNK88_314	operon_0104	NC_017641.1|gene308|UMNK88_314
UMNK88_315	operon_0104	NC_017641.1|gene309|UMNK88_315
UMNK88_316	operon_0104	NC_017641.1|gene310|UMNK88_316
UMNK88_317	operon_0105	NC_017641.1|gene311|UMNK88_317
UMNK88_318	operon_0106	NC_017641.1|gene312|UMNK88_318
UMNK88_319	operon_0106	NC_017641.1|gene313|UMNK88_319
UMNK88_320	operon_0106	NC_017641.1|gene314|UMNK88_320
UMNK88_321	operon_0106	NC_017641.1|gene315|UMNK88_321
UMNK88_322	operon_0106	NC_017641.1|gene316|UMNK88_322
UMNK88_323	operon_0106	NC_017641.1|gene317|UMNK88_323
UMNK88_324	operon_0106	NC_017641.1|gene318|UMNK88_324
UMNK88_326	operon_0106	NC_017641.1|gene319|UMNK88_326
UMNK88_325	operon_0107	NC_017641.1|gene320|UMNK88_325
UMNK88_327	operon_0107	NC_017641.1|gene321|UMNK88_327
UMNK88_328	operon_0108	NC_017641.1|gene322|UMNK88_328
UMNK88_329	operon_0109	NC_017641.1|gene323|UMNK88_329
UMNK88_330	operon_0110	NC_017641.1|gene324|UMNK88_330
UMNK88_331	operon_0110	NC_017641.1|gene325|UMNK88_331
UMNK88_332	operon_0110	NC_017641.1|gene326|UMNK88_332
UMNK88_333	operon_0110	NC_017641.1|gene327|UMNK88_333
UMNK88_334	operon_0110	NC_017641.1|gene328|UMNK88_334
UMNK88_335	operon_0111	NC_017641.1|gene329|UMNK88_335|conserved hypothetical%3B pseudogene%3B possible frameshift
UMNK88_337	operon_0112	NC_017641.1|gene330|UMNK88_337
UMNK88_338	operon_0112	NC_017641.1|gene331|UMNK88_338
UMNK88_339	operon_0112	NC_017641.1|gene332|UMNK88_339
UMNK88_340	operon_0112	NC_017641.1|gene333|UMNK88_340
UMNK88_341	operon_0113	NC_017641.1|gene334|UMNK88_341
UMNK88_342	operon_0113	NC_017641.1|gene335|UMNK88_342
UMNK88_343	operon_0113	NC_017641.1|gene336|UMNK88_343|rpmJ
UMNK88_344	operon_0113	NC_017641.1|gene337|UMNK88_344|rpmE
UMNK88_345	operon_0114	NC_017641.1|gene338|UMNK88_345
UMNK88_347	operon_0115	NC_017641.1|gene339|UMNK88_347
UMNK88_348	operon_0115	NC_017641.1|gene340|UMNK88_348
UMNK88_349	operon_0115	NC_017641.1|gene341|UMNK88_349
UMNK88_350	operon_0115	NC_017641.1|gene342|UMNK88_350
UMNK88_351	operon_0116	NC_017641.1|gene343|UMNK88_351
UMNK88_352	operon_0117	NC_017641.1|gene344|UMNK88_352
UMNK88_353	operon_0118	NC_017641.1|gene345|UMNK88_353
UMNK88_354	operon_0118	NC_017641.1|gene346|UMNK88_354
UMNK88_355	operon_0118	NC_017641.1|gene347|UMNK88_355
UMNK88_356	operon_0119	NC_017641.1|gene348|UMNK88_356
UMNK88_357	operon_0119	NC_017641.1|gene349|UMNK88_357
UMNK88_358	operon_0119	NC_017641.1|gene350|UMNK88_358|betA
UMNK88_359	operon_0119	NC_017641.1|gene351|UMNK88_359|betB
UMNK88_360	operon_0119	NC_017641.1|gene352|UMNK88_360|betI
UMNK88_361	operon_0120	NC_017641.1|gene353|UMNK88_361
UMNK88_362	operon_0121	NC_017641.1|gene354|UMNK88_362
UMNK88_363	operon_0122	NC_017641.1|gene355|UMNK88_363
UMNK88_364	operon_0122	NC_017641.1|gene356|UMNK88_364
UMNK88_365	operon_0123	NC_017641.1|gene357|UMNK88_365
UMNK88_366	operon_0123	NC_017641.1|gene358|UMNK88_366
UMNK88_367	operon_0123	NC_017641.1|gene359|UMNK88_367
UMNK88_368	operon_0123	NC_017641.1|gene360|UMNK88_368
UMNK88_369	operon_0124	NC_017641.1|gene361|UMNK88_369
UMNK88_370	operon_0124	NC_017641.1|gene362|UMNK88_370
UMNK88_371	operon_0124	NC_017641.1|gene363|UMNK88_371
UMNK88_372	operon_0124	NC_017641.1|gene364|UMNK88_372
UMNK88_373	operon_0124	NC_017641.1|gene365|UMNK88_373
UMNK88_374	operon_0125	NC_017641.1|gene366|UMNK88_374
UMNK88_376	operon_0125	NC_017641.1|gene367|UMNK88_376
UMNK88_377	operon_0126	NC_017641.1|gene368|UMNK88_377
UMNK88_378	operon_0127	NC_017641.1|gene369|UMNK88_378|prpR
UMNK88_380	operon_0128	NC_017641.1|gene370|UMNK88_380|prpB
UMNK88_381	operon_0128	NC_017641.1|gene371|UMNK88_381
UMNK88_382	operon_0128	NC_017641.1|gene372|UMNK88_382|prpD
UMNK88_383	operon_0128	NC_017641.1|gene373|UMNK88_383|prpE
UMNK88_384	operon_0129	NC_017641.1|gene374|UMNK88_384
UMNK88_385	operon_0130	NC_017641.1|gene375|UMNK88_385|ncs1
UMNK88_386	operon_0130	NC_017641.1|gene376|UMNK88_386
UMNK88_387	operon_0131	NC_017641.1|gene377|UMNK88_387
UMNK88_388	operon_0132	NC_017641.1|gene378|UMNK88_388
UMNK88_389	operon_0132	NC_017641.1|gene379|UMNK88_389|cynS
UMNK88_390	operon_0132	NC_017641.1|gene380|UMNK88_390
UMNK88_391	operon_0133	NC_017641.1|gene381|UMNK88_391
UMNK88_392	operon_0133	NC_017641.1|gene382|UMNK88_392
UMNK88_393	operon_0133	NC_017641.1|gene383|UMNK88_393
UMNK88_394	operon_0134	NC_017641.1|gene384|UMNK88_394
UMNK88_395	operon_0134	NC_017641.1|gene385|UMNK88_395
UMNK88_396	operon_0134	NC_017641.1|gene386|UMNK88_396
UMNK88_397	operon_0135	NC_017641.1|gene387|UMNK88_397
UMNK88_398	operon_0135	NC_017641.1|gene388|UMNK88_398
UMNK88_399	operon_0135	NC_017641.1|gene389|UMNK88_399
UMNK88_400	operon_0135	NC_017641.1|gene390|UMNK88_400
UMNK88_401	operon_0135	NC_017641.1|gene391|UMNK88_401
UMNK88_402	operon_0135	NC_017641.1|gene392|UMNK88_402|mhpE
UMNK88_403	operon_0135	NC_017641.1|gene393|UMNK88_403
UMNK88_404	operon_0135	NC_017641.1|gene394|UMNK88_404
UMNK88_405	operon_0136	NC_017641.1|gene395|UMNK88_405
UMNK88_406	operon_0136	NC_017641.1|gene396|UMNK88_406
UMNK88_407	operon_0137	NC_017641.1|gene397|UMNK88_407
UMNK88_408	operon_0137	NC_017641.1|gene398|UMNK88_408
UMNK88_409	operon_0138	NC_017641.1|gene399|UMNK88_409
UMNK88_410	operon_0138	NC_017641.1|gene400|UMNK88_410
UMNK88_411	operon_0138	NC_017641.1|gene401|UMNK88_411
UMNK88_412	operon_0138	NC_017641.1|gene402|UMNK88_412
UMNK88_413	operon_0138	NC_017641.1|gene403|UMNK88_413
UMNK88_414	operon_0139	NC_017641.1|gene404|UMNK88_414
UMNK88_415	operon_0139	NC_017641.1|gene405|UMNK88_415|tauA
UMNK88_416	operon_0139	NC_017641.1|gene406|UMNK88_416
UMNK88_417	operon_0139	NC_017641.1|gene407|UMNK88_417
UMNK88_418	operon_0139	NC_017641.1|gene408|UMNK88_418
UMNK88_419	operon_0140	NC_017641.1|gene409|UMNK88_419
UMNK88_420	operon_0140	NC_017641.1|gene410|UMNK88_420
UMNK88_421	operon_0141	NC_017641.1|gene411|UMNK88_421
UMNK88_423	operon_0142	NC_017641.1|gene412|UMNK88_423
UMNK88_422	operon_0143	NC_017641.1|gene413|UMNK88_422
UMNK88_424	operon_0144	NC_017641.1|gene414|UMNK88_424
UMNK88_425	operon_0144	NC_017641.1|gene415|UMNK88_425
UMNK88_426	operon_0144	NC_017641.1|gene416|UMNK88_426
UMNK88_427	operon_0145	NC_017641.1|gene417|UMNK88_427
UMNK88_428	operon_0146	NC_017641.1|gene418|UMNK88_428
UMNK88_429	operon_0147	NC_017641.1|gene419|UMNK88_429
UMNK88_430	operon_0148	NC_017641.1|gene420|UMNK88_430
UMNK88_431	operon_0148	NC_017641.1|gene421|UMNK88_431
UMNK88_432	operon_0148	NC_017641.1|gene422|UMNK88_432
UMNK88_433	operon_0149	NC_017641.1|gene423|UMNK88_433
UMNK88_434	operon_0150	NC_017641.1|gene424|UMNK88_434
UMNK88_435	operon_0151	NC_017641.1|gene425|UMNK88_435|proC
UMNK88_436	operon_0152	NC_017641.1|gene426|UMNK88_436
UMNK88_437	operon_0152	NC_017641.1|gene427|UMNK88_437
UMNK88_438	operon_0152	NC_017641.1|gene428|UMNK88_438
UMNK88_439	operon_0152	NC_017641.1|gene429|UMNK88_439
UMNK88_440	operon_0152	NC_017641.1|gene430|UMNK88_440
UMNK88_441	operon_0152	NC_017641.1|gene431|UMNK88_441
UMNK88_442	operon_0153	NC_017641.1|gene432|UMNK88_442
UMNK88_443	operon_0154	NC_017641.1|gene433|UMNK88_443
UMNK88_444	operon_0155	NC_017641.1|gene434|UMNK88_444
UMNK88_445	operon_0155	NC_017641.1|gene435|UMNK88_445
UMNK88_446	operon_0155	NC_017641.1|gene436|UMNK88_446|sbcD
UMNK88_447	operon_0156	NC_017641.1|gene437|UMNK88_447
UMNK88_448	operon_0156	NC_017641.1|gene438|UMNK88_448|phoB
UMNK88_449	operon_0156	NC_017641.1|gene439|UMNK88_449|phoR
UMNK88_450	operon_0157	NC_017641.1|gene440|UMNK88_450
UMNK88_451	operon_0158	NC_017641.1|gene441|UMNK88_451|brnQ
UMNK88_452	operon_0158	NC_017641.1|gene442|UMNK88_452
UMNK88_453	operon_0159	NC_017641.1|gene443|UMNK88_453
UMNK88_454	operon_0160	NC_017641.1|gene444|UMNK88_454
UMNK88_455	operon_0161	NC_017641.1|gene445|UMNK88_455|queA
UMNK88_456	operon_0161	NC_017641.1|gene446|UMNK88_456|tgt
UMNK88_457	operon_0161	NC_017641.1|gene447|UMNK88_457|yajC
UMNK88_458	operon_0161	NC_017641.1|gene448|UMNK88_458|secD
UMNK88_459	operon_0161	NC_017641.1|gene449|UMNK88_459|secF
UMNK88_460	operon_0161	NC_017641.1|gene450|UMNK88_460
UMNK88_461	operon_0162	NC_017641.1|gene451|UMNK88_461
UMNK88_462	operon_0162	NC_017641.1|gene452|UMNK88_462
UMNK88_463	operon_0163	NC_017641.1|gene453|UMNK88_463|nrdR
UMNK88_464	operon_0163	NC_017641.1|gene454|UMNK88_464|ribD
UMNK88_465	operon_0163	NC_017641.1|gene455|UMNK88_465|ribH
UMNK88_466	operon_0163	NC_017641.1|gene456|UMNK88_466|nusB
UMNK88_467	operon_0163	NC_017641.1|gene457|UMNK88_467|thiL
UMNK88_468	operon_0163	NC_017641.1|gene458|UMNK88_468
UMNK88_469	operon_0164	NC_017641.1|gene459|UMNK88_469
UMNK88_470	operon_0164	NC_017641.1|gene460|UMNK88_470|dxs
UMNK88_471	operon_0164	NC_017641.1|gene461|UMNK88_471
UMNK88_472	operon_0164	NC_017641.1|gene462|UMNK88_472|xseB
UMNK88_473	operon_0165	NC_017641.1|gene463|UMNK88_473|thiI
UMNK88_474	operon_0166	NC_017641.1|gene464|UMNK88_474
UMNK88_475	operon_0166	NC_017641.1|gene465|UMNK88_475|panE
UMNK88_476	operon_0167	NC_017641.1|gene466|UMNK88_476
UMNK88_477	operon_0168	NC_017641.1|gene467|UMNK88_477
UMNK88_478	operon_0168	NC_017641.1|gene468|UMNK88_478|cyoE
UMNK88_479	operon_0168	NC_017641.1|gene469|UMNK88_479|cyoD
UMNK88_480	operon_0168	NC_017641.1|gene470|UMNK88_480|cyoC
UMNK88_481	operon_0168	NC_017641.1|gene471|UMNK88_481|cyoB
UMNK88_482	operon_0168	NC_017641.1|gene472|UMNK88_482|cyoA
UMNK88_483	operon_0168	NC_017641.1|gene473|UMNK88_483
UMNK88_484	operon_0168	NC_017641.1|gene474|UMNK88_484
UMNK88_485	operon_0169	NC_017641.1|gene475|UMNK88_485
UMNK88_486	operon_0169	NC_017641.1|gene476|UMNK88_486
UMNK88_487	operon_0169	NC_017641.1|gene477|UMNK88_487|tig
UMNK88_488	operon_0169	NC_017641.1|gene478|UMNK88_488|clpP
UMNK88_489	operon_0169	NC_017641.1|gene479|UMNK88_489|clpX
UMNK88_490	operon_0169	NC_017641.1|gene480|UMNK88_490|lon
UMNK88_491	operon_0169	NC_017641.1|gene481|UMNK88_491
UMNK88_492	operon_0170	NC_017641.1|gene482|UMNK88_492
UMNK88_493	operon_0171	NC_017641.1|gene483|UMNK88_493
UMNK88_494	operon_0172	NC_017641.1|gene484|UMNK88_494
UMNK88_495	operon_0173	NC_017641.1|gene485|UMNK88_495
UMNK88_496	operon_0174	NC_017641.1|gene486|UMNK88_496
UMNK88_497	operon_0175	NC_017641.1|gene487|UMNK88_497
UMNK88_498	operon_0175	NC_017641.1|gene488|UMNK88_498
UMNK88_499	operon_0176	NC_017641.1|gene489|UMNK88_499
UMNK88_500	operon_0176	NC_017641.1|gene490|UMNK88_500
UMNK88_501	operon_0176	NC_017641.1|gene491|UMNK88_501
UMNK88_502	operon_0177	NC_017641.1|gene492|UMNK88_502
UMNK88_503	operon_0178	NC_017641.1|gene493|UMNK88_503
UMNK88_504	operon_0178	NC_017641.1|gene494|UMNK88_504|amtB
UMNK88_505	operon_0179	NC_017641.1|gene495|UMNK88_505|tesB
UMNK88_506	operon_0180	NC_017641.1|gene496|UMNK88_506
UMNK88_507	operon_0180	NC_017641.1|gene497|UMNK88_507
UMNK88_508	operon_0181	NC_017641.1|gene498|UMNK88_508
UMNK88_509	operon_0182	NC_017641.1|gene499|UMNK88_509
UMNK88_510	operon_0183	NC_017641.1|gene500|UMNK88_510
UMNK88_511	operon_0183	NC_017641.1|gene501|UMNK88_511
UMNK88_512	operon_0183	NC_017641.1|gene502|UMNK88_512
UMNK88_513	operon_0183	NC_017641.1|gene503|UMNK88_513
UMNK88_514	operon_0183	NC_017641.1|gene504|UMNK88_514
UMNK88_515	operon_0183	NC_017641.1|gene505|UMNK88_515|acrB
UMNK88_516	operon_0183	NC_017641.1|gene506|UMNK88_516|acrA
UMNK88_517	operon_0184	NC_017641.1|gene507|UMNK88_517
UMNK88_518	operon_0185	NC_017641.1|gene508|UMNK88_518
UMNK88_519	operon_0186	NC_017641.1|gene509|UMNK88_519
UMNK88_520	operon_0186	NC_017641.1|gene510|UMNK88_520
UMNK88_521	operon_0187	NC_017641.1|gene511|UMNK88_521
UMNK88_522	operon_0187	NC_017641.1|gene512|UMNK88_522|apt
UMNK88_523	operon_0187	NC_017641.1|gene513|UMNK88_523|dnaX
UMNK88_524	operon_0187	NC_017641.1|gene514|UMNK88_524
UMNK88_525	operon_0187	NC_017641.1|gene515|UMNK88_525|recR
UMNK88_526	operon_0187	NC_017641.1|gene516|UMNK88_526
UMNK88_527	operon_0188	NC_017641.1|gene517|UMNK88_527
UMNK88_529	operon_0189	NC_017641.1|gene518|UMNK88_529|hemH
UMNK88_528	operon_0190	NC_017641.1|gene519|UMNK88_528
UMNK88_530	operon_0191	NC_017641.1|gene520|UMNK88_530
UMNK88_531	operon_0192	NC_017641.1|gene521|UMNK88_531
UMNK88_532	operon_0193	NC_017641.1|gene522|UMNK88_532
UMNK88_533	operon_0194	NC_017641.1|gene523|UMNK88_533
UMNK88_534	operon_0195	NC_017641.1|gene524|UMNK88_534
UMNK88_535	operon_0195	NC_017641.1|gene525|UMNK88_535
UMNK88_536	operon_0196	NC_017641.1|gene526|UMNK88_536
UMNK88_537	operon_0197	NC_017641.1|gene527|UMNK88_537
UMNK88_538	operon_0198	NC_017641.1|gene528|UMNK88_538
UMNK88_539	operon_0198	NC_017641.1|gene529|UMNK88_539
UMNK88_541	operon_0198	NC_017641.1|gene530|UMNK88_541|cueR
UMNK88_540	operon_0199	NC_017641.1|gene531|UMNK88_540
UMNK88_542	operon_0199	NC_017641.1|gene532|UMNK88_542
UMNK88_543	operon_0200	NC_017641.1|gene533|UMNK88_543
UMNK88_544	operon_0200	NC_017641.1|gene534|UMNK88_544
UMNK88_545	operon_0201	NC_017641.1|gene535|UMNK88_545
UMNK88_546	operon_0201	NC_017641.1|gene536|UMNK88_546
UMNK88_547	operon_0201	NC_017641.1|gene537|UMNK88_547
UMNK88_548	operon_0202	NC_017641.1|gene538|UMNK88_548
UMNK88_549	operon_0202	NC_017641.1|gene539|UMNK88_549
UMNK88_550	operon_0202	NC_017641.1|gene540|UMNK88_550
UMNK88_551	operon_0202	NC_017641.1|gene541|UMNK88_551
UMNK88_552	operon_0202	NC_017641.1|gene542|UMNK88_552
UMNK88_553	operon_0203	NC_017641.1|gene543|UMNK88_553
UMNK88_554	operon_0203	NC_017641.1|gene544|UMNK88_554|selU
UMNK88_555	operon_0203	NC_017641.1|gene545|UMNK88_555
UMNK88_556	operon_0204	NC_017641.1|gene546|UMNK88_556
UMNK88_557	operon_0204	NC_017641.1|gene547|UMNK88_557
UMNK88_558	operon_0205	NC_017641.1|gene548|UMNK88_558|gcl
UMNK88_559	operon_0205	NC_017641.1|gene549|UMNK88_559|hyi
UMNK88_560	operon_0205	NC_017641.1|gene550|UMNK88_560
UMNK88_561	operon_0205	NC_017641.1|gene551|UMNK88_561
UMNK88_562	operon_0205	NC_017641.1|gene552|UMNK88_562|allB
UMNK88_563	operon_0205	NC_017641.1|gene553|UMNK88_563
UMNK88_564	operon_0205	NC_017641.1|gene554|UMNK88_564
UMNK88_565	operon_0206	NC_017641.1|gene555|UMNK88_565
UMNK88_566	operon_0206	NC_017641.1|gene556|UMNK88_566|allC
UMNK88_567	operon_0206	NC_017641.1|gene557|UMNK88_567|allD
UMNK88_568	operon_0207	NC_017641.1|gene558|UMNK88_568
UMNK88_569	operon_0207	NC_017641.1|gene559|UMNK88_569
UMNK88_570	operon_0207	NC_017641.1|gene560|UMNK88_570
UMNK88_571	operon_0207	NC_017641.1|gene561|UMNK88_571|arcC
UMNK88_572	operon_0208	NC_017641.1|gene562|UMNK88_572|purK
UMNK88_573	operon_0208	NC_017641.1|gene563|UMNK88_573|purE
UMNK88_574	operon_0208	NC_017641.1|gene564|UMNK88_574|lpxH
UMNK88_575	operon_0208	NC_017641.1|gene565|UMNK88_575|ppiB
UMNK88_576	operon_0209	NC_017641.1|gene566|UMNK88_576|cysS
UMNK88_577	operon_0210	NC_017641.1|gene567|UMNK88_577
UMNK88_578	operon_0211	NC_017641.1|gene568|UMNK88_578
UMNK88_579	operon_0211	NC_017641.1|gene569|UMNK88_579|folD
UMNK88_580	operon_0212	NC_017641.1|gene570|UMNK88_580|fimA
UMNK88_581	operon_0212	NC_017641.1|gene571|UMNK88_581
UMNK88_582	operon_0212	NC_017641.1|gene572|UMNK88_582|fimC
UMNK88_583	operon_0212	NC_017641.1|gene573|UMNK88_583|sfmD
UMNK88_584	operon_0212	NC_017641.1|gene574|UMNK88_584|fimH
UMNK88_585	operon_0212	NC_017641.1|gene575|UMNK88_585|sfmF
UMNK88_586	operon_0213	NC_017641.1|gene576|UMNK88_586|fimZ
UMNK88_t06	operon_0214	NC_017641.1|gene577|UMNK88_t06
UMNK88_588	operon_0215	NC_017641.1|gene578|UMNK88_588|envY
UMNK88_589	operon_0216	NC_017641.1|gene579|UMNK88_589
UMNK88_590	operon_0216	NC_017641.1|gene580|UMNK88_590|nfrA
UMNK88_591	operon_0216	NC_017641.1|gene581|UMNK88_591|nfrB
UMNK88_592	operon_0216	NC_017641.1|gene582|UMNK88_592
UMNK88_593	operon_0216	NC_017641.1|gene583|UMNK88_593|yhhI
UMNK88_594	operon_0216	NC_017641.1|gene584|UMNK88_594
UMNK88_595	operon_0216	NC_017641.1|gene585|UMNK88_595
UMNK88_596	operon_0216	NC_017641.1|gene586|UMNK88_596
UMNK88_597	operon_0216	NC_017641.1|gene587|UMNK88_597
UMNK88_598	operon_0216	NC_017641.1|gene588|UMNK88_598|cusS
UMNK88_599	operon_0216	NC_017641.1|gene589|UMNK88_599|irlR
UMNK88_601	operon_0217	NC_017641.1|gene590|UMNK88_601|cusC
UMNK88_602	operon_0217	NC_017641.1|gene591|UMNK88_602|cusF
UMNK88_603	operon_0217	NC_017641.1|gene592|UMNK88_603|cusB
UMNK88_604	operon_0217	NC_017641.1|gene593|UMNK88_604|cusA
UMNK88_605	operon_0217	NC_017641.1|gene594|UMNK88_605
UMNK88_606	operon_0218	NC_017641.1|gene595|UMNK88_606|ybdG
UMNK88_607	operon_0218	NC_017641.1|gene596|UMNK88_607|nfnB
UMNK88_608	operon_0218	NC_017641.1|gene597|UMNK88_608
UMNK88_609	operon_0218	NC_017641.1|gene598|UMNK88_609
UMNK88_610	operon_0218	NC_017641.1|gene599|UMNK88_610|ybdK
UMNK88_611	operon_0219	NC_017641.1|gene600|UMNK88_611
UMNK88_612	operon_0219	NC_017641.1|gene601|UMNK88_612
UMNK88_613	operon_0220	NC_017641.1|gene602|UMNK88_613|entD
UMNK88_614	operon_0220	NC_017641.1|gene603|UMNK88_614|fepA
UMNK88_615	operon_0221	NC_017641.1|gene604|UMNK88_615
UMNK88_616	operon_0221	NC_017641.1|gene605|UMNK88_616
UMNK88_617	operon_0221	NC_017641.1|gene606|UMNK88_617
UMNK88_619	operon_0221	NC_017641.1|gene607|UMNK88_619|entF
UMNK88_618	operon_0222	NC_017641.1|gene608|UMNK88_618
UMNK88_621	operon_0223	NC_017641.1|gene609|UMNK88_621|fepE
UMNK88_620	operon_0224	NC_017641.1|gene610|UMNK88_620|fepC
UMNK88_622	operon_0224	NC_017641.1|gene611|UMNK88_622|fepG
UMNK88_623	operon_0224	NC_017641.1|gene612|UMNK88_623|fepD
UMNK88_624	operon_0225	NC_017641.1|gene613|UMNK88_624|entS
UMNK88_625	operon_0226	NC_017641.1|gene614|UMNK88_625|fepB
UMNK88_626	operon_0227	NC_017641.1|gene615|UMNK88_626|menF
UMNK88_627	operon_0227	NC_017641.1|gene616|UMNK88_627|entE
UMNK88_628	operon_0227	NC_017641.1|gene617|UMNK88_628|entB
UMNK88_629	operon_0227	NC_017641.1|gene618|UMNK88_629|entA
UMNK88_630	operon_0227	NC_017641.1|gene619|UMNK88_630|ydiI
UMNK88_631	operon_0227	NC_017641.1|gene620|UMNK88_631|cstA
UMNK88_632	operon_0227	NC_017641.1|gene621|UMNK88_632
UMNK88_633	operon_0228	NC_017641.1|gene622|UMNK88_633
UMNK88_634	operon_0229	NC_017641.1|gene623|UMNK88_634|ybdL
UMNK88_635	operon_0230	NC_017641.1|gene624|UMNK88_635|ibrB
UMNK88_636	operon_0230	NC_017641.1|gene625|UMNK88_636
UMNK88_637	operon_0230	NC_017641.1|gene626|UMNK88_637|ibrA
UMNK88_638	operon_0230	NC_017641.1|gene627|UMNK88_638
UMNK88_639	operon_0230	NC_017641.1|gene628|UMNK88_639|dsbG
UMNK88_640	operon_0231	NC_017641.1|gene629|UMNK88_640|ahpC
UMNK88_641	operon_0232	NC_017641.1|gene630|UMNK88_641
UMNK88_642	operon_0233	NC_017641.1|gene631|UMNK88_642|ahpF
UMNK88_643	operon_0234	NC_017641.1|gene632|UMNK88_643
UMNK88_644	operon_0235	NC_017641.1|gene633|UMNK88_644
UMNK88_645	operon_0236	NC_017641.1|gene634|UMNK88_645
UMNK88_646	operon_0237	NC_017641.1|gene635|UMNK88_646
UMNK88_647	operon_0238	NC_017641.1|gene636|UMNK88_647
UMNK88_648	operon_0239	NC_017641.1|gene637|UMNK88_648
UMNK88_649	operon_0239	NC_017641.1|gene638|UMNK88_649|citG
UMNK88_650	operon_0239	NC_017641.1|gene639|UMNK88_650|citX
UMNK88_651	operon_0239	NC_017641.1|gene640|UMNK88_651|citF
UMNK88_652	operon_0239	NC_017641.1|gene641|UMNK88_652|citE
UMNK88_653	operon_0239	NC_017641.1|gene642|UMNK88_653|citD
UMNK88_654	operon_0239	NC_017641.1|gene643|UMNK88_654|citC
UMNK88_655	operon_0240	NC_017641.1|gene644|UMNK88_655|citA
UMNK88_656	operon_0240	NC_017641.1|gene645|UMNK88_656|dpiA
UMNK88_657	operon_0241	NC_017641.1|gene646|UMNK88_657|dcuC
UMNK88_658	operon_0242	NC_017641.1|gene647|UMNK88_658|crcA
UMNK88_659	operon_0242	NC_017641.1|gene648|UMNK88_659|cspI
UMNK88_660	operon_0243	NC_017641.1|gene649|UMNK88_660|crcB
UMNK88_661	operon_0244	NC_017641.1|gene650|UMNK88_661|ybeM
UMNK88_662	operon_0244	NC_017641.1|gene651|UMNK88_662|tatA
UMNK88_663	operon_0245	NC_017641.1|gene652|UMNK88_663|lipA
UMNK88_664	operon_0245	NC_017641.1|gene653|UMNK88_664|lysR
UMNK88_665	operon_0245	NC_017641.1|gene654|UMNK88_665|lipB
UMNK88_666	operon_0245	NC_017641.1|gene655|UMNK88_666
UMNK88_667	operon_0245	NC_017641.1|gene656|UMNK88_667|dacC
UMNK88_669	operon_0246	NC_017641.1|gene657|UMNK88_669
UMNK88_668	operon_0247	NC_017641.1|gene658|UMNK88_668|rlpA
UMNK88_670	operon_0247	NC_017641.1|gene659|UMNK88_670|rodA
UMNK88_671	operon_0247	NC_017641.1|gene660|UMNK88_671|mrdA
UMNK88_672	operon_0248	NC_017641.1|gene661|UMNK88_672
UMNK88_673	operon_0248	NC_017641.1|gene662|UMNK88_673
UMNK88_674	operon_0248	NC_017641.1|gene663|UMNK88_674|cobC
UMNK88_675	operon_0248	NC_017641.1|gene664|UMNK88_675|nadD
UMNK88_676	operon_0248	NC_017641.1|gene665|UMNK88_676|holA
UMNK88_677	operon_0248	NC_017641.1|gene666|UMNK88_677
UMNK88_678	operon_0248	NC_017641.1|gene667|UMNK88_678|leuS
UMNK88_679	operon_0249	NC_017641.1|gene668|UMNK88_679
UMNK88_680	operon_0250	NC_017641.1|gene669|UMNK88_680
UMNK88_681	operon_0251	NC_017641.1|gene670|UMNK88_681
UMNK88_682	operon_0251	NC_017641.1|gene671|UMNK88_682
UMNK88_683	operon_0251	NC_017641.1|gene672|UMNK88_683
UMNK88_684	operon_0252	NC_017641.1|gene673|UMNK88_684
UMNK88_685	operon_0253	NC_017641.1|gene674|UMNK88_685
UMNK88_686	operon_0253	NC_017641.1|gene675|UMNK88_686
UMNK88_687	operon_0254	NC_017641.1|gene676|UMNK88_687
UMNK88_688	operon_0255	NC_017641.1|gene677|UMNK88_688
UMNK88_689	operon_0255	NC_017641.1|gene678|UMNK88_689|gltL
UMNK88_690	operon_0255	NC_017641.1|gene679|UMNK88_690|gltK
UMNK88_691	operon_0255	NC_017641.1|gene680|UMNK88_691|gltJ
UMNK88_692	operon_0255	NC_017641.1|gene681|UMNK88_692|gltI
UMNK88_693	operon_0256	NC_017641.1|gene682|UMNK88_693|conserved hypothetical%3B pseudogene%3B possible frameshift
UMNK88_695	operon_0257	NC_017641.1|gene683|UMNK88_695|int
UMNK88_696	operon_0257	NC_017641.1|gene684|UMNK88_696|corC
UMNK88_697	operon_0258	NC_017641.1|gene685|UMNK88_697
UMNK88_698	operon_0258	NC_017641.1|gene686|UMNK88_698
UMNK88_699	operon_0258	NC_017641.1|gene687|UMNK88_699|miaB
UMNK88_700	operon_0259	NC_017641.1|gene688|UMNK88_700|ubiF
UMNK88_t07	operon_0260	NC_017641.1|gene689|UMNK88_t07
UMNK88_t08	operon_0260	NC_017641.1|gene690|UMNK88_t08
UMNK88_t09	operon_0260	NC_017641.1|gene691|UMNK88_t09
UMNK88_t10	operon_0260	NC_017641.1|gene692|UMNK88_t10
UMNK88_t11	operon_0260	NC_017641.1|gene693|UMNK88_t11
UMNK88_t12	operon_0260	NC_017641.1|gene694|UMNK88_t12
UMNK88_t13	operon_0260	NC_017641.1|gene695|UMNK88_t13
UMNK88_708	operon_0260	NC_017641.1|gene696|UMNK88_708|asnB
UMNK88_710	operon_0260	NC_017641.1|gene697|UMNK88_710|nagD
UMNK88_711	operon_0260	NC_017641.1|gene698|UMNK88_711|nagC
UMNK88_712	operon_0260	NC_017641.1|gene699|UMNK88_712|nagA
UMNK88_713	operon_0260	NC_017641.1|gene700|UMNK88_713|nagB
UMNK88_714	operon_0260	NC_017641.1|gene701|UMNK88_714
UMNK88_715	operon_0261	NC_017641.1|gene702|UMNK88_715|nagE
UMNK88_716	operon_0262	NC_017641.1|gene703|UMNK88_716
UMNK88_717	operon_0263	NC_017641.1|gene704|UMNK88_717|glnS
UMNK88_718	operon_0263	NC_017641.1|gene705|UMNK88_718
UMNK88_719	operon_0264	NC_017641.1|gene706|UMNK88_719
UMNK88_720	operon_0265	NC_017641.1|gene707|UMNK88_720|fur
UMNK88_721	operon_0265	NC_017641.1|gene708|UMNK88_721|fldA
UMNK88_722	operon_0265	NC_017641.1|gene709|UMNK88_722|ybfE
UMNK88_723	operon_0265	NC_017641.1|gene710|UMNK88_723|ybfF
UMNK88_724	operon_0266	NC_017641.1|gene711|UMNK88_724|seqA
UMNK88_725	operon_0266	NC_017641.1|gene712|UMNK88_725|pgm
UMNK88_726	operon_0266	NC_017641.1|gene713|UMNK88_726
UMNK88_727	operon_0267	NC_017641.1|gene714|UMNK88_727
UMNK88_728	operon_0267	NC_017641.1|gene715|UMNK88_728|potE
UMNK88_729	operon_0267	NC_017641.1|gene716|UMNK88_729|speF
UMNK88_730	operon_0268	NC_017641.1|gene717|UMNK88_730
UMNK88_731	operon_0268	NC_017641.1|gene718|UMNK88_731
UMNK88_732	operon_0268	NC_017641.1|gene719|UMNK88_732|kdpD
UMNK88_733	operon_0268	NC_017641.1|gene720|UMNK88_733|kdpC
UMNK88_734	operon_0268	NC_017641.1|gene721|UMNK88_734|kdpB
UMNK88_735	operon_0268	NC_017641.1|gene722|UMNK88_735|kdpA
UMNK88_736	operon_0269	NC_017641.1|gene723|UMNK88_736
UMNK88_737	operon_0270	NC_017641.1|gene724|UMNK88_737
UMNK88_738	operon_0270	NC_017641.1|gene725|UMNK88_738
UMNK88_739	operon_0270	NC_017641.1|gene726|UMNK88_739
UMNK88_740	operon_0270	NC_017641.1|gene727|UMNK88_740
UMNK88_741	operon_0270	NC_017641.1|gene728|UMNK88_741|H repeat-associated gene ydcC%3B pseudogene%3B possible frameshift
UMNK88_743	operon_0270	NC_017641.1|gene729|UMNK88_743
UMNK88_744	operon_0270	NC_017641.1|gene730|UMNK88_744
UMNK88_745	operon_0271	NC_017641.1|gene731|UMNK88_745
UMNK88_746	operon_0272	NC_017641.1|gene732|UMNK88_746
UMNK88_747	operon_0272	NC_017641.1|gene733|UMNK88_747
UMNK88_748	operon_0272	NC_017641.1|gene734|UMNK88_748
UMNK88_749	operon_0272	NC_017641.1|gene735|UMNK88_749
UMNK88_751	operon_0272	NC_017641.1|gene736|UMNK88_751
UMNK88_750	operon_0273	NC_017641.1|gene737|UMNK88_750
UMNK88_752	operon_0274	NC_017641.1|gene738|UMNK88_752
UMNK88_753	operon_0274	NC_017641.1|gene739|UMNK88_753
UMNK88_754	operon_0274	NC_017641.1|gene740|UMNK88_754
UMNK88_755	operon_0275	NC_017641.1|gene741|UMNK88_755
UMNK88_756	operon_0275	NC_017641.1|gene742|UMNK88_756|gltA
UMNK88_757	operon_0276	NC_017641.1|gene743|UMNK88_757|sdhC
UMNK88_758	operon_0276	NC_017641.1|gene744|UMNK88_758|sdhD
UMNK88_759	operon_0276	NC_017641.1|gene745|UMNK88_759|sdhA
UMNK88_760	operon_0276	NC_017641.1|gene746|UMNK88_760
UMNK88_761	operon_0277	NC_017641.1|gene747|UMNK88_761
UMNK88_762	operon_0278	NC_017641.1|gene748|UMNK88_762|sucA
UMNK88_763	operon_0278	NC_017641.1|gene749|UMNK88_763|sucB
UMNK88_764	operon_0278	NC_017641.1|gene750|UMNK88_764|sucC
UMNK88_765	operon_0278	NC_017641.1|gene751|UMNK88_765|sucD
UMNK88_766	operon_0279	NC_017641.1|gene752|UMNK88_766
UMNK88_767	operon_0280	NC_017641.1|gene753|UMNK88_767|hrsA
UMNK88_768	operon_0280	NC_017641.1|gene754|UMNK88_768
UMNK88_769	operon_0280	NC_017641.1|gene755|UMNK88_769
UMNK88_770	operon_0280	NC_017641.1|gene756|UMNK88_770
UMNK88_771	operon_0280	NC_017641.1|gene757|UMNK88_771|cydB
UMNK88_772	operon_0280	NC_017641.1|gene758|UMNK88_772
UMNK88_773	operon_0280	NC_017641.1|gene759|UMNK88_773
UMNK88_774	operon_0280	NC_017641.1|gene760|UMNK88_774|ybgC
UMNK88_775	operon_0280	NC_017641.1|gene761|UMNK88_775|tolQ
UMNK88_776	operon_0280	NC_017641.1|gene762|UMNK88_776|tolR
UMNK88_777	operon_0280	NC_017641.1|gene763|UMNK88_777|tolA
UMNK88_778	operon_0280	NC_017641.1|gene764|UMNK88_778|tolB
UMNK88_779	operon_0280	NC_017641.1|gene765|UMNK88_779|pal
UMNK88_780	operon_0280	NC_017641.1|gene766|UMNK88_780|ygbF
UMNK88_t14	operon_0280	NC_017641.1|gene767|UMNK88_t14
UMNK88_t15	operon_0280	NC_017641.1|gene768|UMNK88_t15
UMNK88_t16	operon_0280	NC_017641.1|gene769|UMNK88_t16
UMNK88_t17	operon_0280	NC_017641.1|gene770|UMNK88_t17
UMNK88_t18	operon_0280	NC_017641.1|gene771|UMNK88_t18
UMNK88_t19	operon_0280	NC_017641.1|gene772|UMNK88_t19
UMNK88_t20	operon_0280	NC_017641.1|gene773|UMNK88_t20
UMNK88_788	operon_0280	NC_017641.1|gene774|UMNK88_788|nadA
UMNK88_790	operon_0280	NC_017641.1|gene775|UMNK88_790|pnuC
UMNK88_789	operon_0281	NC_017641.1|gene776|UMNK88_789
UMNK88_791	operon_0282	NC_017641.1|gene777|UMNK88_791
UMNK88_792	operon_0283	NC_017641.1|gene778|UMNK88_792
UMNK88_793	operon_0284	NC_017641.1|gene779|UMNK88_793
UMNK88_794	operon_0284	NC_017641.1|gene780|UMNK88_794
UMNK88_795	operon_0284	NC_017641.1|gene781|UMNK88_795|galM
UMNK88_796	operon_0284	NC_017641.1|gene782|UMNK88_796|galK
UMNK88_797	operon_0284	NC_017641.1|gene783|UMNK88_797|galT
UMNK88_798	operon_0284	NC_017641.1|gene784|UMNK88_798|galE
UMNK88_799	operon_0284	NC_017641.1|gene785|UMNK88_799
UMNK88_800	operon_0284	NC_017641.1|gene786|UMNK88_800
UMNK88_801	operon_0285	NC_017641.1|gene787|UMNK88_801
UMNK88_802	operon_0286	NC_017641.1|gene788|UMNK88_802|modA
UMNK88_803	operon_0286	NC_017641.1|gene789|UMNK88_803|modB
UMNK88_805	operon_0286	NC_017641.1|gene790|UMNK88_805|modC
UMNK88_804	operon_0287	NC_017641.1|gene791|UMNK88_804
UMNK88_806	operon_0288	NC_017641.1|gene792|UMNK88_806
UMNK88_807	operon_0289	NC_017641.1|gene793|UMNK88_807
UMNK88_808	operon_0290	NC_017641.1|gene794|UMNK88_808
UMNK88_809	operon_0290	NC_017641.1|gene795|UMNK88_809
UMNK88_810	operon_0290	NC_017641.1|gene796|UMNK88_810
UMNK88_811	operon_0291	NC_017641.1|gene797|UMNK88_811
UMNK88_812	operon_0292	NC_017641.1|gene798|UMNK88_812
UMNK88_813	operon_0293	NC_017641.1|gene799|UMNK88_813
UMNK88_814	operon_0293	NC_017641.1|gene800|UMNK88_814|bioA
UMNK88_815	operon_0294	NC_017641.1|gene801|UMNK88_815|bioB
UMNK88_816	operon_0294	NC_017641.1|gene802|UMNK88_816|bioF
UMNK88_817	operon_0294	NC_017641.1|gene803|UMNK88_817
UMNK88_818	operon_0294	NC_017641.1|gene804|UMNK88_818|bioD
UMNK88_819	operon_0294	NC_017641.1|gene805|UMNK88_819|uvrB
UMNK88_820	operon_0295	NC_017641.1|gene806|UMNK88_820
UMNK88_821	operon_0296	NC_017641.1|gene807|UMNK88_821|moaA
UMNK88_822	operon_0296	NC_017641.1|gene808|UMNK88_822|moaB
UMNK88_823	operon_0296	NC_017641.1|gene809|UMNK88_823|moaC
UMNK88_824	operon_0296	NC_017641.1|gene810|UMNK88_824|moaD
UMNK88_825	operon_0296	NC_017641.1|gene811|UMNK88_825
UMNK88_826	operon_0296	NC_017641.1|gene812|UMNK88_826
UMNK88_827	operon_0297	NC_017641.1|gene813|UMNK88_827
UMNK88_828	operon_0298	NC_017641.1|gene814|UMNK88_828
UMNK88_829	operon_0298	NC_017641.1|gene815|UMNK88_829
UMNK88_830	operon_0298	NC_017641.1|gene816|UMNK88_830
UMNK88_832	operon_0299	NC_017641.1|gene817|UMNK88_832
UMNK88_831	operon_0300	NC_017641.1|gene818|UMNK88_831
UMNK88_833	operon_0300	NC_017641.1|gene819|UMNK88_833
UMNK88_834	operon_0300	NC_017641.1|gene820|UMNK88_834
UMNK88_835	operon_0300	NC_017641.1|gene821|UMNK88_835
UMNK88_836	operon_0300	NC_017641.1|gene822|UMNK88_836
UMNK88_837	operon_0301	NC_017641.1|gene823|UMNK88_837
UMNK88_838	operon_0302	NC_017641.1|gene824|UMNK88_838
UMNK88_839	operon_0303	NC_017641.1|gene825|UMNK88_839
UMNK88_840	operon_0304	NC_017641.1|gene826|UMNK88_840
UMNK88_841	operon_0305	NC_017641.1|gene827|UMNK88_841
UMNK88_842	operon_0306	NC_017641.1|gene828|UMNK88_842
UMNK88_843	operon_0306	NC_017641.1|gene829|UMNK88_843
UMNK88_844	operon_0306	NC_017641.1|gene830|UMNK88_844
UMNK88_845	operon_0307	NC_017641.1|gene831|UMNK88_845
UMNK88_846	operon_0307	NC_017641.1|gene832|UMNK88_846
UMNK88_848	operon_0308	NC_017641.1|gene833|UMNK88_848
UMNK88_847	operon_0309	NC_017641.1|gene834|UMNK88_847
UMNK88_849	operon_0309	NC_017641.1|gene835|UMNK88_849
UMNK88_850	operon_0309	NC_017641.1|gene836|UMNK88_850
UMNK88_851	operon_0309	NC_017641.1|gene837|UMNK88_851
UMNK88_852	operon_0310	NC_017641.1|gene838|UMNK88_852
UMNK88_853	operon_0311	NC_017641.1|gene839|UMNK88_853
UMNK88_854	operon_0312	NC_017641.1|gene840|UMNK88_854
UMNK88_855	operon_0313	NC_017641.1|gene841|UMNK88_855
UMNK88_856	operon_0314	NC_017641.1|gene842|UMNK88_856
UMNK88_857	operon_0315	NC_017641.1|gene843|UMNK88_857
UMNK88_858	operon_0315	NC_017641.1|gene844|UMNK88_858
UMNK88_859	operon_0316	NC_017641.1|gene845|UMNK88_859
UMNK88_860	operon_0317	NC_017641.1|gene846|UMNK88_860
UMNK88_861	operon_0318	NC_017641.1|gene847|UMNK88_861
UMNK88_862	operon_0319	NC_017641.1|gene848|UMNK88_862
UMNK88_863	operon_0320	NC_017641.1|gene849|UMNK88_863
UMNK88_864	operon_0320	NC_017641.1|gene850|UMNK88_864
UMNK88_865	operon_0321	NC_017641.1|gene851|UMNK88_865|talC
UMNK88_866	operon_0321	NC_017641.1|gene852|UMNK88_866
UMNK88_867	operon_0322	NC_017641.1|gene853|UMNK88_867|moeB
UMNK88_868	operon_0322	NC_017641.1|gene854|UMNK88_868
UMNK88_869	operon_0323	NC_017641.1|gene855|UMNK88_869
UMNK88_870	operon_0323	NC_017641.1|gene856|UMNK88_870
UMNK88_871	operon_0323	NC_017641.1|gene857|UMNK88_871
UMNK88_872	operon_0323	NC_017641.1|gene858|UMNK88_872
UMNK88_873	operon_0323	NC_017641.1|gene859|UMNK88_873
UMNK88_874	operon_0323	NC_017641.1|gene860|UMNK88_874
UMNK88_875	operon_0323	NC_017641.1|gene861|UMNK88_875
UMNK88_876	operon_0324	NC_017641.1|gene862|UMNK88_876
UMNK88_877	operon_0325	NC_017641.1|gene863|UMNK88_877
UMNK88_879	operon_0326	NC_017641.1|gene864|UMNK88_879
UMNK88_878	operon_0327	NC_017641.1|gene865|UMNK88_878
UMNK88_880	operon_0328	NC_017641.1|gene866|UMNK88_880
UMNK88_881	operon_0329	NC_017641.1|gene867|UMNK88_881
UMNK88_882	operon_0329	NC_017641.1|gene868|UMNK88_882
UMNK88_883	operon_0330	NC_017641.1|gene869|UMNK88_883
UMNK88_884	operon_0331	NC_017641.1|gene870|UMNK88_884
UMNK88_885	operon_0331	NC_017641.1|gene871|UMNK88_885
UMNK88_886	operon_0331	NC_017641.1|gene872|UMNK88_886
UMNK88_887	operon_0332	NC_017641.1|gene873|UMNK88_887
UMNK88_888	operon_0333	NC_017641.1|gene874|UMNK88_888
UMNK88_889	operon_0333	NC_017641.1|gene875|UMNK88_889
UMNK88_890	operon_0334	NC_017641.1|gene876|UMNK88_890
UMNK88_891	operon_0334	NC_017641.1|gene877|UMNK88_891
UMNK88_892	operon_0334	NC_017641.1|gene878|UMNK88_892
UMNK88_893	operon_0334	NC_017641.1|gene879|UMNK88_893
UMNK88_894	operon_0334	NC_017641.1|gene880|UMNK88_894
UMNK88_895	operon_0334	NC_017641.1|gene881|UMNK88_895
UMNK88_896	operon_0334	NC_017641.1|gene882|UMNK88_896|dam
UMNK88_897	operon_0334	NC_017641.1|gene883|UMNK88_897
UMNK88_898	operon_0334	NC_017641.1|gene884|UMNK88_898
UMNK88_899	operon_0334	NC_017641.1|gene885|UMNK88_899
UMNK88_901	operon_0334	NC_017641.1|gene886|UMNK88_901
UMNK88_900	operon_0335	NC_017641.1|gene887|UMNK88_900
UMNK88_902	operon_0336	NC_017641.1|gene888|UMNK88_902
UMNK88_903	operon_0336	NC_017641.1|gene889|UMNK88_903
UMNK88_904	operon_0336	NC_017641.1|gene890|UMNK88_904
UMNK88_905	operon_0336	NC_017641.1|gene891|UMNK88_905
UMNK88_906	operon_0336	NC_017641.1|gene892|UMNK88_906
UMNK88_907	operon_0337	NC_017641.1|gene893|UMNK88_907
UMNK88_908	operon_0337	NC_017641.1|gene894|UMNK88_908
UMNK88_909	operon_0338	NC_017641.1|gene895|UMNK88_909
UMNK88_910	operon_0338	NC_017641.1|gene896|UMNK88_910
UMNK88_911	operon_0338	NC_017641.1|gene897|UMNK88_911
UMNK88_912	operon_0338	NC_017641.1|gene898|UMNK88_912
UMNK88_913	operon_0338	NC_017641.1|gene899|UMNK88_913
UMNK88_914	operon_0338	NC_017641.1|gene900|UMNK88_914
UMNK88_915	operon_0338	NC_017641.1|gene901|UMNK88_915
UMNK88_916	operon_0338	NC_017641.1|gene902|UMNK88_916
UMNK88_917	operon_0338	NC_017641.1|gene903|UMNK88_917
UMNK88_918	operon_0338	NC_017641.1|gene904|UMNK88_918
UMNK88_919	operon_0338	NC_017641.1|gene905|UMNK88_919
UMNK88_920	operon_0338	NC_017641.1|gene906|UMNK88_920
UMNK88_921	operon_0338	NC_017641.1|gene907|UMNK88_921
UMNK88_922	operon_0338	NC_017641.1|gene908|UMNK88_922
UMNK88_923	operon_0338	NC_017641.1|gene909|UMNK88_923
UMNK88_924	operon_0338	NC_017641.1|gene910|UMNK88_924
UMNK88_925	operon_0338	NC_017641.1|gene911|UMNK88_925
UMNK88_927	operon_0338	NC_017641.1|gene912|UMNK88_927
UMNK88_926	operon_0339	NC_017641.1|gene913|UMNK88_926
UMNK88_928	operon_0339	NC_017641.1|gene914|UMNK88_928
UMNK88_929	operon_0340	NC_017641.1|gene915|UMNK88_929
UMNK88_931	operon_0340	NC_017641.1|gene916|UMNK88_931
UMNK88_930	operon_0341	NC_017641.1|gene917|UMNK88_930
UMNK88_932	operon_0342	NC_017641.1|gene918|UMNK88_932
UMNK88_933	operon_0342	NC_017641.1|gene919|UMNK88_933
UMNK88_934	operon_0342	NC_017641.1|gene920|UMNK88_934
UMNK88_935	operon_0343	NC_017641.1|gene921|UMNK88_935
UMNK88_936	operon_0343	NC_017641.1|gene922|UMNK88_936
UMNK88_937	operon_0343	NC_017641.1|gene923|UMNK88_937
UMNK88_938	operon_0343	NC_017641.1|gene924|UMNK88_938
UMNK88_939	operon_0343	NC_017641.1|gene925|UMNK88_939
UMNK88_940	operon_0344	NC_017641.1|gene926|UMNK88_940
UMNK88_941	operon_0345	NC_017641.1|gene927|UMNK88_941
UMNK88_942	operon_0346	NC_017641.1|gene928|UMNK88_942|grxA
UMNK88_943	operon_0347	NC_017641.1|gene929|UMNK88_943
UMNK88_944	operon_0347	NC_017641.1|gene930|UMNK88_944
UMNK88_945	operon_0347	NC_017641.1|gene931|UMNK88_945
UMNK88_946	operon_0348	NC_017641.1|gene932|UMNK88_946
UMNK88_947	operon_0349	NC_017641.1|gene933|UMNK88_947
UMNK88_948	operon_0349	NC_017641.1|gene934|UMNK88_948
UMNK88_949	operon_0349	NC_017641.1|gene935|UMNK88_949
UMNK88_950	operon_0349	NC_017641.1|gene936|UMNK88_950
UMNK88_951	operon_0349	NC_017641.1|gene937|UMNK88_951
UMNK88_952	operon_0349	NC_017641.1|gene938|UMNK88_952
UMNK88_953	operon_0349	NC_017641.1|gene939|UMNK88_953
UMNK88_954	operon_0350	NC_017641.1|gene940|UMNK88_954
UMNK88_955	operon_0350	NC_017641.1|gene941|UMNK88_955|rumB
UMNK88_956	operon_0351	NC_017641.1|gene942|UMNK88_956
UMNK88_957	operon_0352	NC_017641.1|gene943|UMNK88_957
UMNK88_958	operon_0352	NC_017641.1|gene944|UMNK88_958
UMNK88_959	operon_0352	NC_017641.1|gene945|UMNK88_959
UMNK88_960	operon_0352	NC_017641.1|gene946|UMNK88_960
UMNK88_961	operon_0353	NC_017641.1|gene947|UMNK88_961
UMNK88_962	operon_0354	NC_017641.1|gene948|UMNK88_962
UMNK88_964	operon_0354	NC_017641.1|gene949|UMNK88_964
UMNK88_963	operon_0355	NC_017641.1|gene950|UMNK88_963
UMNK88_965	operon_0355	NC_017641.1|gene951|UMNK88_965
UMNK88_966	operon_0355	NC_017641.1|gene952|UMNK88_966
UMNK88_967	operon_0355	NC_017641.1|gene953|UMNK88_967
UMNK88_968	operon_0356	NC_017641.1|gene954|UMNK88_968
UMNK88_969	operon_0356	NC_017641.1|gene955|UMNK88_969|hcp
UMNK88_970	operon_0356	NC_017641.1|gene956|UMNK88_970
UMNK88_971	operon_0357	NC_017641.1|gene957|UMNK88_971
UMNK88_973	operon_0358	NC_017641.1|gene958|UMNK88_973
UMNK88_972	operon_0359	NC_017641.1|gene959|UMNK88_972
UMNK88_974	operon_0360	NC_017641.1|gene960|UMNK88_974
UMNK88_975	operon_0360	NC_017641.1|gene961|UMNK88_975
UMNK88_976	operon_0361	NC_017641.1|gene962|UMNK88_976|cspD
UMNK88_977	operon_0362	NC_017641.1|gene963|UMNK88_977
UMNK88_978	operon_0362	NC_017641.1|gene964|UMNK88_978|clpA
UMNK88_t21	operon_0363	NC_017641.1|gene965|UMNK88_t21
UMNK88_980	operon_0363	NC_017641.1|gene966|UMNK88_980|infA
UMNK88_981	operon_0363	NC_017641.1|gene967|UMNK88_981|aat
UMNK88_982	operon_0363	NC_017641.1|gene968|UMNK88_982
UMNK88_983	operon_0363	NC_017641.1|gene969|UMNK88_983|cydD
UMNK88_984	operon_0363	NC_017641.1|gene970|UMNK88_984|trxB
UMNK88_986	operon_0364	NC_017641.1|gene971|UMNK88_986
UMNK88_985	operon_0365	NC_017641.1|gene972|UMNK88_985
UMNK88_987	operon_0366	NC_017641.1|gene973|UMNK88_987
UMNK88_988	operon_0367	NC_017641.1|gene974|UMNK88_988
UMNK88_989	operon_0368	NC_017641.1|gene975|UMNK88_989|lolA
UMNK88_990	operon_0368	NC_017641.1|gene976|UMNK88_990
UMNK88_991	operon_0368	NC_017641.1|gene977|UMNK88_991|serS
UMNK88_992	operon_0369	NC_017641.1|gene978|UMNK88_992
UMNK88_993	operon_0369	NC_017641.1|gene979|UMNK88_993
UMNK88_994	operon_0370	NC_017641.1|gene980|UMNK88_994
UMNK88_995	operon_0371	NC_017641.1|gene981|UMNK88_995
UMNK88_996	operon_0371	NC_017641.1|gene982|UMNK88_996
UMNK88_997	operon_0371	NC_017641.1|gene983|UMNK88_997
UMNK88_998	operon_0372	NC_017641.1|gene984|UMNK88_998
UMNK88_999	operon_0372	NC_017641.1|gene985|UMNK88_999
UMNK88_1000	operon_0372	NC_017641.1|gene986|UMNK88_1000
UMNK88_1001	operon_0372	NC_017641.1|gene987|UMNK88_1001
UMNK88_1002	operon_0373	NC_017641.1|gene988|UMNK88_1002
UMNK88_1003	operon_0373	NC_017641.1|gene989|UMNK88_1003
UMNK88_1004	operon_0374	NC_017641.1|gene990|UMNK88_1004
UMNK88_1006	operon_0375	NC_017641.1|gene991|UMNK88_1006
UMNK88_1005	operon_0376	NC_017641.1|gene992|UMNK88_1005
UMNK88_1007	operon_0376	NC_017641.1|gene993|UMNK88_1007
UMNK88_1008	operon_0376	NC_017641.1|gene994|UMNK88_1008
UMNK88_1009	operon_0376	NC_017641.1|gene995|UMNK88_1009
UMNK88_1010	operon_0376	NC_017641.1|gene996|UMNK88_1010
UMNK88_1011	operon_0376	NC_017641.1|gene997|UMNK88_1011
UMNK88_1012	operon_0376	NC_017641.1|gene998|UMNK88_1012
UMNK88_1013	operon_0376	NC_017641.1|gene999|UMNK88_1013
UMNK88_1014	operon_0376	NC_017641.1|gene1000|UMNK88_1014
UMNK88_1015	operon_0376	NC_017641.1|gene1001|UMNK88_1015
UMNK88_1016	operon_0376	NC_017641.1|gene1002|UMNK88_1016
UMNK88_1017	operon_0376	NC_017641.1|gene1003|UMNK88_1017
UMNK88_1018	operon_0376	NC_017641.1|gene1004|UMNK88_1018
UMNK88_1019	operon_0376	NC_017641.1|gene1005|UMNK88_1019
UMNK88_1020	operon_0376	NC_017641.1|gene1006|UMNK88_1020
UMNK88_1021	operon_0376	NC_017641.1|gene1007|UMNK88_1021
UMNK88_1022	operon_0376	NC_017641.1|gene1008|UMNK88_1022
UMNK88_1023	operon_0376	NC_017641.1|gene1009|UMNK88_1023
UMNK88_1024	operon_0376	NC_017641.1|gene1010|UMNK88_1024
UMNK88_1025	operon_0376	NC_017641.1|gene1011|UMNK88_1025
UMNK88_1026	operon_0377	NC_017641.1|gene1012|UMNK88_1026
UMNK88_1027	operon_0377	NC_017641.1|gene1013|UMNK88_1027
UMNK88_1028	operon_0378	NC_017641.1|gene1014|UMNK88_1028
UMNK88_1029	operon_0379	NC_017641.1|gene1015|UMNK88_1029
UMNK88_1030	operon_0379	NC_017641.1|gene1016|UMNK88_1030
UMNK88_1031	operon_0379	NC_017641.1|gene1017|UMNK88_1031
UMNK88_1032	operon_0379	NC_017641.1|gene1018|UMNK88_1032
UMNK88_1033	operon_0379	NC_017641.1|gene1019|UMNK88_1033
UMNK88_1034	operon_0379	NC_017641.1|gene1020|UMNK88_1034
UMNK88_1035	operon_0379	NC_017641.1|gene1021|UMNK88_1035
UMNK88_1036	operon_0379	NC_017641.1|gene1022|UMNK88_1036
UMNK88_1037	operon_0379	NC_017641.1|gene1023|UMNK88_1037
UMNK88_1038	operon_0379	NC_017641.1|gene1024|UMNK88_1038
UMNK88_1039	operon_0379	NC_017641.1|gene1025|UMNK88_1039
UMNK88_1040	operon_0379	NC_017641.1|gene1026|UMNK88_1040
UMNK88_1041	operon_0379	NC_017641.1|gene1027|UMNK88_1041
UMNK88_1042	operon_0379	NC_017641.1|gene1028|UMNK88_1042
UMNK88_1043	operon_0380	NC_017641.1|gene1029|UMNK88_1043
UMNK88_1044	operon_0380	NC_017641.1|gene1030|UMNK88_1044
UMNK88_1045	operon_0381	NC_017641.1|gene1031|UMNK88_1045
UMNK88_1046	operon_0381	NC_017641.1|gene1032|UMNK88_1046|dmsB
UMNK88_1047	operon_0381	NC_017641.1|gene1033|UMNK88_1047
UMNK88_1048	operon_0382	NC_017641.1|gene1034|UMNK88_1048
UMNK88_1049	operon_0382	NC_017641.1|gene1035|UMNK88_1049
UMNK88_1050	operon_0383	NC_017641.1|gene1036|UMNK88_1050
UMNK88_1052	operon_0384	NC_017641.1|gene1037|UMNK88_1052
UMNK88_1051	operon_0385	NC_017641.1|gene1038|UMNK88_1051
UMNK88_1053	operon_0386	NC_017641.1|gene1039|UMNK88_1053
UMNK88_1054	operon_0387	NC_017641.1|gene1040|UMNK88_1054|pflA
UMNK88_1055	operon_0387	NC_017641.1|gene1041|UMNK88_1055|pflB
UMNK88_1056	operon_0387	NC_017641.1|gene1042|UMNK88_1056|fnt
UMNK88_1057	operon_0388	NC_017641.1|gene1043|UMNK88_1057
UMNK88_1058	operon_0389	NC_017641.1|gene1044|UMNK88_1058
UMNK88_1059	operon_0389	NC_017641.1|gene1045|UMNK88_1059|serC
UMNK88_1060	operon_0389	NC_017641.1|gene1046|UMNK88_1060|aroA
UMNK88_1061	operon_0389	NC_017641.1|gene1047|UMNK88_1061
UMNK88_1062	operon_0390	NC_017641.1|gene1048|UMNK88_1062|cmk
UMNK88_1063	operon_0390	NC_017641.1|gene1049|UMNK88_1063|rpsA
UMNK88_1064	operon_0390	NC_017641.1|gene1050|UMNK88_1064|ihfB
UMNK88_1065	operon_0390	NC_017641.1|gene1051|UMNK88_1065|DNA internalization-related competence gene
UMNK88_1067	operon_0390	NC_017641.1|gene1052|UMNK88_1067|msbA
UMNK88_1068	operon_0390	NC_017641.1|gene1053|UMNK88_1068|lpxK
UMNK88_1069	operon_0390	NC_017641.1|gene1054|UMNK88_1069
UMNK88_1070	operon_0390	NC_017641.1|gene1055|UMNK88_1070
UMNK88_1071	operon_0390	NC_017641.1|gene1056|UMNK88_1071|kdsB
UMNK88_1072	operon_0390	NC_017641.1|gene1057|UMNK88_1072
UMNK88_1073	operon_0391	NC_017641.1|gene1058|UMNK88_1073
UMNK88_1074	operon_0392	NC_017641.1|gene1059|UMNK88_1074
UMNK88_1075	operon_0392	NC_017641.1|gene1060|UMNK88_1075
UMNK88_1076	operon_0392	NC_017641.1|gene1061|UMNK88_1076
UMNK88_1077	operon_0392	NC_017641.1|gene1062|UMNK88_1077
UMNK88_1078	operon_0393	NC_017641.1|gene1063|UMNK88_1078
UMNK88_1079	operon_0393	NC_017641.1|gene1064|UMNK88_1079
UMNK88_1080	operon_0393	NC_017641.1|gene1065|UMNK88_1080
UMNK88_1081	operon_0394	NC_017641.1|gene1066|UMNK88_1081
UMNK88_1082	operon_0395	NC_017641.1|gene1067|UMNK88_1082
UMNK88_1083	operon_0396	NC_017641.1|gene1068|UMNK88_1083
UMNK88_1084	operon_0397	NC_017641.1|gene1069|UMNK88_1084|asnS
UMNK88_1085	operon_0397	NC_017641.1|gene1070|UMNK88_1085|pncB
UMNK88_1086	operon_0398	NC_017641.1|gene1071|UMNK88_1086
UMNK88_1087	operon_0398	NC_017641.1|gene1072|UMNK88_1087|pepN
UMNK88_1088	operon_0399	NC_017641.1|gene1073|UMNK88_1088
UMNK88_1089	operon_0399	NC_017641.1|gene1074|UMNK88_1089
UMNK88_1090	operon_0399	NC_017641.1|gene1075|UMNK88_1090
UMNK88_1091	operon_0399	NC_017641.1|gene1076|UMNK88_1091
UMNK88_1092	operon_0399	NC_017641.1|gene1077|UMNK88_1092
UMNK88_1093	operon_0400	NC_017641.1|gene1078|UMNK88_1093
UMNK88_1094	operon_0401	NC_017641.1|gene1079|UMNK88_1094
UMNK88_1095	operon_0401	NC_017641.1|gene1080|UMNK88_1095
UMNK88_1096	operon_0401	NC_017641.1|gene1081|UMNK88_1096
UMNK88_1097	operon_0401	NC_017641.1|gene1082|UMNK88_1097
UMNK88_1098	operon_0401	NC_017641.1|gene1083|UMNK88_1098
UMNK88_1099	operon_0401	NC_017641.1|gene1084|UMNK88_1099
UMNK88_1100	operon_0401	NC_017641.1|gene1085|UMNK88_1100|pyrD
UMNK88_1102	operon_0401	NC_017641.1|gene1086|UMNK88_1102
UMNK88_1101	operon_0402	NC_017641.1|gene1087|UMNK88_1101
UMNK88_1103	operon_0403	NC_017641.1|gene1088|UMNK88_1103
UMNK88_1104	operon_0403	NC_017641.1|gene1089|UMNK88_1104
UMNK88_1105	operon_0403	NC_017641.1|gene1090|UMNK88_1105
UMNK88_1106	operon_0403	NC_017641.1|gene1091|UMNK88_1106
UMNK88_1107	operon_0403	NC_017641.1|gene1092|UMNK88_1107
UMNK88_1108	operon_0404	NC_017641.1|gene1093|UMNK88_1108|fabA
UMNK88_1109	operon_0404	NC_017641.1|gene1094|UMNK88_1109
UMNK88_1110	operon_0405	NC_017641.1|gene1095|UMNK88_1110
UMNK88_1111	operon_0406	NC_017641.1|gene1096|UMNK88_1111
UMNK88_1112	operon_0407	NC_017641.1|gene1097|UMNK88_1112
UMNK88_1114	operon_0408	NC_017641.1|gene1098|UMNK88_1114
UMNK88_1113	operon_0409	NC_017641.1|gene1099|UMNK88_1113
UMNK88_1115	operon_0409	NC_017641.1|gene1100|UMNK88_1115
UMNK88_1116	operon_0410	NC_017641.1|gene1101|UMNK88_1116
UMNK88_1117	operon_0411	NC_017641.1|gene1102|UMNK88_1117|mgsA
UMNK88_1118	operon_0412	NC_017641.1|gene1103|UMNK88_1118
UMNK88_1119	operon_0412	NC_017641.1|gene1104|UMNK88_1119
UMNK88_1120	operon_0413	NC_017641.1|gene1105|UMNK88_1120
UMNK88_1121	operon_0414	NC_017641.1|gene1106|UMNK88_1121
UMNK88_1122	operon_0414	NC_017641.1|gene1107|UMNK88_1122
UMNK88_1124	operon_0415	NC_017641.1|gene1108|UMNK88_1124
UMNK88_1123	operon_0416	NC_017641.1|gene1109|UMNK88_1123|tusE
UMNK88_1125	operon_0417	NC_017641.1|gene1110|UMNK88_1125
UMNK88_t22	operon_0417	NC_017641.1|gene1111|UMNK88_t22
UMNK88_1127	operon_0418	NC_017641.1|gene1112|UMNK88_1127
UMNK88_1128	operon_0418	NC_017641.1|gene1113|UMNK88_1128
UMNK88_1129	operon_0418	NC_017641.1|gene1114|UMNK88_1129|hyaC
UMNK88_1130	operon_0418	NC_017641.1|gene1115|UMNK88_1130|hybD
UMNK88_1131	operon_0418	NC_017641.1|gene1116|UMNK88_1131
UMNK88_1132	operon_0418	NC_017641.1|gene1117|UMNK88_1132
UMNK88_1133	operon_0418	NC_017641.1|gene1118|UMNK88_1133
UMNK88_1134	operon_0418	NC_017641.1|gene1119|UMNK88_1134|appB
UMNK88_1135	operon_0418	NC_017641.1|gene1120|UMNK88_1135
UMNK88_1136	operon_0419	NC_017641.1|gene1121|UMNK88_1136
UMNK88_1137	operon_0419	NC_017641.1|gene1122|UMNK88_1137
UMNK88_1138	operon_0419	NC_017641.1|gene1123|UMNK88_1138
UMNK88_1139	operon_0419	NC_017641.1|gene1124|UMNK88_1139
UMNK88_1140	operon_0419	NC_017641.1|gene1125|UMNK88_1140
UMNK88_1141	operon_0419	NC_017641.1|gene1126|UMNK88_1141
UMNK88_1142	operon_0420	NC_017641.1|gene1127|UMNK88_1142
UMNK88_1143	operon_0420	NC_017641.1|gene1128|UMNK88_1143
UMNK88_1144	operon_0421	NC_017641.1|gene1129|UMNK88_1144
UMNK88_1145	operon_0422	NC_017641.1|gene1130|UMNK88_1145
UMNK88_1146	operon_0423	NC_017641.1|gene1131|UMNK88_1146
UMNK88_1147	operon_0423	NC_017641.1|gene1132|UMNK88_1147|torS
UMNK88_1149	operon_0424	NC_017641.1|gene1133|UMNK88_1149|torT
UMNK88_1148	operon_0425	NC_017641.1|gene1134|UMNK88_1148
UMNK88_1150	operon_0426	NC_017641.1|gene1135|UMNK88_1150|torC
UMNK88_1151	operon_0426	NC_017641.1|gene1136|UMNK88_1151|torA
UMNK88_1152	operon_0426	NC_017641.1|gene1137|UMNK88_1152
UMNK88_1153	operon_0427	NC_017641.1|gene1138|UMNK88_1153
UMNK88_1154	operon_0427	NC_017641.1|gene1139|UMNK88_1154
UMNK88_1155	operon_0428	NC_017641.1|gene1140|UMNK88_1155|conserved hypothetical protein%3B pseudogene%3B possible frameshift
UMNK88_1157	operon_0428	NC_017641.1|gene1141|UMNK88_1157
UMNK88_1158	operon_0429	NC_017641.1|gene1142|UMNK88_1158
UMNK88_1159	operon_0429	NC_017641.1|gene1143|UMNK88_1159|wrbA
UMNK88_1160	operon_0430	NC_017641.1|gene1144|UMNK88_1160
UMNK88_1161	operon_0431	NC_017641.1|gene1145|UMNK88_1161
UMNK88_1162	operon_0431	NC_017641.1|gene1146|UMNK88_1162
UMNK88_1163	operon_0431	NC_017641.1|gene1147|UMNK88_1163
UMNK88_1164	operon_0431	NC_017641.1|gene1148|UMNK88_1164
UMNK88_1165	operon_0431	NC_017641.1|gene1149|UMNK88_1165
UMNK88_1166	operon_0431	NC_017641.1|gene1150|UMNK88_1166
UMNK88_1167	operon_0431	NC_017641.1|gene1151|UMNK88_1167
UMNK88_1168	operon_0432	NC_017641.1|gene1152|UMNK88_1168
UMNK88_1169	operon_0433	NC_017641.1|gene1153|UMNK88_1169
UMNK88_1170	operon_0434	NC_017641.1|gene1154|UMNK88_1170
UMNK88_1171	operon_0434	NC_017641.1|gene1155|UMNK88_1171
UMNK88_1172	operon_0434	NC_017641.1|gene1156|UMNK88_1172|putP
UMNK88_1173	operon_0434	NC_017641.1|gene1157|UMNK88_1173
UMNK88_1174	operon_0434	NC_017641.1|gene1158|UMNK88_1174
UMNK88_1175	operon_0434	NC_017641.1|gene1159|UMNK88_1175
UMNK88_1176	operon_0435	NC_017641.1|gene1160|UMNK88_1176
UMNK88_1177	operon_0436	NC_017641.1|gene1161|UMNK88_1177
UMNK88_1178	operon_0436	NC_017641.1|gene1162|UMNK88_1178
UMNK88_1179	operon_0437	NC_017641.1|gene1163|UMNK88_1179|conserved hypothetical%3B pseudogene%3B possible frameshift
UMNK88_1181	operon_0438	NC_017641.1|gene1164|UMNK88_1181
UMNK88_1182	operon_0439	NC_017641.1|gene1165|UMNK88_1182
UMNK88_1183	operon_0440	NC_017641.1|gene1166|UMNK88_1183|conserved hypothetical%3B pseudogene%3B possible frameshift
UMNK88_1185	operon_0440	NC_017641.1|gene1167|UMNK88_1185
UMNK88_1186	operon_0440	NC_017641.1|gene1168|UMNK88_1186
UMNK88_1187	operon_0441	NC_017641.1|gene1169|UMNK88_1187
UMNK88_1188	operon_0441	NC_017641.1|gene1170|UMNK88_1188
UMNK88_1189	operon_0441	NC_017641.1|gene1171|UMNK88_1189
UMNK88_1190	operon_0441	NC_017641.1|gene1172|UMNK88_1190
UMNK88_1191	operon_0442	NC_017641.1|gene1173|UMNK88_1191
UMNK88_1192	operon_0442	NC_017641.1|gene1174|UMNK88_1192
UMNK88_1193	operon_0443	NC_017641.1|gene1175|UMNK88_1193
UMNK88_1194	operon_0443	NC_017641.1|gene1176|UMNK88_1194
UMNK88_1195	operon_0444	NC_017641.1|gene1177|UMNK88_1195
UMNK88_1196	operon_0445	NC_017641.1|gene1178|UMNK88_1196
UMNK88_1197	operon_0446	NC_017641.1|gene1179|UMNK88_1197
UMNK88_1198	operon_0446	NC_017641.1|gene1180|UMNK88_1198
UMNK88_1199	operon_0446	NC_017641.1|gene1181|UMNK88_1199|ureA
UMNK88_1200	operon_0446	NC_017641.1|gene1182|UMNK88_1200|ureB
UMNK88_1201	operon_0446	NC_017641.1|gene1183|UMNK88_1201|ureC
UMNK88_1202	operon_0446	NC_017641.1|gene1184|UMNK88_1202
UMNK88_1203	operon_0446	NC_017641.1|gene1185|UMNK88_1203
UMNK88_1204	operon_0446	NC_017641.1|gene1186|UMNK88_1204|ureG
UMNK88_1205	operon_0447	NC_017641.1|gene1187|UMNK88_1205
UMNK88_1206	operon_0447	NC_017641.1|gene1188|UMNK88_1206
UMNK88_1207	operon_0447	NC_017641.1|gene1189|UMNK88_1207
UMNK88_1208	operon_0448	NC_017641.1|gene1190|UMNK88_1208|rpmE
UMNK88_1209	operon_0448	NC_017641.1|gene1191|UMNK88_1209
UMNK88_1211	operon_0448	NC_017641.1|gene1192|UMNK88_1211
UMNK88_1210	operon_0449	NC_017641.1|gene1193|UMNK88_1210
UMNK88_1212	operon_0449	NC_017641.1|gene1194|UMNK88_1212
UMNK88_1213	operon_0450	NC_017641.1|gene1195|UMNK88_1213
UMNK88_1214	operon_0451	NC_017641.1|gene1196|UMNK88_1214
UMNK88_1215	operon_0451	NC_017641.1|gene1197|UMNK88_1215
UMNK88_1216	operon_0452	NC_017641.1|gene1198|UMNK88_1216
UMNK88_1217	operon_0452	NC_017641.1|gene1199|UMNK88_1217
UMNK88_1218	operon_0452	NC_017641.1|gene1200|UMNK88_1218
UMNK88_1219	operon_0453	NC_017641.1|gene1201|UMNK88_1219
UMNK88_1220	operon_0453	NC_017641.1|gene1202|UMNK88_1220
UMNK88_1221	operon_0453	NC_017641.1|gene1203|UMNK88_1221
UMNK88_1222	operon_0454	NC_017641.1|gene1204|UMNK88_1222
UMNK88_1223	operon_0454	NC_017641.1|gene1205|UMNK88_1223
UMNK88_1224	operon_0454	NC_017641.1|gene1206|UMNK88_1224
UMNK88_1225	operon_0454	NC_017641.1|gene1207|UMNK88_1225
UMNK88_1226	operon_0454	NC_017641.1|gene1208|UMNK88_1226
UMNK88_1228	operon_0455	NC_017641.1|gene1209|UMNK88_1228
UMNK88_1227	operon_0456	NC_017641.1|gene1210|UMNK88_1227
UMNK88_1229	operon_0456	NC_017641.1|gene1211|UMNK88_1229
UMNK88_1230	operon_0457	NC_017641.1|gene1212|UMNK88_1230
UMNK88_1231	operon_0457	NC_017641.1|gene1213|UMNK88_1231
UMNK88_1232	operon_0457	NC_017641.1|gene1214|UMNK88_1232
UMNK88_1233	operon_0457	NC_017641.1|gene1215|UMNK88_1233
UMNK88_1234	operon_0457	NC_017641.1|gene1216|UMNK88_1234
UMNK88_1235	operon_0457	NC_017641.1|gene1217|UMNK88_1235
UMNK88_1236	operon_0458	NC_017641.1|gene1218|UMNK88_1236
UMNK88_1237	operon_0459	NC_017641.1|gene1219|UMNK88_1237
UMNK88_1238	operon_0460	NC_017641.1|gene1220|UMNK88_1238
UMNK88_1239	operon_0461	NC_017641.1|gene1221|UMNK88_1239
UMNK88_1240	operon_0461	NC_017641.1|gene1222|UMNK88_1240
UMNK88_1241	operon_0462	NC_017641.1|gene1223|UMNK88_1241
UMNK88_1242	operon_0463	NC_017641.1|gene1224|UMNK88_1242
UMNK88_1243	operon_0464	NC_017641.1|gene1225|UMNK88_1243
UMNK88_1244	operon_0464	NC_017641.1|gene1226|UMNK88_1244
UMNK88_1245	operon_0464	NC_017641.1|gene1227|UMNK88_1245
UMNK88_1246	operon_0464	NC_017641.1|gene1228|UMNK88_1246
UMNK88_1247	operon_0465	NC_017641.1|gene1229|UMNK88_1247
UMNK88_1248	operon_0466	NC_017641.1|gene1230|UMNK88_1248
UMNK88_1249	operon_0466	NC_017641.1|gene1231|UMNK88_1249
UMNK88_1250	operon_0466	NC_017641.1|gene1232|UMNK88_1250
UMNK88_1251	operon_0466	NC_017641.1|gene1233|UMNK88_1251
UMNK88_1252	operon_0467	NC_017641.1|gene1234|UMNK88_1252
UMNK88_1253	operon_0467	NC_017641.1|gene1235|UMNK88_1253
UMNK88_1254	operon_0468	NC_017641.1|gene1236|UMNK88_1254
UMNK88_1255	operon_0469	NC_017641.1|gene1237|UMNK88_1255
UMNK88_1256	operon_0469	NC_017641.1|gene1238|UMNK88_1256
UMNK88_1257	operon_0469	NC_017641.1|gene1239|UMNK88_1257
UMNK88_1258	operon_0469	NC_017641.1|gene1240|UMNK88_1258
UMNK88_1259	operon_0470	NC_017641.1|gene1241|UMNK88_1259
UMNK88_1260	operon_0471	NC_017641.1|gene1242|UMNK88_1260
UMNK88_1261	operon_0471	NC_017641.1|gene1243|UMNK88_1261
UMNK88_1262	operon_0471	NC_017641.1|gene1244|UMNK88_1262
UMNK88_1263	operon_0471	NC_017641.1|gene1245|UMNK88_1263
UMNK88_1264	operon_0471	NC_017641.1|gene1246|UMNK88_1264
UMNK88_1265	operon_0472	NC_017641.1|gene1247|UMNK88_1265
UMNK88_1266	operon_0473	NC_017641.1|gene1248|UMNK88_1266
UMNK88_1267	operon_0474	NC_017641.1|gene1249|UMNK88_1267
UMNK88_1268	operon_0474	NC_017641.1|gene1250|UMNK88_1268
UMNK88_1269	operon_0474	NC_017641.1|gene1251|UMNK88_1269
UMNK88_1270	operon_0474	NC_017641.1|gene1252|UMNK88_1270
UMNK88_1271	operon_0475	NC_017641.1|gene1253|UMNK88_1271
UMNK88_1272	operon_0476	NC_017641.1|gene1254|UMNK88_1272|conserved hypothetical%3B pseudogene%3B possible frameshift
UMNK88_1274	operon_0476	NC_017641.1|gene1255|UMNK88_1274
UMNK88_1275	operon_0476	NC_017641.1|gene1256|UMNK88_1275
UMNK88_1276	operon_0476	NC_017641.1|gene1257|UMNK88_1276
UMNK88_1277	operon_0476	NC_017641.1|gene1258|UMNK88_1277
UMNK88_1278	operon_0477	NC_017641.1|gene1259|UMNK88_1278
UMNK88_1279	operon_0477	NC_017641.1|gene1260|UMNK88_1279
UMNK88_1280	operon_0477	NC_017641.1|gene1261|UMNK88_1280
UMNK88_1281	operon_0478	NC_017641.1|gene1262|UMNK88_1281
UMNK88_1282	operon_0478	NC_017641.1|gene1263|UMNK88_1282
UMNK88_1283	operon_0478	NC_017641.1|gene1264|UMNK88_1283
UMNK88_1284	operon_0478	NC_017641.1|gene1265|UMNK88_1284
UMNK88_1285	operon_0478	NC_017641.1|gene1266|UMNK88_1285
UMNK88_1286	operon_0478	NC_017641.1|gene1267|UMNK88_1286
UMNK88_1287	operon_0479	NC_017641.1|gene1268|UMNK88_1287
UMNK88_1288	operon_0480	NC_017641.1|gene1269|UMNK88_1288
UMNK88_1289	operon_0480	NC_017641.1|gene1270|UMNK88_1289
UMNK88_1290	operon_0480	NC_017641.1|gene1271|UMNK88_1290
UMNK88_1291	operon_0480	NC_017641.1|gene1272|UMNK88_1291
UMNK88_1293	operon_0481	NC_017641.1|gene1273|UMNK88_1293
UMNK88_t23	operon_0482	NC_017641.1|gene1274|UMNK88_t23
UMNK88_1295	operon_0483	NC_017641.1|gene1275|UMNK88_1295
UMNK88_1296	operon_0484	NC_017641.1|gene1276|UMNK88_1296
UMNK88_1297	operon_0484	NC_017641.1|gene1277|UMNK88_1297
UMNK88_1298	operon_0484	NC_017641.1|gene1278|UMNK88_1298
UMNK88_1299	operon_0484	NC_017641.1|gene1279|UMNK88_1299
UMNK88_1300	operon_0485	NC_017641.1|gene1280|UMNK88_1300
UMNK88_1301	operon_0485	NC_017641.1|gene1281|UMNK88_1301
UMNK88_1302	operon_0485	NC_017641.1|gene1282|UMNK88_1302
UMNK88_1303	operon_0485	NC_017641.1|gene1283|UMNK88_1303
UMNK88_1304	operon_0486	NC_017641.1|gene1284|UMNK88_1304
UMNK88_1305	operon_0487	NC_017641.1|gene1285|UMNK88_1305
UMNK88_1306	operon_0488	NC_017641.1|gene1286|UMNK88_1306
UMNK88_1307	operon_0488	NC_017641.1|gene1287|UMNK88_1307
UMNK88_1308	operon_0489	NC_017641.1|gene1288|UMNK88_1308
UMNK88_1309	operon_0489	NC_017641.1|gene1289|UMNK88_1309
UMNK88_1310	operon_0489	NC_017641.1|gene1290|UMNK88_1310
UMNK88_1311	operon_0489	NC_017641.1|gene1291|UMNK88_1311
UMNK88_1312	operon_0490	NC_017641.1|gene1292|UMNK88_1312
UMNK88_1313	operon_0490	NC_017641.1|gene1293|UMNK88_1313
UMNK88_1314	operon_0490	NC_017641.1|gene1294|UMNK88_1314
UMNK88_1315	operon_0491	NC_017641.1|gene1295|UMNK88_1315
UMNK88_1316	operon_0491	NC_017641.1|gene1296|UMNK88_1316
UMNK88_1318	operon_0492	NC_017641.1|gene1297|UMNK88_1318
UMNK88_1317	operon_0493	NC_017641.1|gene1298|UMNK88_1317
UMNK88_1319	operon_0493	NC_017641.1|gene1299|UMNK88_1319
UMNK88_1320	operon_0493	NC_017641.1|gene1300|UMNK88_1320|lpxL
UMNK88_1321	operon_0494	NC_017641.1|gene1301|UMNK88_1321
UMNK88_1322	operon_0495	NC_017641.1|gene1302|UMNK88_1322
UMNK88_1323	operon_0495	NC_017641.1|gene1303|UMNK88_1323
UMNK88_1324	operon_0496	NC_017641.1|gene1304|UMNK88_1324
UMNK88_1325	operon_0497	NC_017641.1|gene1305|UMNK88_1325
UMNK88_1326	operon_0498	NC_017641.1|gene1306|UMNK88_1326
UMNK88_1327	operon_0499	NC_017641.1|gene1307|UMNK88_1327
UMNK88_1328	operon_0500	NC_017641.1|gene1308|UMNK88_1328
UMNK88_1329	operon_0500	NC_017641.1|gene1309|UMNK88_1329|pyrC
UMNK88_1330	operon_0501	NC_017641.1|gene1310|UMNK88_1330
UMNK88_1331	operon_0501	NC_017641.1|gene1311|UMNK88_1331|grxB
UMNK88_1332	operon_0501	NC_017641.1|gene1312|UMNK88_1332
UMNK88_1333	operon_0502	NC_017641.1|gene1313|UMNK88_1333
UMNK88_1334	operon_0502	NC_017641.1|gene1314|UMNK88_1334
UMNK88_1335	operon_0502	NC_017641.1|gene1315|UMNK88_1335
UMNK88_1336	operon_0503	NC_017641.1|gene1316|UMNK88_1336|mviN
UMNK88_1337	operon_0504	NC_017641.1|gene1317|UMNK88_1337
UMNK88_1338	operon_0504	NC_017641.1|gene1318|UMNK88_1338
UMNK88_1339	operon_0504	NC_017641.1|gene1319|UMNK88_1339|flgA
UMNK88_1340	operon_0505	NC_017641.1|gene1320|UMNK88_1340
UMNK88_1341	operon_0505	NC_017641.1|gene1321|UMNK88_1341|flgB
UMNK88_1342	operon_0505	NC_017641.1|gene1322|UMNK88_1342|flgC
UMNK88_1343	operon_0505	NC_017641.1|gene1323|UMNK88_1343
UMNK88_1344	operon_0505	NC_017641.1|gene1324|UMNK88_1344
UMNK88_1345	operon_0505	NC_017641.1|gene1325|UMNK88_1345|flgF
UMNK88_1346	operon_0505	NC_017641.1|gene1326|UMNK88_1346|flgG
UMNK88_1347	operon_0505	NC_017641.1|gene1327|UMNK88_1347
UMNK88_1348	operon_0505	NC_017641.1|gene1328|UMNK88_1348
UMNK88_1349	operon_0505	NC_017641.1|gene1329|UMNK88_1349|flgJ
UMNK88_1350	operon_0505	NC_017641.1|gene1330|UMNK88_1350|flgK
UMNK88_1351	operon_0505	NC_017641.1|gene1331|UMNK88_1351|flgL
UMNK88_1352	operon_0506	NC_017641.1|gene1332|UMNK88_1352
UMNK88_1353	operon_0507	NC_017641.1|gene1333|UMNK88_1353
UMNK88_1354	operon_0508	NC_017641.1|gene1334|UMNK88_1354
UMNK88_1355	operon_0509	NC_017641.1|gene1335|UMNK88_1355
UMNK88_1357	operon_0509	NC_017641.1|gene1336|UMNK88_1357
UMNK88_1356	operon_0510	NC_017641.1|gene1337|UMNK88_1356|maf
UMNK88_1358	operon_0511	NC_017641.1|gene1338|UMNK88_1358
UMNK88_1359	operon_0511	NC_017641.1|gene1339|UMNK88_1359|rpmF
UMNK88_1360	operon_0511	NC_017641.1|gene1340|UMNK88_1360|plsX
UMNK88_1361	operon_0511	NC_017641.1|gene1341|UMNK88_1361|fabH
UMNK88_1362	operon_0511	NC_017641.1|gene1342|UMNK88_1362|fabD
UMNK88_1363	operon_0511	NC_017641.1|gene1343|UMNK88_1363|fabG
UMNK88_1364	operon_0511	NC_017641.1|gene1344|UMNK88_1364|acpP
UMNK88_1365	operon_0511	NC_017641.1|gene1345|UMNK88_1365|fabF
UMNK88_1366	operon_0511	NC_017641.1|gene1346|UMNK88_1366|pabC
UMNK88_1367	operon_0511	NC_017641.1|gene1347|UMNK88_1367
UMNK88_1368	operon_0511	NC_017641.1|gene1348|UMNK88_1368|tmk
UMNK88_1369	operon_0511	NC_017641.1|gene1349|UMNK88_1369|holB
UMNK88_1370	operon_0511	NC_017641.1|gene1350|UMNK88_1370
UMNK88_1371	operon_0511	NC_017641.1|gene1351|UMNK88_1371|ptsG
UMNK88_1372	operon_0512	NC_017641.1|gene1352|UMNK88_1372
UMNK88_1373	operon_0512	NC_017641.1|gene1353|UMNK88_1373
UMNK88_1374	operon_0513	NC_017641.1|gene1354|UMNK88_1374
UMNK88_1375	operon_0513	NC_017641.1|gene1355|UMNK88_1375
UMNK88_1376	operon_0513	NC_017641.1|gene1356|UMNK88_1376
UMNK88_1377	operon_0513	NC_017641.1|gene1357|UMNK88_1377|thiK
UMNK88_1378	operon_0513	NC_017641.1|gene1358|UMNK88_1378
UMNK88_1379	operon_0513	NC_017641.1|gene1359|UMNK88_1379
UMNK88_1380	operon_0513	NC_017641.1|gene1360|UMNK88_1380
UMNK88_1381	operon_0514	NC_017641.1|gene1361|UMNK88_1381
UMNK88_1382	operon_0515	NC_017641.1|gene1362|UMNK88_1382
UMNK88_1383	operon_0516	NC_017641.1|gene1363|UMNK88_1383
UMNK88_1384	operon_0517	NC_017641.1|gene1364|UMNK88_1384
UMNK88_1385	operon_0517	NC_017641.1|gene1365|UMNK88_1385|mfd
UMNK88_1386	operon_0517	NC_017641.1|gene1366|UMNK88_1386
UMNK88_1387	operon_0518	NC_017641.1|gene1367|UMNK88_1387
UMNK88_1388	operon_0518	NC_017641.1|gene1368|UMNK88_1388|lolD
UMNK88_1389	operon_0518	NC_017641.1|gene1369|UMNK88_1389|lolE
UMNK88_1390	operon_0518	NC_017641.1|gene1370|UMNK88_1390
UMNK88_1391	operon_0518	NC_017641.1|gene1371|UMNK88_1391
UMNK88_1392	operon_0519	NC_017641.1|gene1372|UMNK88_1392
UMNK88_1393	operon_0519	NC_017641.1|gene1373|UMNK88_1393
UMNK88_1394	operon_0520	NC_017641.1|gene1374|UMNK88_1394
UMNK88_1395	operon_0520	NC_017641.1|gene1375|UMNK88_1395
UMNK88_1396	operon_0521	NC_017641.1|gene1376|UMNK88_1396
UMNK88_1397	operon_0521	NC_017641.1|gene1377|UMNK88_1397
UMNK88_1398	operon_0522	NC_017641.1|gene1378|UMNK88_1398
UMNK88_1399	operon_0522	NC_017641.1|gene1379|UMNK88_1399
UMNK88_1400	operon_0522	NC_017641.1|gene1380|UMNK88_1400
UMNK88_1401	operon_0522	NC_017641.1|gene1381|UMNK88_1401
UMNK88_1402	operon_0522	NC_017641.1|gene1382|UMNK88_1402
UMNK88_1403	operon_0522	NC_017641.1|gene1383|UMNK88_1403
UMNK88_1405	operon_0523	NC_017641.1|gene1384|UMNK88_1405
UMNK88_1404	operon_0524	NC_017641.1|gene1385|UMNK88_1404
UMNK88_1406	operon_0524	NC_017641.1|gene1386|UMNK88_1406
UMNK88_1407	operon_0524	NC_017641.1|gene1387|UMNK88_1407
UMNK88_1408	operon_0525	NC_017641.1|gene1388|UMNK88_1408
UMNK88_1409	operon_0526	NC_017641.1|gene1389|UMNK88_1409
UMNK88_1410	operon_0526	NC_017641.1|gene1390|UMNK88_1410
UMNK88_1411	operon_0526	NC_017641.1|gene1391|UMNK88_1411
UMNK88_1412	operon_0526	NC_017641.1|gene1392|UMNK88_1412
UMNK88_1413	operon_0526	NC_017641.1|gene1393|UMNK88_1413
UMNK88_1414	operon_0526	NC_017641.1|gene1394|UMNK88_1414
UMNK88_1415	operon_0526	NC_017641.1|gene1395|UMNK88_1415
UMNK88_1416	operon_0527	NC_017641.1|gene1396|UMNK88_1416
UMNK88_1417	operon_0528	NC_017641.1|gene1397|UMNK88_1417
UMNK88_1418	operon_0528	NC_017641.1|gene1398|UMNK88_1418
UMNK88_1419	operon_0528	NC_017641.1|gene1399|UMNK88_1419
UMNK88_t24	operon_0528	NC_017641.1|gene1400|UMNK88_t24
UMNK88_t25	operon_0528	NC_017641.1|gene1401|UMNK88_t25
UMNK88_t26	operon_0528	NC_017641.1|gene1402|UMNK88_t26
UMNK88_t27	operon_0528	NC_017641.1|gene1403|UMNK88_t27
UMNK88_1424	operon_0528	NC_017641.1|gene1404|UMNK88_1424
UMNK88_1425	operon_0528	NC_017641.1|gene1405|UMNK88_1425
UMNK88_1426	operon_0528	NC_017641.1|gene1406|UMNK88_1426
UMNK88_1427	operon_0529	NC_017641.1|gene1407|UMNK88_1427
UMNK88_1428	operon_0529	NC_017641.1|gene1408|UMNK88_1428
UMNK88_1429	operon_0529	NC_017641.1|gene1409|UMNK88_1429
UMNK88_1430	operon_0529	NC_017641.1|gene1410|UMNK88_1430
UMNK88_1431	operon_0529	NC_017641.1|gene1411|UMNK88_1431
UMNK88_1432	operon_0529	NC_017641.1|gene1412|UMNK88_1432
UMNK88_1433	operon_0529	NC_017641.1|gene1413|UMNK88_1433
UMNK88_1434	operon_0529	NC_017641.1|gene1414|UMNK88_1434
UMNK88_1435	operon_0529	NC_017641.1|gene1415|UMNK88_1435
UMNK88_1436	operon_0529	NC_017641.1|gene1416|UMNK88_1436
UMNK88_1437	operon_0529	NC_017641.1|gene1417|UMNK88_1437
UMNK88_1438	operon_0530	NC_017641.1|gene1418|UMNK88_1438
UMNK88_1439	operon_0530	NC_017641.1|gene1419|UMNK88_1439
UMNK88_1440	operon_0530	NC_017641.1|gene1420|UMNK88_1440
UMNK88_1441	operon_0530	NC_017641.1|gene1421|UMNK88_1441|lambda phage tape measure gene%3B pseudogene%3B possible frameshift
UMNK88_1443	operon_0530	NC_017641.1|gene1422|UMNK88_1443
UMNK88_1444	operon_0530	NC_017641.1|gene1423|UMNK88_1444
UMNK88_1445	operon_0530	NC_017641.1|gene1424|UMNK88_1445
UMNK88_1446	operon_0530	NC_017641.1|gene1425|UMNK88_1446
UMNK88_1447	operon_0531	NC_017641.1|gene1426|UMNK88_1447
UMNK88_1449	operon_0532	NC_017641.1|gene1427|UMNK88_1449
UMNK88_1448	operon_0533	NC_017641.1|gene1428|UMNK88_1448
UMNK88_1450	operon_0533	NC_017641.1|gene1429|UMNK88_1450
UMNK88_1452	operon_0534	NC_017641.1|gene1430|UMNK88_1452
UMNK88_1453	operon_0534	NC_017641.1|gene1431|UMNK88_1453
UMNK88_1454	operon_0535	NC_017641.1|gene1432|UMNK88_1454
UMNK88_1455	operon_0536	NC_017641.1|gene1433|UMNK88_1455
UMNK88_1456	operon_0536	NC_017641.1|gene1434|UMNK88_1456
UMNK88_1457	operon_0536	NC_017641.1|gene1435|UMNK88_1457
UMNK88_1458	operon_0537	NC_017641.1|gene1436|UMNK88_1458|pepT
UMNK88_1459	operon_0538	NC_017641.1|gene1437|UMNK88_1459
UMNK88_1460	operon_0538	NC_017641.1|gene1438|UMNK88_1460
UMNK88_1461	operon_0538	NC_017641.1|gene1439|UMNK88_1461
UMNK88_1462	operon_0538	NC_017641.1|gene1440|UMNK88_1462|purB
UMNK88_1464	operon_0538	NC_017641.1|gene1441|UMNK88_1464
UMNK88_1465	operon_0538	NC_017641.1|gene1442|UMNK88_1465|trmU
UMNK88_1466	operon_0538	NC_017641.1|gene1443|UMNK88_1466
UMNK88_1467	operon_0538	NC_017641.1|gene1444|UMNK88_1467
UMNK88_1468	operon_0539	NC_017641.1|gene1445|UMNK88_1468|icd
UMNK88_1469	operon_0540	NC_017641.1|gene1446|UMNK88_1469
UMNK88_1470	operon_0541	NC_017641.1|gene1447|UMNK88_1470
UMNK88_1471	operon_0541	NC_017641.1|gene1448|UMNK88_1471
UMNK88_1472	operon_0542	NC_017641.1|gene1449|UMNK88_1472
UMNK88_1473	operon_0543	NC_017641.1|gene1450|UMNK88_1473
UMNK88_1474	operon_0543	NC_017641.1|gene1451|UMNK88_1474
UMNK88_1475	operon_0544	NC_017641.1|gene1452|UMNK88_1475
UMNK88_1476	operon_0544	NC_017641.1|gene1453|UMNK88_1476
UMNK88_1477	operon_0544	NC_017641.1|gene1454|UMNK88_1477
UMNK88_1478	operon_0544	NC_017641.1|gene1455|UMNK88_1478
UMNK88_1479	operon_0544	NC_017641.1|gene1456|UMNK88_1479
UMNK88_1480	operon_0544	NC_017641.1|gene1457|UMNK88_1480|putative autotransporter%3B pseudogene%3B possible frameshift
UMNK88_1482	operon_0545	NC_017641.1|gene1458|UMNK88_1482
UMNK88_1483	operon_0545	NC_017641.1|gene1459|UMNK88_1483
UMNK88_1484	operon_0545	NC_017641.1|gene1460|UMNK88_1484
UMNK88_1485	operon_0546	NC_017641.1|gene1461|UMNK88_1485
UMNK88_1486	operon_0546	NC_017641.1|gene1462|UMNK88_1486
UMNK88_1487	operon_0547	NC_017641.1|gene1463|UMNK88_1487|minE
UMNK88_1488	operon_0547	NC_017641.1|gene1464|UMNK88_1488|minD
UMNK88_1489	operon_0547	NC_017641.1|gene1465|UMNK88_1489|minC
UMNK88_1490	operon_0548	NC_017641.1|gene1466|UMNK88_1490
UMNK88_1491	operon_0549	NC_017641.1|gene1467|UMNK88_1491
UMNK88_1492	operon_0549	NC_017641.1|gene1468|UMNK88_1492
UMNK88_1493	operon_0550	NC_017641.1|gene1469|UMNK88_1493
UMNK88_1494	operon_0551	NC_017641.1|gene1470|UMNK88_1494|putative hemolysin E gene%3B pseudogene%3B possible frameshift
UMNK88_1496	operon_0552	NC_017641.1|gene1471|UMNK88_1496
UMNK88_1497	operon_0552	NC_017641.1|gene1472|UMNK88_1497
UMNK88_1498	operon_0553	NC_017641.1|gene1473|UMNK88_1498
UMNK88_1499	operon_0553	NC_017641.1|gene1474|UMNK88_1499|nhaB
UMNK88_1500	operon_0554	NC_017641.1|gene1475|UMNK88_1500|fadR
UMNK88_1501	operon_0555	NC_017641.1|gene1476|UMNK88_1501
UMNK88_1502	operon_0556	NC_017641.1|gene1477|UMNK88_1502
UMNK88_1503	operon_0556	NC_017641.1|gene1478|UMNK88_1503|alr
UMNK88_1504	operon_0556	NC_017641.1|gene1479|UMNK88_1504
UMNK88_1505	operon_0557	NC_017641.1|gene1480|UMNK88_1505|cvrA
UMNK88_1506	operon_0557	NC_017641.1|gene1481|UMNK88_1506
UMNK88_1507	operon_0558	NC_017641.1|gene1482|UMNK88_1507
UMNK88_1508	operon_0559	NC_017641.1|gene1483|UMNK88_1508
UMNK88_1509	operon_0560	NC_017641.1|gene1484|UMNK88_1509
UMNK88_1510	operon_0561	NC_017641.1|gene1485|UMNK88_1510
UMNK88_1511	operon_0562	NC_017641.1|gene1486|UMNK88_1511
UMNK88_1512	operon_0563	NC_017641.1|gene1487|UMNK88_1512
UMNK88_1513	operon_0564	NC_017641.1|gene1488|UMNK88_1513
UMNK88_1514	operon_0564	NC_017641.1|gene1489|UMNK88_1514
UMNK88_1515	operon_0564	NC_017641.1|gene1490|UMNK88_1515|dhaK
UMNK88_1516	operon_0565	NC_017641.1|gene1491|UMNK88_1516
UMNK88_1517	operon_0566	NC_017641.1|gene1492|UMNK88_1517
UMNK88_1518	operon_0567	NC_017641.1|gene1493|UMNK88_1518
UMNK88_1519	operon_0568	NC_017641.1|gene1494|UMNK88_1519
UMNK88_1520	operon_0568	NC_017641.1|gene1495|UMNK88_1520|pth
UMNK88_1521	operon_0569	NC_017641.1|gene1496|UMNK88_1521
UMNK88_1522	operon_0570	NC_017641.1|gene1497|UMNK88_1522|sulP
UMNK88_1523	operon_0570	NC_017641.1|gene1498|UMNK88_1523|prs
UMNK88_1524	operon_0570	NC_017641.1|gene1499|UMNK88_1524|ispE
UMNK88_1525	operon_0570	NC_017641.1|gene1500|UMNK88_1525|lolB
UMNK88_1526	operon_0571	NC_017641.1|gene1501|UMNK88_1526|hemA
UMNK88_1527	operon_0571	NC_017641.1|gene1502|UMNK88_1527|prfA
UMNK88_1528	operon_0571	NC_017641.1|gene1503|UMNK88_1528|hemK
UMNK88_1529	operon_0571	NC_017641.1|gene1504|UMNK88_1529
UMNK88_1530	operon_0571	NC_017641.1|gene1505|UMNK88_1530
UMNK88_1531	operon_0571	NC_017641.1|gene1506|UMNK88_1531|kdsA
UMNK88_1532	operon_0572	NC_017641.1|gene1507|UMNK88_1532
UMNK88_1533	operon_0573	NC_017641.1|gene1508|UMNK88_1533
UMNK88_1534	operon_0574	NC_017641.1|gene1509|UMNK88_1534
UMNK88_1535	operon_0574	NC_017641.1|gene1510|UMNK88_1535|chaA
UMNK88_1536	operon_0575	NC_017641.1|gene1511|UMNK88_1536
UMNK88_1537	operon_0575	NC_017641.1|gene1512|UMNK88_1537
UMNK88_1538	operon_0576	NC_017641.1|gene1513|UMNK88_1538
UMNK88_1540	operon_0577	NC_017641.1|gene1514|UMNK88_1540
UMNK88_1539	operon_0578	NC_017641.1|gene1515|UMNK88_1539
UMNK88_1541	operon_0578	NC_017641.1|gene1516|UMNK88_1541
UMNK88_1542	operon_0579	NC_017641.1|gene1517|UMNK88_1542
UMNK88_1543	operon_0579	NC_017641.1|gene1518|UMNK88_1543|narK
UMNK88_1544	operon_0579	NC_017641.1|gene1519|UMNK88_1544
UMNK88_1545	operon_0579	NC_017641.1|gene1520|UMNK88_1545|narH
UMNK88_1546	operon_0579	NC_017641.1|gene1521|UMNK88_1546|narJ
UMNK88_1547	operon_0579	NC_017641.1|gene1522|UMNK88_1547|narI
UMNK88_t28	operon_0580	NC_017641.1|gene1523|UMNK88_t28
UMNK88_t29	operon_0580	NC_017641.1|gene1524|UMNK88_t29
UMNK88_1550	operon_0580	NC_017641.1|gene1525|UMNK88_1550|purU
UMNK88_1551	operon_0580	NC_017641.1|gene1526|UMNK88_1551
UMNK88_1552	operon_0581	NC_017641.1|gene1527|UMNK88_1552
UMNK88_1553	operon_0581	NC_017641.1|gene1528|UMNK88_1553
UMNK88_1554	operon_0581	NC_017641.1|gene1529|UMNK88_1554|galU
UMNK88_1555	operon_0582	NC_017641.1|gene1530|UMNK88_1555
UMNK88_1556	operon_0583	NC_017641.1|gene1531|UMNK88_1556
UMNK88_1557	operon_0584	NC_017641.1|gene1532|UMNK88_1557
UMNK88_1559	operon_0584	NC_017641.1|gene1533|UMNK88_1559
UMNK88_1560	operon_0585	NC_017641.1|gene1534|UMNK88_1560
UMNK88_1561	operon_0586	NC_017641.1|gene1535|UMNK88_1561
UMNK88_1562	operon_0587	NC_017641.1|gene1536|UMNK88_1562
UMNK88_1563	operon_0588	NC_017641.1|gene1537|UMNK88_1563
UMNK88_1564	operon_0589	NC_017641.1|gene1538|UMNK88_1564
UMNK88_1565	operon_0589	NC_017641.1|gene1539|UMNK88_1565
UMNK88_1566	operon_0589	NC_017641.1|gene1540|UMNK88_1566
UMNK88_1567	operon_0589	NC_017641.1|gene1541|UMNK88_1567
UMNK88_1568	operon_0590	NC_017641.1|gene1542|UMNK88_1568
UMNK88_1569	operon_0590	NC_017641.1|gene1543|UMNK88_1569
UMNK88_1570	operon_0591	NC_017641.1|gene1544|UMNK88_1570
UMNK88_1571	operon_0592	NC_017641.1|gene1545|UMNK88_1571
UMNK88_1572	operon_0593	NC_017641.1|gene1546|UMNK88_1572
UMNK88_1573	operon_0593	NC_017641.1|gene1547|UMNK88_1573
UMNK88_1574	operon_0594	NC_017641.1|gene1548|UMNK88_1574
UMNK88_1575	operon_0595	NC_017641.1|gene1549|UMNK88_1575
UMNK88_1576	operon_0595	NC_017641.1|gene1550|UMNK88_1576
UMNK88_1577	operon_0595	NC_017641.1|gene1551|UMNK88_1577
UMNK88_1578	operon_0595	NC_017641.1|gene1552|UMNK88_1578
UMNK88_1579	operon_0596	NC_017641.1|gene1553|UMNK88_1579
UMNK88_1580	operon_0596	NC_017641.1|gene1554|UMNK88_1580
UMNK88_1581	operon_0597	NC_017641.1|gene1555|UMNK88_1581
UMNK88_1582	operon_0598	NC_017641.1|gene1556|UMNK88_1582
UMNK88_1583	operon_0599	NC_017641.1|gene1557|UMNK88_1583
UMNK88_1584	operon_0599	NC_017641.1|gene1558|UMNK88_1584|ispZ
UMNK88_1585	operon_0599	NC_017641.1|gene1559|UMNK88_1585
UMNK88_1586	operon_0600	NC_017641.1|gene1560|UMNK88_1586
UMNK88_1587	operon_0601	NC_017641.1|gene1561|UMNK88_1587
UMNK88_1588	operon_0601	NC_017641.1|gene1562|UMNK88_1588
UMNK88_1589	operon_0602	NC_017641.1|gene1563|UMNK88_1589
UMNK88_1590	operon_0602	NC_017641.1|gene1564|UMNK88_1590|trpA
UMNK88_1591	operon_0602	NC_017641.1|gene1565|UMNK88_1591|trpB
UMNK88_1592	operon_0602	NC_017641.1|gene1566|UMNK88_1592
UMNK88_1593	operon_0602	NC_017641.1|gene1567|UMNK88_1593|trpD
UMNK88_1594	operon_0602	NC_017641.1|gene1568|UMNK88_1594|trpE
UMNK88_1595	operon_0603	NC_017641.1|gene1569|UMNK88_1595
UMNK88_1596	operon_0603	NC_017641.1|gene1570|UMNK88_1596
UMNK88_1597	operon_0603	NC_017641.1|gene1571|UMNK88_1597
UMNK88_1598	operon_0604	NC_017641.1|gene1572|UMNK88_1598
UMNK88_1599	operon_0605	NC_017641.1|gene1573|UMNK88_1599|cobO
UMNK88_1600	operon_0605	NC_017641.1|gene1574|UMNK88_1600
UMNK88_1601	operon_0606	NC_017641.1|gene1575|UMNK88_1601
UMNK88_1602	operon_0607	NC_017641.1|gene1576|UMNK88_1602
UMNK88_1603	operon_0608	NC_017641.1|gene1577|UMNK88_1603|topA
UMNK88_1604	operon_0608	NC_017641.1|gene1578|UMNK88_1604
UMNK88_1605	operon_0609	NC_017641.1|gene1579|UMNK88_1605
UMNK88_1606	operon_0609	NC_017641.1|gene1580|UMNK88_1606
UMNK88_1607	operon_0610	NC_017641.1|gene1581|UMNK88_1607|acnA
UMNK88_1608	operon_0611	NC_017641.1|gene1582|UMNK88_1608|ribA
UMNK88_1609	operon_0612	NC_017641.1|gene1583|UMNK88_1609
UMNK88_1610	operon_0612	NC_017641.1|gene1584|UMNK88_1610
UMNK88_1611	operon_0612	NC_017641.1|gene1585|UMNK88_1611
UMNK88_1612	operon_0613	NC_017641.1|gene1586|UMNK88_1612
UMNK88_1613	operon_0614	NC_017641.1|gene1587|UMNK88_1613|pyrF
UMNK88_1614	operon_0614	NC_017641.1|gene1588|UMNK88_1614
UMNK88_1615	operon_0615	NC_017641.1|gene1589|UMNK88_1615
UMNK88_1616	operon_0615	NC_017641.1|gene1590|UMNK88_1616
UMNK88_1617	operon_0615	NC_017641.1|gene1591|UMNK88_1617
UMNK88_1618	operon_0615	NC_017641.1|gene1592|UMNK88_1618
UMNK88_1619	operon_0615	NC_017641.1|gene1593|UMNK88_1619|rnb
UMNK88_1620	operon_0615	NC_017641.1|gene1594|UMNK88_1620
UMNK88_1621	operon_0616	NC_017641.1|gene1595|UMNK88_1621
UMNK88_1622	operon_0616	NC_017641.1|gene1596|UMNK88_1622
UMNK88_1623	operon_0616	NC_017641.1|gene1597|UMNK88_1623
UMNK88_1624	operon_0616	NC_017641.1|gene1598|UMNK88_1624
UMNK88_1625	operon_0616	NC_017641.1|gene1599|UMNK88_1625
UMNK88_1626	operon_0616	NC_017641.1|gene1600|UMNK88_1626
UMNK88_1627	operon_0616	NC_017641.1|gene1601|UMNK88_1627
UMNK88_1628	operon_0616	NC_017641.1|gene1602|UMNK88_1628
UMNK88_1629	operon_0617	NC_017641.1|gene1603|UMNK88_1629
UMNK88_1630	operon_0617	NC_017641.1|gene1604|UMNK88_1630
UMNK88_1631	operon_0617	NC_017641.1|gene1605|UMNK88_1631
UMNK88_1632	operon_0617	NC_017641.1|gene1606|UMNK88_1632
UMNK88_1633	operon_0618	NC_017641.1|gene1607|UMNK88_1633
UMNK88_1634	operon_0618	NC_017641.1|gene1608|UMNK88_1634
UMNK88_1635	operon_0618	NC_017641.1|gene1609|UMNK88_1635
UMNK88_1636	operon_0618	NC_017641.1|gene1610|UMNK88_1636|puuC
UMNK88_1637	operon_0618	NC_017641.1|gene1611|UMNK88_1637|puuB
UMNK88_1638	operon_0618	NC_017641.1|gene1612|UMNK88_1638|gabT
UMNK88_1639	operon_0619	NC_017641.1|gene1613|UMNK88_1639|pspF
UMNK88_1640	operon_0620	NC_017641.1|gene1614|UMNK88_1640|pspA
UMNK88_1641	operon_0620	NC_017641.1|gene1615|UMNK88_1641|pspB
UMNK88_1642	operon_0620	NC_017641.1|gene1616|UMNK88_1642|pspC
UMNK88_1643	operon_0620	NC_017641.1|gene1617|UMNK88_1643
UMNK88_1644	operon_0620	NC_017641.1|gene1618|UMNK88_1644
UMNK88_1645	operon_0621	NC_017641.1|gene1619|UMNK88_1645
UMNK88_1646	operon_0621	NC_017641.1|gene1620|UMNK88_1646
UMNK88_1647	operon_0621	NC_017641.1|gene1621|UMNK88_1647
UMNK88_1648	operon_0621	NC_017641.1|gene1622|UMNK88_1648
UMNK88_1649	operon_0621	NC_017641.1|gene1623|UMNK88_1649
UMNK88_1650	operon_0621	NC_017641.1|gene1624|UMNK88_1650
UMNK88_1651	operon_0621	NC_017641.1|gene1625|UMNK88_1651
UMNK88_1652	operon_0621	NC_017641.1|gene1626|UMNK88_1652
UMNK88_1653	operon_0621	NC_017641.1|gene1627|UMNK88_1653
UMNK88_1654	operon_0621	NC_017641.1|gene1628|UMNK88_1654|pgmB
UMNK88_1655	operon_0621	NC_017641.1|gene1629|UMNK88_1655
UMNK88_1656	operon_0621	NC_017641.1|gene1630|UMNK88_1656
UMNK88_1657	operon_0622	NC_017641.1|gene1631|UMNK88_1657
UMNK88_1658	operon_0623	NC_017641.1|gene1632|UMNK88_1658
UMNK88_1659	operon_0623	NC_017641.1|gene1633|UMNK88_1659
UMNK88_1660	operon_0623	NC_017641.1|gene1634|UMNK88_1660
UMNK88_1661	operon_0624	NC_017641.1|gene1635|UMNK88_1661
UMNK88_1663	operon_0625	NC_017641.1|gene1636|UMNK88_1663
UMNK88_1662	operon_0626	NC_017641.1|gene1637|UMNK88_1662
UMNK88_1664	operon_0626	NC_017641.1|gene1638|UMNK88_1664
UMNK88_1665	operon_0626	NC_017641.1|gene1639|UMNK88_1665
UMNK88_1666	operon_0627	NC_017641.1|gene1640|UMNK88_1666
UMNK88_1667	operon_0627	NC_017641.1|gene1641|UMNK88_1667
UMNK88_1668	operon_0628	NC_017641.1|gene1642|UMNK88_1668
UMNK88_1669	operon_0629	NC_017641.1|gene1643|UMNK88_1669
UMNK88_1670	operon_0630	NC_017641.1|gene1644|UMNK88_1670
UMNK88_1671	operon_0631	NC_017641.1|gene1645|UMNK88_1671
UMNK88_1672	operon_0632	NC_017641.1|gene1646|UMNK88_1672
UMNK88_1674	operon_0633	NC_017641.1|gene1647|UMNK88_1674
UMNK88_1673	operon_0634	NC_017641.1|gene1648|UMNK88_1673
UMNK88_1675	operon_0634	NC_017641.1|gene1649|UMNK88_1675
UMNK88_1676	operon_0634	NC_017641.1|gene1650|UMNK88_1676
UMNK88_1677	operon_0634	NC_017641.1|gene1651|UMNK88_1677
UMNK88_1678	operon_0634	NC_017641.1|gene1652|UMNK88_1678
UMNK88_1679	operon_0634	NC_017641.1|gene1653|UMNK88_1679
UMNK88_1680	operon_0634	NC_017641.1|gene1654|UMNK88_1680
UMNK88_1681	operon_0634	NC_017641.1|gene1655|UMNK88_1681
UMNK88_1682	operon_0634	NC_017641.1|gene1656|UMNK88_1682
UMNK88_1683	operon_0634	NC_017641.1|gene1657|UMNK88_1683
UMNK88_1684	operon_0634	NC_017641.1|gene1658|UMNK88_1684
UMNK88_1685	operon_0634	NC_017641.1|gene1659|UMNK88_1685
UMNK88_1686	operon_0635	NC_017641.1|gene1660|UMNK88_1686
UMNK88_1687	operon_0636	NC_017641.1|gene1661|UMNK88_1687
UMNK88_1688	operon_0637	NC_017641.1|gene1662|UMNK88_1688
UMNK88_1689	operon_0637	NC_017641.1|gene1663|UMNK88_1689
UMNK88_1690	operon_0637	NC_017641.1|gene1664|UMNK88_1690
UMNK88_1691	operon_0637	NC_017641.1|gene1665|UMNK88_1691|ssb
UMNK88_1692	operon_0637	NC_017641.1|gene1666|UMNK88_1692
UMNK88_1693	operon_0637	NC_017641.1|gene1667|UMNK88_1693
UMNK88_1694	operon_0637	NC_017641.1|gene1668|UMNK88_1694
UMNK88_1695	operon_0637	NC_017641.1|gene1669|UMNK88_1695
UMNK88_1696	operon_0637	NC_017641.1|gene1670|UMNK88_1696
UMNK88_1697	operon_0637	NC_017641.1|gene1671|UMNK88_1697
UMNK88_1698	operon_0637	NC_017641.1|gene1672|UMNK88_1698
UMNK88_1699	operon_0637	NC_017641.1|gene1673|UMNK88_1699
UMNK88_1700	operon_0637	NC_017641.1|gene1674|UMNK88_1700
UMNK88_1701	operon_0637	NC_017641.1|gene1675|UMNK88_1701
UMNK88_1702	operon_0637	NC_017641.1|gene1676|UMNK88_1702
UMNK88_1703	operon_0637	NC_017641.1|gene1677|UMNK88_1703
UMNK88_1704	operon_0637	NC_017641.1|gene1678|UMNK88_1704
UMNK88_1705	operon_0637	NC_017641.1|gene1679|UMNK88_1705
UMNK88_1706	operon_0637	NC_017641.1|gene1680|UMNK88_1706
UMNK88_1707	operon_0637	NC_017641.1|gene1681|UMNK88_1707
UMNK88_1708	operon_0637	NC_017641.1|gene1682|UMNK88_1708
UMNK88_1709	operon_0638	NC_017641.1|gene1683|UMNK88_1709
UMNK88_1710	operon_0638	NC_017641.1|gene1684|UMNK88_1710
UMNK88_1711	operon_0638	NC_017641.1|gene1685|UMNK88_1711
UMNK88_1712	operon_0638	NC_017641.1|gene1686|UMNK88_1712
UMNK88_1713	operon_0638	NC_017641.1|gene1687|UMNK88_1713
UMNK88_1714	operon_0638	NC_017641.1|gene1688|UMNK88_1714
UMNK88_1715	operon_0638	NC_017641.1|gene1689|UMNK88_1715
UMNK88_1716	operon_0638	NC_017641.1|gene1690|UMNK88_1716
UMNK88_1718	operon_0638	NC_017641.1|gene1691|UMNK88_1718
UMNK88_1717	operon_0639	NC_017641.1|gene1692|UMNK88_1717
UMNK88_1719	operon_0640	NC_017641.1|gene1693|UMNK88_1719
UMNK88_1720	operon_0640	NC_017641.1|gene1694|UMNK88_1720
UMNK88_1721	operon_0640	NC_017641.1|gene1695|UMNK88_1721
UMNK88_1722	operon_0641	NC_017641.1|gene1696|UMNK88_1722
UMNK88_1723	operon_0642	NC_017641.1|gene1697|UMNK88_1723
UMNK88_1724	operon_0642	NC_017641.1|gene1698|UMNK88_1724
UMNK88_1725	operon_0642	NC_017641.1|gene1699|UMNK88_1725
UMNK88_1726	operon_0642	NC_017641.1|gene1700|UMNK88_1726
UMNK88_1727	operon_0642	NC_017641.1|gene1701|UMNK88_1727
UMNK88_1728	operon_0643	NC_017641.1|gene1702|UMNK88_1728
UMNK88_1729	operon_0643	NC_017641.1|gene1703|UMNK88_1729
UMNK88_1730	operon_0643	NC_017641.1|gene1704|UMNK88_1730
UMNK88_1731	operon_0643	NC_017641.1|gene1705|UMNK88_1731
UMNK88_1732	operon_0643	NC_017641.1|gene1706|UMNK88_1732
UMNK88_1733	operon_0643	NC_017641.1|gene1707|UMNK88_1733
UMNK88_1734	operon_0643	NC_017641.1|gene1708|UMNK88_1734
UMNK88_1736	operon_0643	NC_017641.1|gene1709|UMNK88_1736
UMNK88_1735	operon_0644	NC_017641.1|gene1710|UMNK88_1735
UMNK88_1737	operon_0645	NC_017641.1|gene1711|UMNK88_1737
UMNK88_1738	operon_0645	NC_017641.1|gene1712|UMNK88_1738
UMNK88_1739	operon_0645	NC_017641.1|gene1713|UMNK88_1739
UMNK88_1740	operon_0646	NC_017641.1|gene1714|UMNK88_1740
UMNK88_1741	operon_0646	NC_017641.1|gene1715|UMNK88_1741
UMNK88_1742	operon_0646	NC_017641.1|gene1716|UMNK88_1742
UMNK88_1743	operon_0647	NC_017641.1|gene1717|UMNK88_1743
UMNK88_1744	operon_0647	NC_017641.1|gene1718|UMNK88_1744
UMNK88_1745	operon_0647	NC_017641.1|gene1719|UMNK88_1745
UMNK88_1746	operon_0647	NC_017641.1|gene1720|UMNK88_1746
UMNK88_1747	operon_0647	NC_017641.1|gene1721|UMNK88_1747
UMNK88_1748	operon_0647	NC_017641.1|gene1722|UMNK88_1748
UMNK88_1749	operon_0647	NC_017641.1|gene1723|UMNK88_1749
UMNK88_1750	operon_0648	NC_017641.1|gene1724|UMNK88_1750
UMNK88_1751	operon_0648	NC_017641.1|gene1725|UMNK88_1751
UMNK88_1752	operon_0648	NC_017641.1|gene1726|UMNK88_1752
UMNK88_1753	operon_0648	NC_017641.1|gene1727|UMNK88_1753
UMNK88_1754	operon_0648	NC_017641.1|gene1728|UMNK88_1754
UMNK88_1755	operon_0648	NC_017641.1|gene1729|UMNK88_1755
UMNK88_1756	operon_0649	NC_017641.1|gene1730|UMNK88_1756
UMNK88_1757	operon_0650	NC_017641.1|gene1731|UMNK88_1757
UMNK88_1758	operon_0651	NC_017641.1|gene1732|UMNK88_1758
UMNK88_1759	operon_0652	NC_017641.1|gene1733|UMNK88_1759
UMNK88_1760	operon_0652	NC_017641.1|gene1734|UMNK88_1760
UMNK88_1761	operon_0652	NC_017641.1|gene1735|UMNK88_1761
UMNK88_1762	operon_0653	NC_017641.1|gene1736|UMNK88_1762
UMNK88_1763	operon_0654	NC_017641.1|gene1737|UMNK88_1763
UMNK88_1764	operon_0654	NC_017641.1|gene1738|UMNK88_1764
UMNK88_1765	operon_0654	NC_017641.1|gene1739|UMNK88_1765
UMNK88_1766	operon_0655	NC_017641.1|gene1740|UMNK88_1766
UMNK88_1767	operon_0655	NC_017641.1|gene1741|UMNK88_1767
UMNK88_1768	operon_0655	NC_017641.1|gene1742|UMNK88_1768
UMNK88_1770	operon_0655	NC_017641.1|gene1743|UMNK88_1770
UMNK88_1769	operon_0656	NC_017641.1|gene1744|UMNK88_1769
UMNK88_1771	operon_0657	NC_017641.1|gene1745|UMNK88_1771
UMNK88_1772	operon_0658	NC_017641.1|gene1746|UMNK88_1772|abgT
UMNK88_1773	operon_0658	NC_017641.1|gene1747|UMNK88_1773
UMNK88_1774	operon_0658	NC_017641.1|gene1748|UMNK88_1774
UMNK88_1775	operon_0659	NC_017641.1|gene1749|UMNK88_1775
UMNK88_1776	operon_0660	NC_017641.1|gene1750|UMNK88_1776
UMNK88_1777	operon_0661	NC_017641.1|gene1751|UMNK88_1777
UMNK88_1778	operon_0662	NC_017641.1|gene1752|UMNK88_1778
UMNK88_1779	operon_0663	NC_017641.1|gene1753|UMNK88_1779
UMNK88_1780	operon_0664	NC_017641.1|gene1754|UMNK88_1780
UMNK88_1781	operon_0665	NC_017641.1|gene1755|UMNK88_1781
UMNK88_1782	operon_0666	NC_017641.1|gene1756|UMNK88_1782
UMNK88_1783	operon_0666	NC_017641.1|gene1757|UMNK88_1783|nifJ
UMNK88_1784	operon_0666	NC_017641.1|gene1758|UMNK88_1784
UMNK88_1786	operon_0667	NC_017641.1|gene1759|UMNK88_1786
UMNK88_1785	operon_0668	NC_017641.1|gene1760|UMNK88_1785
UMNK88_1787	operon_0669	NC_017641.1|gene1761|UMNK88_1787
UMNK88_1788	operon_0670	NC_017641.1|gene1762|UMNK88_1788
UMNK88_1789	operon_0670	NC_017641.1|gene1763|UMNK88_1789
UMNK88_1790	operon_0670	NC_017641.1|gene1764|UMNK88_1790
UMNK88_1791	operon_0671	NC_017641.1|gene1765|UMNK88_1791
UMNK88_1792	operon_0672	NC_017641.1|gene1766|UMNK88_1792
UMNK88_1793	operon_0673	NC_017641.1|gene1767|UMNK88_1793
UMNK88_1794	operon_0673	NC_017641.1|gene1768|UMNK88_1794|paaN
UMNK88_1795	operon_0674	NC_017641.1|gene1769|UMNK88_1795
UMNK88_1796	operon_0674	NC_017641.1|gene1770|UMNK88_1796
UMNK88_1797	operon_0674	NC_017641.1|gene1771|UMNK88_1797
UMNK88_1798	operon_0674	NC_017641.1|gene1772|UMNK88_1798|paaJ
UMNK88_1799	operon_0674	NC_017641.1|gene1773|UMNK88_1799
UMNK88_1800	operon_0674	NC_017641.1|gene1774|UMNK88_1800
UMNK88_1801	operon_0674	NC_017641.1|gene1775|UMNK88_1801|paaB
UMNK88_1802	operon_0674	NC_017641.1|gene1776|UMNK88_1802|paaC
UMNK88_1803	operon_0674	NC_017641.1|gene1777|UMNK88_1803|paaD
UMNK88_1804	operon_0674	NC_017641.1|gene1778|UMNK88_1804|pcaF
UMNK88_1805	operon_0674	NC_017641.1|gene1779|UMNK88_1805|paaF
UMNK88_1806	operon_0674	NC_017641.1|gene1780|UMNK88_1806|paaX
UMNK88_1807	operon_0674	NC_017641.1|gene1781|UMNK88_1807|paaY
UMNK88_1808	operon_0674	NC_017641.1|gene1782|UMNK88_1808
UMNK88_1809	operon_0675	NC_017641.1|gene1783|UMNK88_1809
UMNK88_1810	operon_0675	NC_017641.1|gene1784|UMNK88_1810
UMNK88_1811	operon_0675	NC_017641.1|gene1785|UMNK88_1811
UMNK88_1812	operon_0676	NC_017641.1|gene1786|UMNK88_1812
UMNK88_1813	operon_0677	NC_017641.1|gene1787|UMNK88_1813|hrpA
UMNK88_1814	operon_0677	NC_017641.1|gene1788|UMNK88_1814
UMNK88_1815	operon_0677	NC_017641.1|gene1789|UMNK88_1815
UMNK88_1816	operon_0678	NC_017641.1|gene1790|UMNK88_1816
UMNK88_1817	operon_0678	NC_017641.1|gene1791|UMNK88_1817
UMNK88_1818	operon_0679	NC_017641.1|gene1792|UMNK88_1818
UMNK88_1819	operon_0679	NC_017641.1|gene1793|UMNK88_1819
UMNK88_1820	operon_0679	NC_017641.1|gene1794|UMNK88_1820
UMNK88_1821	operon_0680	NC_017641.1|gene1795|UMNK88_1821
UMNK88_1822	operon_0681	NC_017641.1|gene1796|UMNK88_1822
UMNK88_1823	operon_0681	NC_017641.1|gene1797|UMNK88_1823
UMNK88_1824	operon_0682	NC_017641.1|gene1798|UMNK88_1824
UMNK88_1826	operon_0683	NC_017641.1|gene1799|UMNK88_1826
UMNK88_1825	operon_0684	NC_017641.1|gene1800|UMNK88_1825
UMNK88_1827	operon_0685	NC_017641.1|gene1801|UMNK88_1827|tehA
UMNK88_1828	operon_0685	NC_017641.1|gene1802|UMNK88_1828|tehB
UMNK88_1829	operon_0685	NC_017641.1|gene1803|UMNK88_1829
UMNK88_1830	operon_0685	NC_017641.1|gene1804|UMNK88_1830
UMNK88_1831	operon_0686	NC_017641.1|gene1805|UMNK88_1831
UMNK88_1832	operon_0686	NC_017641.1|gene1806|UMNK88_1832
UMNK88_1833	operon_0687	NC_017641.1|gene1807|UMNK88_1833
UMNK88_1834	operon_0687	NC_017641.1|gene1808|UMNK88_1834
UMNK88_1835	operon_0688	NC_017641.1|gene1809|UMNK88_1835
UMNK88_1836	operon_0689	NC_017641.1|gene1810|UMNK88_1836
UMNK88_1837	operon_0689	NC_017641.1|gene1811|UMNK88_1837
UMNK88_1838	operon_0690	NC_017641.1|gene1812|UMNK88_1838
UMNK88_1839	operon_0690	NC_017641.1|gene1813|UMNK88_1839
UMNK88_1840	operon_0690	NC_017641.1|gene1814|UMNK88_1840
UMNK88_1841	operon_0691	NC_017641.1|gene1815|UMNK88_1841
UMNK88_1842	operon_0691	NC_017641.1|gene1816|UMNK88_1842
UMNK88_1843	operon_0691	NC_017641.1|gene1817|UMNK88_1843
UMNK88_1844	operon_0691	NC_017641.1|gene1818|UMNK88_1844
UMNK88_1845	operon_0691	NC_017641.1|gene1819|UMNK88_1845
UMNK88_1846	operon_0691	NC_017641.1|gene1820|UMNK88_1846
UMNK88_1847	operon_0691	NC_017641.1|gene1821|UMNK88_1847|ydcW
UMNK88_1848	operon_0691	NC_017641.1|gene1822|UMNK88_1848
UMNK88_1849	operon_0691	NC_017641.1|gene1823|UMNK88_1849
UMNK88_1850	operon_0691	NC_017641.1|gene1824|UMNK88_1850
UMNK88_1851	operon_0692	NC_017641.1|gene1825|UMNK88_1851
UMNK88_1852	operon_0692	NC_017641.1|gene1826|UMNK88_1852
UMNK88_1853	operon_0693	NC_017641.1|gene1827|UMNK88_1853
UMNK88_1854	operon_0693	NC_017641.1|gene1828|UMNK88_1854
UMNK88_1855	operon_0694	NC_017641.1|gene1829|UMNK88_1855
UMNK88_1856	operon_0695	NC_017641.1|gene1830|UMNK88_1856
UMNK88_1857	operon_0696	NC_017641.1|gene1831|UMNK88_1857
UMNK88_1858	operon_0697	NC_017641.1|gene1832|UMNK88_1858
UMNK88_1859	operon_0697	NC_017641.1|gene1833|UMNK88_1859
UMNK88_1860	operon_0697	NC_017641.1|gene1834|UMNK88_1860
UMNK88_1861	operon_0697	NC_017641.1|gene1835|UMNK88_1861
UMNK88_1862	operon_0697	NC_017641.1|gene1836|UMNK88_1862
UMNK88_1863	operon_0697	NC_017641.1|gene1837|UMNK88_1863
UMNK88_1864	operon_0697	NC_017641.1|gene1838|UMNK88_1864
UMNK88_1866	operon_0697	NC_017641.1|gene1839|UMNK88_1866
UMNK88_1865	operon_0698	NC_017641.1|gene1840|UMNK88_1865
UMNK88_1867	operon_0699	NC_017641.1|gene1841|UMNK88_1867
UMNK88_1868	operon_0700	NC_017641.1|gene1842|UMNK88_1868
UMNK88_1869	operon_0700	NC_017641.1|gene1843|UMNK88_1869|narI
UMNK88_1870	operon_0700	NC_017641.1|gene1844|UMNK88_1870|narJ
UMNK88_1871	operon_0700	NC_017641.1|gene1845|UMNK88_1871|narH
UMNK88_1872	operon_0700	NC_017641.1|gene1846|UMNK88_1872
UMNK88_1873	operon_0700	NC_017641.1|gene1847|UMNK88_1873|narK
UMNK88_1874	operon_0700	NC_017641.1|gene1848|UMNK88_1874
UMNK88_1875	operon_0700	NC_017641.1|gene1849|UMNK88_1875
UMNK88_1876	operon_0701	NC_017641.1|gene1850|UMNK88_1876
UMNK88_1877	operon_0701	NC_017641.1|gene1851|UMNK88_1877
UMNK88_1878	operon_0702	NC_017641.1|gene1852|UMNK88_1878
UMNK88_1879	operon_0702	NC_017641.1|gene1853|UMNK88_1879
UMNK88_1880	operon_0702	NC_017641.1|gene1854|UMNK88_1880|fdxH
UMNK88_1881	operon_0702	NC_017641.1|gene1855|UMNK88_1881
UMNK88_1882	operon_0703	NC_017641.1|gene1856|UMNK88_1882|higA
UMNK88_1883	operon_0703	NC_017641.1|gene1857|UMNK88_1883
UMNK88_1884	operon_0703	NC_017641.1|gene1858|UMNK88_1884|sfcA
UMNK88_1885	operon_0704	NC_017641.1|gene1859|UMNK88_1885
UMNK88_1886	operon_0704	NC_017641.1|gene1860|UMNK88_1886
UMNK88_1887	operon_0705	NC_017641.1|gene1861|UMNK88_1887
UMNK88_1888	operon_0706	NC_017641.1|gene1862|UMNK88_1888
UMNK88_1889	operon_0706	NC_017641.1|gene1863|UMNK88_1889
UMNK88_1890	operon_0706	NC_017641.1|gene1864|UMNK88_1890
UMNK88_1891	operon_0706	NC_017641.1|gene1865|UMNK88_1891
UMNK88_1892	operon_0706	NC_017641.1|gene1866|UMNK88_1892
UMNK88_1893	operon_0706	NC_017641.1|gene1867|UMNK88_1893
UMNK88_1894	operon_0707	NC_017641.1|gene1868|UMNK88_1894
UMNK88_1895	operon_0707	NC_017641.1|gene1869|UMNK88_1895
UMNK88_1896	operon_0708	NC_017641.1|gene1870|UMNK88_1896
UMNK88_1897	operon_0708	NC_017641.1|gene1871|UMNK88_1897|gadC
UMNK88_1898	operon_0709	NC_017641.1|gene1872|UMNK88_1898
UMNK88_1899	operon_0709	NC_017641.1|gene1873|UMNK88_1899
UMNK88_1900	operon_0710	NC_017641.1|gene1874|UMNK88_1900
UMNK88_1901	operon_0710	NC_017641.1|gene1875|UMNK88_1901
UMNK88_1902	operon_0710	NC_017641.1|gene1876|UMNK88_1902
UMNK88_1903	operon_0711	NC_017641.1|gene1877|UMNK88_1903
UMNK88_1904	operon_0712	NC_017641.1|gene1878|UMNK88_1904
UMNK88_1905	operon_0713	NC_017641.1|gene1879|UMNK88_1905
UMNK88_1906	operon_0714	NC_017641.1|gene1880|UMNK88_1906
UMNK88_1907	operon_0714	NC_017641.1|gene1881|UMNK88_1907
UMNK88_1908	operon_0714	NC_017641.1|gene1882|UMNK88_1908
UMNK88_1909	operon_0714	NC_017641.1|gene1883|UMNK88_1909|fimF
UMNK88_1910	operon_0714	NC_017641.1|gene1884|UMNK88_1910
UMNK88_1911	operon_0715	NC_017641.1|gene1885|UMNK88_1911
UMNK88_1912	operon_0716	NC_017641.1|gene1886|UMNK88_1912
UMNK88_1913	operon_0716	NC_017641.1|gene1887|UMNK88_1913
UMNK88_1914	operon_0716	NC_017641.1|gene1888|UMNK88_1914
UMNK88_1915	operon_0716	NC_017641.1|gene1889|UMNK88_1915
UMNK88_1916	operon_0717	NC_017641.1|gene1890|UMNK88_1916
UMNK88_1917	operon_0718	NC_017641.1|gene1891|UMNK88_1917
UMNK88_1918	operon_0718	NC_017641.1|gene1892|UMNK88_1918
UMNK88_1919	operon_0719	NC_017641.1|gene1893|UMNK88_1919
UMNK88_1920	operon_0720	NC_017641.1|gene1894|UMNK88_1920
UMNK88_1921	operon_0721	NC_017641.1|gene1895|UMNK88_1921
UMNK88_1922	operon_0721	NC_017641.1|gene1896|UMNK88_1922
UMNK88_1923	operon_0722	NC_017641.1|gene1897|UMNK88_1923
UMNK88_1924	operon_0722	NC_017641.1|gene1898|UMNK88_1924
UMNK88_1925	operon_0723	NC_017641.1|gene1899|UMNK88_1925
UMNK88_1926	operon_0723	NC_017641.1|gene1900|UMNK88_1926
UMNK88_1927	operon_0724	NC_017641.1|gene1901|UMNK88_1927
UMNK88_1928	operon_0724	NC_017641.1|gene1902|UMNK88_1928
UMNK88_1929	operon_0724	NC_017641.1|gene1903|UMNK88_1929
UMNK88_1930	operon_0724	NC_017641.1|gene1904|UMNK88_1930
UMNK88_1931	operon_0725	NC_017641.1|gene1905|UMNK88_1931
UMNK88_1932	operon_0725	NC_017641.1|gene1906|UMNK88_1932
UMNK88_1933	operon_0725	NC_017641.1|gene1907|UMNK88_1933
UMNK88_1934	operon_0725	NC_017641.1|gene1908|UMNK88_1934
UMNK88_1935	operon_0725	NC_017641.1|gene1909|UMNK88_1935
UMNK88_1936	operon_0725	NC_017641.1|gene1910|UMNK88_1936
UMNK88_1937	operon_0725	NC_017641.1|gene1911|UMNK88_1937
UMNK88_1938	operon_0725	NC_017641.1|gene1912|UMNK88_1938
UMNK88_1939	operon_0726	NC_017641.1|gene1913|UMNK88_1939
UMNK88_1940	operon_0727	NC_017641.1|gene1914|UMNK88_1940
UMNK88_1942	operon_0727	NC_017641.1|gene1915|UMNK88_1942
UMNK88_1943	operon_0727	NC_017641.1|gene1916|UMNK88_1943
UMNK88_1944	operon_0727	NC_017641.1|gene1917|UMNK88_1944
UMNK88_1945	operon_0727	NC_017641.1|gene1918|UMNK88_1945
UMNK88_1946	operon_0728	NC_017641.1|gene1919|UMNK88_1946
UMNK88_1948	operon_0728	NC_017641.1|gene1920|UMNK88_1948
UMNK88_1949	operon_0728	NC_017641.1|gene1921|UMNK88_1949
UMNK88_1950	operon_0729	NC_017641.1|gene1922|UMNK88_1950
UMNK88_1951	operon_0730	NC_017641.1|gene1923|UMNK88_1951
UMNK88_1952	operon_0730	NC_017641.1|gene1924|UMNK88_1952
UMNK88_1953	operon_0730	NC_017641.1|gene1925|UMNK88_1953
UMNK88_1954	operon_0731	NC_017641.1|gene1926|UMNK88_1954
UMNK88_1955	operon_0731	NC_017641.1|gene1927|UMNK88_1955
UMNK88_1956	operon_0732	NC_017641.1|gene1928|UMNK88_1956
UMNK88_1957	operon_0732	NC_017641.1|gene1929|UMNK88_1957
UMNK88_1958	operon_0732	NC_017641.1|gene1930|UMNK88_1958
UMNK88_1959	operon_0733	NC_017641.1|gene1931|UMNK88_1959
UMNK88_1960	operon_0734	NC_017641.1|gene1932|UMNK88_1960
UMNK88_1961	operon_0735	NC_017641.1|gene1933|UMNK88_1961
UMNK88_1962	operon_0736	NC_017641.1|gene1934|UMNK88_1962
UMNK88_1963	operon_0737	NC_017641.1|gene1935|UMNK88_1963
UMNK88_1964	operon_0738	NC_017641.1|gene1936|UMNK88_1964
UMNK88_1965	operon_0739	NC_017641.1|gene1937|UMNK88_1965
UMNK88_1966	operon_0740	NC_017641.1|gene1938|UMNK88_1966
UMNK88_1967	operon_0741	NC_017641.1|gene1939|UMNK88_1967
UMNK88_1968	operon_0742	NC_017641.1|gene1940|UMNK88_1968
UMNK88_1969	operon_0743	NC_017641.1|gene1941|UMNK88_1969
UMNK88_1970	operon_0744	NC_017641.1|gene1942|UMNK88_1970
UMNK88_1971	operon_0745	NC_017641.1|gene1943|UMNK88_1971
UMNK88_1972	operon_0745	NC_017641.1|gene1944|UMNK88_1972
UMNK88_1973	operon_0746	NC_017641.1|gene1945|UMNK88_1973
UMNK88_1974	operon_0746	NC_017641.1|gene1946|UMNK88_1974
UMNK88_1976	operon_0747	NC_017641.1|gene1947|UMNK88_1976
UMNK88_1977	operon_0747	NC_017641.1|gene1948|UMNK88_1977
UMNK88_1978	operon_0748	NC_017641.1|gene1949|UMNK88_1978
UMNK88_1979	operon_0749	NC_017641.1|gene1950|UMNK88_1979
UMNK88_1980	operon_0750	NC_017641.1|gene1951|UMNK88_1980
UMNK88_1981	operon_0750	NC_017641.1|gene1952|UMNK88_1981
UMNK88_1982	operon_0750	NC_017641.1|gene1953|UMNK88_1982
UMNK88_1983	operon_0750	NC_017641.1|gene1954|UMNK88_1983
UMNK88_1984	operon_0750	NC_017641.1|gene1955|UMNK88_1984
UMNK88_1985	operon_0750	NC_017641.1|gene1956|UMNK88_1985
UMNK88_1986	operon_0750	NC_017641.1|gene1957|UMNK88_1986
UMNK88_1987	operon_0750	NC_017641.1|gene1958|UMNK88_1987
UMNK88_1988	operon_0750	NC_017641.1|gene1959|UMNK88_1988
UMNK88_1989	operon_0750	NC_017641.1|gene1960|UMNK88_1989
UMNK88_1990	operon_0750	NC_017641.1|gene1961|UMNK88_1990
UMNK88_1991	operon_0750	NC_017641.1|gene1962|UMNK88_1991
UMNK88_1992	operon_0751	NC_017641.1|gene1963|UMNK88_1992
UMNK88_1993	operon_0752	NC_017641.1|gene1964|UMNK88_1993
UMNK88_1994	operon_0752	NC_017641.1|gene1965|UMNK88_1994
UMNK88_1995	operon_0752	NC_017641.1|gene1966|UMNK88_1995
UMNK88_1996	operon_0752	NC_017641.1|gene1967|UMNK88_1996
UMNK88_1997	operon_0752	NC_017641.1|gene1968|UMNK88_1997
UMNK88_1998	operon_0752	NC_017641.1|gene1969|UMNK88_1998
UMNK88_1999	operon_0753	NC_017641.1|gene1970|UMNK88_1999
UMNK88_2000	operon_0754	NC_017641.1|gene1971|UMNK88_2000
UMNK88_2001	operon_0755	NC_017641.1|gene1972|UMNK88_2001
UMNK88_2002	operon_0755	NC_017641.1|gene1973|UMNK88_2002
UMNK88_2003	operon_0755	NC_017641.1|gene1974|UMNK88_2003
UMNK88_2004	operon_0755	NC_017641.1|gene1975|UMNK88_2004
UMNK88_2005	operon_0755	NC_017641.1|gene1976|UMNK88_2005
UMNK88_2006	operon_0756	NC_017641.1|gene1977|UMNK88_2006
UMNK88_2007	operon_0757	NC_017641.1|gene1978|UMNK88_2007
UMNK88_2008	operon_0758	NC_017641.1|gene1979|UMNK88_2008
UMNK88_2009	operon_0758	NC_017641.1|gene1980|UMNK88_2009
UMNK88_2010	operon_0759	NC_017641.1|gene1981|UMNK88_2010
UMNK88_2011	operon_0759	NC_017641.1|gene1982|UMNK88_2011
UMNK88_2012	operon_0759	NC_017641.1|gene1983|UMNK88_2012
UMNK88_2013	operon_0760	NC_017641.1|gene1984|UMNK88_2013
UMNK88_2014	operon_0761	NC_017641.1|gene1985|UMNK88_2014
UMNK88_2015	operon_0761	NC_017641.1|gene1986|UMNK88_2015
UMNK88_2016	operon_0761	NC_017641.1|gene1987|UMNK88_2016
UMNK88_2017	operon_0761	NC_017641.1|gene1988|UMNK88_2017
UMNK88_2018	operon_0761	NC_017641.1|gene1989|UMNK88_2018
UMNK88_2019	operon_0761	NC_017641.1|gene1990|UMNK88_2019
UMNK88_2020	operon_0761	NC_017641.1|gene1991|UMNK88_2020
UMNK88_2021	operon_0761	NC_017641.1|gene1992|UMNK88_2021
UMNK88_2022	operon_0762	NC_017641.1|gene1993|UMNK88_2022
UMNK88_2023	operon_0762	NC_017641.1|gene1994|UMNK88_2023
UMNK88_2024	operon_0762	NC_017641.1|gene1995|UMNK88_2024
UMNK88_2025	operon_0763	NC_017641.1|gene1996|UMNK88_2025
UMNK88_2026	operon_0763	NC_017641.1|gene1997|UMNK88_2026
UMNK88_2027	operon_0764	NC_017641.1|gene1998|UMNK88_2027
UMNK88_2028	operon_0764	NC_017641.1|gene1999|UMNK88_2028
UMNK88_2029	operon_0764	NC_017641.1|gene2000|UMNK88_2029|putative phage exonuclease gene%3B pseudogene%3B possible frameshift
UMNK88_2031	operon_0764	NC_017641.1|gene2001|UMNK88_2031
UMNK88_2032	operon_0764	NC_017641.1|gene2002|UMNK88_2032
UMNK88_2033	operon_0764	NC_017641.1|gene2003|UMNK88_2033
UMNK88_2034	operon_0765	NC_017641.1|gene2004|UMNK88_2034
UMNK88_2035	operon_0765	NC_017641.1|gene2005|UMNK88_2035
UMNK88_2036	operon_0765	NC_017641.1|gene2006|UMNK88_2036
UMNK88_2037	operon_0766	NC_017641.1|gene2007|UMNK88_2037
UMNK88_2038	operon_0766	NC_017641.1|gene2008|UMNK88_2038
UMNK88_2039	operon_0767	NC_017641.1|gene2009|UMNK88_2039
UMNK88_2040	operon_0768	NC_017641.1|gene2010|UMNK88_2040
UMNK88_2041	operon_0769	NC_017641.1|gene2011|UMNK88_2041
UMNK88_2042	operon_0770	NC_017641.1|gene2012|UMNK88_2042
UMNK88_2043	operon_0770	NC_017641.1|gene2013|UMNK88_2043
UMNK88_2044	operon_0770	NC_017641.1|gene2014|UMNK88_2044
UMNK88_2045	operon_0770	NC_017641.1|gene2015|UMNK88_2045
UMNK88_2046	operon_0771	NC_017641.1|gene2016|UMNK88_2046
UMNK88_2047	operon_0771	NC_017641.1|gene2017|UMNK88_2047
UMNK88_2048	operon_0771	NC_017641.1|gene2018|UMNK88_2048|dmsB
UMNK88_2049	operon_0771	NC_017641.1|gene2019|UMNK88_2049
UMNK88_2050	operon_0772	NC_017641.1|gene2020|UMNK88_2050
UMNK88_2052	operon_0773	NC_017641.1|gene2021|UMNK88_2052
UMNK88_2051	operon_0774	NC_017641.1|gene2022|UMNK88_2051|bioD
UMNK88_2053	operon_0774	NC_017641.1|gene2023|UMNK88_2053
UMNK88_2054	operon_0774	NC_017641.1|gene2024|UMNK88_2054
UMNK88_2055	operon_0775	NC_017641.1|gene2025|UMNK88_2055
UMNK88_2056	operon_0776	NC_017641.1|gene2026|UMNK88_2056
UMNK88_2057	operon_0777	NC_017641.1|gene2027|UMNK88_2057
UMNK88_2058	operon_0778	NC_017641.1|gene2028|UMNK88_2058
UMNK88_2059	operon_0778	NC_017641.1|gene2029|UMNK88_2059
UMNK88_2060	operon_0779	NC_017641.1|gene2030|UMNK88_2060
UMNK88_2061	operon_0780	NC_017641.1|gene2031|UMNK88_2061
UMNK88_2062	operon_0780	NC_017641.1|gene2032|UMNK88_2062
UMNK88_2063	operon_0781	NC_017641.1|gene2033|UMNK88_2063
UMNK88_2064	operon_0782	NC_017641.1|gene2034|UMNK88_2064
UMNK88_2066	operon_0782	NC_017641.1|gene2035|UMNK88_2066
UMNK88_2065	operon_0783	NC_017641.1|gene2036|UMNK88_2065
UMNK88_2067	operon_0784	NC_017641.1|gene2037|UMNK88_2067
UMNK88_2068	operon_0784	NC_017641.1|gene2038|UMNK88_2068
UMNK88_2070	operon_0784	NC_017641.1|gene2039|UMNK88_2070|tus
UMNK88_2069	operon_0785	NC_017641.1|gene2040|UMNK88_2069|fumC
UMNK88_2071	operon_0786	NC_017641.1|gene2041|UMNK88_2071
UMNK88_2072	operon_0787	NC_017641.1|gene2042|UMNK88_2072|manA
UMNK88_2073	operon_0787	NC_017641.1|gene2043|UMNK88_2073
UMNK88_2074	operon_0788	NC_017641.1|gene2044|UMNK88_2074
UMNK88_2075	operon_0788	NC_017641.1|gene2045|UMNK88_2075
UMNK88_2076	operon_0788	NC_017641.1|gene2046|UMNK88_2076
UMNK88_2077	operon_0788	NC_017641.1|gene2047|UMNK88_2077
UMNK88_2078	operon_0788	NC_017641.1|gene2048|UMNK88_2078
UMNK88_2079	operon_0788	NC_017641.1|gene2049|UMNK88_2079
UMNK88_2080	operon_0789	NC_017641.1|gene2050|UMNK88_2080
UMNK88_2081	operon_0789	NC_017641.1|gene2051|UMNK88_2081
UMNK88_2082	operon_0790	NC_017641.1|gene2052|UMNK88_2082|add
UMNK88_2083	operon_0791	NC_017641.1|gene2053|UMNK88_2083
UMNK88_2084	operon_0792	NC_017641.1|gene2054|UMNK88_2084
UMNK88_2085	operon_0792	NC_017641.1|gene2055|UMNK88_2085
UMNK88_2086	operon_0792	NC_017641.1|gene2056|UMNK88_2086
UMNK88_2087	operon_0792	NC_017641.1|gene2057|UMNK88_2087
UMNK88_2088	operon_0792	NC_017641.1|gene2058|UMNK88_2088
UMNK88_2089	operon_0792	NC_017641.1|gene2059|UMNK88_2089
UMNK88_2090	operon_0792	NC_017641.1|gene2060|UMNK88_2090
UMNK88_2091	operon_0792	NC_017641.1|gene2061|UMNK88_2091
UMNK88_2092	operon_0792	NC_017641.1|gene2062|UMNK88_2092
UMNK88_2093	operon_0792	NC_017641.1|gene2063|UMNK88_2093
UMNK88_2094	operon_0793	NC_017641.1|gene2064|UMNK88_2094
UMNK88_2095	operon_0794	NC_017641.1|gene2065|UMNK88_2095|gst
UMNK88_2096	operon_0795	NC_017641.1|gene2066|UMNK88_2096
UMNK88_2097	operon_0795	NC_017641.1|gene2067|UMNK88_2097|tyrS
UMNK88_2098	operon_0795	NC_017641.1|gene2068|UMNK88_2098|pdxH
UMNK88_2099	operon_0795	NC_017641.1|gene2069|UMNK88_2099
UMNK88_2100	operon_0795	NC_017641.1|gene2070|UMNK88_2100
UMNK88_2101	operon_0796	NC_017641.1|gene2071|UMNK88_2101
UMNK88_2102	operon_0797	NC_017641.1|gene2072|UMNK88_2102
UMNK88_2103	operon_0798	NC_017641.1|gene2073|UMNK88_2103
UMNK88_2104	operon_0798	NC_017641.1|gene2074|UMNK88_2104
UMNK88_2105	operon_0798	NC_017641.1|gene2075|UMNK88_2105
UMNK88_2106	operon_0799	NC_017641.1|gene2076|UMNK88_2106
UMNK88_2107	operon_0799	NC_017641.1|gene2077|UMNK88_2107
UMNK88_2108	operon_0800	NC_017641.1|gene2078|UMNK88_2108
UMNK88_2109	operon_0800	NC_017641.1|gene2079|UMNK88_2109
UMNK88_2110	operon_0800	NC_017641.1|gene2080|UMNK88_2110
UMNK88_2111	operon_0801	NC_017641.1|gene2081|UMNK88_2111|gloA
UMNK88_2112	operon_0801	NC_017641.1|gene2082|UMNK88_2112|rnt
UMNK88_2113	operon_0801	NC_017641.1|gene2083|UMNK88_2113|lhr
UMNK88_2114	operon_0802	NC_017641.1|gene2084|UMNK88_2114
UMNK88_2115	operon_0802	NC_017641.1|gene2085|UMNK88_2115
UMNK88_2116	operon_0803	NC_017641.1|gene2086|UMNK88_2116
UMNK88_2117	operon_0804	NC_017641.1|gene2087|UMNK88_2117
UMNK88_2118	operon_0805	NC_017641.1|gene2088|UMNK88_2118
UMNK88_2119	operon_0805	NC_017641.1|gene2089|UMNK88_2119
UMNK88_2121	operon_0806	NC_017641.1|gene2090|UMNK88_2121
UMNK88_2120	operon_0807	NC_017641.1|gene2091|UMNK88_2120
UMNK88_2122	operon_0808	NC_017641.1|gene2092|UMNK88_2122
UMNK88_2123	operon_0808	NC_017641.1|gene2093|UMNK88_2123
UMNK88_2124	operon_0809	NC_017641.1|gene2094|UMNK88_2124|ribE
UMNK88_2125	operon_0810	NC_017641.1|gene2095|UMNK88_2125
UMNK88_2126	operon_0811	NC_017641.1|gene2096|UMNK88_2126
UMNK88_t30	operon_0812	NC_017641.1|gene2097|UMNK88_t30
UMNK88_t31	operon_0812	NC_017641.1|gene2098|UMNK88_t31
UMNK88_2129	operon_0812	NC_017641.1|gene2099|UMNK88_2129
UMNK88_2130	operon_0813	NC_017641.1|gene2100|UMNK88_2130
UMNK88_2131	operon_0814	NC_017641.1|gene2101|UMNK88_2131
UMNK88_2132	operon_0814	NC_017641.1|gene2102|UMNK88_2132
UMNK88_2133	operon_0814	NC_017641.1|gene2103|UMNK88_2133
UMNK88_2134	operon_0814	NC_017641.1|gene2104|UMNK88_2134
UMNK88_2135	operon_0814	NC_017641.1|gene2105|UMNK88_2135
UMNK88_2136	operon_0814	NC_017641.1|gene2106|UMNK88_2136
UMNK88_2137	operon_0815	NC_017641.1|gene2107|UMNK88_2137
UMNK88_2138	operon_0816	NC_017641.1|gene2108|UMNK88_2138
UMNK88_2139	operon_0817	NC_017641.1|gene2109|UMNK88_2139|pyk
UMNK88_2140	operon_0817	NC_017641.1|gene2110|UMNK88_2140
UMNK88_2141	operon_0818	NC_017641.1|gene2111|UMNK88_2141
UMNK88_2142	operon_0818	NC_017641.1|gene2112|UMNK88_2142
UMNK88_2143	operon_0818	NC_017641.1|gene2113|UMNK88_2143|sufS
UMNK88_2144	operon_0818	NC_017641.1|gene2114|UMNK88_2144|sufD
UMNK88_2145	operon_0818	NC_017641.1|gene2115|UMNK88_2145|sufC
UMNK88_2146	operon_0818	NC_017641.1|gene2116|UMNK88_2146|sufB
UMNK88_2147	operon_0818	NC_017641.1|gene2117|UMNK88_2147|sufA
UMNK88_2148	operon_0819	NC_017641.1|gene2118|UMNK88_2148
UMNK88_2149	operon_0820	NC_017641.1|gene2119|UMNK88_2149
UMNK88_2150	operon_0820	NC_017641.1|gene2120|UMNK88_2150
UMNK88_2151	operon_0821	NC_017641.1|gene2121|UMNK88_2151
UMNK88_2152	operon_0822	NC_017641.1|gene2122|UMNK88_2152
UMNK88_2153	operon_0822	NC_017641.1|gene2123|UMNK88_2153
UMNK88_2154	operon_0822	NC_017641.1|gene2124|UMNK88_2154
UMNK88_2155	operon_0822	NC_017641.1|gene2125|UMNK88_2155
UMNK88_2156	operon_0822	NC_017641.1|gene2126|UMNK88_2156|aroD
UMNK88_2157	operon_0822	NC_017641.1|gene2127|UMNK88_2157
UMNK88_2158	operon_0822	NC_017641.1|gene2128|UMNK88_2158
UMNK88_2159	operon_0823	NC_017641.1|gene2129|UMNK88_2159
UMNK88_2160	operon_0824	NC_017641.1|gene2130|UMNK88_2160
UMNK88_2161	operon_0824	NC_017641.1|gene2131|UMNK88_2161
UMNK88_2162	operon_0824	NC_017641.1|gene2132|UMNK88_2162
UMNK88_2163	operon_0824	NC_017641.1|gene2133|UMNK88_2163
UMNK88_2164	operon_0825	NC_017641.1|gene2134|UMNK88_2164
UMNK88_2165	operon_0826	NC_017641.1|gene2135|UMNK88_2165|ppsA
UMNK88_2166	operon_0827	NC_017641.1|gene2136|UMNK88_2166
UMNK88_2167	operon_0827	NC_017641.1|gene2137|UMNK88_2167
UMNK88_2168	operon_0828	NC_017641.1|gene2138|UMNK88_2168
UMNK88_2169	operon_0829	NC_017641.1|gene2139|UMNK88_2169
UMNK88_2170	operon_0829	NC_017641.1|gene2140|UMNK88_2170
UMNK88_2171	operon_0830	NC_017641.1|gene2141|UMNK88_2171
UMNK88_2172	operon_0830	NC_017641.1|gene2142|UMNK88_2172
UMNK88_2173	operon_0830	NC_017641.1|gene2143|UMNK88_2173
UMNK88_2174	operon_0830	NC_017641.1|gene2144|UMNK88_2174
UMNK88_2175	operon_0830	NC_017641.1|gene2145|UMNK88_2175|ihfA
UMNK88_2176	operon_0830	NC_017641.1|gene2146|UMNK88_2176|pheT
UMNK88_2177	operon_0830	NC_017641.1|gene2147|UMNK88_2177|pheS
UMNK88_2178	operon_0831	NC_017641.1|gene2148|UMNK88_2178
UMNK88_2179	operon_0832	NC_017641.1|gene2149|UMNK88_2179|rplT
UMNK88_2180	operon_0832	NC_017641.1|gene2150|UMNK88_2180|rpmI
UMNK88_2181	operon_0833	NC_017641.1|gene2151|UMNK88_2181
UMNK88_2182	operon_0833	NC_017641.1|gene2152|UMNK88_2182|thrS
UMNK88_2183	operon_0834	NC_017641.1|gene2153|UMNK88_2183
UMNK88_2184	operon_0835	NC_017641.1|gene2154|UMNK88_2184
UMNK88_2185	operon_0836	NC_017641.1|gene2155|UMNK88_2185
UMNK88_2186	operon_0837	NC_017641.1|gene2156|UMNK88_2186
UMNK88_2187	operon_0838	NC_017641.1|gene2157|UMNK88_2187|pfkB
UMNK88_2188	operon_0838	NC_017641.1|gene2158|UMNK88_2188
UMNK88_2189	operon_0838	NC_017641.1|gene2159|UMNK88_2189
UMNK88_2190	operon_0839	NC_017641.1|gene2160|UMNK88_2190
UMNK88_2191	operon_0840	NC_017641.1|gene2161|UMNK88_2191
UMNK88_2192	operon_0841	NC_017641.1|gene2162|UMNK88_2192
UMNK88_2193	operon_0841	NC_017641.1|gene2163|UMNK88_2193
UMNK88_2194	operon_0842	NC_017641.1|gene2164|UMNK88_2194
UMNK88_2195	operon_0843	NC_017641.1|gene2165|UMNK88_2195
UMNK88_2196	operon_0844	NC_017641.1|gene2166|UMNK88_2196|katE
UMNK88_2197	operon_0845	NC_017641.1|gene2167|UMNK88_2197
UMNK88_2198	operon_0845	NC_017641.1|gene2168|UMNK88_2198
UMNK88_2199	operon_0845	NC_017641.1|gene2169|UMNK88_2199|chbR
UMNK88_2200	operon_0845	NC_017641.1|gene2170|UMNK88_2200|lacF
UMNK88_2201	operon_0845	NC_017641.1|gene2171|UMNK88_2201|celB
UMNK88_2202	operon_0845	NC_017641.1|gene2172|UMNK88_2202
UMNK88_2203	operon_0845	NC_017641.1|gene2173|UMNK88_2203
UMNK88_2204	operon_0846	NC_017641.1|gene2174|UMNK88_2204|nadE
UMNK88_2206	operon_0846	NC_017641.1|gene2175|UMNK88_2206
UMNK88_2205	operon_0847	NC_017641.1|gene2176|UMNK88_2205
UMNK88_2207	operon_0848	NC_017641.1|gene2177|UMNK88_2207
UMNK88_2208	operon_0848	NC_017641.1|gene2178|UMNK88_2208|astE
UMNK88_2209	operon_0848	NC_017641.1|gene2179|UMNK88_2209|astB
UMNK88_2210	operon_0848	NC_017641.1|gene2180|UMNK88_2210|astD
UMNK88_2211	operon_0848	NC_017641.1|gene2181|UMNK88_2211|astA
UMNK88_2212	operon_0848	NC_017641.1|gene2182|UMNK88_2212|astC
UMNK88_2213	operon_0849	NC_017641.1|gene2183|UMNK88_2213
UMNK88_2214	operon_0849	NC_017641.1|gene2184|UMNK88_2214
UMNK88_2215	operon_0849	NC_017641.1|gene2185|UMNK88_2215
UMNK88_2216	operon_0849	NC_017641.1|gene2186|UMNK88_2216
UMNK88_2217	operon_0849	NC_017641.1|gene2187|UMNK88_2217
UMNK88_2218	operon_0849	NC_017641.1|gene2188|UMNK88_2218
UMNK88_2219	operon_0849	NC_017641.1|gene2189|UMNK88_2219
UMNK88_2220	operon_0849	NC_017641.1|gene2190|UMNK88_2220
UMNK88_2221	operon_0849	NC_017641.1|gene2191|UMNK88_2221
UMNK88_2222	operon_0849	NC_017641.1|gene2192|UMNK88_2222
UMNK88_2223	operon_0850	NC_017641.1|gene2193|UMNK88_2223
UMNK88_2225	operon_0851	NC_017641.1|gene2194|UMNK88_2225
UMNK88_2224	operon_0852	NC_017641.1|gene2195|UMNK88_2224
UMNK88_2226	operon_0853	NC_017641.1|gene2196|UMNK88_2226
UMNK88_2227	operon_0854	NC_017641.1|gene2197|UMNK88_2227
UMNK88_2228	operon_0854	NC_017641.1|gene2198|UMNK88_2228|topB
UMNK88_2229	operon_0854	NC_017641.1|gene2199|UMNK88_2229|selD
UMNK88_2230	operon_0854	NC_017641.1|gene2200|UMNK88_2230
UMNK88_2231	operon_0855	NC_017641.1|gene2201|UMNK88_2231|sppA
UMNK88_2232	operon_0855	NC_017641.1|gene2202|UMNK88_2232
UMNK88_2233	operon_0855	NC_017641.1|gene2203|UMNK88_2233
UMNK88_2234	operon_0856	NC_017641.1|gene2204|UMNK88_2234
UMNK88_2235	operon_0857	NC_017641.1|gene2205|UMNK88_2235
UMNK88_2236	operon_0857	NC_017641.1|gene2206|UMNK88_2236
UMNK88_2237	operon_0857	NC_017641.1|gene2207|UMNK88_2237
UMNK88_2238	operon_0857	NC_017641.1|gene2208|UMNK88_2238
UMNK88_2239	operon_0857	NC_017641.1|gene2209|UMNK88_2239|gutB
UMNK88_2240	operon_0857	NC_017641.1|gene2210|UMNK88_2240
UMNK88_2241	operon_0857	NC_017641.1|gene2211|UMNK88_2241
UMNK88_2242	operon_0858	NC_017641.1|gene2212|UMNK88_2242
UMNK88_2243	operon_0858	NC_017641.1|gene2213|UMNK88_2243|msrB
UMNK88_2244	operon_0859	NC_017641.1|gene2214|UMNK88_2244|gap
UMNK88_2245	operon_0859	NC_017641.1|gene2215|UMNK88_2245
UMNK88_2246	operon_0860	NC_017641.1|gene2216|UMNK88_2246
UMNK88_2247	operon_0861	NC_017641.1|gene2217|UMNK88_2247
UMNK88_2248	operon_0862	NC_017641.1|gene2218|UMNK88_2248
UMNK88_2249	operon_0862	NC_017641.1|gene2219|UMNK88_2249
UMNK88_2250	operon_0863	NC_017641.1|gene2220|UMNK88_2250
UMNK88_2251	operon_0864	NC_017641.1|gene2221|UMNK88_2251
UMNK88_2252	operon_0864	NC_017641.1|gene2222|UMNK88_2252
UMNK88_2253	operon_0865	NC_017641.1|gene2223|UMNK88_2253
UMNK88_2255	operon_0866	NC_017641.1|gene2224|UMNK88_2255
UMNK88_2254	operon_0867	NC_017641.1|gene2225|UMNK88_2254
UMNK88_2256	operon_0868	NC_017641.1|gene2226|UMNK88_2256
UMNK88_2257	operon_0868	NC_017641.1|gene2227|UMNK88_2257
UMNK88_2258	operon_0869	NC_017641.1|gene2228|UMNK88_2258
UMNK88_2259	operon_0870	NC_017641.1|gene2229|UMNK88_2259
UMNK88_2260	operon_0870	NC_017641.1|gene2230|UMNK88_2260
UMNK88_2261	operon_0871	NC_017641.1|gene2231|UMNK88_2261
UMNK88_2262	operon_0871	NC_017641.1|gene2232|UMNK88_2262
UMNK88_2263	operon_0871	NC_017641.1|gene2233|UMNK88_2263
UMNK88_2264	operon_0872	NC_017641.1|gene2234|UMNK88_2264
UMNK88_2265	operon_0872	NC_017641.1|gene2235|UMNK88_2265
UMNK88_2266	operon_0873	NC_017641.1|gene2236|UMNK88_2266
UMNK88_2267	operon_0874	NC_017641.1|gene2237|UMNK88_2267
UMNK88_2268	operon_0874	NC_017641.1|gene2238|UMNK88_2268
UMNK88_2269	operon_0875	NC_017641.1|gene2239|UMNK88_2269
UMNK88_2270	operon_0876	NC_017641.1|gene2240|UMNK88_2270|putative betaine%2Fcarnitine%2Fcholine transporter gene%3B pseudogene%3B possible frameshift
UMNK88_2272	operon_0876	NC_017641.1|gene2241|UMNK88_2272
UMNK88_2273	operon_0876	NC_017641.1|gene2242|UMNK88_2273
UMNK88_2274	operon_0877	NC_017641.1|gene2243|UMNK88_2274|rnd
UMNK88_2275	operon_0878	NC_017641.1|gene2244|UMNK88_2275
UMNK88_2276	operon_0879	NC_017641.1|gene2245|UMNK88_2276
UMNK88_2277	operon_0879	NC_017641.1|gene2246|UMNK88_2277
UMNK88_2278	operon_0879	NC_017641.1|gene2247|UMNK88_2278
UMNK88_2279	operon_0880	NC_017641.1|gene2248|UMNK88_2279
UMNK88_2280	operon_0880	NC_017641.1|gene2249|UMNK88_2280
UMNK88_2281	operon_0881	NC_017641.1|gene2250|UMNK88_2281
UMNK88_2282	operon_0882	NC_017641.1|gene2251|UMNK88_2282|pabB
UMNK88_2283	operon_0882	NC_017641.1|gene2252|UMNK88_2283
UMNK88_2284	operon_0882	NC_017641.1|gene2253|UMNK88_2284|sdaA
UMNK88_2285	operon_0882	NC_017641.1|gene2254|UMNK88_2285
UMNK88_2286	operon_0883	NC_017641.1|gene2255|UMNK88_2286
UMNK88_2287	operon_0884	NC_017641.1|gene2256|UMNK88_2287
UMNK88_2288	operon_0884	NC_017641.1|gene2257|UMNK88_2288
UMNK88_2289	operon_0884	NC_017641.1|gene2258|UMNK88_2289
UMNK88_2290	operon_0885	NC_017641.1|gene2259|UMNK88_2290
UMNK88_2291	operon_0886	NC_017641.1|gene2260|UMNK88_2291
UMNK88_2293	operon_0886	NC_017641.1|gene2261|UMNK88_2293
UMNK88_2292	operon_0887	NC_017641.1|gene2262|UMNK88_2292
UMNK88_2294	operon_0888	NC_017641.1|gene2263|UMNK88_2294
UMNK88_2295	operon_0888	NC_017641.1|gene2264|UMNK88_2295
UMNK88_2296	operon_0889	NC_017641.1|gene2265|UMNK88_2296
UMNK88_2297	operon_0889	NC_017641.1|gene2266|UMNK88_2297
UMNK88_2298	operon_0889	NC_017641.1|gene2267|UMNK88_2298
UMNK88_2299	operon_0890	NC_017641.1|gene2268|UMNK88_2299
UMNK88_2300	operon_0891	NC_017641.1|gene2269|UMNK88_2300
UMNK88_2301	operon_0892	NC_017641.1|gene2270|UMNK88_2301
UMNK88_2302	operon_0892	NC_017641.1|gene2271|UMNK88_2302|proQ
UMNK88_2303	operon_0892	NC_017641.1|gene2272|UMNK88_2303
UMNK88_2304	operon_0893	NC_017641.1|gene2273|UMNK88_2304
UMNK88_2305	operon_0893	NC_017641.1|gene2274|UMNK88_2305
UMNK88_2306	operon_0894	NC_017641.1|gene2275|UMNK88_2306
UMNK88_2307	operon_0894	NC_017641.1|gene2276|UMNK88_2307
UMNK88_2309	operon_0894	NC_017641.1|gene2277|UMNK88_2309
UMNK88_2308	operon_0895	NC_017641.1|gene2278|UMNK88_2308
UMNK88_2310	operon_0896	NC_017641.1|gene2279|UMNK88_2310
UMNK88_2311	operon_0896	NC_017641.1|gene2280|UMNK88_2311
UMNK88_2312	operon_0896	NC_017641.1|gene2281|UMNK88_2312
UMNK88_2313	operon_0897	NC_017641.1|gene2282|UMNK88_2313
UMNK88_2314	operon_0897	NC_017641.1|gene2283|UMNK88_2314
UMNK88_2316	operon_0897	NC_017641.1|gene2284|UMNK88_2316
UMNK88_2315	operon_0898	NC_017641.1|gene2285|UMNK88_2315
UMNK88_2317	operon_0899	NC_017641.1|gene2286|UMNK88_2317
UMNK88_2318	operon_0899	NC_017641.1|gene2287|UMNK88_2318
UMNK88_2319	operon_0899	NC_017641.1|gene2288|UMNK88_2319
UMNK88_2320	operon_0900	NC_017641.1|gene2289|UMNK88_2320|purT
UMNK88_2321	operon_0901	NC_017641.1|gene2290|UMNK88_2321|eda
UMNK88_2322	operon_0901	NC_017641.1|gene2291|UMNK88_2322|edd
UMNK88_2323	operon_0901	NC_017641.1|gene2292|UMNK88_2323|zwf
UMNK88_2324	operon_0901	NC_017641.1|gene2293|UMNK88_2324
UMNK88_2325	operon_0902	NC_017641.1|gene2294|UMNK88_2325
UMNK88_2326	operon_0902	NC_017641.1|gene2295|UMNK88_2326|pyk
UMNK88_2327	operon_0903	NC_017641.1|gene2296|UMNK88_2327|msbB
UMNK88_2328	operon_0904	NC_017641.1|gene2297|UMNK88_2328
UMNK88_2329	operon_0904	NC_017641.1|gene2298|UMNK88_2329
UMNK88_2330	operon_0905	NC_017641.1|gene2299|UMNK88_2330
UMNK88_2331	operon_0905	NC_017641.1|gene2300|UMNK88_2331
UMNK88_2332	operon_0906	NC_017641.1|gene2301|UMNK88_2332|ruvB
UMNK88_2333	operon_0906	NC_017641.1|gene2302|UMNK88_2333|ruvA
UMNK88_2334	operon_0907	NC_017641.1|gene2303|UMNK88_2334
UMNK88_2335	operon_0908	NC_017641.1|gene2304|UMNK88_2335|ruvC
UMNK88_2336	operon_0908	NC_017641.1|gene2305|UMNK88_2336
UMNK88_2337	operon_0908	NC_017641.1|gene2306|UMNK88_2337
UMNK88_2338	operon_0908	NC_017641.1|gene2307|UMNK88_2338|aspS
UMNK88_2339	operon_0909	NC_017641.1|gene2308|UMNK88_2339
UMNK88_2340	operon_0909	NC_017641.1|gene2309|UMNK88_2340
UMNK88_2341	operon_0909	NC_017641.1|gene2310|UMNK88_2341
UMNK88_2342	operon_0909	NC_017641.1|gene2311|UMNK88_2342
UMNK88_2343	operon_0909	NC_017641.1|gene2312|UMNK88_2343
UMNK88_2344	operon_0910	NC_017641.1|gene2313|UMNK88_2344
UMNK88_2345	operon_0910	NC_017641.1|gene2314|UMNK88_2345
UMNK88_2346	operon_0911	NC_017641.1|gene2315|UMNK88_2346
UMNK88_2347	operon_0911	NC_017641.1|gene2316|UMNK88_2347
UMNK88_2348	operon_0912	NC_017641.1|gene2317|UMNK88_2348|argS
UMNK88_2349	operon_0912	NC_017641.1|gene2318|UMNK88_2349
UMNK88_2350	operon_0913	NC_017641.1|gene2319|UMNK88_2350
UMNK88_2351	operon_0913	NC_017641.1|gene2320|UMNK88_2351|flhA
UMNK88_2352	operon_0913	NC_017641.1|gene2321|UMNK88_2352|flhB
UMNK88_2353	operon_0914	NC_017641.1|gene2322|UMNK88_2353
UMNK88_2354	operon_0915	NC_017641.1|gene2323|UMNK88_2354
UMNK88_2355	operon_0915	NC_017641.1|gene2324|UMNK88_2355
UMNK88_2356	operon_0915	NC_017641.1|gene2325|UMNK88_2356
UMNK88_2357	operon_0915	NC_017641.1|gene2326|UMNK88_2357
UMNK88_2358	operon_0915	NC_017641.1|gene2327|UMNK88_2358
UMNK88_2359	operon_0915	NC_017641.1|gene2328|UMNK88_2359
UMNK88_2360	operon_0916	NC_017641.1|gene2329|UMNK88_2360
UMNK88_2361	operon_0916	NC_017641.1|gene2330|UMNK88_2361
UMNK88_2362	operon_0916	NC_017641.1|gene2331|UMNK88_2362
UMNK88_2363	operon_0916	NC_017641.1|gene2332|UMNK88_2363
UMNK88_2364	operon_0917	NC_017641.1|gene2333|UMNK88_2364
UMNK88_2365	operon_0917	NC_017641.1|gene2334|UMNK88_2365
UMNK88_2366	operon_0918	NC_017641.1|gene2335|UMNK88_2366
UMNK88_2367	operon_0919	NC_017641.1|gene2336|UMNK88_2367|otsA
UMNK88_2368	operon_0919	NC_017641.1|gene2337|UMNK88_2368|otsB
UMNK88_2369	operon_0920	NC_017641.1|gene2338|UMNK88_2369
UMNK88_2370	operon_0920	NC_017641.1|gene2339|UMNK88_2370
UMNK88_2371	operon_0920	NC_017641.1|gene2340|UMNK88_2371
UMNK88_2372	operon_0921	NC_017641.1|gene2341|UMNK88_2372
UMNK88_2373	operon_0922	NC_017641.1|gene2342|UMNK88_2373
UMNK88_2374	operon_0923	NC_017641.1|gene2343|UMNK88_2374
UMNK88_2375	operon_0924	NC_017641.1|gene2344|UMNK88_2375
UMNK88_2376	operon_0925	NC_017641.1|gene2345|UMNK88_2376
UMNK88_2377	operon_0926	NC_017641.1|gene2346|UMNK88_2377
UMNK88_2378	operon_0927	NC_017641.1|gene2347|UMNK88_2378
UMNK88_2379	operon_0928	NC_017641.1|gene2348|UMNK88_2379
UMNK88_2380	operon_0928	NC_017641.1|gene2349|UMNK88_2380
UMNK88_2381	operon_0929	NC_017641.1|gene2350|UMNK88_2381
UMNK88_2382	operon_0930	NC_017641.1|gene2351|UMNK88_2382
UMNK88_t32	operon_0930	NC_017641.1|gene2352|UMNK88_t32
UMNK88_t33	operon_0930	NC_017641.1|gene2353|UMNK88_t33
UMNK88_t34	operon_0930	NC_017641.1|gene2354|UMNK88_t34
UMNK88_2386	operon_0930	NC_017641.1|gene2355|UMNK88_2386|pgsA
UMNK88_2387	operon_0930	NC_017641.1|gene2356|UMNK88_2387|uvrC
UMNK88_2388	operon_0930	NC_017641.1|gene2357|UMNK88_2388
UMNK88_2389	operon_0930	NC_017641.1|gene2358|UMNK88_2389
UMNK88_2390	operon_0931	NC_017641.1|gene2359|UMNK88_2390
UMNK88_2391	operon_0932	NC_017641.1|gene2360|UMNK88_2391
UMNK88_2392	operon_0933	NC_017641.1|gene2361|UMNK88_2392
UMNK88_2393	operon_0933	NC_017641.1|gene2362|UMNK88_2393
UMNK88_2394	operon_0933	NC_017641.1|gene2363|UMNK88_2394
UMNK88_2395	operon_0934	NC_017641.1|gene2364|UMNK88_2395
UMNK88_2396	operon_0934	NC_017641.1|gene2365|UMNK88_2396
UMNK88_2397	operon_0934	NC_017641.1|gene2366|UMNK88_2397
UMNK88_2398	operon_0935	NC_017641.1|gene2367|UMNK88_2398
UMNK88_2399	operon_0936	NC_017641.1|gene2368|UMNK88_2399
UMNK88_2400	operon_0937	NC_017641.1|gene2369|UMNK88_2400
UMNK88_2401	operon_0937	NC_017641.1|gene2370|UMNK88_2401|fliS
UMNK88_2402	operon_0937	NC_017641.1|gene2371|UMNK88_2402
UMNK88_2403	operon_0937	NC_017641.1|gene2372|UMNK88_2403
UMNK88_2404	operon_0938	NC_017641.1|gene2373|UMNK88_2404
UMNK88_2405	operon_0939	NC_017641.1|gene2374|UMNK88_2405
UMNK88_2406	operon_0939	NC_017641.1|gene2375|UMNK88_2406
UMNK88_2407	operon_0940	NC_017641.1|gene2376|UMNK88_2407
UMNK88_2408	operon_0941	NC_017641.1|gene2377|UMNK88_2408|putative transposase gene%3B pseudogene%3B possible frameshift
UMNK88_2410	operon_0942	NC_017641.1|gene2378|UMNK88_2410
UMNK88_2411	operon_0943	NC_017641.1|gene2379|UMNK88_2411
UMNK88_2412	operon_0944	NC_017641.1|gene2380|UMNK88_2412
UMNK88_2413	operon_0945	NC_017641.1|gene2381|UMNK88_2413
UMNK88_2414	operon_0945	NC_017641.1|gene2382|UMNK88_2414|fliE
UMNK88_2415	operon_0946	NC_017641.1|gene2383|UMNK88_2415|fliF
UMNK88_2416	operon_0946	NC_017641.1|gene2384|UMNK88_2416|fliG
UMNK88_2417	operon_0946	NC_017641.1|gene2385|UMNK88_2417
UMNK88_2418	operon_0946	NC_017641.1|gene2386|UMNK88_2418|fliI
UMNK88_2419	operon_0946	NC_017641.1|gene2387|UMNK88_2419|fliJ
UMNK88_2420	operon_0946	NC_017641.1|gene2388|UMNK88_2420
UMNK88_2421	operon_0946	NC_017641.1|gene2389|UMNK88_2421
UMNK88_2422	operon_0946	NC_017641.1|gene2390|UMNK88_2422|fliM
UMNK88_2423	operon_0946	NC_017641.1|gene2391|UMNK88_2423|fliN
UMNK88_2424	operon_0946	NC_017641.1|gene2392|UMNK88_2424
UMNK88_2425	operon_0946	NC_017641.1|gene2393|UMNK88_2425|fliP
UMNK88_2426	operon_0946	NC_017641.1|gene2394|UMNK88_2426|fliQ
UMNK88_2427	operon_0946	NC_017641.1|gene2395|UMNK88_2427|fliR
UMNK88_2428	operon_0946	NC_017641.1|gene2396|UMNK88_2428
UMNK88_2429	operon_0947	NC_017641.1|gene2397|UMNK88_2429
UMNK88_2430	operon_0948	NC_017641.1|gene2398|UMNK88_2430
UMNK88_2432	operon_0948	NC_017641.1|gene2399|UMNK88_2432
UMNK88_2431	operon_0949	NC_017641.1|gene2400|UMNK88_2431
UMNK88_2433	operon_0950	NC_017641.1|gene2401|UMNK88_2433
UMNK88_2434	operon_0950	NC_017641.1|gene2402|UMNK88_2434
UMNK88_2436	operon_0951	NC_017641.1|gene2403|UMNK88_2436|yedA
UMNK88_2435	operon_0952	NC_017641.1|gene2404|UMNK88_2435|vsr
UMNK88_2437	operon_0952	NC_017641.1|gene2405|UMNK88_2437|dcm
UMNK88_2438	operon_0953	NC_017641.1|gene2406|UMNK88_2438
UMNK88_2439	operon_0953	NC_017641.1|gene2407|UMNK88_2439
UMNK88_2440	operon_0954	NC_017641.1|gene2408|UMNK88_2440|ompF
UMNK88_2442	operon_0955	NC_017641.1|gene2409|UMNK88_2442
UMNK88_2443	operon_0956	NC_017641.1|gene2410|UMNK88_2443
UMNK88_2444	operon_0956	NC_017641.1|gene2411|UMNK88_2444
UMNK88_2445	operon_0957	NC_017641.1|gene2412|UMNK88_2445
UMNK88_2446	operon_0957	NC_017641.1|gene2413|UMNK88_2446|irlR
UMNK88_2447	operon_0958	NC_017641.1|gene2414|UMNK88_2447|uraH
UMNK88_2448	operon_0958	NC_017641.1|gene2415|UMNK88_2448
UMNK88_2449	operon_0958	NC_017641.1|gene2416|UMNK88_2449
UMNK88_2450	operon_0958	NC_017641.1|gene2417|UMNK88_2450
UMNK88_2451	operon_0959	NC_017641.1|gene2418|UMNK88_2451
UMNK88_2452	operon_0960	NC_017641.1|gene2419|UMNK88_2452
UMNK88_2453	operon_0960	NC_017641.1|gene2420|UMNK88_2453
UMNK88_2454	operon_0960	NC_017641.1|gene2421|UMNK88_2454
UMNK88_2455	operon_0961	NC_017641.1|gene2422|UMNK88_2455
UMNK88_2456	operon_0961	NC_017641.1|gene2423|UMNK88_2456
UMNK88_2457	operon_0961	NC_017641.1|gene2424|UMNK88_2457
UMNK88_2458	operon_0961	NC_017641.1|gene2425|UMNK88_2458
UMNK88_2459	operon_0962	NC_017641.1|gene2426|UMNK88_2459
UMNK88_2460	operon_0962	NC_017641.1|gene2427|UMNK88_2460
UMNK88_2461	operon_0962	NC_017641.1|gene2428|UMNK88_2461
UMNK88_2462	operon_0962	NC_017641.1|gene2429|UMNK88_2462
UMNK88_2463	operon_0962	NC_017641.1|gene2430|UMNK88_2463
UMNK88_2464	operon_0962	NC_017641.1|gene2431|UMNK88_2464
UMNK88_2465	operon_0962	NC_017641.1|gene2432|UMNK88_2465
UMNK88_2466	operon_0963	NC_017641.1|gene2433|UMNK88_2466
UMNK88_2467	operon_0963	NC_017641.1|gene2434|UMNK88_2467
UMNK88_2468	operon_0963	NC_017641.1|gene2435|UMNK88_2468
UMNK88_2469	operon_0963	NC_017641.1|gene2436|UMNK88_2469
UMNK88_2470	operon_0963	NC_017641.1|gene2437|UMNK88_2470
UMNK88_t35	operon_0963	NC_017641.1|gene2438|UMNK88_t35
UMNK88_t36	operon_0963	NC_017641.1|gene2439|UMNK88_t36
UMNK88_t37	operon_0963	NC_017641.1|gene2440|UMNK88_t37
UMNK88_2474	operon_0964	NC_017641.1|gene2441|UMNK88_2474
UMNK88_2475	operon_0964	NC_017641.1|gene2442|UMNK88_2475
UMNK88_2476	operon_0965	NC_017641.1|gene2443|UMNK88_2476
UMNK88_2477	operon_0965	NC_017641.1|gene2444|UMNK88_2477
UMNK88_2478	operon_0965	NC_017641.1|gene2445|UMNK88_2478
UMNK88_2479	operon_0966	NC_017641.1|gene2446|UMNK88_2479
UMNK88_2480	operon_0967	NC_017641.1|gene2447|UMNK88_2480
UMNK88_2481	operon_0968	NC_017641.1|gene2448|UMNK88_2481
UMNK88_2482	operon_0968	NC_017641.1|gene2449|UMNK88_2482
UMNK88_2483	operon_0968	NC_017641.1|gene2450|UMNK88_2483
UMNK88_2484	operon_0969	NC_017641.1|gene2451|UMNK88_2484
UMNK88_2485	operon_0969	NC_017641.1|gene2452|UMNK88_2485
UMNK88_2486	operon_0969	NC_017641.1|gene2453|UMNK88_2486
UMNK88_2487	operon_0970	NC_017641.1|gene2454|UMNK88_2487
UMNK88_2488	operon_0970	NC_017641.1|gene2455|UMNK88_2488
UMNK88_2489	operon_0970	NC_017641.1|gene2456|UMNK88_2489
UMNK88_2490	operon_0971	NC_017641.1|gene2457|UMNK88_2490
UMNK88_2491	operon_0971	NC_017641.1|gene2458|UMNK88_2491
UMNK88_2492	operon_0971	NC_017641.1|gene2459|UMNK88_2492
UMNK88_2493	operon_0972	NC_017641.1|gene2460|UMNK88_2493
UMNK88_2494	operon_0972	NC_017641.1|gene2461|UMNK88_2494
UMNK88_t38	operon_0973	NC_017641.1|gene2462|UMNK88_t38
UMNK88_2496	operon_0974	NC_017641.1|gene2463|UMNK88_2496
UMNK88_t39	operon_0975	NC_017641.1|gene2464|UMNK88_t39
UMNK88_2498	operon_0975	NC_017641.1|gene2465|UMNK88_2498
UMNK88_2499	operon_0975	NC_017641.1|gene2466|UMNK88_2499
UMNK88_2500	operon_0975	NC_017641.1|gene2467|UMNK88_2500
UMNK88_2501	operon_0975	NC_017641.1|gene2468|UMNK88_2501
UMNK88_2502	operon_0976	NC_017641.1|gene2469|UMNK88_2502
UMNK88_2503	operon_0977	NC_017641.1|gene2470|UMNK88_2503
UMNK88_2504	operon_0977	NC_017641.1|gene2471|UMNK88_2504|amn
UMNK88_2505	operon_0977	NC_017641.1|gene2472|UMNK88_2505
UMNK88_t40	operon_0978	NC_017641.1|gene2473|UMNK88_t40
UMNK88_2507	operon_0979	NC_017641.1|gene2474|UMNK88_2507
UMNK88_t41	operon_0980	NC_017641.1|gene2475|UMNK88_t41
UMNK88_2509	operon_0981	NC_017641.1|gene2476|UMNK88_2509
UMNK88_2510	operon_0981	NC_017641.1|gene2477|UMNK88_2510
UMNK88_t42	operon_0982	NC_017641.1|gene2478|UMNK88_t42
UMNK88_2512	operon_0983	NC_017641.1|gene2479|UMNK88_2512
UMNK88_2513	operon_0983	NC_017641.1|gene2480|UMNK88_2513|cobT
UMNK88_2514	operon_0983	NC_017641.1|gene2481|UMNK88_2514|cobS
UMNK88_2515	operon_0983	NC_017641.1|gene2482|UMNK88_2515
UMNK88_2516	operon_0983	NC_017641.1|gene2483|UMNK88_2516
UMNK88_2517	operon_0983	NC_017641.1|gene2484|UMNK88_2517
UMNK88_2518	operon_0984	NC_017641.1|gene2485|UMNK88_2518
UMNK88_2519	operon_0984	NC_017641.1|gene2486|UMNK88_2519
UMNK88_2520	operon_0984	NC_017641.1|gene2487|UMNK88_2520
UMNK88_2521	operon_0985	NC_017641.1|gene2488|UMNK88_2521
UMNK88_2522	operon_0986	NC_017641.1|gene2489|UMNK88_2522|conserved hypothetical%3B pseudogene%3B possible frameshift
UMNK88_2524	operon_0986	NC_017641.1|gene2490|UMNK88_2524
UMNK88_2525	operon_0987	NC_017641.1|gene2491|UMNK88_2525
UMNK88_2526	operon_0987	NC_017641.1|gene2492|UMNK88_2526
UMNK88_2527	operon_0987	NC_017641.1|gene2493|UMNK88_2527
UMNK88_2528	operon_0988	NC_017641.1|gene2494|UMNK88_2528
UMNK88_2529	operon_0988	NC_017641.1|gene2495|UMNK88_2529
UMNK88_2530	operon_0989	NC_017641.1|gene2496|UMNK88_2530
UMNK88_2531	operon_0989	NC_017641.1|gene2497|UMNK88_2531
UMNK88_2532	operon_0989	NC_017641.1|gene2498|UMNK88_2532
UMNK88_2533	operon_0990	NC_017641.1|gene2499|UMNK88_2533
UMNK88_2534	operon_0990	NC_017641.1|gene2500|UMNK88_2534
UMNK88_2535	operon_0991	NC_017641.1|gene2501|UMNK88_2535
UMNK88_2536	operon_0992	NC_017641.1|gene2502|UMNK88_2536
UMNK88_2537	operon_0993	NC_017641.1|gene2503|UMNK88_2537
UMNK88_2538	operon_0994	NC_017641.1|gene2504|UMNK88_2538
UMNK88_2539	operon_0994	NC_017641.1|gene2505|UMNK88_2539
UMNK88_2540	operon_0994	NC_017641.1|gene2506|UMNK88_2540
UMNK88_2541	operon_0995	NC_017641.1|gene2507|UMNK88_2541
UMNK88_2543	operon_0995	NC_017641.1|gene2508|UMNK88_2543
UMNK88_2542	operon_0996	NC_017641.1|gene2509|UMNK88_2542
UMNK88_2544	operon_0997	NC_017641.1|gene2510|UMNK88_2544
UMNK88_2545	operon_0997	NC_017641.1|gene2511|UMNK88_2545
UMNK88_2546	operon_0997	NC_017641.1|gene2512|UMNK88_2546
UMNK88_2547	operon_0997	NC_017641.1|gene2513|UMNK88_2547
UMNK88_2548	operon_0997	NC_017641.1|gene2514|UMNK88_2548
UMNK88_2549	operon_0997	NC_017641.1|gene2515|UMNK88_2549
UMNK88_2550	operon_0998	NC_017641.1|gene2516|UMNK88_2550
UMNK88_2551	operon_0998	NC_017641.1|gene2517|UMNK88_2551
UMNK88_2552	operon_0999	NC_017641.1|gene2518|UMNK88_2552
UMNK88_2553	operon_1000	NC_017641.1|gene2519|UMNK88_2553
UMNK88_2554	operon_1000	NC_017641.1|gene2520|UMNK88_2554
UMNK88_2556	operon_1000	NC_017641.1|gene2521|UMNK88_2556
UMNK88_2557	operon_1000	NC_017641.1|gene2522|UMNK88_2557
UMNK88_2558	operon_1001	NC_017641.1|gene2523|UMNK88_2558
UMNK88_2559	operon_1002	NC_017641.1|gene2524|UMNK88_2559
UMNK88_2560	operon_1002	NC_017641.1|gene2525|UMNK88_2560
UMNK88_2561	operon_1003	NC_017641.1|gene2526|UMNK88_2561
UMNK88_2562	operon_1004	NC_017641.1|gene2527|UMNK88_2562
UMNK88_2563	operon_1005	NC_017641.1|gene2528|UMNK88_2563
UMNK88_2564	operon_1005	NC_017641.1|gene2529|UMNK88_2564
UMNK88_2565	operon_1006	NC_017641.1|gene2530|UMNK88_2565
UMNK88_2566	operon_1006	NC_017641.1|gene2531|UMNK88_2566
UMNK88_2567	operon_1007	NC_017641.1|gene2532|UMNK88_2567|hisG
UMNK88_2568	operon_1007	NC_017641.1|gene2533|UMNK88_2568|hisD
UMNK88_2569	operon_1007	NC_017641.1|gene2534|UMNK88_2569|hisC
UMNK88_2570	operon_1007	NC_017641.1|gene2535|UMNK88_2570|hisB
UMNK88_2571	operon_1007	NC_017641.1|gene2536|UMNK88_2571|hisH
UMNK88_2572	operon_1007	NC_017641.1|gene2537|UMNK88_2572|hisA
UMNK88_2573	operon_1007	NC_017641.1|gene2538|UMNK88_2573|hisF
UMNK88_2574	operon_1007	NC_017641.1|gene2539|UMNK88_2574|hisE
UMNK88_2575	operon_1008	NC_017641.1|gene2540|UMNK88_2575
UMNK88_2576	operon_1009	NC_017641.1|gene2541|UMNK88_2576
UMNK88_2577	operon_1009	NC_017641.1|gene2542|UMNK88_2577|gnd
UMNK88_2578	operon_1009	NC_017641.1|gene2543|UMNK88_2578
UMNK88_2579	operon_1009	NC_017641.1|gene2544|UMNK88_2579
UMNK88_2580	operon_1009	NC_017641.1|gene2545|UMNK88_2580
UMNK88_2581	operon_1009	NC_017641.1|gene2546|UMNK88_2581
UMNK88_2582	operon_1009	NC_017641.1|gene2547|UMNK88_2582
UMNK88_2583	operon_1009	NC_017641.1|gene2548|UMNK88_2583|rfbC
UMNK88_2584	operon_1009	NC_017641.1|gene2549|UMNK88_2584|rfbA
UMNK88_2585	operon_1009	NC_017641.1|gene2550|UMNK88_2585|rfbD
UMNK88_2586	operon_1009	NC_017641.1|gene2551|UMNK88_2586|rfbB
UMNK88_2587	operon_1009	NC_017641.1|gene2552|UMNK88_2587|galF
UMNK88_2588	operon_1009	NC_017641.1|gene2553|UMNK88_2588
UMNK88_2589	operon_1009	NC_017641.1|gene2554|UMNK88_2589
UMNK88_2590	operon_1009	NC_017641.1|gene2555|UMNK88_2590
UMNK88_2591	operon_1009	NC_017641.1|gene2556|UMNK88_2591
UMNK88_2592	operon_1009	NC_017641.1|gene2557|UMNK88_2592
UMNK88_2593	operon_1009	NC_017641.1|gene2558|UMNK88_2593
UMNK88_2594	operon_1009	NC_017641.1|gene2559|UMNK88_2594
UMNK88_2595	operon_1009	NC_017641.1|gene2560|UMNK88_2595
UMNK88_2596	operon_1009	NC_017641.1|gene2561|UMNK88_2596
UMNK88_2597	operon_1009	NC_017641.1|gene2562|UMNK88_2597
UMNK88_2598	operon_1009	NC_017641.1|gene2563|UMNK88_2598|gmd
UMNK88_2599	operon_1009	NC_017641.1|gene2564|UMNK88_2599
UMNK88_2600	operon_1009	NC_017641.1|gene2565|UMNK88_2600
UMNK88_2601	operon_1009	NC_017641.1|gene2566|UMNK88_2601
UMNK88_2602	operon_1009	NC_017641.1|gene2567|UMNK88_2602
UMNK88_2603	operon_1009	NC_017641.1|gene2568|UMNK88_2603
UMNK88_2604	operon_1009	NC_017641.1|gene2569|UMNK88_2604
UMNK88_2605	operon_1010	NC_017641.1|gene2570|UMNK88_2605
UMNK88_2606	operon_1010	NC_017641.1|gene2571|UMNK88_2606
UMNK88_2607	operon_1010	NC_017641.1|gene2572|UMNK88_2607
UMNK88_2608	operon_1011	NC_017641.1|gene2573|UMNK88_2608
UMNK88_2609	operon_1012	NC_017641.1|gene2574|UMNK88_2609
UMNK88_2610	operon_1012	NC_017641.1|gene2575|UMNK88_2610
UMNK88_2611	operon_1012	NC_017641.1|gene2576|UMNK88_2611
UMNK88_2612	operon_1013	NC_017641.1|gene2577|UMNK88_2612
UMNK88_2613	operon_1014	NC_017641.1|gene2578|UMNK88_2613
UMNK88_2614	operon_1015	NC_017641.1|gene2579|UMNK88_2614
UMNK88_2615	operon_1016	NC_017641.1|gene2580|UMNK88_2615
UMNK88_2616	operon_1017	NC_017641.1|gene2581|UMNK88_2616
UMNK88_2617	operon_1018	NC_017641.1|gene2582|UMNK88_2617
UMNK88_2618	operon_1019	NC_017641.1|gene2583|UMNK88_2618
UMNK88_2619	operon_1020	NC_017641.1|gene2584|UMNK88_2619
UMNK88_2620	operon_1020	NC_017641.1|gene2585|UMNK88_2620
UMNK88_2621	operon_1020	NC_017641.1|gene2586|UMNK88_2621
UMNK88_2622	operon_1020	NC_017641.1|gene2587|UMNK88_2622
UMNK88_2623	operon_1020	NC_017641.1|gene2588|UMNK88_2623
UMNK88_2624	operon_1020	NC_017641.1|gene2589|UMNK88_2624
UMNK88_2625	operon_1020	NC_017641.1|gene2590|UMNK88_2625
UMNK88_2626	operon_1020	NC_017641.1|gene2591|UMNK88_2626
UMNK88_2627	operon_1020	NC_017641.1|gene2592|UMNK88_2627
UMNK88_2628	operon_1020	NC_017641.1|gene2593|UMNK88_2628
UMNK88_2629	operon_1021	NC_017641.1|gene2594|UMNK88_2629
UMNK88_2630	operon_1022	NC_017641.1|gene2595|UMNK88_2630
UMNK88_2631	operon_1023	NC_017641.1|gene2596|UMNK88_2631
UMNK88_2632	operon_1024	NC_017641.1|gene2597|UMNK88_2632
UMNK88_2633	operon_1024	NC_017641.1|gene2598|UMNK88_2633|xylB
UMNK88_2634	operon_1024	NC_017641.1|gene2599|UMNK88_2634
UMNK88_2635	operon_1025	NC_017641.1|gene2600|UMNK88_2635
UMNK88_2636	operon_1026	NC_017641.1|gene2601|UMNK88_2636
UMNK88_2637	operon_1027	NC_017641.1|gene2602|UMNK88_2637
UMNK88_2638	operon_1027	NC_017641.1|gene2603|UMNK88_2638
UMNK88_2639	operon_1028	NC_017641.1|gene2604|UMNK88_2639
UMNK88_2640	operon_1029	NC_017641.1|gene2605|UMNK88_2640
UMNK88_2641	operon_1030	NC_017641.1|gene2606|UMNK88_2641
UMNK88_2642	operon_1030	NC_017641.1|gene2607|UMNK88_2642
UMNK88_2644	operon_1030	NC_017641.1|gene2608|UMNK88_2644
UMNK88_2643	operon_1031	NC_017641.1|gene2609|UMNK88_2643
UMNK88_2645	operon_1031	NC_017641.1|gene2610|UMNK88_2645
UMNK88_2646	operon_1031	NC_017641.1|gene2611|UMNK88_2646|thiD
UMNK88_2647	operon_1031	NC_017641.1|gene2612|UMNK88_2647|thiM
UMNK88_2648	operon_1031	NC_017641.1|gene2613|UMNK88_2648
UMNK88_2649	operon_1032	NC_017641.1|gene2614|UMNK88_2649
UMNK88_2650	operon_1032	NC_017641.1|gene2615|UMNK88_2650
UMNK88_2651	operon_1033	NC_017641.1|gene2616|UMNK88_2651
UMNK88_2652	operon_1033	NC_017641.1|gene2617|UMNK88_2652
UMNK88_2653	operon_1033	NC_017641.1|gene2618|UMNK88_2653
UMNK88_2654	operon_1034	NC_017641.1|gene2619|UMNK88_2654
UMNK88_2655	operon_1035	NC_017641.1|gene2620|UMNK88_2655
UMNK88_2656	operon_1035	NC_017641.1|gene2621|UMNK88_2656
UMNK88_2657	operon_1036	NC_017641.1|gene2622|UMNK88_2657|metG
UMNK88_2658	operon_1036	NC_017641.1|gene2623|UMNK88_2658|putative molybdate metabolism regulator%3B pseudogene%3B possible frameshift
UMNK88_2660	operon_1036	NC_017641.1|gene2624|UMNK88_2660
UMNK88_2661	operon_1036	NC_017641.1|gene2625|UMNK88_2661
UMNK88_2662	operon_1037	NC_017641.1|gene2626|UMNK88_2662
UMNK88_2663	operon_1037	NC_017641.1|gene2627|UMNK88_2663
UMNK88_2664	operon_1037	NC_017641.1|gene2628|UMNK88_2664
UMNK88_2665	operon_1037	NC_017641.1|gene2629|UMNK88_2665
UMNK88_2666	operon_1038	NC_017641.1|gene2630|UMNK88_2666
UMNK88_2667	operon_1039	NC_017641.1|gene2631|UMNK88_2667
UMNK88_2668	operon_1039	NC_017641.1|gene2632|UMNK88_2668
UMNK88_2669	operon_1039	NC_017641.1|gene2633|UMNK88_2669
UMNK88_2670	operon_1040	NC_017641.1|gene2634|UMNK88_2670
UMNK88_2671	operon_1041	NC_017641.1|gene2635|UMNK88_2671
UMNK88_2672	operon_1041	NC_017641.1|gene2636|UMNK88_2672
UMNK88_2673	operon_1041	NC_017641.1|gene2637|UMNK88_2673
UMNK88_2674	operon_1041	NC_017641.1|gene2638|UMNK88_2674
UMNK88_2675	operon_1042	NC_017641.1|gene2639|UMNK88_2675
UMNK88_2676	operon_1043	NC_017641.1|gene2640|UMNK88_2676
UMNK88_2677	operon_1043	NC_017641.1|gene2641|UMNK88_2677
UMNK88_2678	operon_1044	NC_017641.1|gene2642|UMNK88_2678
UMNK88_2679	operon_1045	NC_017641.1|gene2643|UMNK88_2679
UMNK88_2681	operon_1046	NC_017641.1|gene2644|UMNK88_2681
UMNK88_2680	operon_1047	NC_017641.1|gene2645|UMNK88_2680
UMNK88_2682	operon_1047	NC_017641.1|gene2646|UMNK88_2682
UMNK88_2683	operon_1047	NC_017641.1|gene2647|UMNK88_2683
UMNK88_2684	operon_1048	NC_017641.1|gene2648|UMNK88_2684
UMNK88_2685	operon_1049	NC_017641.1|gene2649|UMNK88_2685
UMNK88_2686	operon_1049	NC_017641.1|gene2650|UMNK88_2686
UMNK88_2687	operon_1049	NC_017641.1|gene2651|UMNK88_2687|cdd
UMNK88_2688	operon_1049	NC_017641.1|gene2652|UMNK88_2688
UMNK88_2689	operon_1049	NC_017641.1|gene2653|UMNK88_2689
UMNK88_2690	operon_1049	NC_017641.1|gene2654|UMNK88_2690
UMNK88_2691	operon_1049	NC_017641.1|gene2655|UMNK88_2691
UMNK88_2692	operon_1049	NC_017641.1|gene2656|UMNK88_2692
UMNK88_2693	operon_1050	NC_017641.1|gene2657|UMNK88_2693
UMNK88_2694	operon_1050	NC_017641.1|gene2658|UMNK88_2694
UMNK88_2695	operon_1051	NC_017641.1|gene2659|UMNK88_2695
UMNK88_2696	operon_1051	NC_017641.1|gene2660|UMNK88_2696
UMNK88_2697	operon_1051	NC_017641.1|gene2661|UMNK88_2697
UMNK88_2698	operon_1051	NC_017641.1|gene2662|UMNK88_2698|folE
UMNK88_2699	operon_1052	NC_017641.1|gene2663|UMNK88_2699|fghA
UMNK88_2700	operon_1053	NC_017641.1|gene2664|UMNK88_2700
UMNK88_2701	operon_1054	NC_017641.1|gene2665|UMNK88_2701
UMNK88_2702	operon_1054	NC_017641.1|gene2666|UMNK88_2702
UMNK88_2703	operon_1055	NC_017641.1|gene2667|UMNK88_2703
UMNK88_2704	operon_1055	NC_017641.1|gene2668|UMNK88_2704
UMNK88_2705	operon_1055	NC_017641.1|gene2669|UMNK88_2705
UMNK88_2706	operon_1056	NC_017641.1|gene2670|UMNK88_2706
UMNK88_2707	operon_1057	NC_017641.1|gene2671|UMNK88_2707
UMNK88_2708	operon_1058	NC_017641.1|gene2672|UMNK88_2708
UMNK88_2709	operon_1059	NC_017641.1|gene2673|UMNK88_2709
UMNK88_2710	operon_1060	NC_017641.1|gene2674|UMNK88_2710
UMNK88_2711	operon_1060	NC_017641.1|gene2675|UMNK88_2711
UMNK88_2712	operon_1061	NC_017641.1|gene2676|UMNK88_2712
UMNK88_2713	operon_1061	NC_017641.1|gene2677|UMNK88_2713|pfkB
UMNK88_2714	operon_1061	NC_017641.1|gene2678|UMNK88_2714
UMNK88_2715	operon_1062	NC_017641.1|gene2679|UMNK88_2715
UMNK88_2717	operon_1062	NC_017641.1|gene2680|UMNK88_2717
UMNK88_2716	operon_1063	NC_017641.1|gene2681|UMNK88_2716
UMNK88_2718	operon_1063	NC_017641.1|gene2682|UMNK88_2718
UMNK88_2719	operon_1064	NC_017641.1|gene2683|UMNK88_2719
UMNK88_2720	operon_1065	NC_017641.1|gene2684|UMNK88_2720
UMNK88_2721	operon_1066	NC_017641.1|gene2685|UMNK88_2721
UMNK88_2722	operon_1066	NC_017641.1|gene2686|UMNK88_2722
UMNK88_2723	operon_1066	NC_017641.1|gene2687|UMNK88_2723
UMNK88_2724	operon_1067	NC_017641.1|gene2688|UMNK88_2724
UMNK88_2725	operon_1067	NC_017641.1|gene2689|UMNK88_2725
UMNK88_2726	operon_1067	NC_017641.1|gene2690|UMNK88_2726
UMNK88_2727	operon_1067	NC_017641.1|gene2691|UMNK88_2727
UMNK88_2728	operon_1067	NC_017641.1|gene2692|UMNK88_2728
UMNK88_2729	operon_1068	NC_017641.1|gene2693|UMNK88_2729
UMNK88_2730	operon_1068	NC_017641.1|gene2694|UMNK88_2730
UMNK88_2731	operon_1068	NC_017641.1|gene2695|UMNK88_2731
UMNK88_2732	operon_1069	NC_017641.1|gene2696|UMNK88_2732
UMNK88_2733	operon_1069	NC_017641.1|gene2697|UMNK88_2733
UMNK88_2734	operon_1070	NC_017641.1|gene2698|UMNK88_2734
UMNK88_2735	operon_1070	NC_017641.1|gene2699|UMNK88_2735
UMNK88_2736	operon_1071	NC_017641.1|gene2700|UMNK88_2736
UMNK88_2737	operon_1071	NC_017641.1|gene2701|UMNK88_2737
UMNK88_t43	operon_1071	NC_017641.1|gene2702|UMNK88_t43
UMNK88_2739	operon_1072	NC_017641.1|gene2703|UMNK88_2739
UMNK88_2740	operon_1073	NC_017641.1|gene2704|UMNK88_2740
UMNK88_2741	operon_1074	NC_017641.1|gene2705|UMNK88_2741
UMNK88_2742	operon_1074	NC_017641.1|gene2706|UMNK88_2742|dsbE
UMNK88_2743	operon_1074	NC_017641.1|gene2707|UMNK88_2743|ccmF
UMNK88_2744	operon_1074	NC_017641.1|gene2708|UMNK88_2744
UMNK88_2745	operon_1074	NC_017641.1|gene2709|UMNK88_2745|ccmD
UMNK88_2746	operon_1074	NC_017641.1|gene2710|UMNK88_2746|ccmC
UMNK88_2747	operon_1074	NC_017641.1|gene2711|UMNK88_2747|ccmB
UMNK88_2748	operon_1074	NC_017641.1|gene2712|UMNK88_2748|ccmA
UMNK88_2749	operon_1074	NC_017641.1|gene2713|UMNK88_2749
UMNK88_2750	operon_1074	NC_017641.1|gene2714|UMNK88_2750
UMNK88_2751	operon_1074	NC_017641.1|gene2715|UMNK88_2751
UMNK88_2752	operon_1074	NC_017641.1|gene2716|UMNK88_2752
UMNK88_2753	operon_1074	NC_017641.1|gene2717|UMNK88_2753|napA
UMNK88_2754	operon_1074	NC_017641.1|gene2718|UMNK88_2754
UMNK88_2755	operon_1074	NC_017641.1|gene2719|UMNK88_2755|napF
UMNK88_2756	operon_1075	NC_017641.1|gene2720|UMNK88_2756
UMNK88_2757	operon_1075	NC_017641.1|gene2721|UMNK88_2757
UMNK88_2758	operon_1076	NC_017641.1|gene2722|UMNK88_2758|mqo
UMNK88_2759	operon_1077	NC_017641.1|gene2723|UMNK88_2759
UMNK88_2760	operon_1077	NC_017641.1|gene2724|UMNK88_2760|alkB
UMNK88_2761	operon_1077	NC_017641.1|gene2725|UMNK88_2761
UMNK88_2762	operon_1078	NC_017641.1|gene2726|UMNK88_2762
UMNK88_2763	operon_1079	NC_017641.1|gene2727|UMNK88_2763
UMNK88_2764	operon_1080	NC_017641.1|gene2728|UMNK88_2764
UMNK88_2765	operon_1081	NC_017641.1|gene2729|UMNK88_2765
UMNK88_2766	operon_1081	NC_017641.1|gene2730|UMNK88_2766
UMNK88_2767	operon_1082	NC_017641.1|gene2731|UMNK88_2767
UMNK88_2768	operon_1083	NC_017641.1|gene2732|UMNK88_2768
UMNK88_2769	operon_1083	NC_017641.1|gene2733|UMNK88_2769
UMNK88_2770	operon_1084	NC_017641.1|gene2734|UMNK88_2770
UMNK88_2771	operon_1084	NC_017641.1|gene2735|UMNK88_2771
UMNK88_2772	operon_1084	NC_017641.1|gene2736|UMNK88_2772
UMNK88_2773	operon_1084	NC_017641.1|gene2737|UMNK88_2773
UMNK88_2774	operon_1085	NC_017641.1|gene2738|UMNK88_2774
UMNK88_2775	operon_1085	NC_017641.1|gene2739|UMNK88_2775
UMNK88_2776	operon_1085	NC_017641.1|gene2740|UMNK88_2776
UMNK88_2777	operon_1085	NC_017641.1|gene2741|UMNK88_2777|conserved hypothetical%3B pseudogene%3B possible frameshift
UMNK88_2779	operon_1085	NC_017641.1|gene2742|UMNK88_2779
UMNK88_2780	operon_1085	NC_017641.1|gene2743|UMNK88_2780|gyrA
UMNK88_2781	operon_1086	NC_017641.1|gene2744|UMNK88_2781|ubiG
UMNK88_2782	operon_1087	NC_017641.1|gene2745|UMNK88_2782
UMNK88_2783	operon_1088	NC_017641.1|gene2746|UMNK88_2783
UMNK88_2784	operon_1088	NC_017641.1|gene2747|UMNK88_2784
UMNK88_2785	operon_1088	NC_017641.1|gene2748|UMNK88_2785
UMNK88_2786	operon_1089	NC_017641.1|gene2749|UMNK88_2786
UMNK88_2787	operon_1090	NC_017641.1|gene2750|UMNK88_2787
UMNK88_2788	operon_1091	NC_017641.1|gene2751|UMNK88_2788
UMNK88_2789	operon_1091	NC_017641.1|gene2752|UMNK88_2789|glpT
UMNK88_2790	operon_1092	NC_017641.1|gene2753|UMNK88_2790
UMNK88_2791	operon_1092	NC_017641.1|gene2754|UMNK88_2791|glpA
UMNK88_2792	operon_1092	NC_017641.1|gene2755|UMNK88_2792|glpB
UMNK88_2793	operon_1092	NC_017641.1|gene2756|UMNK88_2793|glpC
UMNK88_2794	operon_1092	NC_017641.1|gene2757|UMNK88_2794
UMNK88_2795	operon_1092	NC_017641.1|gene2758|UMNK88_2795
UMNK88_2796	operon_1092	NC_017641.1|gene2759|UMNK88_2796
UMNK88_2797	operon_1093	NC_017641.1|gene2760|UMNK88_2797
UMNK88_2798	operon_1093	NC_017641.1|gene2761|UMNK88_2798
UMNK88_2799	operon_1094	NC_017641.1|gene2762|UMNK88_2799
UMNK88_2800	operon_1094	NC_017641.1|gene2763|UMNK88_2800
UMNK88_2801	operon_1094	NC_017641.1|gene2764|UMNK88_2801
UMNK88_2802	operon_1095	NC_017641.1|gene2765|UMNK88_2802
UMNK88_2803	operon_1096	NC_017641.1|gene2766|UMNK88_2803
UMNK88_2804	operon_1097	NC_017641.1|gene2767|UMNK88_2804
UMNK88_2805	operon_1098	NC_017641.1|gene2768|UMNK88_2805
UMNK88_2806	operon_1098	NC_017641.1|gene2769|UMNK88_2806
UMNK88_2807	operon_1098	NC_017641.1|gene2770|UMNK88_2807
UMNK88_2808	operon_1098	NC_017641.1|gene2771|UMNK88_2808
UMNK88_2809	operon_1098	NC_017641.1|gene2772|UMNK88_2809
UMNK88_2810	operon_1098	NC_017641.1|gene2773|UMNK88_2810
UMNK88_2812	operon_1098	NC_017641.1|gene2774|UMNK88_2812
UMNK88_2811	operon_1099	NC_017641.1|gene2775|UMNK88_2811
UMNK88_2813	operon_1099	NC_017641.1|gene2776|UMNK88_2813|menE
UMNK88_2814	operon_1099	NC_017641.1|gene2777|UMNK88_2814|menC
UMNK88_2815	operon_1099	NC_017641.1|gene2778|UMNK88_2815|menB
UMNK88_2816	operon_1099	NC_017641.1|gene2779|UMNK88_2816
UMNK88_2817	operon_1099	NC_017641.1|gene2780|UMNK88_2817|menD
UMNK88_2818	operon_1099	NC_017641.1|gene2781|UMNK88_2818|menF
UMNK88_2819	operon_1100	NC_017641.1|gene2782|UMNK88_2819
UMNK88_2820	operon_1100	NC_017641.1|gene2783|UMNK88_2820
UMNK88_2822	operon_1101	NC_017641.1|gene2784|UMNK88_2822|rnz
UMNK88_2821	operon_1102	NC_017641.1|gene2785|UMNK88_2821
UMNK88_2823	operon_1103	NC_017641.1|gene2786|UMNK88_2823
UMNK88_2824	operon_1104	NC_017641.1|gene2787|UMNK88_2824
UMNK88_2825	operon_1104	NC_017641.1|gene2788|UMNK88_2825
UMNK88_2826	operon_1105	NC_017641.1|gene2789|UMNK88_2826
UMNK88_2827	operon_1105	NC_017641.1|gene2790|UMNK88_2827
UMNK88_2828	operon_1105	NC_017641.1|gene2791|UMNK88_2828
UMNK88_2829	operon_1105	NC_017641.1|gene2792|UMNK88_2829
UMNK88_2830	operon_1105	NC_017641.1|gene2793|UMNK88_2830
UMNK88_2831	operon_1105	NC_017641.1|gene2794|UMNK88_2831
UMNK88_2832	operon_1105	NC_017641.1|gene2795|UMNK88_2832
UMNK88_2833	operon_1105	NC_017641.1|gene2796|UMNK88_2833|nuoG
UMNK88_2834	operon_1105	NC_017641.1|gene2797|UMNK88_2834|nuoF
UMNK88_2835	operon_1105	NC_017641.1|gene2798|UMNK88_2835|nuoE
UMNK88_2836	operon_1105	NC_017641.1|gene2799|UMNK88_2836|nuoD
UMNK88_2837	operon_1105	NC_017641.1|gene2800|UMNK88_2837
UMNK88_2838	operon_1105	NC_017641.1|gene2801|UMNK88_2838
UMNK88_2839	operon_1106	NC_017641.1|gene2802|UMNK88_2839
UMNK88_2840	operon_1107	NC_017641.1|gene2803|UMNK88_2840
UMNK88_2841	operon_1108	NC_017641.1|gene2804|UMNK88_2841
UMNK88_2842	operon_1109	NC_017641.1|gene2805|UMNK88_2842
UMNK88_2843	operon_1109	NC_017641.1|gene2806|UMNK88_2843|yfbT
UMNK88_2844	operon_1109	NC_017641.1|gene2807|UMNK88_2844
UMNK88_2845	operon_1109	NC_017641.1|gene2808|UMNK88_2845
UMNK88_2846	operon_1109	NC_017641.1|gene2809|UMNK88_2846
UMNK88_2847	operon_1110	NC_017641.1|gene2810|UMNK88_2847|ackA
UMNK88_2848	operon_1110	NC_017641.1|gene2811|UMNK88_2848|pta
UMNK88_2849	operon_1110	NC_017641.1|gene2812|UMNK88_2849
UMNK88_2850	operon_1111	NC_017641.1|gene2813|UMNK88_2850
UMNK88_2851	operon_1111	NC_017641.1|gene2814|UMNK88_2851
UMNK88_2852	operon_1111	NC_017641.1|gene2815|UMNK88_2852
UMNK88_2853	operon_1112	NC_017641.1|gene2816|UMNK88_2853
UMNK88_2854	operon_1112	NC_017641.1|gene2817|UMNK88_2854
UMNK88_2855	operon_1112	NC_017641.1|gene2818|UMNK88_2855
UMNK88_2856	operon_1113	NC_017641.1|gene2819|UMNK88_2856
UMNK88_2857	operon_1114	NC_017641.1|gene2820|UMNK88_2857
UMNK88_2858	operon_1114	NC_017641.1|gene2821|UMNK88_2858
UMNK88_2859	operon_1114	NC_017641.1|gene2822|UMNK88_2859
UMNK88_2860	operon_1114	NC_017641.1|gene2823|UMNK88_2860
UMNK88_2861	operon_1114	NC_017641.1|gene2824|UMNK88_2861
UMNK88_2862	operon_1115	NC_017641.1|gene2825|UMNK88_2862
UMNK88_2863	operon_1115	NC_017641.1|gene2826|UMNK88_2863|purF
UMNK88_2864	operon_1115	NC_017641.1|gene2827|UMNK88_2864
UMNK88_2865	operon_1116	NC_017641.1|gene2828|UMNK88_2865
UMNK88_2866	operon_1116	NC_017641.1|gene2829|UMNK88_2866|folC
UMNK88_2867	operon_1116	NC_017641.1|gene2830|UMNK88_2867|accD
UMNK88_2868	operon_1116	NC_017641.1|gene2831|UMNK88_2868
UMNK88_2869	operon_1116	NC_017641.1|gene2832|UMNK88_2869|truA
UMNK88_2870	operon_1116	NC_017641.1|gene2833|UMNK88_2870
UMNK88_2872	operon_1117	NC_017641.1|gene2834|UMNK88_2872
UMNK88_2871	operon_1118	NC_017641.1|gene2835|UMNK88_2871
UMNK88_2874	operon_1119	NC_017641.1|gene2836|UMNK88_2874
UMNK88_2873	operon_1120	NC_017641.1|gene2837|UMNK88_2873
UMNK88_2875	operon_1121	NC_017641.1|gene2838|UMNK88_2875
UMNK88_2876	operon_1122	NC_017641.1|gene2839|UMNK88_2876
UMNK88_2877	operon_1123	NC_017641.1|gene2840|UMNK88_2877
UMNK88_2878	operon_1124	NC_017641.1|gene2841|UMNK88_2878
UMNK88_2879	operon_1124	NC_017641.1|gene2842|UMNK88_2879
UMNK88_2880	operon_1124	NC_017641.1|gene2843|UMNK88_2880
UMNK88_2881	operon_1124	NC_017641.1|gene2844|UMNK88_2881
UMNK88_2882	operon_1124	NC_017641.1|gene2845|UMNK88_2882|aroC
UMNK88_2883	operon_1124	NC_017641.1|gene2846|UMNK88_2883|prmB
UMNK88_2884	operon_1125	NC_017641.1|gene2847|UMNK88_2884
UMNK88_2885	operon_1126	NC_017641.1|gene2848|UMNK88_2885
UMNK88_2886	operon_1126	NC_017641.1|gene2849|UMNK88_2886
UMNK88_2887	operon_1126	NC_017641.1|gene2850|UMNK88_2887
UMNK88_2888	operon_1126	NC_017641.1|gene2851|UMNK88_2888
UMNK88_2889	operon_1126	NC_017641.1|gene2852|UMNK88_2889
UMNK88_2890	operon_1126	NC_017641.1|gene2853|UMNK88_2890
UMNK88_2891	operon_1127	NC_017641.1|gene2854|UMNK88_2891
UMNK88_2892	operon_1127	NC_017641.1|gene2855|UMNK88_2892|sixA
UMNK88_2893	operon_1127	NC_017641.1|gene2856|UMNK88_2893|fadJ
UMNK88_2894	operon_1127	NC_017641.1|gene2857|UMNK88_2894|fadI
UMNK88_2895	operon_1128	NC_017641.1|gene2858|UMNK88_2895
UMNK88_2896	operon_1129	NC_017641.1|gene2859|UMNK88_2896
UMNK88_2897	operon_1130	NC_017641.1|gene2860|UMNK88_2897
UMNK88_2898	operon_1130	NC_017641.1|gene2861|UMNK88_2898
UMNK88_2899	operon_1131	NC_017641.1|gene2862|UMNK88_2899
UMNK88_2900	operon_1131	NC_017641.1|gene2863|UMNK88_2900
UMNK88_2901	operon_1132	NC_017641.1|gene2864|UMNK88_2901
UMNK88_t44	operon_1132	NC_017641.1|gene2865|UMNK88_t44
UMNK88_2903	operon_1132	NC_017641.1|gene2866|UMNK88_2903
UMNK88_2904	operon_1133	NC_017641.1|gene2867|UMNK88_2904
UMNK88_2905	operon_1134	NC_017641.1|gene2868|UMNK88_2905
UMNK88_2906	operon_1134	NC_017641.1|gene2869|UMNK88_2906
UMNK88_2907	operon_1135	NC_017641.1|gene2870|UMNK88_2907
UMNK88_2908	operon_1136	NC_017641.1|gene2871|UMNK88_2908
UMNK88_2909	operon_1137	NC_017641.1|gene2872|UMNK88_2909
UMNK88_2910	operon_1138	NC_017641.1|gene2873|UMNK88_2910
UMNK88_2911	operon_1139	NC_017641.1|gene2874|UMNK88_2911
UMNK88_2912	operon_1139	NC_017641.1|gene2875|UMNK88_2912
UMNK88_2913	operon_1139	NC_017641.1|gene2876|UMNK88_2913
UMNK88_2914	operon_1139	NC_017641.1|gene2877|UMNK88_2914
UMNK88_2915	operon_1139	NC_017641.1|gene2878|UMNK88_2915
UMNK88_2916	operon_1139	NC_017641.1|gene2879|UMNK88_2916
UMNK88_2917	operon_1139	NC_017641.1|gene2880|UMNK88_2917
UMNK88_2918	operon_1139	NC_017641.1|gene2881|UMNK88_2918
UMNK88_2919	operon_1140	NC_017641.1|gene2882|UMNK88_2919
UMNK88_2920	operon_1140	NC_017641.1|gene2883|UMNK88_2920
UMNK88_2921	operon_1140	NC_017641.1|gene2884|UMNK88_2921
UMNK88_2922	operon_1140	NC_017641.1|gene2885|UMNK88_2922
UMNK88_2923	operon_1140	NC_017641.1|gene2886|UMNK88_2923
UMNK88_2924	operon_1140	NC_017641.1|gene2887|UMNK88_2924
UMNK88_2925	operon_1140	NC_017641.1|gene2888|UMNK88_2925
UMNK88_2926	operon_1140	NC_017641.1|gene2889|UMNK88_2926
UMNK88_2927	operon_1140	NC_017641.1|gene2890|UMNK88_2927
UMNK88_2928	operon_1140	NC_017641.1|gene2891|UMNK88_2928
UMNK88_2929	operon_1141	NC_017641.1|gene2892|UMNK88_2929
UMNK88_2930	operon_1142	NC_017641.1|gene2893|UMNK88_2930
UMNK88_2931	operon_1142	NC_017641.1|gene2894|UMNK88_2931
UMNK88_2932	operon_1142	NC_017641.1|gene2895|UMNK88_2932
UMNK88_2933	operon_1142	NC_017641.1|gene2896|UMNK88_2933
UMNK88_2934	operon_1142	NC_017641.1|gene2897|UMNK88_2934
UMNK88_2935	operon_1142	NC_017641.1|gene2898|UMNK88_2935
UMNK88_2936	operon_1142	NC_017641.1|gene2899|UMNK88_2936
UMNK88_2937	operon_1142	NC_017641.1|gene2900|UMNK88_2937
UMNK88_2938	operon_1142	NC_017641.1|gene2901|UMNK88_2938
UMNK88_2939	operon_1142	NC_017641.1|gene2902|UMNK88_2939
UMNK88_2940	operon_1142	NC_017641.1|gene2903|UMNK88_2940
UMNK88_2941	operon_1142	NC_017641.1|gene2904|UMNK88_2941
UMNK88_2942	operon_1143	NC_017641.1|gene2905|UMNK88_2942
UMNK88_2943	operon_1143	NC_017641.1|gene2906|UMNK88_2943
UMNK88_2944	operon_1143	NC_017641.1|gene2907|UMNK88_2944
UMNK88_2945	operon_1143	NC_017641.1|gene2908|UMNK88_2945
UMNK88_2946	operon_1144	NC_017641.1|gene2909|UMNK88_2946
UMNK88_2947	operon_1144	NC_017641.1|gene2910|UMNK88_2947
UMNK88_2948	operon_1145	NC_017641.1|gene2911|UMNK88_2948
UMNK88_2949	operon_1146	NC_017641.1|gene2912|UMNK88_2949
UMNK88_2950	operon_1146	NC_017641.1|gene2913|UMNK88_2950
UMNK88_2951	operon_1147	NC_017641.1|gene2914|UMNK88_2951
UMNK88_2952	operon_1147	NC_017641.1|gene2915|UMNK88_2952
UMNK88_2953	operon_1147	NC_017641.1|gene2916|UMNK88_2953
UMNK88_2954	operon_1147	NC_017641.1|gene2917|UMNK88_2954
UMNK88_2955	operon_1147	NC_017641.1|gene2918|UMNK88_2955
UMNK88_2956	operon_1147	NC_017641.1|gene2919|UMNK88_2956
UMNK88_2957	operon_1147	NC_017641.1|gene2920|UMNK88_2957
UMNK88_2958	operon_1147	NC_017641.1|gene2921|UMNK88_2958
UMNK88_2959	operon_1147	NC_017641.1|gene2922|UMNK88_2959
UMNK88_2960	operon_1148	NC_017641.1|gene2923|UMNK88_2960
UMNK88_2961	operon_1149	NC_017641.1|gene2924|UMNK88_2961
UMNK88_2962	operon_1150	NC_017641.1|gene2925|UMNK88_2962|dsdC
UMNK88_2963	operon_1151	NC_017641.1|gene2926|UMNK88_2963
UMNK88_2964	operon_1151	NC_017641.1|gene2927|UMNK88_2964|dsdA
UMNK88_2965	operon_1152	NC_017641.1|gene2928|UMNK88_2965
UMNK88_2966	operon_1152	NC_017641.1|gene2929|UMNK88_2966
UMNK88_2967	operon_1153	NC_017641.1|gene2930|UMNK88_2967
UMNK88_2968	operon_1153	NC_017641.1|gene2931|UMNK88_2968
UMNK88_2969	operon_1154	NC_017641.1|gene2932|UMNK88_2969
UMNK88_2970	operon_1154	NC_017641.1|gene2933|UMNK88_2970
UMNK88_2971	operon_1154	NC_017641.1|gene2934|UMNK88_2971|oxc
UMNK88_2972	operon_1154	NC_017641.1|gene2935|UMNK88_2972|frc
UMNK88_2973	operon_1155	NC_017641.1|gene2936|UMNK88_2973
UMNK88_2974	operon_1155	NC_017641.1|gene2937|UMNK88_2974
UMNK88_2975	operon_1155	NC_017641.1|gene2938|UMNK88_2975
UMNK88_2976	operon_1156	NC_017641.1|gene2939|UMNK88_2976
UMNK88_2977	operon_1157	NC_017641.1|gene2940|UMNK88_2977
UMNK88_2978	operon_1158	NC_017641.1|gene2941|UMNK88_2978
UMNK88_2979	operon_1158	NC_017641.1|gene2942|UMNK88_2979
UMNK88_2980	operon_1159	NC_017641.1|gene2943|UMNK88_2980
UMNK88_2981	operon_1159	NC_017641.1|gene2944|UMNK88_2981
UMNK88_2982	operon_1159	NC_017641.1|gene2945|UMNK88_2982
UMNK88_2983	operon_1160	NC_017641.1|gene2946|UMNK88_2983|ptsP
UMNK88_2984	operon_1160	NC_017641.1|gene2947|UMNK88_2984
UMNK88_2985	operon_1160	NC_017641.1|gene2948|UMNK88_2985
UMNK88_2986	operon_1160	NC_017641.1|gene2949|UMNK88_2986
UMNK88_2987	operon_1160	NC_017641.1|gene2950|UMNK88_2987
UMNK88_2988	operon_1160	NC_017641.1|gene2951|UMNK88_2988|glk
UMNK88_2989	operon_1161	NC_017641.1|gene2952|UMNK88_2989
UMNK88_2990	operon_1161	NC_017641.1|gene2953|UMNK88_2990
UMNK88_2991	operon_1162	NC_017641.1|gene2954|UMNK88_2991
UMNK88_2992	operon_1163	NC_017641.1|gene2955|UMNK88_2992
UMNK88_2993	operon_1164	NC_017641.1|gene2956|UMNK88_2993
UMNK88_2994	operon_1164	NC_017641.1|gene2957|UMNK88_2994
UMNK88_t45	operon_1164	NC_017641.1|gene2958|UMNK88_t45
UMNK88_t46	operon_1164	NC_017641.1|gene2959|UMNK88_t46
UMNK88_2997	operon_1165	NC_017641.1|gene2960|UMNK88_2997
UMNK88_2998	operon_1165	NC_017641.1|gene2961|UMNK88_2998
UMNK88_2999	operon_1166	NC_017641.1|gene2962|UMNK88_2999|gltX
UMNK88_3000	operon_1167	NC_017641.1|gene2963|UMNK88_3000
UMNK88_t47	operon_1167	NC_017641.1|gene2964|UMNK88_t47
UMNK88_t48	operon_1167	NC_017641.1|gene2965|UMNK88_t48
UMNK88_t49	operon_1167	NC_017641.1|gene2966|UMNK88_t49
UMNK88_t50	operon_1167	NC_017641.1|gene2967|UMNK88_t50
UMNK88_3005	operon_1168	NC_017641.1|gene2968|UMNK88_3005
UMNK88_3006	operon_1168	NC_017641.1|gene2969|UMNK88_3006
UMNK88_3007	operon_1168	NC_017641.1|gene2970|UMNK88_3007
UMNK88_3008	operon_1168	NC_017641.1|gene2971|UMNK88_3008|xapA
UMNK88_3009	operon_1169	NC_017641.1|gene2972|UMNK88_3009
UMNK88_3010	operon_1170	NC_017641.1|gene2973|UMNK88_3010
UMNK88_3012	operon_1171	NC_017641.1|gene2974|UMNK88_3012
UMNK88_3011	operon_1172	NC_017641.1|gene2975|UMNK88_3011
UMNK88_3013	operon_1172	NC_017641.1|gene2976|UMNK88_3013|ligA
UMNK88_3014	operon_1172	NC_017641.1|gene2977|UMNK88_3014|zipA
UMNK88_3015	operon_1173	NC_017641.1|gene2978|UMNK88_3015
UMNK88_3016	operon_1174	NC_017641.1|gene2979|UMNK88_3016|cysK
UMNK88_3017	operon_1174	NC_017641.1|gene2980|UMNK88_3017
UMNK88_3018	operon_1174	NC_017641.1|gene2981|UMNK88_3018|ptsP
UMNK88_3019	operon_1174	NC_017641.1|gene2982|UMNK88_3019|ptbA
UMNK88_3020	operon_1175	NC_017641.1|gene2983|UMNK88_3020
UMNK88_3021	operon_1176	NC_017641.1|gene2984|UMNK88_3021
UMNK88_3022	operon_1176	NC_017641.1|gene2985|UMNK88_3022
UMNK88_3024	operon_1176	NC_017641.1|gene2986|UMNK88_3024
UMNK88_3023	operon_1177	NC_017641.1|gene2987|UMNK88_3023|cysM
UMNK88_3025	operon_1177	NC_017641.1|gene2988|UMNK88_3025|cysA
UMNK88_3026	operon_1177	NC_017641.1|gene2989|UMNK88_3026|cysW
UMNK88_3027	operon_1177	NC_017641.1|gene2990|UMNK88_3027|cysT
UMNK88_3028	operon_1177	NC_017641.1|gene2991|UMNK88_3028
UMNK88_3029	operon_1178	NC_017641.1|gene2992|UMNK88_3029
UMNK88_3030	operon_1178	NC_017641.1|gene2993|UMNK88_3030
UMNK88_3031	operon_1179	NC_017641.1|gene2994|UMNK88_3031|murQ
UMNK88_3032	operon_1179	NC_017641.1|gene2995|UMNK88_3032
UMNK88_3033	operon_1179	NC_017641.1|gene2996|UMNK88_3033
UMNK88_3034	operon_1180	NC_017641.1|gene2997|UMNK88_3034
UMNK88_3035	operon_1181	NC_017641.1|gene2998|UMNK88_3035
UMNK88_3036	operon_1181	NC_017641.1|gene2999|UMNK88_3036
UMNK88_3037	operon_1181	NC_017641.1|gene3000|UMNK88_3037
UMNK88_3038	operon_1182	NC_017641.1|gene3001|UMNK88_3038
UMNK88_3039	operon_1182	NC_017641.1|gene3002|UMNK88_3039
UMNK88_3040	operon_1183	NC_017641.1|gene3003|UMNK88_3040
UMNK88_3041	operon_1183	NC_017641.1|gene3004|UMNK88_3041|eutM
UMNK88_3042	operon_1183	NC_017641.1|gene3005|UMNK88_3042
UMNK88_3043	operon_1183	NC_017641.1|gene3006|UMNK88_3043
UMNK88_3044	operon_1183	NC_017641.1|gene3007|UMNK88_3044
UMNK88_3045	operon_1183	NC_017641.1|gene3008|UMNK88_3045
UMNK88_3046	operon_1183	NC_017641.1|gene3009|UMNK88_3046
UMNK88_3047	operon_1184	NC_017641.1|gene3010|UMNK88_3047
UMNK88_3048	operon_1184	NC_017641.1|gene3011|UMNK88_3048
UMNK88_3049	operon_1185	NC_017641.1|gene3012|UMNK88_3049
UMNK88_3050	operon_1185	NC_017641.1|gene3013|UMNK88_3050|eutN
UMNK88_3051	operon_1185	NC_017641.1|gene3014|UMNK88_3051|eutM
UMNK88_3052	operon_1185	NC_017641.1|gene3015|UMNK88_3052|pta
UMNK88_3053	operon_1185	NC_017641.1|gene3016|UMNK88_3053
UMNK88_3054	operon_1185	NC_017641.1|gene3017|UMNK88_3054
UMNK88_3055	operon_1185	NC_017641.1|gene3018|UMNK88_3055|eutP
UMNK88_3056	operon_1185	NC_017641.1|gene3019|UMNK88_3056
UMNK88_3057	operon_1186	NC_017641.1|gene3020|UMNK88_3057
UMNK88_3058	operon_1187	NC_017641.1|gene3021|UMNK88_3058|tal
UMNK88_3059	operon_1187	NC_017641.1|gene3022|UMNK88_3059|tkt
UMNK88_3060	operon_1188	NC_017641.1|gene3023|UMNK88_3060
UMNK88_3061	operon_1188	NC_017641.1|gene3024|UMNK88_3061
UMNK88_3062	operon_1188	NC_017641.1|gene3025|UMNK88_3062
UMNK88_3063	operon_1189	NC_017641.1|gene3026|UMNK88_3063
UMNK88_3064	operon_1189	NC_017641.1|gene3027|UMNK88_3064|bpeB
UMNK88_3065	operon_1189	NC_017641.1|gene3028|UMNK88_3065
UMNK88_3066	operon_1189	NC_017641.1|gene3029|UMNK88_3066|dapE
UMNK88_3067	operon_1189	NC_017641.1|gene3030|UMNK88_3067
UMNK88_3068	operon_1190	NC_017641.1|gene3031|UMNK88_3068
UMNK88_3069	operon_1190	NC_017641.1|gene3032|UMNK88_3069
UMNK88_3070	operon_1190	NC_017641.1|gene3033|UMNK88_3070
UMNK88_3071	operon_1190	NC_017641.1|gene3034|UMNK88_3071|purC
UMNK88_3072	operon_1191	NC_017641.1|gene3035|UMNK88_3072
UMNK88_3073	operon_1191	NC_017641.1|gene3036|UMNK88_3073|dapA
UMNK88_3074	operon_1192	NC_017641.1|gene3037|UMNK88_3074
UMNK88_3075	operon_1192	NC_017641.1|gene3038|UMNK88_3075
UMNK88_3076	operon_1192	NC_017641.1|gene3039|UMNK88_3076
UMNK88_3077	operon_1192	NC_017641.1|gene3040|UMNK88_3077
UMNK88_3078	operon_1192	NC_017641.1|gene3041|UMNK88_3078
UMNK88_3079	operon_1192	NC_017641.1|gene3042|UMNK88_3079
UMNK88_3080	operon_1192	NC_017641.1|gene3043|UMNK88_3080
UMNK88_3081	operon_1192	NC_017641.1|gene3044|UMNK88_3081
UMNK88_3082	operon_1192	NC_017641.1|gene3045|UMNK88_3082
UMNK88_3083	operon_1192	NC_017641.1|gene3046|UMNK88_3083
UMNK88_3084	operon_1192	NC_017641.1|gene3047|UMNK88_3084
UMNK88_3085	operon_1192	NC_017641.1|gene3048|UMNK88_3085
UMNK88_3086	operon_1192	NC_017641.1|gene3049|UMNK88_3086
UMNK88_3087	operon_1192	NC_017641.1|gene3050|UMNK88_3087
UMNK88_3088	operon_1192	NC_017641.1|gene3051|UMNK88_3088|fnt
UMNK88_3089	operon_1193	NC_017641.1|gene3052|UMNK88_3089
UMNK88_3090	operon_1194	NC_017641.1|gene3053|UMNK88_3090
UMNK88_3091	operon_1194	NC_017641.1|gene3054|UMNK88_3091|arsC
UMNK88_3092	operon_1195	NC_017641.1|gene3055|UMNK88_3092|hda
UMNK88_3093	operon_1195	NC_017641.1|gene3056|UMNK88_3093
UMNK88_3094	operon_1195	NC_017641.1|gene3057|UMNK88_3094|upp
UMNK88_3095	operon_1196	NC_017641.1|gene3058|UMNK88_3095
UMNK88_3096	operon_1196	NC_017641.1|gene3059|UMNK88_3096|purM
UMNK88_3097	operon_1196	NC_017641.1|gene3060|UMNK88_3097|purN
UMNK88_3098	operon_1196	NC_017641.1|gene3061|UMNK88_3098
UMNK88_3099	operon_1196	NC_017641.1|gene3062|UMNK88_3099
UMNK88_3100	operon_1197	NC_017641.1|gene3063|UMNK88_3100
UMNK88_3102	operon_1198	NC_017641.1|gene3064|UMNK88_3102
UMNK88_3101	operon_1199	NC_017641.1|gene3065|UMNK88_3101
UMNK88_3103	operon_1199	NC_017641.1|gene3066|UMNK88_3103
UMNK88_3104	operon_1200	NC_017641.1|gene3067|UMNK88_3104
UMNK88_3105	operon_1200	NC_017641.1|gene3068|UMNK88_3105
UMNK88_3106	operon_1200	NC_017641.1|gene3069|UMNK88_3106
UMNK88_3107	operon_1201	NC_017641.1|gene3070|UMNK88_3107
UMNK88_3108	operon_1201	NC_017641.1|gene3071|UMNK88_3108
UMNK88_3109	operon_1201	NC_017641.1|gene3072|UMNK88_3109
UMNK88_3110	operon_1201	NC_017641.1|gene3073|UMNK88_3110
UMNK88_3111	operon_1202	NC_017641.1|gene3074|UMNK88_3111
UMNK88_3112	operon_1202	NC_017641.1|gene3075|UMNK88_3112
UMNK88_3113	operon_1203	NC_017641.1|gene3076|UMNK88_3113
UMNK88_3114	operon_1204	NC_017641.1|gene3077|UMNK88_3114
UMNK88_3115	operon_1204	NC_017641.1|gene3078|UMNK88_3115
UMNK88_3116	operon_1205	NC_017641.1|gene3079|UMNK88_3116
UMNK88_3117	operon_1205	NC_017641.1|gene3080|UMNK88_3117
UMNK88_3118	operon_1205	NC_017641.1|gene3081|UMNK88_3118
UMNK88_3119	operon_1205	NC_017641.1|gene3082|UMNK88_3119
UMNK88_3120	operon_1205	NC_017641.1|gene3083|UMNK88_3120
UMNK88_3121	operon_1205	NC_017641.1|gene3084|UMNK88_3121
UMNK88_3122	operon_1205	NC_017641.1|gene3085|UMNK88_3122
UMNK88_3123	operon_1205	NC_017641.1|gene3086|UMNK88_3123
UMNK88_3124	operon_1205	NC_017641.1|gene3087|UMNK88_3124
UMNK88_3125	operon_1206	NC_017641.1|gene3088|UMNK88_3125
UMNK88_3126	operon_1206	NC_017641.1|gene3089|UMNK88_3126
UMNK88_3127	operon_1206	NC_017641.1|gene3090|UMNK88_3127
UMNK88_3128	operon_1206	NC_017641.1|gene3091|UMNK88_3128
UMNK88_3129	operon_1206	NC_017641.1|gene3092|UMNK88_3129
UMNK88_3130	operon_1206	NC_017641.1|gene3093|UMNK88_3130
UMNK88_3131	operon_1206	NC_017641.1|gene3094|UMNK88_3131
UMNK88_t51	operon_1207	NC_017641.1|gene3095|UMNK88_t51
UMNK88_3134	operon_1207	NC_017641.1|gene3096|UMNK88_3134
UMNK88_3135	operon_1208	NC_017641.1|gene3097|UMNK88_3135
UMNK88_3136	operon_1208	NC_017641.1|gene3098|UMNK88_3136
UMNK88_3137	operon_1208	NC_017641.1|gene3099|UMNK88_3137
UMNK88_3138	operon_1209	NC_017641.1|gene3100|UMNK88_3138
UMNK88_3139	operon_1210	NC_017641.1|gene3101|UMNK88_3139
UMNK88_3140	operon_1210	NC_017641.1|gene3102|UMNK88_3140
UMNK88_3141	operon_1210	NC_017641.1|gene3103|UMNK88_3141
UMNK88_3142	operon_1210	NC_017641.1|gene3104|UMNK88_3142
UMNK88_3143	operon_1210	NC_017641.1|gene3105|UMNK88_3143
UMNK88_3144	operon_1210	NC_017641.1|gene3106|UMNK88_3144
UMNK88_3145	operon_1210	NC_017641.1|gene3107|UMNK88_3145
UMNK88_3146	operon_1211	NC_017641.1|gene3108|UMNK88_3146
UMNK88_3147	operon_1212	NC_017641.1|gene3109|UMNK88_3147
UMNK88_3148	operon_1213	NC_017641.1|gene3110|UMNK88_3148
UMNK88_3149	operon_1213	NC_017641.1|gene3111|UMNK88_3149
UMNK88_3150	operon_1213	NC_017641.1|gene3112|UMNK88_3150
UMNK88_3151	operon_1213	NC_017641.1|gene3113|UMNK88_3151
UMNK88_3152	operon_1213	NC_017641.1|gene3114|UMNK88_3152
UMNK88_3153	operon_1213	NC_017641.1|gene3115|UMNK88_3153
UMNK88_3154	operon_1213	NC_017641.1|gene3116|UMNK88_3154
UMNK88_3155	operon_1214	NC_017641.1|gene3117|UMNK88_3155
UMNK88_3156	operon_1214	NC_017641.1|gene3118|UMNK88_3156|guaA
UMNK88_3157	operon_1214	NC_017641.1|gene3119|UMNK88_3157|guaB
UMNK88_3158	operon_1215	NC_017641.1|gene3120|UMNK88_3158
UMNK88_3160	operon_1215	NC_017641.1|gene3121|UMNK88_3160|xseA
UMNK88_3159	operon_1216	NC_017641.1|gene3122|UMNK88_3159
UMNK88_3161	operon_1216	NC_017641.1|gene3123|UMNK88_3161
UMNK88_3162	operon_1216	NC_017641.1|gene3124|UMNK88_3162|yfgL
UMNK88_3163	operon_1216	NC_017641.1|gene3125|UMNK88_3163
UMNK88_3164	operon_1216	NC_017641.1|gene3126|UMNK88_3164|hisS
UMNK88_3165	operon_1216	NC_017641.1|gene3127|UMNK88_3165|ispG
UMNK88_3166	operon_1216	NC_017641.1|gene3128|UMNK88_3166
UMNK88_3167	operon_1217	NC_017641.1|gene3129|UMNK88_3167
UMNK88_3168	operon_1218	NC_017641.1|gene3130|UMNK88_3168
UMNK88_3169	operon_1218	NC_017641.1|gene3131|UMNK88_3169|pbpC
UMNK88_3170	operon_1218	NC_017641.1|gene3132|UMNK88_3170
UMNK88_3171	operon_1219	NC_017641.1|gene3133|UMNK88_3171
UMNK88_3172	operon_1220	NC_017641.1|gene3134|UMNK88_3172
UMNK88_3173	operon_1221	NC_017641.1|gene3135|UMNK88_3173
UMNK88_3174	operon_1222	NC_017641.1|gene3136|UMNK88_3174
UMNK88_3175	operon_1223	NC_017641.1|gene3137|UMNK88_3175
UMNK88_3176	operon_1223	NC_017641.1|gene3138|UMNK88_3176|iscX
UMNK88_3177	operon_1223	NC_017641.1|gene3139|UMNK88_3177|fdx
UMNK88_3178	operon_1223	NC_017641.1|gene3140|UMNK88_3178|hscA
UMNK88_3179	operon_1223	NC_017641.1|gene3141|UMNK88_3179|hscB
UMNK88_3180	operon_1223	NC_017641.1|gene3142|UMNK88_3180
UMNK88_3181	operon_1223	NC_017641.1|gene3143|UMNK88_3181|iscA
UMNK88_3182	operon_1223	NC_017641.1|gene3144|UMNK88_3182|iscU
UMNK88_3183	operon_1223	NC_017641.1|gene3145|UMNK88_3183|iscS
UMNK88_3184	operon_1223	NC_017641.1|gene3146|UMNK88_3184|iscR
UMNK88_3185	operon_1223	NC_017641.1|gene3147|UMNK88_3185
UMNK88_3186	operon_1224	NC_017641.1|gene3148|UMNK88_3186
UMNK88_3187	operon_1224	NC_017641.1|gene3149|UMNK88_3187
UMNK88_3189	operon_1224	NC_017641.1|gene3150|UMNK88_3189
UMNK88_3188	operon_1225	NC_017641.1|gene3151|UMNK88_3188
UMNK88_3190	operon_1225	NC_017641.1|gene3152|UMNK88_3190
UMNK88_3191	operon_1226	NC_017641.1|gene3153|UMNK88_3191
UMNK88_3192	operon_1226	NC_017641.1|gene3154|UMNK88_3192
UMNK88_3193	operon_1226	NC_017641.1|gene3155|UMNK88_3193
UMNK88_3194	operon_1226	NC_017641.1|gene3156|UMNK88_3194
UMNK88_3195	operon_1226	NC_017641.1|gene3157|UMNK88_3195
UMNK88_3196	operon_1226	NC_017641.1|gene3158|UMNK88_3196
UMNK88_3197	operon_1227	NC_017641.1|gene3159|UMNK88_3197
UMNK88_3198	operon_1227	NC_017641.1|gene3160|UMNK88_3198
UMNK88_3199	operon_1227	NC_017641.1|gene3161|UMNK88_3199
UMNK88_3200	operon_1227	NC_017641.1|gene3162|UMNK88_3200
UMNK88_3201	operon_1227	NC_017641.1|gene3163|UMNK88_3201
UMNK88_3202	operon_1227	NC_017641.1|gene3164|UMNK88_3202
UMNK88_3203	operon_1228	NC_017641.1|gene3165|UMNK88_3203
UMNK88_3204	operon_1229	NC_017641.1|gene3166|UMNK88_3204
UMNK88_3205	operon_1230	NC_017641.1|gene3167|UMNK88_3205
UMNK88_3206	operon_1231	NC_017641.1|gene3168|UMNK88_3206
UMNK88_3207	operon_1231	NC_017641.1|gene3169|UMNK88_3207
UMNK88_3208	operon_1231	NC_017641.1|gene3170|UMNK88_3208
UMNK88_3209	operon_1231	NC_017641.1|gene3171|UMNK88_3209
UMNK88_3210	operon_1231	NC_017641.1|gene3172|UMNK88_3210|purL
UMNK88_3212	operon_1232	NC_017641.1|gene3173|UMNK88_3212
UMNK88_3211	operon_1233	NC_017641.1|gene3174|UMNK88_3211
UMNK88_3213	operon_1233	NC_017641.1|gene3175|UMNK88_3213
UMNK88_3214	operon_1234	NC_017641.1|gene3176|UMNK88_3214
UMNK88_3215	operon_1234	NC_017641.1|gene3177|UMNK88_3215
UMNK88_3216	operon_1235	NC_017641.1|gene3178|UMNK88_3216|acpS
UMNK88_3217	operon_1235	NC_017641.1|gene3179|UMNK88_3217|pdxJ
UMNK88_3218	operon_1235	NC_017641.1|gene3180|UMNK88_3218|recO
UMNK88_3219	operon_1235	NC_017641.1|gene3181|UMNK88_3219|era
UMNK88_3220	operon_1235	NC_017641.1|gene3182|UMNK88_3220|rnc
UMNK88_3221	operon_1235	NC_017641.1|gene3183|UMNK88_3221|lepB
UMNK88_3222	operon_1235	NC_017641.1|gene3184|UMNK88_3222|lepA
UMNK88_3223	operon_1236	NC_017641.1|gene3185|UMNK88_3223
UMNK88_3224	operon_1236	NC_017641.1|gene3186|UMNK88_3224
UMNK88_3225	operon_1236	NC_017641.1|gene3187|UMNK88_3225
UMNK88_3226	operon_1236	NC_017641.1|gene3188|UMNK88_3226|rpoE
UMNK88_3228	operon_1237	NC_017641.1|gene3189|UMNK88_3228|nadB
UMNK88_3227	operon_1238	NC_017641.1|gene3190|UMNK88_3227
UMNK88_3229	operon_1239	NC_017641.1|gene3191|UMNK88_3229
UMNK88_3230	operon_1240	NC_017641.1|gene3192|UMNK88_3230
UMNK88_3231	operon_1241	NC_017641.1|gene3193|UMNK88_3231
UMNK88_3232	operon_1242	NC_017641.1|gene3194|UMNK88_3232
UMNK88_3233	operon_1243	NC_017641.1|gene3195|UMNK88_3233|ung
UMNK88_3234	operon_1244	NC_017641.1|gene3196|UMNK88_3234
UMNK88_3235	operon_1245	NC_017641.1|gene3197|UMNK88_3235|trx
UMNK88_3236	operon_1245	NC_017641.1|gene3198|UMNK88_3236
UMNK88_3237	operon_1245	NC_017641.1|gene3199|UMNK88_3237
UMNK88_3238	operon_1245	NC_017641.1|gene3200|UMNK88_3238
UMNK88_3240	operon_1246	NC_017641.1|gene3201|UMNK88_3240
UMNK88_3239	operon_1247	NC_017641.1|gene3202|UMNK88_3239
UMNK88_r04	operon_1247	NC_017641.1|gene3203|UMNK88_r04
UMNK88_r05	operon_1247	NC_017641.1|gene3204|UMNK88_r05
UMNK88_t52	operon_1247	NC_017641.1|gene3205|UMNK88_t52
UMNK88_t53	operon_1247	NC_017641.1|gene3206|UMNK88_t53
UMNK88_r06	operon_1247	NC_017641.1|gene3207|UMNK88_r06
UMNK88_3247	operon_1247	NC_017641.1|gene3208|UMNK88_3247|clpB
UMNK88_3248	operon_1247	NC_017641.1|gene3209|UMNK88_3248
UMNK88_3249	operon_1247	NC_017641.1|gene3210|UMNK88_3249
UMNK88_3250	operon_1248	NC_017641.1|gene3211|UMNK88_3250
UMNK88_3251	operon_1249	NC_017641.1|gene3212|UMNK88_3251|raiA
UMNK88_3252	operon_1249	NC_017641.1|gene3213|UMNK88_3252
UMNK88_3253	operon_1250	NC_017641.1|gene3214|UMNK88_3253|tyrA
UMNK88_3254	operon_1250	NC_017641.1|gene3215|UMNK88_3254
UMNK88_3255	operon_1251	NC_017641.1|gene3216|UMNK88_3255
UMNK88_3256	operon_1251	NC_017641.1|gene3217|UMNK88_3256
UMNK88_3257	operon_1251	NC_017641.1|gene3218|UMNK88_3257
UMNK88_3258	operon_1251	NC_017641.1|gene3219|UMNK88_3258
UMNK88_3259	operon_1252	NC_017641.1|gene3220|UMNK88_3259|rplS
UMNK88_3260	operon_1252	NC_017641.1|gene3221|UMNK88_3260|trmD
UMNK88_3261	operon_1252	NC_017641.1|gene3222|UMNK88_3261|rimM
UMNK88_3262	operon_1252	NC_017641.1|gene3223|UMNK88_3262|rpsP
UMNK88_3263	operon_1252	NC_017641.1|gene3224|UMNK88_3263|ffh
UMNK88_3264	operon_1253	NC_017641.1|gene3225|UMNK88_3264
UMNK88_3265	operon_1253	NC_017641.1|gene3226|UMNK88_3265
UMNK88_3266	operon_1254	NC_017641.1|gene3227|UMNK88_3266
UMNK88_3267	operon_1254	NC_017641.1|gene3228|UMNK88_3267
UMNK88_3268	operon_1255	NC_017641.1|gene3229|UMNK88_3268
UMNK88_3269	operon_1255	NC_017641.1|gene3230|UMNK88_3269|recN
UMNK88_3270	operon_1255	NC_017641.1|gene3231|UMNK88_3270
UMNK88_3271	operon_1256	NC_017641.1|gene3232|UMNK88_3271
UMNK88_3272	operon_1256	NC_017641.1|gene3233|UMNK88_3272
UMNK88_3273	operon_1257	NC_017641.1|gene3234|UMNK88_3273|smpB
UMNK88_3274	operon_1257	NC_017641.1|gene3235|UMNK88_3274
UMNK88_3275	operon_1258	NC_017641.1|gene3236|UMNK88_3275
UMNK88_3276	operon_1258	NC_017641.1|gene3237|UMNK88_3276
UMNK88_3278	operon_1259	NC_017641.1|gene3238|UMNK88_3278
UMNK88_3277	operon_1260	NC_017641.1|gene3239|UMNK88_3277
UMNK88_3279	operon_1261	NC_017641.1|gene3240|UMNK88_3279
UMNK88_3280	operon_1262	NC_017641.1|gene3241|UMNK88_3280
UMNK88_3281	operon_1263	NC_017641.1|gene3242|UMNK88_3281
UMNK88_3282	operon_1263	NC_017641.1|gene3243|UMNK88_3282
UMNK88_3283	operon_1263	NC_017641.1|gene3244|UMNK88_3283
UMNK88_3284	operon_1263	NC_017641.1|gene3245|UMNK88_3284
UMNK88_3285	operon_1264	NC_017641.1|gene3246|UMNK88_3285
UMNK88_3286	operon_1264	NC_017641.1|gene3247|UMNK88_3286
UMNK88_3287	operon_1265	NC_017641.1|gene3248|UMNK88_3287
UMNK88_3288	operon_1265	NC_017641.1|gene3249|UMNK88_3288
UMNK88_3289	operon_1265	NC_017641.1|gene3250|UMNK88_3289
UMNK88_3290	operon_1265	NC_017641.1|gene3251|UMNK88_3290
UMNK88_3291	operon_1265	NC_017641.1|gene3252|UMNK88_3291
UMNK88_3292	operon_1266	NC_017641.1|gene3253|UMNK88_3292
UMNK88_3293	operon_1266	NC_017641.1|gene3254|UMNK88_3293
UMNK88_3294	operon_1267	NC_017641.1|gene3255|UMNK88_3294
UMNK88_3295	operon_1267	NC_017641.1|gene3256|UMNK88_3295
UMNK88_3296	operon_1267	NC_017641.1|gene3257|UMNK88_3296
UMNK88_3297	operon_1267	NC_017641.1|gene3258|UMNK88_3297
UMNK88_3298	operon_1267	NC_017641.1|gene3259|UMNK88_3298
UMNK88_3299	operon_1267	NC_017641.1|gene3260|UMNK88_3299
UMNK88_3300	operon_1267	NC_017641.1|gene3261|UMNK88_3300
UMNK88_3301	operon_1268	NC_017641.1|gene3262|UMNK88_3301
UMNK88_3302	operon_1268	NC_017641.1|gene3263|UMNK88_3302
UMNK88_3303	operon_1268	NC_017641.1|gene3264|UMNK88_3303
UMNK88_3304	operon_1268	NC_017641.1|gene3265|UMNK88_3304
UMNK88_3305	operon_1268	NC_017641.1|gene3266|UMNK88_3305
UMNK88_3306	operon_1268	NC_017641.1|gene3267|UMNK88_3306
UMNK88_3307	operon_1269	NC_017641.1|gene3268|UMNK88_3307
UMNK88_3308	operon_1269	NC_017641.1|gene3269|UMNK88_3308
UMNK88_3309	operon_1269	NC_017641.1|gene3270|UMNK88_3309
UMNK88_3310	operon_1269	NC_017641.1|gene3271|UMNK88_3310
UMNK88_3311	operon_1269	NC_017641.1|gene3272|UMNK88_3311
UMNK88_3312	operon_1270	NC_017641.1|gene3273|UMNK88_3312
UMNK88_3313	operon_1270	NC_017641.1|gene3274|UMNK88_3313
UMNK88_3314	operon_1270	NC_017641.1|gene3275|UMNK88_3314
UMNK88_3315	operon_1270	NC_017641.1|gene3276|UMNK88_3315
UMNK88_3316	operon_1271	NC_017641.1|gene3277|UMNK88_3316
UMNK88_3318	operon_1272	NC_017641.1|gene3278|UMNK88_3318
UMNK88_3317	operon_1273	NC_017641.1|gene3279|UMNK88_3317
UMNK88_3319	operon_1274	NC_017641.1|gene3280|UMNK88_3319
UMNK88_3320	operon_1275	NC_017641.1|gene3281|UMNK88_3320
UMNK88_3321	operon_1276	NC_017641.1|gene3282|UMNK88_3321
UMNK88_3322	operon_1276	NC_017641.1|gene3283|UMNK88_3322
UMNK88_3323	operon_1276	NC_017641.1|gene3284|UMNK88_3323|conserved hypothetical%3B pseudogene%3B possible frameshift
UMNK88_t54	operon_1276	NC_017641.1|gene3285|UMNK88_t54
UMNK88_3326	operon_1277	NC_017641.1|gene3286|UMNK88_3326
UMNK88_3327	operon_1277	NC_017641.1|gene3287|UMNK88_3327
UMNK88_3328	operon_1278	NC_017641.1|gene3288|UMNK88_3328
UMNK88_3329	operon_1278	NC_017641.1|gene3289|UMNK88_3329
UMNK88_3330	operon_1278	NC_017641.1|gene3290|UMNK88_3330
UMNK88_3331	operon_1278	NC_017641.1|gene3291|UMNK88_3331|gabT
UMNK88_3332	operon_1278	NC_017641.1|gene3292|UMNK88_3332|gabP
UMNK88_3334	operon_1278	NC_017641.1|gene3293|UMNK88_3334
UMNK88_3333	operon_1279	NC_017641.1|gene3294|UMNK88_3333
UMNK88_3335	operon_1280	NC_017641.1|gene3295|UMNK88_3335
UMNK88_3336	operon_1281	NC_017641.1|gene3296|UMNK88_3336
UMNK88_3337	operon_1281	NC_017641.1|gene3297|UMNK88_3337
UMNK88_3338	operon_1282	NC_017641.1|gene3298|UMNK88_3338
UMNK88_3339	operon_1283	NC_017641.1|gene3299|UMNK88_3339
UMNK88_3340	operon_1284	NC_017641.1|gene3300|UMNK88_3340
UMNK88_3341	operon_1285	NC_017641.1|gene3301|UMNK88_3341
UMNK88_3342	operon_1286	NC_017641.1|gene3302|UMNK88_3342|nrdH
UMNK88_3343	operon_1286	NC_017641.1|gene3303|UMNK88_3343
UMNK88_3344	operon_1286	NC_017641.1|gene3304|UMNK88_3344
UMNK88_3345	operon_1286	NC_017641.1|gene3305|UMNK88_3345
UMNK88_3346	operon_1286	NC_017641.1|gene3306|UMNK88_3346|proV
UMNK88_3347	operon_1286	NC_017641.1|gene3307|UMNK88_3347
UMNK88_3348	operon_1287	NC_017641.1|gene3308|UMNK88_3348
UMNK88_3349	operon_1288	NC_017641.1|gene3309|UMNK88_3349
UMNK88_3350	operon_1288	NC_017641.1|gene3310|UMNK88_3350
UMNK88_3351	operon_1288	NC_017641.1|gene3311|UMNK88_3351
UMNK88_3352	operon_1288	NC_017641.1|gene3312|UMNK88_3352
UMNK88_3353	operon_1288	NC_017641.1|gene3313|UMNK88_3353
UMNK88_3354	operon_1289	NC_017641.1|gene3314|UMNK88_3354
UMNK88_3355	operon_1290	NC_017641.1|gene3315|UMNK88_3355
UMNK88_3356	operon_1290	NC_017641.1|gene3316|UMNK88_3356
UMNK88_3357	operon_1291	NC_017641.1|gene3317|UMNK88_3357
UMNK88_3358	operon_1291	NC_017641.1|gene3318|UMNK88_3358|gshA
UMNK88_3359	operon_1291	NC_017641.1|gene3319|UMNK88_3359
UMNK88_3360	operon_1291	NC_017641.1|gene3320|UMNK88_3360
UMNK88_t55	operon_1291	NC_017641.1|gene3321|UMNK88_t55
UMNK88_t56	operon_1291	NC_017641.1|gene3322|UMNK88_t56
UMNK88_t57	operon_1291	NC_017641.1|gene3323|UMNK88_t57
UMNK88_t58	operon_1291	NC_017641.1|gene3324|UMNK88_t58
UMNK88_t59	operon_1291	NC_017641.1|gene3325|UMNK88_t59
UMNK88_3366	operon_1291	NC_017641.1|gene3326|UMNK88_3366|csrA
UMNK88_3367	operon_1292	NC_017641.1|gene3327|UMNK88_3367
UMNK88_3368	operon_1293	NC_017641.1|gene3328|UMNK88_3368|alaS
UMNK88_3369	operon_1294	NC_017641.1|gene3329|UMNK88_3369
UMNK88_3370	operon_1295	NC_017641.1|gene3330|UMNK88_3370
UMNK88_3371	operon_1295	NC_017641.1|gene3331|UMNK88_3371|recA
UMNK88_3372	operon_1295	NC_017641.1|gene3332|UMNK88_3372
UMNK88_3373	operon_1295	NC_017641.1|gene3333|UMNK88_3373|mltB
UMNK88_3374	operon_1296	NC_017641.1|gene3334|UMNK88_3374
UMNK88_3375	operon_1296	NC_017641.1|gene3335|UMNK88_3375
UMNK88_3376	operon_1296	NC_017641.1|gene3336|UMNK88_3376
UMNK88_3377	operon_1296	NC_017641.1|gene3337|UMNK88_3377
UMNK88_3378	operon_1296	NC_017641.1|gene3338|UMNK88_3378
UMNK88_3379	operon_1296	NC_017641.1|gene3339|UMNK88_3379
UMNK88_3381	operon_1296	NC_017641.1|gene3340|UMNK88_3381
UMNK88_3380	operon_1297	NC_017641.1|gene3341|UMNK88_3380
UMNK88_3382	operon_1298	NC_017641.1|gene3342|UMNK88_3382
UMNK88_3383	operon_1298	NC_017641.1|gene3343|UMNK88_3383
UMNK88_3384	operon_1299	NC_017641.1|gene3344|UMNK88_3384|hypF
UMNK88_3385	operon_1299	NC_017641.1|gene3345|UMNK88_3385
UMNK88_3386	operon_1299	NC_017641.1|gene3346|UMNK88_3386
UMNK88_3387	operon_1299	NC_017641.1|gene3347|UMNK88_3387
UMNK88_3388	operon_1300	NC_017641.1|gene3348|UMNK88_3388
UMNK88_3389	operon_1300	NC_017641.1|gene3349|UMNK88_3389
UMNK88_3390	operon_1301	NC_017641.1|gene3350|UMNK88_3390|hycI
UMNK88_3391	operon_1301	NC_017641.1|gene3351|UMNK88_3391
UMNK88_3392	operon_1301	NC_017641.1|gene3352|UMNK88_3392
UMNK88_3393	operon_1301	NC_017641.1|gene3353|UMNK88_3393
UMNK88_3394	operon_1301	NC_017641.1|gene3354|UMNK88_3394
UMNK88_3395	operon_1301	NC_017641.1|gene3355|UMNK88_3395
UMNK88_3396	operon_1301	NC_017641.1|gene3356|UMNK88_3396
UMNK88_3397	operon_1301	NC_017641.1|gene3357|UMNK88_3397
UMNK88_3398	operon_1302	NC_017641.1|gene3358|UMNK88_3398
UMNK88_3399	operon_1303	NC_017641.1|gene3359|UMNK88_3399|hypA
UMNK88_3400	operon_1303	NC_017641.1|gene3360|UMNK88_3400|hypB
UMNK88_3401	operon_1303	NC_017641.1|gene3361|UMNK88_3401|hypC
UMNK88_3402	operon_1303	NC_017641.1|gene3362|UMNK88_3402|hypD
UMNK88_3403	operon_1303	NC_017641.1|gene3363|UMNK88_3403|hypE
UMNK88_3404	operon_1303	NC_017641.1|gene3364|UMNK88_3404
UMNK88_3405	operon_1304	NC_017641.1|gene3365|UMNK88_3405
UMNK88_3406	operon_1304	NC_017641.1|gene3366|UMNK88_3406
UMNK88_3407	operon_1305	NC_017641.1|gene3367|UMNK88_3407|mutS
UMNK88_3408	operon_1305	NC_017641.1|gene3368|UMNK88_3408
UMNK88_3409	operon_1306	NC_017641.1|gene3369|UMNK88_3409
UMNK88_3410	operon_1307	NC_017641.1|gene3370|UMNK88_3410
UMNK88_3411	operon_1307	NC_017641.1|gene3371|UMNK88_3411
UMNK88_3412	operon_1307	NC_017641.1|gene3372|UMNK88_3412
UMNK88_3413	operon_1307	NC_017641.1|gene3373|UMNK88_3413
UMNK88_3414	operon_1308	NC_017641.1|gene3374|UMNK88_3414
UMNK88_3415	operon_1309	NC_017641.1|gene3375|UMNK88_3415|rpoS
UMNK88_3416	operon_1309	NC_017641.1|gene3376|UMNK88_3416
UMNK88_3417	operon_1310	NC_017641.1|gene3377|UMNK88_3417
UMNK88_3418	operon_1311	NC_017641.1|gene3378|UMNK88_3418|pcm
UMNK88_3419	operon_1311	NC_017641.1|gene3379|UMNK88_3419|surE
UMNK88_3420	operon_1311	NC_017641.1|gene3380|UMNK88_3420
UMNK88_3421	operon_1311	NC_017641.1|gene3381|UMNK88_3421|ispF
UMNK88_3422	operon_1311	NC_017641.1|gene3382|UMNK88_3422|ispD
UMNK88_3423	operon_1311	NC_017641.1|gene3383|UMNK88_3423
UMNK88_3424	operon_1311	NC_017641.1|gene3384|UMNK88_3424
UMNK88_3425	operon_1311	NC_017641.1|gene3385|UMNK88_3425
UMNK88_3426	operon_1311	NC_017641.1|gene3386|UMNK88_3426|cysC
UMNK88_3427	operon_1311	NC_017641.1|gene3387|UMNK88_3427|cysN
UMNK88_3428	operon_1311	NC_017641.1|gene3388|UMNK88_3428|cysD
UMNK88_3429	operon_1312	NC_017641.1|gene3389|UMNK88_3429
UMNK88_3430	operon_1312	NC_017641.1|gene3390|UMNK88_3430
UMNK88_3431	operon_1312	NC_017641.1|gene3391|UMNK88_3431
UMNK88_3432	operon_1312	NC_017641.1|gene3392|UMNK88_3432
UMNK88_3433	operon_1313	NC_017641.1|gene3393|UMNK88_3433
UMNK88_3434	operon_1313	NC_017641.1|gene3394|UMNK88_3434|cas1
UMNK88_3435	operon_1313	NC_017641.1|gene3395|UMNK88_3435
UMNK88_3436	operon_1313	NC_017641.1|gene3396|UMNK88_3436
UMNK88_3437	operon_1314	NC_017641.1|gene3397|UMNK88_3437
UMNK88_3438	operon_1314	NC_017641.1|gene3398|UMNK88_3438
UMNK88_3439	operon_1314	NC_017641.1|gene3399|UMNK88_3439
UMNK88_3440	operon_1314	NC_017641.1|gene3400|UMNK88_3440
UMNK88_3441	operon_1314	NC_017641.1|gene3401|UMNK88_3441|cas3
UMNK88_3442	operon_1314	NC_017641.1|gene3402|UMNK88_3442|cysH
UMNK88_3443	operon_1314	NC_017641.1|gene3403|UMNK88_3443|cysI
UMNK88_3444	operon_1314	NC_017641.1|gene3404|UMNK88_3444
UMNK88_3445	operon_1314	NC_017641.1|gene3405|UMNK88_3445
UMNK88_3446	operon_1315	NC_017641.1|gene3406|UMNK88_3446|queD
UMNK88_3447	operon_1315	NC_017641.1|gene3407|UMNK88_3447
UMNK88_3448	operon_1315	NC_017641.1|gene3408|UMNK88_3448
UMNK88_3449	operon_1315	NC_017641.1|gene3409|UMNK88_3449
UMNK88_3450	operon_1316	NC_017641.1|gene3410|UMNK88_3450
UMNK88_3451	operon_1316	NC_017641.1|gene3411|UMNK88_3451
UMNK88_3452	operon_1316	NC_017641.1|gene3412|UMNK88_3452
UMNK88_3453	operon_1317	NC_017641.1|gene3413|UMNK88_3453
UMNK88_3454	operon_1317	NC_017641.1|gene3414|UMNK88_3454
UMNK88_3455	operon_1318	NC_017641.1|gene3415|UMNK88_3455
UMNK88_3456	operon_1318	NC_017641.1|gene3416|UMNK88_3456
UMNK88_3457	operon_1318	NC_017641.1|gene3417|UMNK88_3457
UMNK88_3458	operon_1318	NC_017641.1|gene3418|UMNK88_3458
UMNK88_3459	operon_1319	NC_017641.1|gene3419|UMNK88_3459
UMNK88_3460	operon_1320	NC_017641.1|gene3420|UMNK88_3460
UMNK88_3461	operon_1320	NC_017641.1|gene3421|UMNK88_3461
UMNK88_3462	operon_1321	NC_017641.1|gene3422|UMNK88_3462|eno
UMNK88_3463	operon_1321	NC_017641.1|gene3423|UMNK88_3463|pyrG
UMNK88_3464	operon_1321	NC_017641.1|gene3424|UMNK88_3464
UMNK88_3465	operon_1321	NC_017641.1|gene3425|UMNK88_3465
UMNK88_3466	operon_1321	NC_017641.1|gene3426|UMNK88_3466
UMNK88_3467	operon_1321	NC_017641.1|gene3427|UMNK88_3467
UMNK88_3468	operon_1321	NC_017641.1|gene3428|UMNK88_3468|rumA
UMNK88_3469	operon_1322	NC_017641.1|gene3429|UMNK88_3469
UMNK88_3470	operon_1323	NC_017641.1|gene3430|UMNK88_3470|gudD
UMNK88_3471	operon_1323	NC_017641.1|gene3431|UMNK88_3471
UMNK88_3472	operon_1323	NC_017641.1|gene3432|UMNK88_3472
UMNK88_3473	operon_1323	NC_017641.1|gene3433|UMNK88_3473
UMNK88_3474	operon_1324	NC_017641.1|gene3434|UMNK88_3474
UMNK88_3475	operon_1325	NC_017641.1|gene3435|UMNK88_3475
UMNK88_3476	operon_1325	NC_017641.1|gene3436|UMNK88_3476
UMNK88_3477	operon_1325	NC_017641.1|gene3437|UMNK88_3477
UMNK88_3478	operon_1325	NC_017641.1|gene3438|UMNK88_3478
UMNK88_3479	operon_1326	NC_017641.1|gene3439|UMNK88_3479|queF
UMNK88_3480	operon_1326	NC_017641.1|gene3440|UMNK88_3480
UMNK88_3481	operon_1327	NC_017641.1|gene3441|UMNK88_3481|stp
UMNK88_3482	operon_1327	NC_017641.1|gene3442|UMNK88_3482|sdaA
UMNK88_3483	operon_1327	NC_017641.1|gene3443|UMNK88_3483
UMNK88_3484	operon_1328	NC_017641.1|gene3444|UMNK88_3484|fucO
UMNK88_3485	operon_1328	NC_017641.1|gene3445|UMNK88_3485|fucA
UMNK88_3486	operon_1329	NC_017641.1|gene3446|UMNK88_3486|fucP
UMNK88_3487	operon_1329	NC_017641.1|gene3447|UMNK88_3487|fucI
UMNK88_3488	operon_1329	NC_017641.1|gene3448|UMNK88_3488|fucK
UMNK88_3489	operon_1329	NC_017641.1|gene3449|UMNK88_3489
UMNK88_3490	operon_1330	NC_017641.1|gene3450|UMNK88_3490
UMNK88_3491	operon_1331	NC_017641.1|gene3451|UMNK88_3491
UMNK88_3492	operon_1331	NC_017641.1|gene3452|UMNK88_3492
UMNK88_3493	operon_1331	NC_017641.1|gene3453|UMNK88_3493
UMNK88_3494	operon_1332	NC_017641.1|gene3454|UMNK88_3494
UMNK88_3495	operon_1333	NC_017641.1|gene3455|UMNK88_3495|csdA
UMNK88_3496	operon_1333	NC_017641.1|gene3456|UMNK88_3496|csdE
UMNK88_3497	operon_1334	NC_017641.1|gene3457|UMNK88_3497
UMNK88_3498	operon_1335	NC_017641.1|gene3458|UMNK88_3498
UMNK88_t60	operon_1336	NC_017641.1|gene3459|UMNK88_t60
UMNK88_t61	operon_1336	NC_017641.1|gene3460|UMNK88_t61
UMNK88_3501	operon_1337	NC_017641.1|gene3461|UMNK88_3501
UMNK88_3502	operon_1338	NC_017641.1|gene3462|UMNK88_3502|argA
UMNK88_3503	operon_1339	NC_017641.1|gene3463|UMNK88_3503|recD
UMNK88_3504	operon_1339	NC_017641.1|gene3464|UMNK88_3504|recB
UMNK88_3505	operon_1339	NC_017641.1|gene3465|UMNK88_3505
UMNK88_3506	operon_1339	NC_017641.1|gene3466|UMNK88_3506|recC
UMNK88_3507	operon_1339	NC_017641.1|gene3467|UMNK88_3507
UMNK88_3508	operon_1339	NC_017641.1|gene3468|UMNK88_3508
UMNK88_3509	operon_1339	NC_017641.1|gene3469|UMNK88_3509
UMNK88_3510	operon_1339	NC_017641.1|gene3470|UMNK88_3510
UMNK88_3511	operon_1339	NC_017641.1|gene3471|UMNK88_3511|thyA
UMNK88_3512	operon_1339	NC_017641.1|gene3472|UMNK88_3512|lgt
UMNK88_3513	operon_1339	NC_017641.1|gene3473|UMNK88_3513|ptsP
UMNK88_3514	operon_1339	NC_017641.1|gene3474|UMNK88_3514
UMNK88_3515	operon_1340	NC_017641.1|gene3475|UMNK88_3515
UMNK88_3516	operon_1340	NC_017641.1|gene3476|UMNK88_3516|mutH
UMNK88_3517	operon_1340	NC_017641.1|gene3477|UMNK88_3517
UMNK88_3518	operon_1340	NC_017641.1|gene3478|UMNK88_3518
UMNK88_3519	operon_1340	NC_017641.1|gene3479|UMNK88_3519
UMNK88_3520	operon_1341	NC_017641.1|gene3480|UMNK88_3520
UMNK88_3521	operon_1341	NC_017641.1|gene3481|UMNK88_3521
UMNK88_3522	operon_1342	NC_017641.1|gene3482|UMNK88_3522
UMNK88_3523	operon_1343	NC_017641.1|gene3483|UMNK88_3523|lysA
UMNK88_3525	operon_1344	NC_017641.1|gene3484|UMNK88_3525
UMNK88_3524	operon_1345	NC_017641.1|gene3485|UMNK88_3524
UMNK88_3526	operon_1346	NC_017641.1|gene3486|UMNK88_3526
UMNK88_3527	operon_1346	NC_017641.1|gene3487|UMNK88_3527|kduD
UMNK88_3528	operon_1346	NC_017641.1|gene3488|UMNK88_3528
UMNK88_3529	operon_1346	NC_017641.1|gene3489|UMNK88_3529
UMNK88_3530	operon_1347	NC_017641.1|gene3490|UMNK88_3530|stp
UMNK88_3531	operon_1347	NC_017641.1|gene3491|UMNK88_3531
UMNK88_3532	operon_1348	NC_017641.1|gene3492|UMNK88_3532
UMNK88_3533	operon_1349	NC_017641.1|gene3493|UMNK88_3533
UMNK88_3534	operon_1349	NC_017641.1|gene3494|UMNK88_3534
UMNK88_3535	operon_1350	NC_017641.1|gene3495|UMNK88_3535
UMNK88_3536	operon_1351	NC_017641.1|gene3496|UMNK88_3536
UMNK88_3537	operon_1352	NC_017641.1|gene3497|UMNK88_3537
UMNK88_3538	operon_1352	NC_017641.1|gene3498|UMNK88_3538
UMNK88_3539	operon_1353	NC_017641.1|gene3499|UMNK88_3539
UMNK88_3540	operon_1353	NC_017641.1|gene3500|UMNK88_3540
UMNK88_3541	operon_1353	NC_017641.1|gene3501|UMNK88_3541
UMNK88_3542	operon_1353	NC_017641.1|gene3502|UMNK88_3542
UMNK88_3543	operon_1353	NC_017641.1|gene3503|UMNK88_3543
UMNK88_3544	operon_1353	NC_017641.1|gene3504|UMNK88_3544
UMNK88_3545	operon_1353	NC_017641.1|gene3505|UMNK88_3545
UMNK88_3546	operon_1353	NC_017641.1|gene3506|UMNK88_3546
UMNK88_3547	operon_1353	NC_017641.1|gene3507|UMNK88_3547|eprI
UMNK88_3548	operon_1353	NC_017641.1|gene3508|UMNK88_3548
UMNK88_3549	operon_1353	NC_017641.1|gene3509|UMNK88_3549|spaS
UMNK88_3551	operon_1353	NC_017641.1|gene3510|UMNK88_3551|epaR
UMNK88_3552	operon_1353	NC_017641.1|gene3511|UMNK88_3552
UMNK88_3553	operon_1353	NC_017641.1|gene3512|UMNK88_3553
UMNK88_3554	operon_1353	NC_017641.1|gene3513|UMNK88_3554
UMNK88_3555	operon_1353	NC_017641.1|gene3514|UMNK88_3555
UMNK88_t62	operon_1353	NC_017641.1|gene3515|UMNK88_t62
UMNK88_3557	operon_1353	NC_017641.1|gene3516|UMNK88_3557
UMNK88_3558	operon_1354	NC_017641.1|gene3517|UMNK88_3558
UMNK88_3559	operon_1354	NC_017641.1|gene3518|UMNK88_3559
UMNK88_3560	operon_1354	NC_017641.1|gene3519|UMNK88_3560
UMNK88_3561	operon_1355	NC_017641.1|gene3520|UMNK88_3561
UMNK88_3562	operon_1356	NC_017641.1|gene3521|UMNK88_3562
UMNK88_3563	operon_1356	NC_017641.1|gene3522|UMNK88_3563
UMNK88_3564	operon_1356	NC_017641.1|gene3523|UMNK88_3564
UMNK88_3565	operon_1357	NC_017641.1|gene3524|UMNK88_3565|hydA
UMNK88_3566	operon_1357	NC_017641.1|gene3525|UMNK88_3566|arcC
UMNK88_3567	operon_1358	NC_017641.1|gene3526|UMNK88_3567
UMNK88_3568	operon_1359	NC_017641.1|gene3527|UMNK88_3568
UMNK88_3569	operon_1360	NC_017641.1|gene3528|UMNK88_3569
UMNK88_3570	operon_1360	NC_017641.1|gene3529|UMNK88_3570
UMNK88_3571	operon_1360	NC_017641.1|gene3530|UMNK88_3571
UMNK88_3572	operon_1361	NC_017641.1|gene3531|UMNK88_3572
UMNK88_3573	operon_1361	NC_017641.1|gene3532|UMNK88_3573
UMNK88_3574	operon_1362	NC_017641.1|gene3533|UMNK88_3574|pbuX
UMNK88_3575	operon_1362	NC_017641.1|gene3534|UMNK88_3575|guaD
UMNK88_3576	operon_1362	NC_017641.1|gene3535|UMNK88_3576
UMNK88_3577	operon_1363	NC_017641.1|gene3536|UMNK88_3577
UMNK88_3578	operon_1363	NC_017641.1|gene3537|UMNK88_3578
UMNK88_3579	operon_1364	NC_017641.1|gene3538|UMNK88_3579|pbuX
UMNK88_3580	operon_1364	NC_017641.1|gene3539|UMNK88_3580
UMNK88_3581	operon_1364	NC_017641.1|gene3540|UMNK88_3581|idi
UMNK88_3582	operon_1365	NC_017641.1|gene3541|UMNK88_3582|lysS
UMNK88_3583	operon_1365	NC_017641.1|gene3542|UMNK88_3583|prfB
UMNK88_3584	operon_1366	NC_017641.1|gene3543|UMNK88_3584
UMNK88_3585	operon_1367	NC_017641.1|gene3544|UMNK88_3585|recJ
UMNK88_3586	operon_1367	NC_017641.1|gene3545|UMNK88_3586
UMNK88_3587	operon_1367	NC_017641.1|gene3546|UMNK88_3587|xerD
UMNK88_3588	operon_1368	NC_017641.1|gene3547|UMNK88_3588
UMNK88_3589	operon_1369	NC_017641.1|gene3548|UMNK88_3589
UMNK88_3590	operon_1369	NC_017641.1|gene3549|UMNK88_3590
UMNK88_3591	operon_1370	NC_017641.1|gene3550|UMNK88_3591
UMNK88_3592	operon_1370	NC_017641.1|gene3551|UMNK88_3592
UMNK88_3593	operon_1371	NC_017641.1|gene3552|UMNK88_3593
UMNK88_3594	operon_1371	NC_017641.1|gene3553|UMNK88_3594
UMNK88_3595	operon_1372	NC_017641.1|gene3554|UMNK88_3595
UMNK88_3596	operon_1373	NC_017641.1|gene3555|UMNK88_3596
UMNK88_3597	operon_1373	NC_017641.1|gene3556|UMNK88_3597|gcvP
UMNK88_3598	operon_1373	NC_017641.1|gene3557|UMNK88_3598|gcvH
UMNK88_3599	operon_1373	NC_017641.1|gene3558|UMNK88_3599|gcvT
UMNK88_3600	operon_1374	NC_017641.1|gene3559|UMNK88_3600
UMNK88_3601	operon_1375	NC_017641.1|gene3560|UMNK88_3601
UMNK88_3602	operon_1375	NC_017641.1|gene3561|UMNK88_3602|ubiH
UMNK88_3603	operon_1375	NC_017641.1|gene3562|UMNK88_3603
UMNK88_3604	operon_1375	NC_017641.1|gene3563|UMNK88_3604
UMNK88_3605	operon_1376	NC_017641.1|gene3564|UMNK88_3605
UMNK88_3606	operon_1376	NC_017641.1|gene3565|UMNK88_3606
UMNK88_3607	operon_1377	NC_017641.1|gene3566|UMNK88_3607
UMNK88_3608	operon_1378	NC_017641.1|gene3567|UMNK88_3608
UMNK88_3609	operon_1379	NC_017641.1|gene3568|UMNK88_3609|rpiA
UMNK88_3610	operon_1379	NC_017641.1|gene3569|UMNK88_3610
UMNK88_3611	operon_1380	NC_017641.1|gene3570|UMNK88_3611|argP
UMNK88_3612	operon_1380	NC_017641.1|gene3571|UMNK88_3612
UMNK88_3613	operon_1380	NC_017641.1|gene3572|UMNK88_3613
UMNK88_3614	operon_1380	NC_017641.1|gene3573|UMNK88_3614
UMNK88_3616	operon_1380	NC_017641.1|gene3574|UMNK88_3616
UMNK88_3615	operon_1381	NC_017641.1|gene3575|UMNK88_3615
UMNK88_3618	operon_1382	NC_017641.1|gene3576|UMNK88_3618
UMNK88_3617	operon_1383	NC_017641.1|gene3577|UMNK88_3617
UMNK88_3619	operon_1383	NC_017641.1|gene3578|UMNK88_3619|argO
UMNK88_3620	operon_1384	NC_017641.1|gene3579|UMNK88_3620
UMNK88_3621	operon_1384	NC_017641.1|gene3580|UMNK88_3621|fbaA
UMNK88_3622	operon_1385	NC_017641.1|gene3581|UMNK88_3622
UMNK88_3623	operon_1385	NC_017641.1|gene3582|UMNK88_3623|epd
UMNK88_3624	operon_1385	NC_017641.1|gene3583|UMNK88_3624
UMNK88_3625	operon_1385	NC_017641.1|gene3584|UMNK88_3625
UMNK88_3626	operon_1385	NC_017641.1|gene3585|UMNK88_3626|glpX
UMNK88_3627	operon_1385	NC_017641.1|gene3586|UMNK88_3627
UMNK88_3628	operon_1385	NC_017641.1|gene3587|UMNK88_3628|mtlA
UMNK88_3629	operon_1385	NC_017641.1|gene3588|UMNK88_3629
UMNK88_3630	operon_1385	NC_017641.1|gene3589|UMNK88_3630
UMNK88_3631	operon_1385	NC_017641.1|gene3590|UMNK88_3631|tkt
UMNK88_3632	operon_1386	NC_017641.1|gene3591|UMNK88_3632
UMNK88_3633	operon_1387	NC_017641.1|gene3592|UMNK88_3633|speB
UMNK88_3634	operon_1387	NC_017641.1|gene3593|UMNK88_3634|speA
UMNK88_3635	operon_1387	NC_017641.1|gene3594|UMNK88_3635
UMNK88_3636	operon_1388	NC_017641.1|gene3595|UMNK88_3636
UMNK88_3637	operon_1389	NC_017641.1|gene3596|UMNK88_3637
UMNK88_3638	operon_1389	NC_017641.1|gene3597|UMNK88_3638|metK
UMNK88_3639	operon_1389	NC_017641.1|gene3598|UMNK88_3639
UMNK88_3640	operon_1389	NC_017641.1|gene3599|UMNK88_3640
UMNK88_3641	operon_1389	NC_017641.1|gene3600|UMNK88_3641
UMNK88_3642	operon_1389	NC_017641.1|gene3601|UMNK88_3642
UMNK88_3643	operon_1389	NC_017641.1|gene3602|UMNK88_3643|gshB
UMNK88_3644	operon_1389	NC_017641.1|gene3603|UMNK88_3644
UMNK88_3645	operon_1389	NC_017641.1|gene3604|UMNK88_3645
UMNK88_3646	operon_1390	NC_017641.1|gene3605|UMNK88_3646
UMNK88_3647	operon_1390	NC_017641.1|gene3606|UMNK88_3647
UMNK88_3648	operon_1391	NC_017641.1|gene3607|UMNK88_3648
UMNK88_3649	operon_1391	NC_017641.1|gene3608|UMNK88_3649
UMNK88_3650	operon_1391	NC_017641.1|gene3609|UMNK88_3650
UMNK88_3651	operon_1391	NC_017641.1|gene3610|UMNK88_3651|rdgB
UMNK88_3652	operon_1391	NC_017641.1|gene3611|UMNK88_3652
UMNK88_3653	operon_1392	NC_017641.1|gene3612|UMNK88_3653
UMNK88_3654	operon_1393	NC_017641.1|gene3613|UMNK88_3654
UMNK88_3655	operon_1394	NC_017641.1|gene3614|UMNK88_3655
UMNK88_3656	operon_1395	NC_017641.1|gene3615|UMNK88_3656
UMNK88_3657	operon_1395	NC_017641.1|gene3616|UMNK88_3657
UMNK88_3658	operon_1395	NC_017641.1|gene3617|UMNK88_3658|trmB
UMNK88_3659	operon_1396	NC_017641.1|gene3618|UMNK88_3659|mutY
UMNK88_3660	operon_1396	NC_017641.1|gene3619|UMNK88_3660
UMNK88_3661	operon_1397	NC_017641.1|gene3620|UMNK88_3661
UMNK88_3662	operon_1398	NC_017641.1|gene3621|UMNK88_3662
UMNK88_3663	operon_1399	NC_017641.1|gene3622|UMNK88_3663
UMNK88_3664	operon_1400	NC_017641.1|gene3623|UMNK88_3664
UMNK88_3665	operon_1401	NC_017641.1|gene3624|UMNK88_3665
UMNK88_t63	operon_1402	NC_017641.1|gene3625|UMNK88_t63
UMNK88_3667	operon_1402	NC_017641.1|gene3626|UMNK88_3667
UMNK88_3668	operon_1403	NC_017641.1|gene3627|UMNK88_3668
UMNK88_3669	operon_1404	NC_017641.1|gene3628|UMNK88_3669
UMNK88_3670	operon_1404	NC_017641.1|gene3629|UMNK88_3670
UMNK88_3671	operon_1405	NC_017641.1|gene3630|UMNK88_3671
UMNK88_3672	operon_1405	NC_017641.1|gene3631|UMNK88_3672
UMNK88_3673	operon_1405	NC_017641.1|gene3632|UMNK88_3673
UMNK88_3674	operon_1406	NC_017641.1|gene3633|UMNK88_3674
UMNK88_3675	operon_1407	NC_017641.1|gene3634|UMNK88_3675
UMNK88_3676	operon_1408	NC_017641.1|gene3635|UMNK88_3676
UMNK88_3677	operon_1409	NC_017641.1|gene3636|UMNK88_3677
UMNK88_3678	operon_1410	NC_017641.1|gene3637|UMNK88_3678
UMNK88_3679	operon_1410	NC_017641.1|gene3638|UMNK88_3679
UMNK88_3680	operon_1410	NC_017641.1|gene3639|UMNK88_3680
UMNK88_3681	operon_1411	NC_017641.1|gene3640|UMNK88_3681
UMNK88_3682	operon_1411	NC_017641.1|gene3641|UMNK88_3682
UMNK88_3683	operon_1411	NC_017641.1|gene3642|UMNK88_3683
UMNK88_3684	operon_1411	NC_017641.1|gene3643|UMNK88_3684
UMNK88_3685	operon_1412	NC_017641.1|gene3644|UMNK88_3685
UMNK88_3686	operon_1412	NC_017641.1|gene3645|UMNK88_3686
UMNK88_3687	operon_1412	NC_017641.1|gene3646|UMNK88_3687
UMNK88_3688	operon_1412	NC_017641.1|gene3647|UMNK88_3688
UMNK88_3689	operon_1413	NC_017641.1|gene3648|UMNK88_3689
UMNK88_3690	operon_1414	NC_017641.1|gene3649|UMNK88_3690
UMNK88_3691	operon_1414	NC_017641.1|gene3650|UMNK88_3691
UMNK88_3692	operon_1414	NC_017641.1|gene3651|UMNK88_3692
UMNK88_3693	operon_1414	NC_017641.1|gene3652|UMNK88_3693
UMNK88_3694	operon_1415	NC_017641.1|gene3653|UMNK88_3694
UMNK88_3695	operon_1415	NC_017641.1|gene3654|UMNK88_3695
UMNK88_3696	operon_1416	NC_017641.1|gene3655|UMNK88_3696
UMNK88_3697	operon_1417	NC_017641.1|gene3656|UMNK88_3697
UMNK88_3698	operon_1417	NC_017641.1|gene3657|UMNK88_3698
UMNK88_3699	operon_1417	NC_017641.1|gene3658|UMNK88_3699
UMNK88_3700	operon_1418	NC_017641.1|gene3659|UMNK88_3700
UMNK88_3701	operon_1419	NC_017641.1|gene3660|UMNK88_3701
UMNK88_3702	operon_1419	NC_017641.1|gene3661|UMNK88_3702
UMNK88_3703	operon_1419	NC_017641.1|gene3662|UMNK88_3703
UMNK88_3704	operon_1419	NC_017641.1|gene3663|UMNK88_3704
UMNK88_3705	operon_1420	NC_017641.1|gene3664|UMNK88_3705
UMNK88_3706	operon_1420	NC_017641.1|gene3665|UMNK88_3706
UMNK88_3707	operon_1421	NC_017641.1|gene3666|UMNK88_3707
UMNK88_3708	operon_1422	NC_017641.1|gene3667|UMNK88_3708
UMNK88_3709	operon_1422	NC_017641.1|gene3668|UMNK88_3709|gspL
UMNK88_3710	operon_1422	NC_017641.1|gene3669|UMNK88_3710
UMNK88_3711	operon_1422	NC_017641.1|gene3670|UMNK88_3711|gspJ
UMNK88_3712	operon_1422	NC_017641.1|gene3671|UMNK88_3712|gspI
UMNK88_3713	operon_1422	NC_017641.1|gene3672|UMNK88_3713
UMNK88_3714	operon_1422	NC_017641.1|gene3673|UMNK88_3714|gspG
UMNK88_3715	operon_1422	NC_017641.1|gene3674|UMNK88_3715|gspF
UMNK88_3716	operon_1422	NC_017641.1|gene3675|UMNK88_3716|gspE
UMNK88_3717	operon_1422	NC_017641.1|gene3676|UMNK88_3717|gspD
UMNK88_3718	operon_1422	NC_017641.1|gene3677|UMNK88_3718|gspC
UMNK88_3719	operon_1423	NC_017641.1|gene3678|UMNK88_3719
UMNK88_3720	operon_1423	NC_017641.1|gene3679|UMNK88_3720
UMNK88_3721	operon_1424	NC_017641.1|gene3680|UMNK88_3721
UMNK88_3722	operon_1425	NC_017641.1|gene3681|UMNK88_3722
UMNK88_3723	operon_1426	NC_017641.1|gene3682|UMNK88_3723
UMNK88_3724	operon_1427	NC_017641.1|gene3683|UMNK88_3724
UMNK88_3725	operon_1427	NC_017641.1|gene3684|UMNK88_3725|glcB
UMNK88_3726	operon_1427	NC_017641.1|gene3685|UMNK88_3726
UMNK88_3727	operon_1427	NC_017641.1|gene3686|UMNK88_3727
UMNK88_3728	operon_1427	NC_017641.1|gene3687|UMNK88_3728
UMNK88_3729	operon_1427	NC_017641.1|gene3688|UMNK88_3729|glcD
UMNK88_3730	operon_1428	NC_017641.1|gene3689|UMNK88_3730
UMNK88_3731	operon_1429	NC_017641.1|gene3690|UMNK88_3731
UMNK88_3732	operon_1430	NC_017641.1|gene3691|UMNK88_3732
UMNK88_3733	operon_1430	NC_017641.1|gene3692|UMNK88_3733
UMNK88_3734	operon_1430	NC_017641.1|gene3693|UMNK88_3734
UMNK88_3735	operon_1430	NC_017641.1|gene3694|UMNK88_3735
UMNK88_3736	operon_1431	NC_017641.1|gene3695|UMNK88_3736
UMNK88_3737	operon_1431	NC_017641.1|gene3696|UMNK88_3737
UMNK88_3738	operon_1431	NC_017641.1|gene3697|UMNK88_3738
UMNK88_3739	operon_1431	NC_017641.1|gene3698|UMNK88_3739
UMNK88_3740	operon_1431	NC_017641.1|gene3699|UMNK88_3740
UMNK88_3741	operon_1431	NC_017641.1|gene3700|UMNK88_3741
UMNK88_3742	operon_1431	NC_017641.1|gene3701|UMNK88_3742
UMNK88_3743	operon_1432	NC_017641.1|gene3702|UMNK88_3743
UMNK88_3744	operon_1433	NC_017641.1|gene3703|UMNK88_3744
UMNK88_3745	operon_1434	NC_017641.1|gene3704|UMNK88_3745
UMNK88_3746	operon_1435	NC_017641.1|gene3705|UMNK88_3746
UMNK88_3747	operon_1436	NC_017641.1|gene3706|UMNK88_3747|hypC
UMNK88_3748	operon_1436	NC_017641.1|gene3707|UMNK88_3748|hypA
UMNK88_3749	operon_1436	NC_017641.1|gene3708|UMNK88_3749
UMNK88_3750	operon_1436	NC_017641.1|gene3709|UMNK88_3750|hybD
UMNK88_3751	operon_1436	NC_017641.1|gene3710|UMNK88_3751
UMNK88_3752	operon_1436	NC_017641.1|gene3711|UMNK88_3752
UMNK88_3753	operon_1436	NC_017641.1|gene3712|UMNK88_3753
UMNK88_3754	operon_1436	NC_017641.1|gene3713|UMNK88_3754
UMNK88_3755	operon_1436	NC_017641.1|gene3714|UMNK88_3755
UMNK88_3756	operon_1436	NC_017641.1|gene3715|UMNK88_3756
UMNK88_3757	operon_1437	NC_017641.1|gene3716|UMNK88_3757
UMNK88_3758	operon_1438	NC_017641.1|gene3717|UMNK88_3758
UMNK88_3759	operon_1439	NC_017641.1|gene3718|UMNK88_3759
UMNK88_3760	operon_1440	NC_017641.1|gene3719|UMNK88_3760|exbD
UMNK88_3761	operon_1440	NC_017641.1|gene3720|UMNK88_3761|exbB
UMNK88_3762	operon_1441	NC_017641.1|gene3721|UMNK88_3762|metC
UMNK88_3763	operon_1441	NC_017641.1|gene3722|UMNK88_3763
UMNK88_3764	operon_1442	NC_017641.1|gene3723|UMNK88_3764
UMNK88_3765	operon_1442	NC_017641.1|gene3724|UMNK88_3765
UMNK88_3766	operon_1443	NC_017641.1|gene3725|UMNK88_3766
UMNK88_3767	operon_1444	NC_017641.1|gene3726|UMNK88_3767
UMNK88_3768	operon_1444	NC_017641.1|gene3727|UMNK88_3768
UMNK88_3769	operon_1444	NC_017641.1|gene3728|UMNK88_3769
UMNK88_3770	operon_1444	NC_017641.1|gene3729|UMNK88_3770
UMNK88_3771	operon_1445	NC_017641.1|gene3730|UMNK88_3771
UMNK88_3772	operon_1446	NC_017641.1|gene3731|UMNK88_3772
UMNK88_3773	operon_1446	NC_017641.1|gene3732|UMNK88_3773
UMNK88_3774	operon_1446	NC_017641.1|gene3733|UMNK88_3774|parC
UMNK88_3775	operon_1447	NC_017641.1|gene3734|UMNK88_3775
UMNK88_3776	operon_1447	NC_017641.1|gene3735|UMNK88_3776
UMNK88_3777	operon_1448	NC_017641.1|gene3736|UMNK88_3777
UMNK88_3778	operon_1449	NC_017641.1|gene3737|UMNK88_3778
UMNK88_3779	operon_1450	NC_017641.1|gene3738|UMNK88_3779
UMNK88_3780	operon_1450	NC_017641.1|gene3739|UMNK88_3780
UMNK88_3781	operon_1451	NC_017641.1|gene3740|UMNK88_3781
UMNK88_3782	operon_1451	NC_017641.1|gene3741|UMNK88_3782
UMNK88_3783	operon_1452	NC_017641.1|gene3742|UMNK88_3783|parE
UMNK88_3784	operon_1452	NC_017641.1|gene3743|UMNK88_3784
UMNK88_3785	operon_1452	NC_017641.1|gene3744|UMNK88_3785
UMNK88_3786	operon_1452	NC_017641.1|gene3745|UMNK88_3786
UMNK88_3787	operon_1452	NC_017641.1|gene3746|UMNK88_3787
UMNK88_3788	operon_1453	NC_017641.1|gene3747|UMNK88_3788
UMNK88_3789	operon_1453	NC_017641.1|gene3748|UMNK88_3789
UMNK88_3790	operon_1453	NC_017641.1|gene3749|UMNK88_3790
UMNK88_3791	operon_1454	NC_017641.1|gene3750|UMNK88_3791
UMNK88_3792	operon_1455	NC_017641.1|gene3751|UMNK88_3792
UMNK88_3793	operon_1456	NC_017641.1|gene3752|UMNK88_3793
UMNK88_3794	operon_1456	NC_017641.1|gene3753|UMNK88_3794|ribB
UMNK88_3795	operon_1457	NC_017641.1|gene3754|UMNK88_3795
UMNK88_3796	operon_1457	NC_017641.1|gene3755|UMNK88_3796
UMNK88_3797	operon_1458	NC_017641.1|gene3756|UMNK88_3797
UMNK88_3798	operon_1458	NC_017641.1|gene3757|UMNK88_3798
UMNK88_3799	operon_1458	NC_017641.1|gene3758|UMNK88_3799
UMNK88_3800	operon_1459	NC_017641.1|gene3759|UMNK88_3800
UMNK88_3801	operon_1460	NC_017641.1|gene3760|UMNK88_3801
UMNK88_3802	operon_1460	NC_017641.1|gene3761|UMNK88_3802
UMNK88_3803	operon_1461	NC_017641.1|gene3762|UMNK88_3803|rfaE
UMNK88_3804	operon_1461	NC_017641.1|gene3763|UMNK88_3804
UMNK88_3805	operon_1461	NC_017641.1|gene3764|UMNK88_3805
UMNK88_3806	operon_1461	NC_017641.1|gene3765|UMNK88_3806
UMNK88_3807	operon_1462	NC_017641.1|gene3766|UMNK88_3807
UMNK88_3808	operon_1462	NC_017641.1|gene3767|UMNK88_3808
UMNK88_3809	operon_1463	NC_017641.1|gene3768|UMNK88_3809|uppP
UMNK88_3810	operon_1463	NC_017641.1|gene3769|UMNK88_3810|folB
UMNK88_3811	operon_1464	NC_017641.1|gene3770|UMNK88_3811
UMNK88_3812	operon_1465	NC_017641.1|gene3771|UMNK88_3812
UMNK88_3813	operon_1466	NC_017641.1|gene3772|UMNK88_3813
UMNK88_3814	operon_1466	NC_017641.1|gene3773|UMNK88_3814
UMNK88_3815	operon_1467	NC_017641.1|gene3774|UMNK88_3815
UMNK88_3816	operon_1468	NC_017641.1|gene3775|UMNK88_3816
UMNK88_3817	operon_1469	NC_017641.1|gene3776|UMNK88_3817|rpsU
UMNK88_3818	operon_1469	NC_017641.1|gene3777|UMNK88_3818|dnaG
UMNK88_3819	operon_1469	NC_017641.1|gene3778|UMNK88_3819
UMNK88_3820	operon_1469	NC_017641.1|gene3779|UMNK88_3820|rpoD
UMNK88_3821	operon_1470	NC_017641.1|gene3780|UMNK88_3821
UMNK88_t64	operon_1471	NC_017641.1|gene3781|UMNK88_t64
UMNK88_3823	operon_1472	NC_017641.1|gene3782|UMNK88_3823
UMNK88_3824	operon_1473	NC_017641.1|gene3783|UMNK88_3824
UMNK88_3825	operon_1474	NC_017641.1|gene3784|UMNK88_3825
UMNK88_3826	operon_1474	NC_017641.1|gene3785|UMNK88_3826
UMNK88_3827	operon_1475	NC_017641.1|gene3786|UMNK88_3827|ygjG
UMNK88_3828	operon_1476	NC_017641.1|gene3787|UMNK88_3828
UMNK88_3829	operon_1477	NC_017641.1|gene3788|UMNK88_3829
UMNK88_3830	operon_1477	NC_017641.1|gene3789|UMNK88_3830
UMNK88_3831	operon_1477	NC_017641.1|gene3790|UMNK88_3831
UMNK88_3832	operon_1477	NC_017641.1|gene3791|UMNK88_3832
UMNK88_3833	operon_1478	NC_017641.1|gene3792|UMNK88_3833
UMNK88_3834	operon_1478	NC_017641.1|gene3793|UMNK88_3834
UMNK88_3835	operon_1478	NC_017641.1|gene3794|UMNK88_3835
UMNK88_3836	operon_1478	NC_017641.1|gene3795|UMNK88_3836
UMNK88_3837	operon_1479	NC_017641.1|gene3796|UMNK88_3837
UMNK88_3838	operon_1479	NC_017641.1|gene3797|UMNK88_3838
UMNK88_3839	operon_1480	NC_017641.1|gene3798|UMNK88_3839
UMNK88_3840	operon_1481	NC_017641.1|gene3799|UMNK88_3840
UMNK88_3841	operon_1481	NC_017641.1|gene3800|UMNK88_3841
UMNK88_3842	operon_1481	NC_017641.1|gene3801|UMNK88_3842
UMNK88_3843	operon_1482	NC_017641.1|gene3802|UMNK88_3843
UMNK88_3844	operon_1482	NC_017641.1|gene3803|UMNK88_3844
UMNK88_3845	operon_1482	NC_017641.1|gene3804|UMNK88_3845
UMNK88_3846	operon_1483	NC_017641.1|gene3805|UMNK88_3846
UMNK88_3847	operon_1484	NC_017641.1|gene3806|UMNK88_3847
UMNK88_3848	operon_1484	NC_017641.1|gene3807|UMNK88_3848
UMNK88_3849	operon_1485	NC_017641.1|gene3808|UMNK88_3849
UMNK88_3850	operon_1486	NC_017641.1|gene3809|UMNK88_3850
UMNK88_3851	operon_1487	NC_017641.1|gene3810|UMNK88_3851
UMNK88_3852	operon_1487	NC_017641.1|gene3811|UMNK88_3852
UMNK88_3853	operon_1487	NC_017641.1|gene3812|UMNK88_3853
UMNK88_3854	operon_1488	NC_017641.1|gene3813|UMNK88_3854
UMNK88_3855	operon_1488	NC_017641.1|gene3814|UMNK88_3855
UMNK88_3856	operon_1488	NC_017641.1|gene3815|UMNK88_3856
UMNK88_3857	operon_1488	NC_017641.1|gene3816|UMNK88_3857
UMNK88_3858	operon_1489	NC_017641.1|gene3817|UMNK88_3858
UMNK88_3859	operon_1490	NC_017641.1|gene3818|UMNK88_3859
UMNK88_3860	operon_1491	NC_017641.1|gene3819|UMNK88_3860
UMNK88_3861	operon_1492	NC_017641.1|gene3820|UMNK88_3861
UMNK88_3862	operon_1493	NC_017641.1|gene3821|UMNK88_3862
UMNK88_3863	operon_1494	NC_017641.1|gene3822|UMNK88_3863
UMNK88_3864	operon_1494	NC_017641.1|gene3823|UMNK88_3864
UMNK88_3865	operon_1495	NC_017641.1|gene3824|UMNK88_3865
UMNK88_3866	operon_1495	NC_017641.1|gene3825|UMNK88_3866|yhaO
UMNK88_3867	operon_1496	NC_017641.1|gene3826|UMNK88_3867
UMNK88_3868	operon_1497	NC_017641.1|gene3827|UMNK88_3868
UMNK88_3869	operon_1497	NC_017641.1|gene3828|UMNK88_3869|pflB
UMNK88_3870	operon_1497	NC_017641.1|gene3829|UMNK88_3870|ackA
UMNK88_3871	operon_1497	NC_017641.1|gene3830|UMNK88_3871|stp
UMNK88_3872	operon_1497	NC_017641.1|gene3831|UMNK88_3872
UMNK88_3873	operon_1497	NC_017641.1|gene3832|UMNK88_3873
UMNK88_3874	operon_1498	NC_017641.1|gene3833|UMNK88_3874
UMNK88_3875	operon_1498	NC_017641.1|gene3834|UMNK88_3875
UMNK88_3876	operon_1498	NC_017641.1|gene3835|UMNK88_3876|conserved hypothetical%3B pseudogene%3B possible frameshift
UMNK88_3878	operon_1499	NC_017641.1|gene3836|UMNK88_3878
UMNK88_3879	operon_1499	NC_017641.1|gene3837|UMNK88_3879
UMNK88_3880	operon_1500	NC_017641.1|gene3838|UMNK88_3880
UMNK88_3881	operon_1500	NC_017641.1|gene3839|UMNK88_3881
UMNK88_3882	operon_1500	NC_017641.1|gene3840|UMNK88_3882|garL
UMNK88_3883	operon_1500	NC_017641.1|gene3841|UMNK88_3883
UMNK88_3884	operon_1501	NC_017641.1|gene3842|UMNK88_3884
UMNK88_3885	operon_1501	NC_017641.1|gene3843|UMNK88_3885|garD
UMNK88_3886	operon_1501	NC_017641.1|gene3844|UMNK88_3886
UMNK88_3887	operon_1501	NC_017641.1|gene3845|UMNK88_3887
UMNK88_3888	operon_1502	NC_017641.1|gene3846|UMNK88_3888
UMNK88_3889	operon_1503	NC_017641.1|gene3847|UMNK88_3889
UMNK88_3890	operon_1503	NC_017641.1|gene3848|UMNK88_3890
UMNK88_3891	operon_1503	NC_017641.1|gene3849|UMNK88_3891
UMNK88_3892	operon_1503	NC_017641.1|gene3850|UMNK88_3892
UMNK88_3893	operon_1503	NC_017641.1|gene3851|UMNK88_3893
UMNK88_3894	operon_1503	NC_017641.1|gene3852|UMNK88_3894|nagA
UMNK88_3895	operon_1503	NC_017641.1|gene3853|UMNK88_3895
UMNK88_3896	operon_1503	NC_017641.1|gene3854|UMNK88_3896
UMNK88_3897	operon_1504	NC_017641.1|gene3855|UMNK88_3897
UMNK88_3898	operon_1504	NC_017641.1|gene3856|UMNK88_3898
UMNK88_3899	operon_1504	NC_017641.1|gene3857|UMNK88_3899
UMNK88_3900	operon_1505	NC_017641.1|gene3858|UMNK88_3900
UMNK88_3901	operon_1505	NC_017641.1|gene3859|UMNK88_3901
UMNK88_3902	operon_1506	NC_017641.1|gene3860|UMNK88_3902
UMNK88_3903	operon_1506	NC_017641.1|gene3861|UMNK88_3903|putative outer membrane usher%3B pseudogene%3B possible frameshift
UMNK88_3905	operon_1506	NC_017641.1|gene3862|UMNK88_3905
UMNK88_3906	operon_1507	NC_017641.1|gene3863|UMNK88_3906
UMNK88_3907	operon_1508	NC_017641.1|gene3864|UMNK88_3907
UMNK88_3908	operon_1508	NC_017641.1|gene3865|UMNK88_3908
UMNK88_3909	operon_1508	NC_017641.1|gene3866|UMNK88_3909|gmhA
UMNK88_3910	operon_1508	NC_017641.1|gene3867|UMNK88_3910
UMNK88_3911	operon_1509	NC_017641.1|gene3868|UMNK88_3911
UMNK88_3912	operon_1509	NC_017641.1|gene3869|UMNK88_3912
UMNK88_3914	operon_1510	NC_017641.1|gene3870|UMNK88_3914
UMNK88_3913	operon_1511	NC_017641.1|gene3871|UMNK88_3913
UMNK88_3916	operon_1512	NC_017641.1|gene3872|UMNK88_3916
UMNK88_3915	operon_1513	NC_017641.1|gene3873|UMNK88_3915
UMNK88_3917	operon_1513	NC_017641.1|gene3874|UMNK88_3917
UMNK88_3918	operon_1514	NC_017641.1|gene3875|UMNK88_3918
UMNK88_3919	operon_1514	NC_017641.1|gene3876|UMNK88_3919
UMNK88_3920	operon_1514	NC_017641.1|gene3877|UMNK88_3920
UMNK88_3921	operon_1515	NC_017641.1|gene3878|UMNK88_3921
UMNK88_3922	operon_1516	NC_017641.1|gene3879|UMNK88_3922
UMNK88_3923	operon_1516	NC_017641.1|gene3880|UMNK88_3923
UMNK88_3924	operon_1517	NC_017641.1|gene3881|UMNK88_3924
UMNK88_3925	operon_1517	NC_017641.1|gene3882|UMNK88_3925|rpsO
UMNK88_3926	operon_1517	NC_017641.1|gene3883|UMNK88_3926|truB
UMNK88_3927	operon_1517	NC_017641.1|gene3884|UMNK88_3927|rbfA
UMNK88_3928	operon_1517	NC_017641.1|gene3885|UMNK88_3928|infB
UMNK88_3929	operon_1517	NC_017641.1|gene3886|UMNK88_3929|nusA
UMNK88_3930	operon_1517	NC_017641.1|gene3887|UMNK88_3930
UMNK88_t65	operon_1517	NC_017641.1|gene3888|UMNK88_t65
UMNK88_3932	operon_1518	NC_017641.1|gene3889|UMNK88_3932
UMNK88_3933	operon_1518	NC_017641.1|gene3890|UMNK88_3933|argG
UMNK88_3934	operon_1519	NC_017641.1|gene3891|UMNK88_3934
UMNK88_t66	operon_1519	NC_017641.1|gene3892|UMNK88_t66
UMNK88_3936	operon_1519	NC_017641.1|gene3893|UMNK88_3936|secG
UMNK88_3937	operon_1519	NC_017641.1|gene3894|UMNK88_3937|glmM
UMNK88_3938	operon_1519	NC_017641.1|gene3895|UMNK88_3938|folP
UMNK88_3939	operon_1519	NC_017641.1|gene3896|UMNK88_3939|ftsH
UMNK88_3940	operon_1519	NC_017641.1|gene3897|UMNK88_3940|rrmJ
UMNK88_3941	operon_1520	NC_017641.1|gene3898|UMNK88_3941
UMNK88_3942	operon_1521	NC_017641.1|gene3899|UMNK88_3942|greA
UMNK88_3943	operon_1522	NC_017641.1|gene3900|UMNK88_3943|dacB
UMNK88_3945	operon_1522	NC_017641.1|gene3901|UMNK88_3945
UMNK88_3944	operon_1523	NC_017641.1|gene3902|UMNK88_3944
UMNK88_3946	operon_1523	NC_017641.1|gene3903|UMNK88_3946
UMNK88_3947	operon_1523	NC_017641.1|gene3904|UMNK88_3947|rpmA
UMNK88_3948	operon_1523	NC_017641.1|gene3905|UMNK88_3948|rplU
UMNK88_3949	operon_1524	NC_017641.1|gene3906|UMNK88_3949
UMNK88_3950	operon_1525	NC_017641.1|gene3907|UMNK88_3950
UMNK88_3951	operon_1526	NC_017641.1|gene3908|UMNK88_3951|murA
UMNK88_3952	operon_1526	NC_017641.1|gene3909|UMNK88_3952
UMNK88_3953	operon_1526	NC_017641.1|gene3910|UMNK88_3953
UMNK88_3954	operon_1526	NC_017641.1|gene3911|UMNK88_3954
UMNK88_3955	operon_1526	NC_017641.1|gene3912|UMNK88_3955
UMNK88_3956	operon_1526	NC_017641.1|gene3913|UMNK88_3956
UMNK88_3957	operon_1526	NC_017641.1|gene3914|UMNK88_3957
UMNK88_3958	operon_1527	NC_017641.1|gene3915|UMNK88_3958
UMNK88_3959	operon_1527	NC_017641.1|gene3916|UMNK88_3959
UMNK88_3960	operon_1527	NC_017641.1|gene3917|UMNK88_3960
UMNK88_3961	operon_1527	NC_017641.1|gene3918|UMNK88_3961
UMNK88_3962	operon_1527	NC_017641.1|gene3919|UMNK88_3962|lptA
UMNK88_3963	operon_1527	NC_017641.1|gene3920|UMNK88_3963
UMNK88_3964	operon_1527	NC_017641.1|gene3921|UMNK88_3964|rpoN
UMNK88_3965	operon_1527	NC_017641.1|gene3922|UMNK88_3965|raiA
UMNK88_3966	operon_1527	NC_017641.1|gene3923|UMNK88_3966|ptsN
UMNK88_3967	operon_1527	NC_017641.1|gene3924|UMNK88_3967
UMNK88_3968	operon_1527	NC_017641.1|gene3925|UMNK88_3968
UMNK88_3970	operon_1528	NC_017641.1|gene3926|UMNK88_3970
UMNK88_3969	operon_1529	NC_017641.1|gene3927|UMNK88_3969|mtgA
UMNK88_3971	operon_1529	NC_017641.1|gene3928|UMNK88_3971
UMNK88_3972	operon_1529	NC_017641.1|gene3929|UMNK88_3972
UMNK88_3973	operon_1529	NC_017641.1|gene3930|UMNK88_3973
UMNK88_3974	operon_1530	NC_017641.1|gene3931|UMNK88_3974
UMNK88_3975	operon_1530	NC_017641.1|gene3932|UMNK88_3975
UMNK88_3976	operon_1530	NC_017641.1|gene3933|UMNK88_3976
UMNK88_3977	operon_1530	NC_017641.1|gene3934|UMNK88_3977
UMNK88_3978	operon_1530	NC_017641.1|gene3935|UMNK88_3978
UMNK88_3979	operon_1530	NC_017641.1|gene3936|UMNK88_3979
UMNK88_3980	operon_1530	NC_017641.1|gene3937|UMNK88_3980
UMNK88_3981	operon_1530	NC_017641.1|gene3938|UMNK88_3981
UMNK88_3982	operon_1531	NC_017641.1|gene3939|UMNK88_3982
UMNK88_3983	operon_1531	NC_017641.1|gene3940|UMNK88_3983
UMNK88_3984	operon_1531	NC_017641.1|gene3941|UMNK88_3984
UMNK88_3985	operon_1532	NC_017641.1|gene3942|UMNK88_3985
UMNK88_3986	operon_1532	NC_017641.1|gene3943|UMNK88_3986|nanA
UMNK88_3987	operon_1532	NC_017641.1|gene3944|UMNK88_3987
UMNK88_3988	operon_1533	NC_017641.1|gene3945|UMNK88_3988
UMNK88_3989	operon_1534	NC_017641.1|gene3946|UMNK88_3989
UMNK88_3990	operon_1534	NC_017641.1|gene3947|UMNK88_3990
UMNK88_3991	operon_1535	NC_017641.1|gene3948|UMNK88_3991
UMNK88_3992	operon_1535	NC_017641.1|gene3949|UMNK88_3992|rplM
UMNK88_3993	operon_1535	NC_017641.1|gene3950|UMNK88_3993
UMNK88_3994	operon_1536	NC_017641.1|gene3951|UMNK88_3994
UMNK88_3995	operon_1537	NC_017641.1|gene3952|UMNK88_3995
UMNK88_3996	operon_1538	NC_017641.1|gene3953|UMNK88_3996|degS
UMNK88_3997	operon_1539	NC_017641.1|gene3954|UMNK88_3997|mdh
UMNK88_3998	operon_1540	NC_017641.1|gene3955|UMNK88_3998|argR
UMNK88_3999	operon_1540	NC_017641.1|gene3956|UMNK88_3999
UMNK88_4000	operon_1541	NC_017641.1|gene3957|UMNK88_4000
UMNK88_4001	operon_1542	NC_017641.1|gene3958|UMNK88_4001
UMNK88_4002	operon_1542	NC_017641.1|gene3959|UMNK88_4002
UMNK88_4003	operon_1542	NC_017641.1|gene3960|UMNK88_4003
UMNK88_4004	operon_1543	NC_017641.1|gene3961|UMNK88_4004
UMNK88_4005	operon_1544	NC_017641.1|gene3962|UMNK88_4005
UMNK88_4006	operon_1545	NC_017641.1|gene3963|UMNK88_4006
UMNK88_4007	operon_1545	NC_017641.1|gene3964|UMNK88_4007
UMNK88_4008	operon_1545	NC_017641.1|gene3965|UMNK88_4008|yhdE
UMNK88_4009	operon_1545	NC_017641.1|gene3966|UMNK88_4009|mreD
UMNK88_4010	operon_1545	NC_017641.1|gene3967|UMNK88_4010|mreC
UMNK88_4011	operon_1546	NC_017641.1|gene3968|UMNK88_4011
UMNK88_4012	operon_1546	NC_017641.1|gene3969|UMNK88_4012
UMNK88_4013	operon_1547	NC_017641.1|gene3970|UMNK88_4013
UMNK88_4014	operon_1547	NC_017641.1|gene3971|UMNK88_4014
UMNK88_4015	operon_1547	NC_017641.1|gene3972|UMNK88_4015|accB
UMNK88_4016	operon_1547	NC_017641.1|gene3973|UMNK88_4016|accC
UMNK88_4017	operon_1547	NC_017641.1|gene3974|UMNK88_4017
UMNK88_4018	operon_1547	NC_017641.1|gene3975|UMNK88_4018|panF
UMNK88_4019	operon_1547	NC_017641.1|gene3976|UMNK88_4019|prmA
UMNK88_4020	operon_1547	NC_017641.1|gene3977|UMNK88_4020
UMNK88_4021	operon_1547	NC_017641.1|gene3978|UMNK88_4021
UMNK88_4022	operon_1548	NC_017641.1|gene3979|UMNK88_4022
UMNK88_4023	operon_1548	NC_017641.1|gene3980|UMNK88_4023
UMNK88_4024	operon_1549	NC_017641.1|gene3981|UMNK88_4024
UMNK88_4025	operon_1550	NC_017641.1|gene3982|UMNK88_4025|bpeA
UMNK88_4026	operon_1550	NC_017641.1|gene3983|UMNK88_4026|bpeB
UMNK88_4027	operon_1550	NC_017641.1|gene3984|UMNK88_4027
UMNK88_4028	operon_1551	NC_017641.1|gene3985|UMNK88_4028
UMNK88_4029	operon_1552	NC_017641.1|gene3986|UMNK88_4029
UMNK88_4030	operon_1552	NC_017641.1|gene3987|UMNK88_4030
UMNK88_4031	operon_1552	NC_017641.1|gene3988|UMNK88_4031
UMNK88_r07	operon_1553	NC_017641.1|gene3989|UMNK88_r07
UMNK88_t67	operon_1553	NC_017641.1|gene3990|UMNK88_t67
UMNK88_r08	operon_1553	NC_017641.1|gene3991|UMNK88_r08
UMNK88_r09	operon_1553	NC_017641.1|gene3992|UMNK88_r09
UMNK88_t68	operon_1553	NC_017641.1|gene3993|UMNK88_t68
UMNK88_t69	operon_1553	NC_017641.1|gene3994|UMNK88_t69
UMNK88_r10	operon_1553	NC_017641.1|gene3995|UMNK88_r10
UMNK88_4041	operon_1554	NC_017641.1|gene3996|UMNK88_4041
UMNK88_4040	operon_1555	NC_017641.1|gene3997|UMNK88_4040
UMNK88_4042	operon_1555	NC_017641.1|gene3998|UMNK88_4042|aroE
UMNK88_4043	operon_1555	NC_017641.1|gene3999|UMNK88_4043
UMNK88_4044	operon_1555	NC_017641.1|gene4000|UMNK88_4044
UMNK88_4045	operon_1556	NC_017641.1|gene4001|UMNK88_4045
UMNK88_4046	operon_1556	NC_017641.1|gene4002|UMNK88_4046|dprA
UMNK88_4047	operon_1557	NC_017641.1|gene4003|UMNK88_4047|def
UMNK88_4048	operon_1557	NC_017641.1|gene4004|UMNK88_4048|fmt
UMNK88_4049	operon_1557	NC_017641.1|gene4005|UMNK88_4049|sun
UMNK88_4050	operon_1557	NC_017641.1|gene4006|UMNK88_4050
UMNK88_4051	operon_1558	NC_017641.1|gene4007|UMNK88_4051|mscL
UMNK88_4052	operon_1559	NC_017641.1|gene4008|UMNK88_4052|zntR
UMNK88_4053	operon_1559	NC_017641.1|gene4009|UMNK88_4053
UMNK88_4054	operon_1559	NC_017641.1|gene4010|UMNK88_4054|rplQ
UMNK88_4055	operon_1559	NC_017641.1|gene4011|UMNK88_4055|rpoA
UMNK88_4056	operon_1559	NC_017641.1|gene4012|UMNK88_4056|rpsD
UMNK88_4057	operon_1559	NC_017641.1|gene4013|UMNK88_4057
UMNK88_4058	operon_1559	NC_017641.1|gene4014|UMNK88_4058
UMNK88_4059	operon_1559	NC_017641.1|gene4015|UMNK88_4059|rpmJ
UMNK88_4060	operon_1559	NC_017641.1|gene4016|UMNK88_4060|secY
UMNK88_4061	operon_1559	NC_017641.1|gene4017|UMNK88_4061|rplO
UMNK88_4062	operon_1559	NC_017641.1|gene4018|UMNK88_4062|rpmD
UMNK88_4063	operon_1559	NC_017641.1|gene4019|UMNK88_4063|rpsE
UMNK88_4064	operon_1559	NC_017641.1|gene4020|UMNK88_4064|rplR
UMNK88_4065	operon_1559	NC_017641.1|gene4021|UMNK88_4065
UMNK88_4066	operon_1559	NC_017641.1|gene4022|UMNK88_4066
UMNK88_4067	operon_1559	NC_017641.1|gene4023|UMNK88_4067
UMNK88_4068	operon_1559	NC_017641.1|gene4024|UMNK88_4068
UMNK88_4069	operon_1559	NC_017641.1|gene4025|UMNK88_4069|rplX
UMNK88_4070	operon_1559	NC_017641.1|gene4026|UMNK88_4070|rplN
UMNK88_4071	operon_1560	NC_017641.1|gene4027|UMNK88_4071
UMNK88_4072	operon_1560	NC_017641.1|gene4028|UMNK88_4072|rpmC
UMNK88_4073	operon_1560	NC_017641.1|gene4029|UMNK88_4073|rplP
UMNK88_4074	operon_1560	NC_017641.1|gene4030|UMNK88_4074|rpsC
UMNK88_4075	operon_1560	NC_017641.1|gene4031|UMNK88_4075|rplV
UMNK88_4076	operon_1560	NC_017641.1|gene4032|UMNK88_4076
UMNK88_4077	operon_1560	NC_017641.1|gene4033|UMNK88_4077|rplB
UMNK88_4078	operon_1560	NC_017641.1|gene4034|UMNK88_4078
UMNK88_4079	operon_1560	NC_017641.1|gene4035|UMNK88_4079
UMNK88_4080	operon_1560	NC_017641.1|gene4036|UMNK88_4080
UMNK88_4081	operon_1560	NC_017641.1|gene4037|UMNK88_4081|rpsJ
UMNK88_4082	operon_1561	NC_017641.1|gene4038|UMNK88_4082
UMNK88_4083	operon_1561	NC_017641.1|gene4039|UMNK88_4083|peptidoglycan-binding gene%3B pseudogene%3B possible frameshift
UMNK88_4085	operon_1562	NC_017641.1|gene4040|UMNK88_4085|gspC
UMNK88_4086	operon_1562	NC_017641.1|gene4041|UMNK88_4086|gspD
UMNK88_4087	operon_1562	NC_017641.1|gene4042|UMNK88_4087|gspE
UMNK88_4088	operon_1562	NC_017641.1|gene4043|UMNK88_4088|gspF
UMNK88_4089	operon_1562	NC_017641.1|gene4044|UMNK88_4089|gspG
UMNK88_4090	operon_1562	NC_017641.1|gene4045|UMNK88_4090|gspH
UMNK88_4091	operon_1562	NC_017641.1|gene4046|UMNK88_4091|gspI
UMNK88_4092	operon_1562	NC_017641.1|gene4047|UMNK88_4092|gspJ
UMNK88_4093	operon_1562	NC_017641.1|gene4048|UMNK88_4093
UMNK88_4094	operon_1562	NC_017641.1|gene4049|UMNK88_4094|gspL
UMNK88_4095	operon_1562	NC_017641.1|gene4050|UMNK88_4095
UMNK88_4096	operon_1562	NC_017641.1|gene4051|UMNK88_4096
UMNK88_4097	operon_1563	NC_017641.1|gene4052|UMNK88_4097|bfr
UMNK88_4098	operon_1563	NC_017641.1|gene4053|UMNK88_4098
UMNK88_4099	operon_1563	NC_017641.1|gene4054|UMNK88_4099
UMNK88_4100	operon_1563	NC_017641.1|gene4055|UMNK88_4100
UMNK88_4101	operon_1563	NC_017641.1|gene4056|UMNK88_4101
UMNK88_4102	operon_1563	NC_017641.1|gene4057|UMNK88_4102|tuf
UMNK88_4103	operon_1563	NC_017641.1|gene4058|UMNK88_4103
UMNK88_4104	operon_1563	NC_017641.1|gene4059|UMNK88_4104|fusA
UMNK88_4105	operon_1563	NC_017641.1|gene4060|UMNK88_4105|rpsG
UMNK88_4106	operon_1563	NC_017641.1|gene4061|UMNK88_4106|rpsL
UMNK88_4107	operon_1563	NC_017641.1|gene4062|UMNK88_4107|tusB
UMNK88_4108	operon_1563	NC_017641.1|gene4063|UMNK88_4108|tusC
UMNK88_4109	operon_1563	NC_017641.1|gene4064|UMNK88_4109
UMNK88_4110	operon_1563	NC_017641.1|gene4065|UMNK88_4110
UMNK88_4111	operon_1564	NC_017641.1|gene4066|UMNK88_4111
UMNK88_4112	operon_1565	NC_017641.1|gene4067|UMNK88_4112
UMNK88_4113	operon_1566	NC_017641.1|gene4068|UMNK88_4113
UMNK88_4114	operon_1566	NC_017641.1|gene4069|UMNK88_4114
UMNK88_4115	operon_1566	NC_017641.1|gene4070|UMNK88_4115
UMNK88_4116	operon_1566	NC_017641.1|gene4071|UMNK88_4116
UMNK88_4117	operon_1567	NC_017641.1|gene4072|UMNK88_4117
UMNK88_4118	operon_1567	NC_017641.1|gene4073|UMNK88_4118
UMNK88_4119	operon_1567	NC_017641.1|gene4074|UMNK88_4119
UMNK88_4120	operon_1567	NC_017641.1|gene4075|UMNK88_4120
UMNK88_4121	operon_1568	NC_017641.1|gene4076|UMNK88_4121
UMNK88_4122	operon_1569	NC_017641.1|gene4077|UMNK88_4122
UMNK88_4123	operon_1570	NC_017641.1|gene4078|UMNK88_4123
UMNK88_4124	operon_1571	NC_017641.1|gene4079|UMNK88_4124|astC
UMNK88_4125	operon_1571	NC_017641.1|gene4080|UMNK88_4125
UMNK88_4126	operon_1571	NC_017641.1|gene4081|UMNK88_4126
UMNK88_4127	operon_1571	NC_017641.1|gene4082|UMNK88_4127
UMNK88_4128	operon_1572	NC_017641.1|gene4083|UMNK88_4128
UMNK88_4129	operon_1572	NC_017641.1|gene4084|UMNK88_4129
UMNK88_4130	operon_1573	NC_017641.1|gene4085|UMNK88_4130
UMNK88_4131	operon_1574	NC_017641.1|gene4086|UMNK88_4131|nirB
UMNK88_4132	operon_1574	NC_017641.1|gene4087|UMNK88_4132|nirD
UMNK88_4133	operon_1574	NC_017641.1|gene4088|UMNK88_4133
UMNK88_4134	operon_1574	NC_017641.1|gene4089|UMNK88_4134|cobA
UMNK88_4135	operon_1574	NC_017641.1|gene4090|UMNK88_4135
UMNK88_4136	operon_1575	NC_017641.1|gene4091|UMNK88_4136
UMNK88_4137	operon_1575	NC_017641.1|gene4092|UMNK88_4137
UMNK88_4138	operon_1576	NC_017641.1|gene4093|UMNK88_4138
UMNK88_4139	operon_1576	NC_017641.1|gene4094|UMNK88_4139
UMNK88_4140	operon_1577	NC_017641.1|gene4095|UMNK88_4140
UMNK88_4141	operon_1578	NC_017641.1|gene4096|UMNK88_4141
UMNK88_4142	operon_1578	NC_017641.1|gene4097|UMNK88_4142
UMNK88_4143	operon_1578	NC_017641.1|gene4098|UMNK88_4143
UMNK88_4144	operon_1578	NC_017641.1|gene4099|UMNK88_4144
UMNK88_4145	operon_1578	NC_017641.1|gene4100|UMNK88_4145
UMNK88_4146	operon_1578	NC_017641.1|gene4101|UMNK88_4146
UMNK88_4147	operon_1578	NC_017641.1|gene4102|UMNK88_4147
UMNK88_4148	operon_1578	NC_017641.1|gene4103|UMNK88_4148
UMNK88_4149	operon_1579	NC_017641.1|gene4104|UMNK88_4149
UMNK88_4150	operon_1580	NC_017641.1|gene4105|UMNK88_4150|trpS
UMNK88_4151	operon_1580	NC_017641.1|gene4106|UMNK88_4151
UMNK88_4152	operon_1580	NC_017641.1|gene4107|UMNK88_4152|rpe
UMNK88_4153	operon_1580	NC_017641.1|gene4108|UMNK88_4153|dam
UMNK88_4154	operon_1581	NC_017641.1|gene4109|UMNK88_4154
UMNK88_4155	operon_1581	NC_017641.1|gene4110|UMNK88_4155|aroB
UMNK88_4156	operon_1581	NC_017641.1|gene4111|UMNK88_4156
UMNK88_4157	operon_1581	NC_017641.1|gene4112|UMNK88_4157|pilQ
UMNK88_4158	operon_1581	NC_017641.1|gene4113|UMNK88_4158
UMNK88_4159	operon_1581	NC_017641.1|gene4114|UMNK88_4159
UMNK88_4160	operon_1581	NC_017641.1|gene4115|UMNK88_4160
UMNK88_4161	operon_1581	NC_017641.1|gene4116|UMNK88_4161
UMNK88_4162	operon_1582	NC_017641.1|gene4117|UMNK88_4162
UMNK88_4163	operon_1583	NC_017641.1|gene4118|UMNK88_4163
UMNK88_4164	operon_1584	NC_017641.1|gene4119|UMNK88_4164
UMNK88_4165	operon_1585	NC_017641.1|gene4120|UMNK88_4165
UMNK88_4166	operon_1585	NC_017641.1|gene4121|UMNK88_4166
UMNK88_4167	operon_1585	NC_017641.1|gene4122|UMNK88_4167
UMNK88_4168	operon_1586	NC_017641.1|gene4123|UMNK88_4168
UMNK88_4169	operon_1586	NC_017641.1|gene4124|UMNK88_4169
UMNK88_4170	operon_1587	NC_017641.1|gene4125|UMNK88_4170|pckA
UMNK88_4171	operon_1588	NC_017641.1|gene4126|UMNK88_4171
UMNK88_4172	operon_1588	NC_017641.1|gene4127|UMNK88_4172
UMNK88_4173	operon_1589	NC_017641.1|gene4128|UMNK88_4173|greB
UMNK88_4174	operon_1589	NC_017641.1|gene4129|UMNK88_4174
UMNK88_4175	operon_1590	NC_017641.1|gene4130|UMNK88_4175
UMNK88_4176	operon_1590	NC_017641.1|gene4131|UMNK88_4176|feoB
UMNK88_4177	operon_1590	NC_017641.1|gene4132|UMNK88_4177
UMNK88_4178	operon_1591	NC_017641.1|gene4133|UMNK88_4178
UMNK88_4179	operon_1592	NC_017641.1|gene4134|UMNK88_4179|bioH
UMNK88_4180	operon_1593	NC_017641.1|gene4135|UMNK88_4180
UMNK88_4181	operon_1593	NC_017641.1|gene4136|UMNK88_4181
UMNK88_4182	operon_1593	NC_017641.1|gene4137|UMNK88_4182
UMNK88_4183	operon_1594	NC_017641.1|gene4138|UMNK88_4183
UMNK88_4184	operon_1595	NC_017641.1|gene4139|UMNK88_4184|malQ
UMNK88_4185	operon_1595	NC_017641.1|gene4140|UMNK88_4185|glgP
UMNK88_4186	operon_1596	NC_017641.1|gene4141|UMNK88_4186
UMNK88_4187	operon_1597	NC_017641.1|gene4142|UMNK88_4187|rtcA
UMNK88_4188	operon_1597	NC_017641.1|gene4143|UMNK88_4188
UMNK88_4190	operon_1598	NC_017641.1|gene4144|UMNK88_4190
UMNK88_4189	operon_1599	NC_017641.1|gene4145|UMNK88_4189
UMNK88_4191	operon_1599	NC_017641.1|gene4146|UMNK88_4191
UMNK88_4192	operon_1599	NC_017641.1|gene4147|UMNK88_4192
UMNK88_4193	operon_1600	NC_017641.1|gene4148|UMNK88_4193
UMNK88_4194	operon_1601	NC_017641.1|gene4149|UMNK88_4194
UMNK88_4195	operon_1601	NC_017641.1|gene4150|UMNK88_4195
UMNK88_4196	operon_1601	NC_017641.1|gene4151|UMNK88_4196
UMNK88_4197	operon_1601	NC_017641.1|gene4152|UMNK88_4197
UMNK88_4198	operon_1601	NC_017641.1|gene4153|UMNK88_4198|glgP
UMNK88_4199	operon_1601	NC_017641.1|gene4154|UMNK88_4199|glgA
UMNK88_4200	operon_1601	NC_017641.1|gene4155|UMNK88_4200|glgC
UMNK88_4201	operon_1601	NC_017641.1|gene4156|UMNK88_4201|glgX
UMNK88_4202	operon_1601	NC_017641.1|gene4157|UMNK88_4202|glgB
UMNK88_4203	operon_1601	NC_017641.1|gene4158|UMNK88_4203|asd
UMNK88_4204	operon_1602	NC_017641.1|gene4159|UMNK88_4204
UMNK88_4205	operon_1603	NC_017641.1|gene4160|UMNK88_4205
UMNK88_4206	operon_1603	NC_017641.1|gene4161|UMNK88_4206
UMNK88_4207	operon_1603	NC_017641.1|gene4162|UMNK88_4207
UMNK88_4209	operon_1604	NC_017641.1|gene4163|UMNK88_4209
UMNK88_4208	operon_1605	NC_017641.1|gene4164|UMNK88_4208
UMNK88_4210	operon_1605	NC_017641.1|gene4165|UMNK88_4210
UMNK88_4211	operon_1606	NC_017641.1|gene4166|UMNK88_4211
UMNK88_4212	operon_1606	NC_017641.1|gene4167|UMNK88_4212
UMNK88_4213	operon_1606	NC_017641.1|gene4168|UMNK88_4213
UMNK88_4214	operon_1606	NC_017641.1|gene4169|UMNK88_4214
UMNK88_4215	operon_1607	NC_017641.1|gene4170|UMNK88_4215|ggt
UMNK88_4217	operon_1608	NC_017641.1|gene4171|UMNK88_4217
UMNK88_4216	operon_1609	NC_017641.1|gene4172|UMNK88_4216
UMNK88_4218	operon_1609	NC_017641.1|gene4173|UMNK88_4218
UMNK88_4219	operon_1609	NC_017641.1|gene4174|UMNK88_4219
UMNK88_4220	operon_1609	NC_017641.1|gene4175|UMNK88_4220
UMNK88_4221	operon_1609	NC_017641.1|gene4176|UMNK88_4221
UMNK88_4222	operon_1609	NC_017641.1|gene4177|UMNK88_4222
UMNK88_4223	operon_1610	NC_017641.1|gene4178|UMNK88_4223
UMNK88_4224	operon_1610	NC_017641.1|gene4179|UMNK88_4224
UMNK88_4225	operon_1610	NC_017641.1|gene4180|UMNK88_4225
UMNK88_4226	operon_1610	NC_017641.1|gene4181|UMNK88_4226
UMNK88_4227	operon_1611	NC_017641.1|gene4182|UMNK88_4227
UMNK88_4228	operon_1611	NC_017641.1|gene4183|UMNK88_4228
UMNK88_4229	operon_1612	NC_017641.1|gene4184|UMNK88_4229
UMNK88_4230	operon_1613	NC_017641.1|gene4185|UMNK88_4230
UMNK88_4231	operon_1613	NC_017641.1|gene4186|UMNK88_4231|rpoH
UMNK88_4232	operon_1613	NC_017641.1|gene4187|UMNK88_4232|ftsX
UMNK88_4233	operon_1613	NC_017641.1|gene4188|UMNK88_4233|ftsE
UMNK88_4234	operon_1613	NC_017641.1|gene4189|UMNK88_4234|ftsY
UMNK88_4235	operon_1614	NC_017641.1|gene4190|UMNK88_4235
UMNK88_4236	operon_1614	NC_017641.1|gene4191|UMNK88_4236
UMNK88_4237	operon_1615	NC_017641.1|gene4192|UMNK88_4237
UMNK88_4238	operon_1616	NC_017641.1|gene4193|UMNK88_4238
UMNK88_4239	operon_1617	NC_017641.1|gene4194|UMNK88_4239|cadA
UMNK88_4240	operon_1618	NC_017641.1|gene4195|UMNK88_4240
UMNK88_4241	operon_1619	NC_017641.1|gene4196|UMNK88_4241
UMNK88_4242	operon_1619	NC_017641.1|gene4197|UMNK88_4242
UMNK88_4243	operon_1620	NC_017641.1|gene4198|UMNK88_4243
UMNK88_4244	operon_1621	NC_017641.1|gene4199|UMNK88_4244
UMNK88_4245	operon_1621	NC_017641.1|gene4200|UMNK88_4245
UMNK88_4246	operon_1621	NC_017641.1|gene4201|UMNK88_4246|nikA
UMNK88_4247	operon_1621	NC_017641.1|gene4202|UMNK88_4247|nikB
UMNK88_4248	operon_1621	NC_017641.1|gene4203|UMNK88_4248|nikC
UMNK88_4249	operon_1621	NC_017641.1|gene4204|UMNK88_4249|nikD
UMNK88_4250	operon_1621	NC_017641.1|gene4205|UMNK88_4250|nikE
UMNK88_4251	operon_1621	NC_017641.1|gene4206|UMNK88_4251|nikR
UMNK88_4252	operon_1621	NC_017641.1|gene4207|UMNK88_4252
UMNK88_4253	operon_1621	NC_017641.1|gene4208|UMNK88_4253
UMNK88_4254	operon_1621	NC_017641.1|gene4209|UMNK88_4254
UMNK88_4255	operon_1621	NC_017641.1|gene4210|UMNK88_4255
UMNK88_4256	operon_1621	NC_017641.1|gene4211|UMNK88_4256
UMNK88_4257	operon_1622	NC_017641.1|gene4212|UMNK88_4257
UMNK88_4258	operon_1622	NC_017641.1|gene4213|UMNK88_4258
UMNK88_4259	operon_1622	NC_017641.1|gene4214|UMNK88_4259
UMNK88_4260	operon_1623	NC_017641.1|gene4215|UMNK88_4260
UMNK88_4261	operon_1623	NC_017641.1|gene4216|UMNK88_4261
UMNK88_4262	operon_1624	NC_017641.1|gene4217|UMNK88_4262
UMNK88_4263	operon_1625	NC_017641.1|gene4218|UMNK88_4263
UMNK88_4264	operon_1626	NC_017641.1|gene4219|UMNK88_4264
UMNK88_4265	operon_1627	NC_017641.1|gene4220|UMNK88_4265
UMNK88_4266	operon_1628	NC_017641.1|gene4221|UMNK88_4266
UMNK88_4267	operon_1629	NC_017641.1|gene4222|UMNK88_4267
UMNK88_4268	operon_1629	NC_017641.1|gene4223|UMNK88_4268
UMNK88_4269	operon_1630	NC_017641.1|gene4224|UMNK88_4269
UMNK88_4270	operon_1631	NC_017641.1|gene4225|UMNK88_4270
UMNK88_4271	operon_1632	NC_017641.1|gene4226|UMNK88_4271
UMNK88_4272	operon_1633	NC_017641.1|gene4227|UMNK88_4272
UMNK88_4273	operon_1633	NC_017641.1|gene4228|UMNK88_4273
UMNK88_4274	operon_1634	NC_017641.1|gene4229|UMNK88_4274
UMNK88_4275	operon_1634	NC_017641.1|gene4230|UMNK88_4275|gor
UMNK88_4276	operon_1635	NC_017641.1|gene4231|UMNK88_4276
UMNK88_4277	operon_1636	NC_017641.1|gene4232|UMNK88_4277
UMNK88_4278	operon_1636	NC_017641.1|gene4233|UMNK88_4278
UMNK88_4279	operon_1636	NC_017641.1|gene4234|UMNK88_4279|arsB
UMNK88_4280	operon_1636	NC_017641.1|gene4235|UMNK88_4280|arsC
UMNK88_4281	operon_1637	NC_017641.1|gene4236|UMNK88_4281
UMNK88_4282	operon_1638	NC_017641.1|gene4237|UMNK88_4282
UMNK88_4283	operon_1639	NC_017641.1|gene4238|UMNK88_4283
UMNK88_4284	operon_1639	NC_017641.1|gene4239|UMNK88_4284
UMNK88_4285	operon_1640	NC_017641.1|gene4240|UMNK88_4285
UMNK88_4286	operon_1641	NC_017641.1|gene4241|UMNK88_4286
UMNK88_4287	operon_1642	NC_017641.1|gene4242|UMNK88_4287
UMNK88_4288	operon_1643	NC_017641.1|gene4243|UMNK88_4288
UMNK88_4289	operon_1644	NC_017641.1|gene4244|UMNK88_4289
UMNK88_4290	operon_1645	NC_017641.1|gene4245|UMNK88_4290
UMNK88_4291	operon_1645	NC_017641.1|gene4246|UMNK88_4291|bpeA
UMNK88_4292	operon_1645	NC_017641.1|gene4247|UMNK88_4292|bpeB
UMNK88_4293	operon_1646	NC_017641.1|gene4248|UMNK88_4293
UMNK88_4294	operon_1646	NC_017641.1|gene4249|UMNK88_4294
UMNK88_4295	operon_1647	NC_017641.1|gene4250|UMNK88_4295
UMNK88_4296	operon_1648	NC_017641.1|gene4251|UMNK88_4296
UMNK88_4297	operon_1649	NC_017641.1|gene4252|UMNK88_4297
UMNK88_4298	operon_1650	NC_017641.1|gene4253|UMNK88_4298
UMNK88_4299	operon_1651	NC_017641.1|gene4254|UMNK88_4299
UMNK88_4300	operon_1651	NC_017641.1|gene4255|UMNK88_4300
UMNK88_4301	operon_1652	NC_017641.1|gene4256|UMNK88_4301
UMNK88_4302	operon_1653	NC_017641.1|gene4257|UMNK88_4302
UMNK88_4303	operon_1653	NC_017641.1|gene4258|UMNK88_4303
UMNK88_4304	operon_1653	NC_017641.1|gene4259|UMNK88_4304
UMNK88_4305	operon_1654	NC_017641.1|gene4260|UMNK88_4305
UMNK88_4306	operon_1655	NC_017641.1|gene4261|UMNK88_4306
UMNK88_4307	operon_1656	NC_017641.1|gene4262|UMNK88_4307
UMNK88_4308	operon_1657	NC_017641.1|gene4263|UMNK88_4308
UMNK88_4309	operon_1658	NC_017641.1|gene4264|UMNK88_4309
UMNK88_4310	operon_1658	NC_017641.1|gene4265|UMNK88_4310
UMNK88_4311	operon_1658	NC_017641.1|gene4266|UMNK88_4311
UMNK88_4312	operon_1658	NC_017641.1|gene4267|UMNK88_4312
UMNK88_4313	operon_1658	NC_017641.1|gene4268|UMNK88_4313|celA
UMNK88_4314	operon_1658	NC_017641.1|gene4269|UMNK88_4314|yhjQ
UMNK88_4315	operon_1658	NC_017641.1|gene4270|UMNK88_4315
UMNK88_4316	operon_1659	NC_017641.1|gene4271|UMNK88_4316|bcsE
UMNK88_4317	operon_1659	NC_017641.1|gene4272|UMNK88_4317
UMNK88_4318	operon_1659	NC_017641.1|gene4273|UMNK88_4318
UMNK88_4319	operon_1660	NC_017641.1|gene4274|UMNK88_4319
UMNK88_4320	operon_1660	NC_017641.1|gene4275|UMNK88_4320|yhaO
UMNK88_4321	operon_1661	NC_017641.1|gene4276|UMNK88_4321
UMNK88_4322	operon_1661	NC_017641.1|gene4277|UMNK88_4322
UMNK88_4323	operon_1661	NC_017641.1|gene4278|UMNK88_4323
UMNK88_4324	operon_1661	NC_017641.1|gene4279|UMNK88_4324
UMNK88_4325	operon_1662	NC_017641.1|gene4280|UMNK88_4325
UMNK88_4326	operon_1663	NC_017641.1|gene4281|UMNK88_4326
UMNK88_4327	operon_1663	NC_017641.1|gene4282|UMNK88_4327
UMNK88_t70	operon_1663	NC_017641.1|gene4283|UMNK88_t70
UMNK88_4329	operon_1664	NC_017641.1|gene4284|UMNK88_4329
UMNK88_4330	operon_1665	NC_017641.1|gene4285|UMNK88_4330
UMNK88_4331	operon_1665	NC_017641.1|gene4286|UMNK88_4331
UMNK88_4332	operon_1666	NC_017641.1|gene4287|UMNK88_4332|tag
UMNK88_4334	operon_1666	NC_017641.1|gene4288|UMNK88_4334
UMNK88_4333	operon_1667	NC_017641.1|gene4289|UMNK88_4333
UMNK88_4335	operon_1668	NC_017641.1|gene4290|UMNK88_4335
UMNK88_4336	operon_1669	NC_017641.1|gene4291|UMNK88_4336
UMNK88_4337	operon_1670	NC_017641.1|gene4292|UMNK88_4337
UMNK88_4338	operon_1671	NC_017641.1|gene4293|UMNK88_4338
UMNK88_4339	operon_1672	NC_017641.1|gene4294|UMNK88_4339
UMNK88_4340	operon_1673	NC_017641.1|gene4295|UMNK88_4340
UMNK88_4341	operon_1674	NC_017641.1|gene4296|UMNK88_4341
UMNK88_4342	operon_1674	NC_017641.1|gene4297|UMNK88_4342
UMNK88_4343	operon_1675	NC_017641.1|gene4298|UMNK88_4343|glyS
UMNK88_4344	operon_1675	NC_017641.1|gene4299|UMNK88_4344|glyQ
UMNK88_4345	operon_1675	NC_017641.1|gene4300|UMNK88_4345
UMNK88_4346	operon_1676	NC_017641.1|gene4301|UMNK88_4346
UMNK88_4347	operon_1677	NC_017641.1|gene4302|UMNK88_4347
UMNK88_4348	operon_1677	NC_017641.1|gene4303|UMNK88_4348
UMNK88_4349	operon_1677	NC_017641.1|gene4304|UMNK88_4349|xylB
UMNK88_4350	operon_1677	NC_017641.1|gene4305|UMNK88_4350|xylA
UMNK88_4351	operon_1678	NC_017641.1|gene4306|UMNK88_4351|xylF
UMNK88_4352	operon_1678	NC_017641.1|gene4307|UMNK88_4352|xylG
UMNK88_4353	operon_1678	NC_017641.1|gene4308|UMNK88_4353
UMNK88_4354	operon_1679	NC_017641.1|gene4309|UMNK88_4354
UMNK88_4355	operon_1680	NC_017641.1|gene4310|UMNK88_4355
UMNK88_4356	operon_1681	NC_017641.1|gene4311|UMNK88_4356
UMNK88_4357	operon_1681	NC_017641.1|gene4312|UMNK88_4357
UMNK88_4358	operon_1682	NC_017641.1|gene4313|UMNK88_4358
UMNK88_4359	operon_1682	NC_017641.1|gene4314|UMNK88_4359
UMNK88_4360	operon_1683	NC_017641.1|gene4315|UMNK88_4360
UMNK88_4361	operon_1683	NC_017641.1|gene4316|UMNK88_4361
UMNK88_4362	operon_1683	NC_017641.1|gene4317|UMNK88_4362
UMNK88_4363	operon_1683	NC_017641.1|gene4318|UMNK88_4363
UMNK88_4364	operon_1683	NC_017641.1|gene4319|UMNK88_4364
UMNK88_4365	operon_1683	NC_017641.1|gene4320|UMNK88_4365
UMNK88_4366	operon_1683	NC_017641.1|gene4321|UMNK88_4366
UMNK88_4367	operon_1683	NC_017641.1|gene4322|UMNK88_4367
UMNK88_4368	operon_1683	NC_017641.1|gene4323|UMNK88_4368|araD
UMNK88_4369	operon_1684	NC_017641.1|gene4324|UMNK88_4369
UMNK88_4371	operon_1685	NC_017641.1|gene4325|UMNK88_4371
UMNK88_4370	operon_1686	NC_017641.1|gene4326|UMNK88_4370
UMNK88_4372	operon_1686	NC_017641.1|gene4327|UMNK88_4372
UMNK88_4373	operon_1687	NC_017641.1|gene4328|UMNK88_4373
UMNK88_4374	operon_1688	NC_017641.1|gene4329|UMNK88_4374
UMNK88_4375	operon_1689	NC_017641.1|gene4330|UMNK88_4375
UMNK88_4376	operon_1689	NC_017641.1|gene4331|UMNK88_4376|selB
UMNK88_4377	operon_1689	NC_017641.1|gene4332|UMNK88_4377|selA
UMNK88_4378	operon_1689	NC_017641.1|gene4333|UMNK88_4378
UMNK88_4379	operon_1690	NC_017641.1|gene4334|UMNK88_4379
UMNK88_4380	operon_1690	NC_017641.1|gene4335|UMNK88_4380
UMNK88_4381	operon_1690	NC_017641.1|gene4336|UMNK88_4381
UMNK88_4382	operon_1690	NC_017641.1|gene4337|UMNK88_4382
UMNK88_4383	operon_1691	NC_017641.1|gene4338|UMNK88_4383
UMNK88_4384	operon_1691	NC_017641.1|gene4339|UMNK88_4384
UMNK88_4385	operon_1692	NC_017641.1|gene4340|UMNK88_4385|mtlA
UMNK88_4386	operon_1692	NC_017641.1|gene4341|UMNK88_4386
UMNK88_4387	operon_1692	NC_017641.1|gene4342|UMNK88_4387
UMNK88_4388	operon_1693	NC_017641.1|gene4343|UMNK88_4388
UMNK88_4389	operon_1694	NC_017641.1|gene4344|UMNK88_4389
UMNK88_4390	operon_1695	NC_017641.1|gene4345|UMNK88_4390
UMNK88_4391	operon_1695	NC_017641.1|gene4346|UMNK88_4391
UMNK88_4392	operon_1695	NC_017641.1|gene4347|UMNK88_4392
UMNK88_4393	operon_1696	NC_017641.1|gene4348|UMNK88_4393
UMNK88_4394	operon_1697	NC_017641.1|gene4349|UMNK88_4394|cysE
UMNK88_4395	operon_1698	NC_017641.1|gene4350|UMNK88_4395
UMNK88_4396	operon_1698	NC_017641.1|gene4351|UMNK88_4396|secB
UMNK88_4397	operon_1698	NC_017641.1|gene4352|UMNK88_4397|grxC
UMNK88_4398	operon_1698	NC_017641.1|gene4353|UMNK88_4398
UMNK88_4399	operon_1699	NC_017641.1|gene4354|UMNK88_4399|gpmI
UMNK88_4400	operon_1699	NC_017641.1|gene4355|UMNK88_4400
UMNK88_4402	operon_1699	NC_017641.1|gene4356|UMNK88_4402
UMNK88_4401	operon_1700	NC_017641.1|gene4357|UMNK88_4401
UMNK88_4403	operon_1700	NC_017641.1|gene4358|UMNK88_4403|tdh
UMNK88_4404	operon_1700	NC_017641.1|gene4359|UMNK88_4404|kbl
UMNK88_4405	operon_1701	NC_017641.1|gene4360|UMNK88_4405|rfaD
UMNK88_4406	operon_1701	NC_017641.1|gene4361|UMNK88_4406|rfaF
UMNK88_4407	operon_1701	NC_017641.1|gene4362|UMNK88_4407|rfaC
UMNK88_4408	operon_1702	NC_017641.1|gene4363|UMNK88_4408
UMNK88_4409	operon_1702	NC_017641.1|gene4364|UMNK88_4409
UMNK88_4410	operon_1702	NC_017641.1|gene4365|UMNK88_4410
UMNK88_4411	operon_1702	NC_017641.1|gene4366|UMNK88_4411
UMNK88_4412	operon_1702	NC_017641.1|gene4367|UMNK88_4412
UMNK88_4413	operon_1702	NC_017641.1|gene4368|UMNK88_4413
UMNK88_4414	operon_1702	NC_017641.1|gene4369|UMNK88_4414
UMNK88_4415	operon_1702	NC_017641.1|gene4370|UMNK88_4415
UMNK88_4416	operon_1702	NC_017641.1|gene4371|UMNK88_4416|rfaQ
UMNK88_4417	operon_1703	NC_017641.1|gene4372|UMNK88_4417
UMNK88_4418	operon_1703	NC_017641.1|gene4373|UMNK88_4418|coaD
UMNK88_4419	operon_1704	NC_017641.1|gene4374|UMNK88_4419|mutM
UMNK88_4420	operon_1704	NC_017641.1|gene4375|UMNK88_4420|rpmG
UMNK88_4421	operon_1704	NC_017641.1|gene4376|UMNK88_4421|rpmB
UMNK88_4422	operon_1704	NC_017641.1|gene4377|UMNK88_4422
UMNK88_4423	operon_1705	NC_017641.1|gene4378|UMNK88_4423
UMNK88_4424	operon_1705	NC_017641.1|gene4379|UMNK88_4424|dut
UMNK88_4425	operon_1705	NC_017641.1|gene4380|UMNK88_4425
UMNK88_4426	operon_1706	NC_017641.1|gene4381|UMNK88_4426|pyrE
UMNK88_4427	operon_1706	NC_017641.1|gene4382|UMNK88_4427|rph
UMNK88_4428	operon_1707	NC_017641.1|gene4383|UMNK88_4428
UMNK88_4429	operon_1707	NC_017641.1|gene4384|UMNK88_4429
UMNK88_4430	operon_1707	NC_017641.1|gene4385|UMNK88_4430
UMNK88_4431	operon_1708	NC_017641.1|gene4386|UMNK88_4431
UMNK88_4432	operon_1708	NC_017641.1|gene4387|UMNK88_4432
UMNK88_4433	operon_1708	NC_017641.1|gene4388|UMNK88_4433
UMNK88_4434	operon_1709	NC_017641.1|gene4389|UMNK88_4434
UMNK88_4435	operon_1710	NC_017641.1|gene4390|UMNK88_4435
UMNK88_4436	operon_1710	NC_017641.1|gene4391|UMNK88_4436
UMNK88_4437	operon_1710	NC_017641.1|gene4392|UMNK88_4437
UMNK88_4438	operon_1710	NC_017641.1|gene4393|UMNK88_4438
UMNK88_4439	operon_1710	NC_017641.1|gene4394|UMNK88_4439
UMNK88_4440	operon_1710	NC_017641.1|gene4395|UMNK88_4440
UMNK88_4441	operon_1710	NC_017641.1|gene4396|UMNK88_4441
UMNK88_4442	operon_1710	NC_017641.1|gene4397|UMNK88_4442
UMNK88_4443	operon_1711	NC_017641.1|gene4398|UMNK88_4443
UMNK88_4444	operon_1711	NC_017641.1|gene4399|UMNK88_4444
UMNK88_4445	operon_1711	NC_017641.1|gene4400|UMNK88_4445
UMNK88_4446	operon_1712	NC_017641.1|gene4401|UMNK88_4446
UMNK88_4447	operon_1712	NC_017641.1|gene4402|UMNK88_4447
UMNK88_4448	operon_1712	NC_017641.1|gene4403|UMNK88_4448
UMNK88_4449	operon_1713	NC_017641.1|gene4404|UMNK88_4449
UMNK88_4450	operon_1714	NC_017641.1|gene4405|UMNK88_4450
UMNK88_4452	operon_1714	NC_017641.1|gene4406|UMNK88_4452
UMNK88_4451	operon_1715	NC_017641.1|gene4407|UMNK88_4451
UMNK88_4453	operon_1716	NC_017641.1|gene4408|UMNK88_4453|gmk
UMNK88_4454	operon_1716	NC_017641.1|gene4409|UMNK88_4454|rpoZ
UMNK88_4455	operon_1716	NC_017641.1|gene4410|UMNK88_4455
UMNK88_4456	operon_1716	NC_017641.1|gene4411|UMNK88_4456
UMNK88_4457	operon_1716	NC_017641.1|gene4412|UMNK88_4457|recG
UMNK88_4458	operon_1717	NC_017641.1|gene4413|UMNK88_4458|gltS
UMNK88_4459	operon_1718	NC_017641.1|gene4414|UMNK88_4459
UMNK88_4460	operon_1718	NC_017641.1|gene4415|UMNK88_4460
UMNK88_4461	operon_1719	NC_017641.1|gene4416|UMNK88_4461
UMNK88_4462	operon_1719	NC_017641.1|gene4417|UMNK88_4462|putative transporter%3B pseudogene%3B possible frameshift
UMNK88_t71	operon_1720	NC_017641.1|gene4418|UMNK88_t71
UMNK88_4465	operon_1720	NC_017641.1|gene4419|UMNK88_4465
UMNK88_4466	operon_1720	NC_017641.1|gene4420|UMNK88_4466
UMNK88_4467	operon_1720	NC_017641.1|gene4421|UMNK88_4467
UMNK88_4468	operon_1721	NC_017641.1|gene4422|UMNK88_4468
UMNK88_4469	operon_1722	NC_017641.1|gene4423|UMNK88_4469
UMNK88_4470	operon_1722	NC_017641.1|gene4424|UMNK88_4470
UMNK88_4471	operon_1723	NC_017641.1|gene4425|UMNK88_4471
UMNK88_4472	operon_1723	NC_017641.1|gene4426|UMNK88_4472
UMNK88_4473	operon_1723	NC_017641.1|gene4427|UMNK88_4473
UMNK88_4474	operon_1724	NC_017641.1|gene4428|UMNK88_4474|ade
UMNK88_4475	operon_1725	NC_017641.1|gene4429|UMNK88_4475
UMNK88_4476	operon_1725	NC_017641.1|gene4430|UMNK88_4476
UMNK88_4477	operon_1725	NC_017641.1|gene4431|UMNK88_4477
UMNK88_4478	operon_1725	NC_017641.1|gene4432|UMNK88_4478
UMNK88_4479	operon_1725	NC_017641.1|gene4433|UMNK88_4479|ilvN
UMNK88_4480	operon_1725	NC_017641.1|gene4434|UMNK88_4480|ilvB
UMNK88_4481	operon_1726	NC_017641.1|gene4435|UMNK88_4481
UMNK88_4482	operon_1727	NC_017641.1|gene4436|UMNK88_4482
UMNK88_4483	operon_1727	NC_017641.1|gene4437|UMNK88_4483
UMNK88_4484	operon_1728	NC_017641.1|gene4438|UMNK88_4484
UMNK88_4485	operon_1728	NC_017641.1|gene4439|UMNK88_4485
UMNK88_4486	operon_1728	NC_017641.1|gene4440|UMNK88_4486
UMNK88_4487	operon_1729	NC_017641.1|gene4441|UMNK88_4487
UMNK88_4488	operon_1730	NC_017641.1|gene4442|UMNK88_4488
UMNK88_4489	operon_1730	NC_017641.1|gene4443|UMNK88_4489
UMNK88_4491	operon_1731	NC_017641.1|gene4444|UMNK88_4491
UMNK88_4490	operon_1732	NC_017641.1|gene4445|UMNK88_4490
UMNK88_4492	operon_1732	NC_017641.1|gene4446|UMNK88_4492
UMNK88_4493	operon_1732	NC_017641.1|gene4447|UMNK88_4493
UMNK88_4495	operon_1733	NC_017641.1|gene4448|UMNK88_4495
UMNK88_4494	operon_1734	NC_017641.1|gene4449|UMNK88_4494
UMNK88_4496	operon_1735	NC_017641.1|gene4450|UMNK88_4496
UMNK88_4497	operon_1735	NC_017641.1|gene4451|UMNK88_4497
UMNK88_4498	operon_1736	NC_017641.1|gene4452|UMNK88_4498
UMNK88_4499	operon_1737	NC_017641.1|gene4453|UMNK88_4499
UMNK88_4501	operon_1738	NC_017641.1|gene4454|UMNK88_4501
UMNK88_4500	operon_1739	NC_017641.1|gene4455|UMNK88_4500
UMNK88_4502	operon_1739	NC_017641.1|gene4456|UMNK88_4502
UMNK88_4503	operon_1739	NC_017641.1|gene4457|UMNK88_4503
UMNK88_4504	operon_1739	NC_017641.1|gene4458|UMNK88_4504
UMNK88_4505	operon_1739	NC_017641.1|gene4459|UMNK88_4505
UMNK88_4506	operon_1740	NC_017641.1|gene4460|UMNK88_4506
UMNK88_4507	operon_1741	NC_017641.1|gene4461|UMNK88_4507
UMNK88_4508	operon_1741	NC_017641.1|gene4462|UMNK88_4508
UMNK88_4509	operon_1741	NC_017641.1|gene4463|UMNK88_4509|gyrB
UMNK88_4510	operon_1741	NC_017641.1|gene4464|UMNK88_4510|recF
UMNK88_4511	operon_1741	NC_017641.1|gene4465|UMNK88_4511|dnaN
UMNK88_4512	operon_1741	NC_017641.1|gene4466|UMNK88_4512|dnaA
UMNK88_4513	operon_1742	NC_017641.1|gene4467|UMNK88_4513|rpmH
UMNK88_4514	operon_1742	NC_017641.1|gene4468|UMNK88_4514|rnpA
UMNK88_4515	operon_1742	NC_017641.1|gene4469|UMNK88_4515
UMNK88_4516	operon_1743	NC_017641.1|gene4470|UMNK88_4516|trmE
UMNK88_4517	operon_1743	NC_017641.1|gene4471|UMNK88_4517|tnaA
UMNK88_4518	operon_1743	NC_017641.1|gene4472|UMNK88_4518
UMNK88_4519	operon_1744	NC_017641.1|gene4473|UMNK88_4519
UMNK88_4520	operon_1744	NC_017641.1|gene4474|UMNK88_4520
UMNK88_4521	operon_1744	NC_017641.1|gene4475|UMNK88_4521
UMNK88_4522	operon_1744	NC_017641.1|gene4476|UMNK88_4522
UMNK88_4523	operon_1745	NC_017641.1|gene4477|UMNK88_4523
UMNK88_4524	operon_1746	NC_017641.1|gene4478|UMNK88_4524
UMNK88_4525	operon_1746	NC_017641.1|gene4479|UMNK88_4525
UMNK88_4526	operon_1746	NC_017641.1|gene4480|UMNK88_4526
UMNK88_4527	operon_1747	NC_017641.1|gene4481|UMNK88_4527
UMNK88_4528	operon_1747	NC_017641.1|gene4482|UMNK88_4528
UMNK88_4529	operon_1747	NC_017641.1|gene4483|UMNK88_4529
UMNK88_4530	operon_1748	NC_017641.1|gene4484|UMNK88_4530
UMNK88_4531	operon_1748	NC_017641.1|gene4485|UMNK88_4531|PTS system beta-glucoside-specific transporter%3B pseudogene%3B possible frameshift
UMNK88_4534	operon_1748	NC_017641.1|gene4486|UMNK88_4534
UMNK88_4535	operon_1749	NC_017641.1|gene4487|UMNK88_4535
UMNK88_4536	operon_1750	NC_017641.1|gene4488|UMNK88_4536|phoU
UMNK88_4537	operon_1750	NC_017641.1|gene4489|UMNK88_4537|pstB
UMNK88_4538	operon_1750	NC_017641.1|gene4490|UMNK88_4538|pstA
UMNK88_4539	operon_1750	NC_017641.1|gene4491|UMNK88_4539|pstC
UMNK88_4540	operon_1750	NC_017641.1|gene4492|UMNK88_4540|pstS
UMNK88_4541	operon_1750	NC_017641.1|gene4493|UMNK88_4541|glmS
UMNK88_4542	operon_1750	NC_017641.1|gene4494|UMNK88_4542|glmU
UMNK88_4543	operon_1750	NC_017641.1|gene4495|UMNK88_4543|atpC
UMNK88_4544	operon_1750	NC_017641.1|gene4496|UMNK88_4544|atpD
UMNK88_4545	operon_1750	NC_017641.1|gene4497|UMNK88_4545|atpG
UMNK88_4546	operon_1750	NC_017641.1|gene4498|UMNK88_4546|atpA
UMNK88_4547	operon_1750	NC_017641.1|gene4499|UMNK88_4547|atpH
UMNK88_4548	operon_1750	NC_017641.1|gene4500|UMNK88_4548|atpF
UMNK88_4549	operon_1750	NC_017641.1|gene4501|UMNK88_4549|atpE
UMNK88_4550	operon_1750	NC_017641.1|gene4502|UMNK88_4550|atpB
UMNK88_4551	operon_1750	NC_017641.1|gene4503|UMNK88_4551
UMNK88_4552	operon_1750	NC_017641.1|gene4504|UMNK88_4552|gidB
UMNK88_4553	operon_1750	NC_017641.1|gene4505|UMNK88_4553|gidA
UMNK88_4554	operon_1750	NC_017641.1|gene4506|UMNK88_4554
UMNK88_4555	operon_1751	NC_017641.1|gene4507|UMNK88_4555
UMNK88_4556	operon_1752	NC_017641.1|gene4508|UMNK88_4556|asnA
UMNK88_4557	operon_1753	NC_017641.1|gene4509|UMNK88_4557
UMNK88_4558	operon_1753	NC_017641.1|gene4510|UMNK88_4558
UMNK88_4559	operon_1754	NC_017641.1|gene4511|UMNK88_4559|kup
UMNK88_4560	operon_1754	NC_017641.1|gene4512|UMNK88_4560
UMNK88_4561	operon_1754	NC_017641.1|gene4513|UMNK88_4561
UMNK88_4562	operon_1754	NC_017641.1|gene4514|UMNK88_4562
UMNK88_4563	operon_1754	NC_017641.1|gene4515|UMNK88_4563
UMNK88_4564	operon_1755	NC_017641.1|gene4516|UMNK88_4564|rbsK
UMNK88_4566	operon_1755	NC_017641.1|gene4517|UMNK88_4566
UMNK88_4565	operon_1756	NC_017641.1|gene4518|UMNK88_4565
UMNK88_4567	operon_1756	NC_017641.1|gene4519|UMNK88_4567
UMNK88_r11	operon_1757	NC_017641.1|gene4520|UMNK88_r11
UMNK88_t72	operon_1757	NC_017641.1|gene4521|UMNK88_t72
UMNK88_r12	operon_1757	NC_017641.1|gene4522|UMNK88_r12
UMNK88_r13	operon_1757	NC_017641.1|gene4523|UMNK88_r13
UMNK88_t73	operon_1757	NC_017641.1|gene4524|UMNK88_t73
UMNK88_t74	operon_1757	NC_017641.1|gene4525|UMNK88_t74
UMNK88_4575	operon_1758	NC_017641.1|gene4526|UMNK88_4575
UMNK88_4576	operon_1759	NC_017641.1|gene4527|UMNK88_4576
UMNK88_4577	operon_1760	NC_017641.1|gene4528|UMNK88_4577
UMNK88_4578	operon_1761	NC_017641.1|gene4529|UMNK88_4578|ilvB
UMNK88_4579	operon_1761	NC_017641.1|gene4530|UMNK88_4579
UMNK88_4580	operon_1761	NC_017641.1|gene4531|UMNK88_4580|ilvE
UMNK88_4581	operon_1761	NC_017641.1|gene4532|UMNK88_4581|ilvD
UMNK88_4582	operon_1761	NC_017641.1|gene4533|UMNK88_4582|ilvA
UMNK88_4583	operon_1762	NC_017641.1|gene4534|UMNK88_4583
UMNK88_4584	operon_1763	NC_017641.1|gene4535|UMNK88_4584|ilvC
UMNK88_4585	operon_1764	NC_017641.1|gene4536|UMNK88_4585
UMNK88_4586	operon_1765	NC_017641.1|gene4537|UMNK88_4586
UMNK88_4587	operon_1766	NC_017641.1|gene4538|UMNK88_4587|rep
UMNK88_4588	operon_1767	NC_017641.1|gene4539|UMNK88_4588
UMNK88_4589	operon_1767	NC_017641.1|gene4540|UMNK88_4589
UMNK88_4590	operon_1768	NC_017641.1|gene4541|UMNK88_4590|trx
UMNK88_4591	operon_1768	NC_017641.1|gene4542|UMNK88_4591|rho
UMNK88_4592	operon_1768	NC_017641.1|gene4543|UMNK88_4592
UMNK88_4593	operon_1768	NC_017641.1|gene4544|UMNK88_4593|wecA
UMNK88_4594	operon_1768	NC_017641.1|gene4545|UMNK88_4594
UMNK88_4595	operon_1769	NC_017641.1|gene4546|UMNK88_4595
UMNK88_4596	operon_1769	NC_017641.1|gene4547|UMNK88_4596
UMNK88_4597	operon_1769	NC_017641.1|gene4548|UMNK88_4597|rfbB
UMNK88_4598	operon_1769	NC_017641.1|gene4549|UMNK88_4598|rfbA
UMNK88_4599	operon_1769	NC_017641.1|gene4550|UMNK88_4599|wecD
UMNK88_4600	operon_1769	NC_017641.1|gene4551|UMNK88_4600|wecE
UMNK88_4601	operon_1769	NC_017641.1|gene4552|UMNK88_4601
UMNK88_4602	operon_1769	NC_017641.1|gene4553|UMNK88_4602
UMNK88_4603	operon_1769	NC_017641.1|gene4554|UMNK88_4603
UMNK88_4604	operon_1769	NC_017641.1|gene4555|UMNK88_4604
UMNK88_4605	operon_1770	NC_017641.1|gene4556|UMNK88_4605
UMNK88_t75	operon_1770	NC_017641.1|gene4557|UMNK88_t75
UMNK88_t76	operon_1770	NC_017641.1|gene4558|UMNK88_t76
UMNK88_t77	operon_1770	NC_017641.1|gene4559|UMNK88_t77
UMNK88_t78	operon_1770	NC_017641.1|gene4560|UMNK88_t78
UMNK88_4610	operon_1770	NC_017641.1|gene4561|UMNK88_4610
UMNK88_4611	operon_1771	NC_017641.1|gene4562|UMNK88_4611
UMNK88_4612	operon_1771	NC_017641.1|gene4563|UMNK88_4612
UMNK88_4613	operon_1771	NC_017641.1|gene4564|UMNK88_4613
UMNK88_4614	operon_1771	NC_017641.1|gene4565|UMNK88_4614
UMNK88_4615	operon_1771	NC_017641.1|gene4566|UMNK88_4615
UMNK88_4616	operon_1771	NC_017641.1|gene4567|UMNK88_4616|hemC
UMNK88_4617	operon_1772	NC_017641.1|gene4568|UMNK88_4617
UMNK88_4618	operon_1773	NC_017641.1|gene4569|UMNK88_4618|cyaY
UMNK88_4619	operon_1774	NC_017641.1|gene4570|UMNK88_4619
UMNK88_4620	operon_1774	NC_017641.1|gene4571|UMNK88_4620
UMNK88_4621	operon_1774	NC_017641.1|gene4572|UMNK88_4621|dapF
UMNK88_4622	operon_1774	NC_017641.1|gene4573|UMNK88_4622
UMNK88_4623	operon_1774	NC_017641.1|gene4574|UMNK88_4623|xerC
UMNK88_4624	operon_1774	NC_017641.1|gene4575|UMNK88_4624
UMNK88_4625	operon_1775	NC_017641.1|gene4576|UMNK88_4625|uvrD
UMNK88_4627	operon_1776	NC_017641.1|gene4577|UMNK88_4627
UMNK88_4628	operon_1777	NC_017641.1|gene4578|UMNK88_4628
UMNK88_4629	operon_1777	NC_017641.1|gene4579|UMNK88_4629|corA
UMNK88_4630	operon_1778	NC_017641.1|gene4580|UMNK88_4630
UMNK88_4631	operon_1778	NC_017641.1|gene4581|UMNK88_4631
UMNK88_4632	operon_1779	NC_017641.1|gene4582|UMNK88_4632
UMNK88_4633	operon_1779	NC_017641.1|gene4583|UMNK88_4633
UMNK88_4634	operon_1780	NC_017641.1|gene4584|UMNK88_4634
UMNK88_4635	operon_1781	NC_017641.1|gene4585|UMNK88_4635|recQ
UMNK88_4636	operon_1781	NC_017641.1|gene4586|UMNK88_4636
UMNK88_4637	operon_1782	NC_017641.1|gene4587|UMNK88_4637
UMNK88_4638	operon_1783	NC_017641.1|gene4588|UMNK88_4638
UMNK88_4639	operon_1783	NC_017641.1|gene4589|UMNK88_4639
UMNK88_4640	operon_1783	NC_017641.1|gene4590|UMNK88_4640
UMNK88_4641	operon_1783	NC_017641.1|gene4591|UMNK88_4641|metE
UMNK88_4642	operon_1784	NC_017641.1|gene4592|UMNK88_4642
UMNK88_4643	operon_1785	NC_017641.1|gene4593|UMNK88_4643
UMNK88_4644	operon_1785	NC_017641.1|gene4594|UMNK88_4644
UMNK88_4645	operon_1785	NC_017641.1|gene4595|UMNK88_4645
UMNK88_4646	operon_1785	NC_017641.1|gene4596|UMNK88_4646
UMNK88_4648	operon_1785	NC_017641.1|gene4597|UMNK88_4648
UMNK88_4649	operon_1785	NC_017641.1|gene4598|UMNK88_4649
UMNK88_4650	operon_1785	NC_017641.1|gene4599|UMNK88_4650
UMNK88_4651	operon_1786	NC_017641.1|gene4600|UMNK88_4651
UMNK88_4652	operon_1786	NC_017641.1|gene4601|UMNK88_4652
UMNK88_4653	operon_1787	NC_017641.1|gene4602|UMNK88_4653
UMNK88_4654	operon_1787	NC_017641.1|gene4603|UMNK88_4654
UMNK88_4655	operon_1788	NC_017641.1|gene4604|UMNK88_4655|udp
UMNK88_4656	operon_1789	NC_017641.1|gene4605|UMNK88_4656
UMNK88_4657	operon_1789	NC_017641.1|gene4606|UMNK88_4657
UMNK88_4658	operon_1789	NC_017641.1|gene4607|UMNK88_4658
UMNK88_4659	operon_1789	NC_017641.1|gene4608|UMNK88_4659
UMNK88_4660	operon_1789	NC_017641.1|gene4609|UMNK88_4660
UMNK88_4661	operon_1789	NC_017641.1|gene4610|UMNK88_4661
UMNK88_4662	operon_1790	NC_017641.1|gene4611|UMNK88_4662
UMNK88_4663	operon_1790	NC_017641.1|gene4612|UMNK88_4663
UMNK88_4664	operon_1790	NC_017641.1|gene4613|UMNK88_4664
UMNK88_4665	operon_1790	NC_017641.1|gene4614|UMNK88_4665|ubiB
UMNK88_4666	operon_1790	NC_017641.1|gene4615|UMNK88_4666|tatA
UMNK88_4667	operon_1790	NC_017641.1|gene4616|UMNK88_4667|tatB
UMNK88_4668	operon_1790	NC_017641.1|gene4617|UMNK88_4668|tatC
UMNK88_4670	operon_1790	NC_017641.1|gene4618|UMNK88_4670
UMNK88_4669	operon_1791	NC_017641.1|gene4619|UMNK88_4669|rfaH
UMNK88_4671	operon_1792	NC_017641.1|gene4620|UMNK88_4671|ubiD
UMNK88_4672	operon_1792	NC_017641.1|gene4621|UMNK88_4672
UMNK88_4673	operon_1793	NC_017641.1|gene4622|UMNK88_4673|fadA
UMNK88_4674	operon_1793	NC_017641.1|gene4623|UMNK88_4674|fadB
UMNK88_4675	operon_1794	NC_017641.1|gene4624|UMNK88_4675
UMNK88_4676	operon_1794	NC_017641.1|gene4625|UMNK88_4676
UMNK88_4677	operon_1794	NC_017641.1|gene4626|UMNK88_4677
UMNK88_4678	operon_1794	NC_017641.1|gene4627|UMNK88_4678
UMNK88_r14	operon_1794	NC_017641.1|gene4628|UMNK88_r14
UMNK88_t79	operon_1794	NC_017641.1|gene4629|UMNK88_t79
UMNK88_t80	operon_1794	NC_017641.1|gene4630|UMNK88_t80
UMNK88_r15	operon_1794	NC_017641.1|gene4631|UMNK88_r15
UMNK88_r16	operon_1794	NC_017641.1|gene4632|UMNK88_r16
UMNK88_4685	operon_1795	NC_017641.1|gene4633|UMNK88_4685|mobB
UMNK88_4686	operon_1795	NC_017641.1|gene4634|UMNK88_4686|mobA
UMNK88_4687	operon_1796	NC_017641.1|gene4635|UMNK88_4687
UMNK88_4688	operon_1796	NC_017641.1|gene4636|UMNK88_4688
UMNK88_4689	operon_1796	NC_017641.1|gene4637|UMNK88_4689
UMNK88_4690	operon_1797	NC_017641.1|gene4638|UMNK88_4690
UMNK88_4691	operon_1798	NC_017641.1|gene4639|UMNK88_4691
UMNK88_4692	operon_1798	NC_017641.1|gene4640|UMNK88_4692
UMNK88_4693	operon_1799	NC_017641.1|gene4641|UMNK88_4693|polA
UMNK88_4694	operon_1800	NC_017641.1|gene4642|UMNK88_4694
UMNK88_4695	operon_1800	NC_017641.1|gene4643|UMNK88_4695
UMNK88_4696	operon_1801	NC_017641.1|gene4644|UMNK88_4696
UMNK88_4697	operon_1802	NC_017641.1|gene4645|UMNK88_4697
UMNK88_4699	operon_1803	NC_017641.1|gene4646|UMNK88_4699|hemN
UMNK88_4698	operon_1804	NC_017641.1|gene4647|UMNK88_4698
UMNK88_4700	operon_1805	NC_017641.1|gene4648|UMNK88_4700
UMNK88_4701	operon_1806	NC_017641.1|gene4649|UMNK88_4701|ntrC
UMNK88_4702	operon_1806	NC_017641.1|gene4650|UMNK88_4702
UMNK88_4703	operon_1806	NC_017641.1|gene4651|UMNK88_4703|glnA
UMNK88_4704	operon_1807	NC_017641.1|gene4652|UMNK88_4704|typA
UMNK88_4705	operon_1807	NC_017641.1|gene4653|UMNK88_4705
UMNK88_4706	operon_1807	NC_017641.1|gene4654|UMNK88_4706
UMNK88_4707	operon_1807	NC_017641.1|gene4655|UMNK88_4707
UMNK88_4708	operon_1808	NC_017641.1|gene4656|UMNK88_4708
UMNK88_4709	operon_1808	NC_017641.1|gene4657|UMNK88_4709
UMNK88_4710	operon_1809	NC_017641.1|gene4658|UMNK88_4710
UMNK88_4711	operon_1809	NC_017641.1|gene4659|UMNK88_4711
UMNK88_4712	operon_1809	NC_017641.1|gene4660|UMNK88_4712
UMNK88_4713	operon_1810	NC_017641.1|gene4661|UMNK88_4713
UMNK88_4714	operon_1810	NC_017641.1|gene4662|UMNK88_4714
UMNK88_4715	operon_1810	NC_017641.1|gene4663|UMNK88_4715
UMNK88_4716	operon_1811	NC_017641.1|gene4664|UMNK88_4716
UMNK88_4717	operon_1811	NC_017641.1|gene4665|UMNK88_4717
UMNK88_4718	operon_1811	NC_017641.1|gene4666|UMNK88_4718
UMNK88_4719	operon_1811	NC_017641.1|gene4667|UMNK88_4719
UMNK88_4720	operon_1811	NC_017641.1|gene4668|UMNK88_4720|dtd
UMNK88_4721	operon_1811	NC_017641.1|gene4669|UMNK88_4721
UMNK88_4722	operon_1811	NC_017641.1|gene4670|UMNK88_4722
UMNK88_4723	operon_1811	NC_017641.1|gene4671|UMNK88_4723
UMNK88_4724	operon_1812	NC_017641.1|gene4672|UMNK88_4724|fdhE
UMNK88_4725	operon_1812	NC_017641.1|gene4673|UMNK88_4725
UMNK88_4726	operon_1812	NC_017641.1|gene4674|UMNK88_4726|fdxH
UMNK88_4727	operon_1812	NC_017641.1|gene4675|UMNK88_4727
UMNK88_4728	operon_1812	NC_017641.1|gene4676|UMNK88_4728
UMNK88_4729	operon_1813	NC_017641.1|gene4677|UMNK88_4729
UMNK88_4730	operon_1813	NC_017641.1|gene4678|UMNK88_4730|fdhD
UMNK88_4731	operon_1813	NC_017641.1|gene4679|UMNK88_4731
UMNK88_4732	operon_1814	NC_017641.1|gene4680|UMNK88_4732
UMNK88_4733	operon_1814	NC_017641.1|gene4681|UMNK88_4733
UMNK88_4734	operon_1814	NC_017641.1|gene4682|UMNK88_4734
UMNK88_4735	operon_1814	NC_017641.1|gene4683|UMNK88_4735|fruA
UMNK88_4736	operon_1815	NC_017641.1|gene4684|UMNK88_4736
UMNK88_4737	operon_1816	NC_017641.1|gene4685|UMNK88_4737|rhaU
UMNK88_4738	operon_1816	NC_017641.1|gene4686|UMNK88_4738|rhaD
UMNK88_4739	operon_1816	NC_017641.1|gene4687|UMNK88_4739|rhaA
UMNK88_4740	operon_1816	NC_017641.1|gene4688|UMNK88_4740|rhaB
UMNK88_4741	operon_1817	NC_017641.1|gene4689|UMNK88_4741
UMNK88_4742	operon_1817	NC_017641.1|gene4690|UMNK88_4742
UMNK88_4744	operon_1817	NC_017641.1|gene4691|UMNK88_4744
UMNK88_4743	operon_1818	NC_017641.1|gene4692|UMNK88_4743
UMNK88_4745	operon_1819	NC_017641.1|gene4693|UMNK88_4745
UMNK88_4746	operon_1820	NC_017641.1|gene4694|UMNK88_4746
UMNK88_4747	operon_1821	NC_017641.1|gene4695|UMNK88_4747|kdgT
UMNK88_4748	operon_1821	NC_017641.1|gene4696|UMNK88_4748
UMNK88_4749	operon_1822	NC_017641.1|gene4697|UMNK88_4749
UMNK88_4750	operon_1822	NC_017641.1|gene4698|UMNK88_4750
UMNK88_4751	operon_1823	NC_017641.1|gene4699|UMNK88_4751
UMNK88_4752	operon_1824	NC_017641.1|gene4700|UMNK88_4752
UMNK88_4753	operon_1824	NC_017641.1|gene4701|UMNK88_4753|pfkA
UMNK88_4754	operon_1824	NC_017641.1|gene4702|UMNK88_4754
UMNK88_4755	operon_1824	NC_017641.1|gene4703|UMNK88_4755|cdh
UMNK88_4756	operon_1825	NC_017641.1|gene4704|UMNK88_4756|tpiA
UMNK88_4757	operon_1825	NC_017641.1|gene4705|UMNK88_4757
UMNK88_4758	operon_1826	NC_017641.1|gene4706|UMNK88_4758
UMNK88_4759	operon_1827	NC_017641.1|gene4707|UMNK88_4759
UMNK88_4760	operon_1827	NC_017641.1|gene4708|UMNK88_4760
UMNK88_4761	operon_1828	NC_017641.1|gene4709|UMNK88_4761
UMNK88_4762	operon_1828	NC_017641.1|gene4710|UMNK88_4762|glpX
UMNK88_4763	operon_1828	NC_017641.1|gene4711|UMNK88_4763|glpK
UMNK88_4764	operon_1828	NC_017641.1|gene4712|UMNK88_4764
UMNK88_4765	operon_1829	NC_017641.1|gene4713|UMNK88_4765
UMNK88_4766	operon_1830	NC_017641.1|gene4714|UMNK88_4766|rraA
UMNK88_4767	operon_1830	NC_017641.1|gene4715|UMNK88_4767|menA
UMNK88_4768	operon_1830	NC_017641.1|gene4716|UMNK88_4768|hslU
UMNK88_4769	operon_1830	NC_017641.1|gene4717|UMNK88_4769
UMNK88_4770	operon_1830	NC_017641.1|gene4718|UMNK88_4770|ftsN
UMNK88_4771	operon_1830	NC_017641.1|gene4719|UMNK88_4771
UMNK88_4772	operon_1831	NC_017641.1|gene4720|UMNK88_4772
UMNK88_4773	operon_1832	NC_017641.1|gene4721|UMNK88_4773|priA
UMNK88_4774	operon_1833	NC_017641.1|gene4722|UMNK88_4774|rpmE
UMNK88_4775	operon_1834	NC_017641.1|gene4723|UMNK88_4775
UMNK88_4776	operon_1834	NC_017641.1|gene4724|UMNK88_4776
UMNK88_4777	operon_1835	NC_017641.1|gene4725|UMNK88_4777|metB
UMNK88_4778	operon_1835	NC_017641.1|gene4726|UMNK88_4778
UMNK88_4779	operon_1836	NC_017641.1|gene4727|UMNK88_4779
UMNK88_4780	operon_1837	NC_017641.1|gene4728|UMNK88_4780|metF
UMNK88_4781	operon_1837	NC_017641.1|gene4729|UMNK88_4781|katG
UMNK88_4782	operon_1837	NC_017641.1|gene4730|UMNK88_4782
UMNK88_4783	operon_1838	NC_017641.1|gene4731|UMNK88_4783
UMNK88_4784	operon_1839	NC_017641.1|gene4732|UMNK88_4784
UMNK88_4785	operon_1839	NC_017641.1|gene4733|UMNK88_4785|talC
UMNK88_4786	operon_1839	NC_017641.1|gene4734|UMNK88_4786|ptsP
UMNK88_4787	operon_1840	NC_017641.1|gene4735|UMNK88_4787
UMNK88_4788	operon_1840	NC_017641.1|gene4736|UMNK88_4788
UMNK88_4789	operon_1841	NC_017641.1|gene4737|UMNK88_4789
UMNK88_4790	operon_1841	NC_017641.1|gene4738|UMNK88_4790
UMNK88_4792	operon_1841	NC_017641.1|gene4739|UMNK88_4792
UMNK88_4791	operon_1842	NC_017641.1|gene4740|UMNK88_4791
UMNK88_4793	operon_1843	NC_017641.1|gene4741|UMNK88_4793
UMNK88_4794	operon_1844	NC_017641.1|gene4742|UMNK88_4794
UMNK88_4795	operon_1844	NC_017641.1|gene4743|UMNK88_4795|argE
UMNK88_4796	operon_1845	NC_017641.1|gene4744|UMNK88_4796|argC
UMNK88_4797	operon_1845	NC_017641.1|gene4745|UMNK88_4797|argB
UMNK88_4798	operon_1845	NC_017641.1|gene4746|UMNK88_4798|argH
UMNK88_4800	operon_1845	NC_017641.1|gene4747|UMNK88_4800
UMNK88_4799	operon_1846	NC_017641.1|gene4748|UMNK88_4799
UMNK88_4801	operon_1847	NC_017641.1|gene4749|UMNK88_4801
UMNK88_4802	operon_1847	NC_017641.1|gene4750|UMNK88_4802
UMNK88_4803	operon_1848	NC_017641.1|gene4751|UMNK88_4803|trmA
UMNK88_4804	operon_1849	NC_017641.1|gene4752|UMNK88_4804|btuB
UMNK88_4805	operon_1849	NC_017641.1|gene4753|UMNK88_4805|murI
UMNK88_r17	operon_1849	NC_017641.1|gene4754|UMNK88_r17
UMNK88_t81	operon_1849	NC_017641.1|gene4755|UMNK88_t81
UMNK88_t82	operon_1849	NC_017641.1|gene4756|UMNK88_t82
UMNK88_r18	operon_1849	NC_017641.1|gene4757|UMNK88_r18
UMNK88_r19	operon_1849	NC_017641.1|gene4758|UMNK88_r19
UMNK88_4812	operon_1849	NC_017641.1|gene4759|UMNK88_4812|murB
UMNK88_4813	operon_1849	NC_017641.1|gene4760|UMNK88_4813
UMNK88_4814	operon_1850	NC_017641.1|gene4761|UMNK88_4814|coaA
UMNK88_4815	operon_1851	NC_017641.1|gene4762|UMNK88_4815
UMNK88_t83	operon_1851	NC_017641.1|gene4763|UMNK88_t83
UMNK88_t84	operon_1851	NC_017641.1|gene4764|UMNK88_t84
UMNK88_t85	operon_1851	NC_017641.1|gene4765|UMNK88_t85
UMNK88_t86	operon_1851	NC_017641.1|gene4766|UMNK88_t86
UMNK88_4820	operon_1851	NC_017641.1|gene4767|UMNK88_4820|tuf
UMNK88_4821	operon_1851	NC_017641.1|gene4768|UMNK88_4821|secE
UMNK88_4822	operon_1851	NC_017641.1|gene4769|UMNK88_4822|nusG
UMNK88_4823	operon_1851	NC_017641.1|gene4770|UMNK88_4823|rplK
UMNK88_4824	operon_1851	NC_017641.1|gene4771|UMNK88_4824|rplA
UMNK88_4825	operon_1851	NC_017641.1|gene4772|UMNK88_4825
UMNK88_4826	operon_1851	NC_017641.1|gene4773|UMNK88_4826|rplL
UMNK88_4827	operon_1851	NC_017641.1|gene4774|UMNK88_4827|rpoB
UMNK88_4828	operon_1851	NC_017641.1|gene4775|UMNK88_4828|rpoC
UMNK88_4829	operon_1851	NC_017641.1|gene4776|UMNK88_4829
UMNK88_4830	operon_1852	NC_017641.1|gene4777|UMNK88_4830|thiH
UMNK88_4831	operon_1852	NC_017641.1|gene4778|UMNK88_4831
UMNK88_4832	operon_1852	NC_017641.1|gene4779|UMNK88_4832|thiS
UMNK88_4833	operon_1852	NC_017641.1|gene4780|UMNK88_4833|thiF
UMNK88_4834	operon_1852	NC_017641.1|gene4781|UMNK88_4834|thiE
UMNK88_4835	operon_1852	NC_017641.1|gene4782|UMNK88_4835|thiC
UMNK88_4836	operon_1852	NC_017641.1|gene4783|UMNK88_4836
UMNK88_4837	operon_1853	NC_017641.1|gene4784|UMNK88_4837
UMNK88_4838	operon_1853	NC_017641.1|gene4785|UMNK88_4838|hemE
UMNK88_4839	operon_1853	NC_017641.1|gene4786|UMNK88_4839
UMNK88_4840	operon_1853	NC_017641.1|gene4787|UMNK88_4840
UMNK88_4841	operon_1853	NC_017641.1|gene4788|UMNK88_4841
UMNK88_4842	operon_1854	NC_017641.1|gene4789|UMNK88_4842
UMNK88_4843	operon_1855	NC_017641.1|gene4790|UMNK88_4843
UMNK88_4844	operon_1855	NC_017641.1|gene4791|UMNK88_4844
UMNK88_4845	operon_1856	NC_017641.1|gene4792|UMNK88_4845
UMNK88_4847	operon_1856	NC_017641.1|gene4793|UMNK88_4847
UMNK88_4846	operon_1857	NC_017641.1|gene4794|UMNK88_4846|purD
UMNK88_4848	operon_1857	NC_017641.1|gene4795|UMNK88_4848|purH
UMNK88_4849	operon_1858	NC_017641.1|gene4796|UMNK88_4849
UMNK88_r20	operon_1858	NC_017641.1|gene4797|UMNK88_r20
UMNK88_t87	operon_1858	NC_017641.1|gene4798|UMNK88_t87
UMNK88_t88	operon_1858	NC_017641.1|gene4799|UMNK88_t88
UMNK88_r21	operon_1858	NC_017641.1|gene4800|UMNK88_r21
UMNK88_r22	operon_1858	NC_017641.1|gene4801|UMNK88_r22
UMNK88_4856	operon_1859	NC_017641.1|gene4802|UMNK88_4856
UMNK88_4857	operon_1860	NC_017641.1|gene4803|UMNK88_4857|metA
UMNK88_4858	operon_1860	NC_017641.1|gene4804|UMNK88_4858|aceB
UMNK88_4859	operon_1860	NC_017641.1|gene4805|UMNK88_4859|aceA
UMNK88_4860	operon_1860	NC_017641.1|gene4806|UMNK88_4860
UMNK88_4862	operon_1860	NC_017641.1|gene4807|UMNK88_4862
UMNK88_4861	operon_1861	NC_017641.1|gene4808|UMNK88_4861
UMNK88_4863	operon_1861	NC_017641.1|gene4809|UMNK88_4863
UMNK88_4864	operon_1862	NC_017641.1|gene4810|UMNK88_4864|metH
UMNK88_4865	operon_1862	NC_017641.1|gene4811|UMNK88_4865
UMNK88_4866	operon_1863	NC_017641.1|gene4812|UMNK88_4866
UMNK88_4867	operon_1863	NC_017641.1|gene4813|UMNK88_4867
UMNK88_4868	operon_1863	NC_017641.1|gene4814|UMNK88_4868
UMNK88_4869	operon_1863	NC_017641.1|gene4815|UMNK88_4869
UMNK88_4870	operon_1863	NC_017641.1|gene4816|UMNK88_4870
UMNK88_4871	operon_1863	NC_017641.1|gene4817|UMNK88_4871
UMNK88_4872	operon_1863	NC_017641.1|gene4818|UMNK88_4872
UMNK88_4873	operon_1863	NC_017641.1|gene4819|UMNK88_4873
UMNK88_4874	operon_1864	NC_017641.1|gene4820|UMNK88_4874
UMNK88_4875	operon_1865	NC_017641.1|gene4821|UMNK88_4875
UMNK88_4876	operon_1865	NC_017641.1|gene4822|UMNK88_4876
UMNK88_4877	operon_1866	NC_017641.1|gene4823|UMNK88_4877
UMNK88_4878	operon_1867	NC_017641.1|gene4824|UMNK88_4878
UMNK88_4879	operon_1868	NC_017641.1|gene4825|UMNK88_4879
UMNK88_4880	operon_1868	NC_017641.1|gene4826|UMNK88_4880
UMNK88_4881	operon_1868	NC_017641.1|gene4827|UMNK88_4881
UMNK88_4882	operon_1868	NC_017641.1|gene4828|UMNK88_4882
UMNK88_4883	operon_1868	NC_017641.1|gene4829|UMNK88_4883
UMNK88_4884	operon_1868	NC_017641.1|gene4830|UMNK88_4884
UMNK88_4885	operon_1869	NC_017641.1|gene4831|UMNK88_4885
UMNK88_4886	operon_1870	NC_017641.1|gene4832|UMNK88_4886
UMNK88_4887	operon_1870	NC_017641.1|gene4833|UMNK88_4887
UMNK88_4888	operon_1871	NC_017641.1|gene4834|UMNK88_4888
UMNK88_4889	operon_1872	NC_017641.1|gene4835|UMNK88_4889
UMNK88_4890	operon_1872	NC_017641.1|gene4836|UMNK88_4890
UMNK88_4892	operon_1873	NC_017641.1|gene4837|UMNK88_4892
UMNK88_4891	operon_1874	NC_017641.1|gene4838|UMNK88_4891
UMNK88_4893	operon_1875	NC_017641.1|gene4839|UMNK88_4893
UMNK88_4894	operon_1875	NC_017641.1|gene4840|UMNK88_4894
UMNK88_4895	operon_1875	NC_017641.1|gene4841|UMNK88_4895
UMNK88_4896	operon_1875	NC_017641.1|gene4842|UMNK88_4896|ubiA
UMNK88_4897	operon_1876	NC_017641.1|gene4843|UMNK88_4897
UMNK88_4898	operon_1877	NC_017641.1|gene4844|UMNK88_4898
UMNK88_4899	operon_1877	NC_017641.1|gene4845|UMNK88_4899|lexA
UMNK88_4900	operon_1877	NC_017641.1|gene4846|UMNK88_4900
UMNK88_4901	operon_1877	NC_017641.1|gene4847|UMNK88_4901
UMNK88_4902	operon_1878	NC_017641.1|gene4848|UMNK88_4902
UMNK88_4903	operon_1879	NC_017641.1|gene4849|UMNK88_4903
UMNK88_4904	operon_1879	NC_017641.1|gene4850|UMNK88_4904
UMNK88_4905	operon_1880	NC_017641.1|gene4851|UMNK88_4905|dusA
UMNK88_4906	operon_1880	NC_017641.1|gene4852|UMNK88_4906|pspG
UMNK88_4907	operon_1881	NC_017641.1|gene4853|UMNK88_4907
UMNK88_4908	operon_1882	NC_017641.1|gene4854|UMNK88_4908|dnaB
UMNK88_4909	operon_1882	NC_017641.1|gene4855|UMNK88_4909|alr
UMNK88_4910	operon_1882	NC_017641.1|gene4856|UMNK88_4910
UMNK88_4911	operon_1883	NC_017641.1|gene4857|UMNK88_4911
UMNK88_4912	operon_1883	NC_017641.1|gene4858|UMNK88_4912
UMNK88_4913	operon_1884	NC_017641.1|gene4859|UMNK88_4913
UMNK88_4914	operon_1884	NC_017641.1|gene4860|UMNK88_4914
UMNK88_4915	operon_1884	NC_017641.1|gene4861|UMNK88_4915
UMNK88_4916	operon_1885	NC_017641.1|gene4862|UMNK88_4916|uvrA
UMNK88_4917	operon_1886	NC_017641.1|gene4863|UMNK88_4917|ssb
UMNK88_4918	operon_1887	NC_017641.1|gene4864|UMNK88_4918
UMNK88_4919	operon_1888	NC_017641.1|gene4865|UMNK88_4919
UMNK88_4920	operon_1889	NC_017641.1|gene4866|UMNK88_4920
UMNK88_4921	operon_1890	NC_017641.1|gene4867|UMNK88_4921|soxR
UMNK88_4922	operon_1891	NC_017641.1|gene4868|UMNK88_4922
UMNK88_4923	operon_1892	NC_017641.1|gene4869|UMNK88_4923
UMNK88_4924	operon_1892	NC_017641.1|gene4870|UMNK88_4924
UMNK88_4925	operon_1892	NC_017641.1|gene4871|UMNK88_4925
UMNK88_4926	operon_1893	NC_017641.1|gene4872|UMNK88_4926
UMNK88_4927	operon_1893	NC_017641.1|gene4873|UMNK88_4927|actP
UMNK88_4928	operon_1893	NC_017641.1|gene4874|UMNK88_4928
UMNK88_4929	operon_1893	NC_017641.1|gene4875|UMNK88_4929
UMNK88_4930	operon_1893	NC_017641.1|gene4876|UMNK88_4930|acsA
UMNK88_4931	operon_1894	NC_017641.1|gene4877|UMNK88_4931
UMNK88_4932	operon_1894	NC_017641.1|gene4878|UMNK88_4932|nrfB
UMNK88_4933	operon_1894	NC_017641.1|gene4879|UMNK88_4933|nrfC
UMNK88_4934	operon_1894	NC_017641.1|gene4880|UMNK88_4934|nrfD
UMNK88_4935	operon_1894	NC_017641.1|gene4881|UMNK88_4935|ccmF
UMNK88_4936	operon_1894	NC_017641.1|gene4882|UMNK88_4936
UMNK88_4937	operon_1894	NC_017641.1|gene4883|UMNK88_4937
UMNK88_4938	operon_1895	NC_017641.1|gene4884|UMNK88_4938
UMNK88_4939	operon_1896	NC_017641.1|gene4885|UMNK88_4939
UMNK88_4940	operon_1897	NC_017641.1|gene4886|UMNK88_4940
UMNK88_4941	operon_1897	NC_017641.1|gene4887|UMNK88_4941|fdhA
UMNK88_4942	operon_1897	NC_017641.1|gene4888|UMNK88_4942
UMNK88_4943	operon_1898	NC_017641.1|gene4889|UMNK88_4943
UMNK88_4944	operon_1899	NC_017641.1|gene4890|UMNK88_4944
UMNK88_4945	operon_1899	NC_017641.1|gene4891|UMNK88_4945
UMNK88_4946	operon_1899	NC_017641.1|gene4892|UMNK88_4946
UMNK88_4947	operon_1899	NC_017641.1|gene4893|UMNK88_4947
UMNK88_4948	operon_1900	NC_017641.1|gene4894|UMNK88_4948
UMNK88_4949	operon_1900	NC_017641.1|gene4895|UMNK88_4949
UMNK88_4950	operon_1900	NC_017641.1|gene4896|UMNK88_4950
UMNK88_4951	operon_1900	NC_017641.1|gene4897|UMNK88_4951
UMNK88_4952	operon_1900	NC_017641.1|gene4898|UMNK88_4952
UMNK88_4953	operon_1901	NC_017641.1|gene4899|UMNK88_4953
UMNK88_4954	operon_1901	NC_017641.1|gene4900|UMNK88_4954
UMNK88_4955	operon_1902	NC_017641.1|gene4901|UMNK88_4955|rpiB
UMNK88_4956	operon_1902	NC_017641.1|gene4902|UMNK88_4956
UMNK88_4957	operon_1902	NC_017641.1|gene4903|UMNK88_4957
UMNK88_4958	operon_1903	NC_017641.1|gene4904|UMNK88_4958|phnP
UMNK88_4959	operon_1903	NC_017641.1|gene4905|UMNK88_4959
UMNK88_4960	operon_1903	NC_017641.1|gene4906|UMNK88_4960|phnN
UMNK88_4961	operon_1903	NC_017641.1|gene4907|UMNK88_4961|phnM
UMNK88_4962	operon_1903	NC_017641.1|gene4908|UMNK88_4962|phnL
UMNK88_4963	operon_1903	NC_017641.1|gene4909|UMNK88_4963|phnK
UMNK88_4964	operon_1903	NC_017641.1|gene4910|UMNK88_4964
UMNK88_4965	operon_1903	NC_017641.1|gene4911|UMNK88_4965
UMNK88_4966	operon_1903	NC_017641.1|gene4912|UMNK88_4966|phnG
UMNK88_4967	operon_1903	NC_017641.1|gene4913|UMNK88_4967|phnF
UMNK88_4968	operon_1903	NC_017641.1|gene4914|UMNK88_4968|phnE
UMNK88_4969	operon_1903	NC_017641.1|gene4915|UMNK88_4969|phnD
UMNK88_4970	operon_1903	NC_017641.1|gene4916|UMNK88_4970|phnC
UMNK88_4971	operon_1903	NC_017641.1|gene4917|UMNK88_4971
UMNK88_4972	operon_1904	NC_017641.1|gene4918|UMNK88_4972
UMNK88_4973	operon_1905	NC_017641.1|gene4919|UMNK88_4973
UMNK88_4974	operon_1905	NC_017641.1|gene4920|UMNK88_4974
UMNK88_4975	operon_1905	NC_017641.1|gene4921|UMNK88_4975
UMNK88_4976	operon_1906	NC_017641.1|gene4922|UMNK88_4976
UMNK88_4977	operon_1906	NC_017641.1|gene4923|UMNK88_4977
UMNK88_4978	operon_1906	NC_017641.1|gene4924|UMNK88_4978
UMNK88_4979	operon_1907	NC_017641.1|gene4925|UMNK88_4979
UMNK88_4980	operon_1907	NC_017641.1|gene4926|UMNK88_4980
UMNK88_4981	operon_1908	NC_017641.1|gene4927|UMNK88_4981
UMNK88_4982	operon_1908	NC_017641.1|gene4928|UMNK88_4982
UMNK88_4983	operon_1909	NC_017641.1|gene4929|UMNK88_4983
UMNK88_4984	operon_1909	NC_017641.1|gene4930|UMNK88_4984
UMNK88_4985	operon_1910	NC_017641.1|gene4931|UMNK88_4985
UMNK88_4986	operon_1910	NC_017641.1|gene4932|UMNK88_4986
UMNK88_4987	operon_1911	NC_017641.1|gene4933|UMNK88_4987
UMNK88_4988	operon_1911	NC_017641.1|gene4934|UMNK88_4988
UMNK88_4989	operon_1911	NC_017641.1|gene4935|UMNK88_4989
UMNK88_4990	operon_1912	NC_017641.1|gene4936|UMNK88_4990
UMNK88_4991	operon_1912	NC_017641.1|gene4937|UMNK88_4991
UMNK88_4992	operon_1912	NC_017641.1|gene4938|UMNK88_4992
UMNK88_4993	operon_1912	NC_017641.1|gene4939|UMNK88_4993
UMNK88_4994	operon_1912	NC_017641.1|gene4940|UMNK88_4994
UMNK88_4995	operon_1913	NC_017641.1|gene4941|UMNK88_4995|lysS
UMNK88_4996	operon_1913	NC_017641.1|gene4942|UMNK88_4996
UMNK88_4997	operon_1913	NC_017641.1|gene4943|UMNK88_4997
UMNK88_4998	operon_1914	NC_017641.1|gene4944|UMNK88_4998
UMNK88_4999	operon_1914	NC_017641.1|gene4945|UMNK88_4999
UMNK88_5000	operon_1914	NC_017641.1|gene4946|UMNK88_5000
UMNK88_5001	operon_1915	NC_017641.1|gene4947|UMNK88_5001
UMNK88_5002	operon_1915	NC_017641.1|gene4948|UMNK88_5002
UMNK88_5003	operon_1915	NC_017641.1|gene4949|UMNK88_5003|dnaB
UMNK88_5004	operon_1915	NC_017641.1|gene4950|UMNK88_5004
UMNK88_5005	operon_1915	NC_017641.1|gene4951|UMNK88_5005
UMNK88_5006	operon_1915	NC_017641.1|gene4952|UMNK88_5006
UMNK88_5007	operon_1915	NC_017641.1|gene4953|UMNK88_5007
UMNK88_5008	operon_1916	NC_017641.1|gene4954|UMNK88_5008
UMNK88_5009	operon_1916	NC_017641.1|gene4955|UMNK88_5009
UMNK88_5010	operon_1917	NC_017641.1|gene4956|UMNK88_5010
UMNK88_5011	operon_1917	NC_017641.1|gene4957|UMNK88_5011
UMNK88_5012	operon_1917	NC_017641.1|gene4958|UMNK88_5012
UMNK88_5013	operon_1918	NC_017641.1|gene4959|UMNK88_5013
UMNK88_5014	operon_1918	NC_017641.1|gene4960|UMNK88_5014|topB
UMNK88_5015	operon_1918	NC_017641.1|gene4961|UMNK88_5015
UMNK88_5016	operon_1919	NC_017641.1|gene4962|UMNK88_5016
UMNK88_5017	operon_1919	NC_017641.1|gene4963|UMNK88_5017|ssb
UMNK88_5019	operon_1919	NC_017641.1|gene4964|UMNK88_5019
UMNK88_5018	operon_1920	NC_017641.1|gene4965|UMNK88_5018
UMNK88_5020	operon_1921	NC_017641.1|gene4966|UMNK88_5020
UMNK88_5021	operon_1921	NC_017641.1|gene4967|UMNK88_5021
UMNK88_5022	operon_1921	NC_017641.1|gene4968|UMNK88_5022
UMNK88_5023	operon_1921	NC_017641.1|gene4969|UMNK88_5023
UMNK88_5024	operon_1921	NC_017641.1|gene4970|UMNK88_5024
UMNK88_5025	operon_1922	NC_017641.1|gene4971|UMNK88_5025
UMNK88_5026	operon_1922	NC_017641.1|gene4972|UMNK88_5026
UMNK88_5027	operon_1922	NC_017641.1|gene4973|UMNK88_5027
UMNK88_5028	operon_1922	NC_017641.1|gene4974|UMNK88_5028
UMNK88_5029	operon_1922	NC_017641.1|gene4975|UMNK88_5029
UMNK88_5030	operon_1923	NC_017641.1|gene4976|UMNK88_5030
UMNK88_5031	operon_1923	NC_017641.1|gene4977|UMNK88_5031
UMNK88_5032	operon_1923	NC_017641.1|gene4978|UMNK88_5032
UMNK88_5033	operon_1923	NC_017641.1|gene4979|UMNK88_5033
UMNK88_5034	operon_1923	NC_017641.1|gene4980|UMNK88_5034
UMNK88_5035	operon_1923	NC_017641.1|gene4981|UMNK88_5035
UMNK88_5036	operon_1923	NC_017641.1|gene4982|UMNK88_5036
UMNK88_5037	operon_1923	NC_017641.1|gene4983|UMNK88_5037
UMNK88_5039	operon_1924	NC_017641.1|gene4984|UMNK88_5039
UMNK88_5040	operon_1924	NC_017641.1|gene4985|UMNK88_5040
UMNK88_5041	operon_1925	NC_017641.1|gene4986|UMNK88_5041
UMNK88_5042	operon_1926	NC_017641.1|gene4987|UMNK88_5042
UMNK88_5043	operon_1927	NC_017641.1|gene4988|UMNK88_5043
UMNK88_5044	operon_1927	NC_017641.1|gene4989|UMNK88_5044
UMNK88_5045	operon_1927	NC_017641.1|gene4990|UMNK88_5045
UMNK88_5046	operon_1927	NC_017641.1|gene4991|UMNK88_5046
UMNK88_5047	operon_1927	NC_017641.1|gene4992|UMNK88_5047
UMNK88_5048	operon_1928	NC_017641.1|gene4993|UMNK88_5048
UMNK88_5049	operon_1929	NC_017641.1|gene4994|UMNK88_5049
UMNK88_5050	operon_1929	NC_017641.1|gene4995|UMNK88_5050
UMNK88_5051	operon_1930	NC_017641.1|gene4996|UMNK88_5051
UMNK88_5052	operon_1930	NC_017641.1|gene4997|UMNK88_5052
UMNK88_5053	operon_1931	NC_017641.1|gene4998|UMNK88_5053
UMNK88_5054	operon_1931	NC_017641.1|gene4999|UMNK88_5054
UMNK88_5055	operon_1931	NC_017641.1|gene5000|UMNK88_5055
UMNK88_5056	operon_1932	NC_017641.1|gene5001|UMNK88_5056
UMNK88_5057	operon_1933	NC_017641.1|gene5002|UMNK88_5057
UMNK88_5058	operon_1934	NC_017641.1|gene5003|UMNK88_5058
UMNK88_5059	operon_1935	NC_017641.1|gene5004|UMNK88_5059
UMNK88_5060	operon_1936	NC_017641.1|gene5005|UMNK88_5060
UMNK88_5061	operon_1937	NC_017641.1|gene5006|UMNK88_5061
UMNK88_5062	operon_1937	NC_017641.1|gene5007|UMNK88_5062
UMNK88_5063	operon_1937	NC_017641.1|gene5008|UMNK88_5063
UMNK88_5064	operon_1937	NC_017641.1|gene5009|UMNK88_5064
UMNK88_5065	operon_1937	NC_017641.1|gene5010|UMNK88_5065
UMNK88_5066	operon_1937	NC_017641.1|gene5011|UMNK88_5066
UMNK88_5067	operon_1937	NC_017641.1|gene5012|UMNK88_5067
UMNK88_5068	operon_1937	NC_017641.1|gene5013|UMNK88_5068
UMNK88_5069	operon_1938	NC_017641.1|gene5014|UMNK88_5069
UMNK88_5070	operon_1938	NC_017641.1|gene5015|UMNK88_5070
UMNK88_5071	operon_1938	NC_017641.1|gene5016|UMNK88_5071
UMNK88_t89	operon_1939	NC_017641.1|gene5017|UMNK88_t89
UMNK88_5073	operon_1940	NC_017641.1|gene5018|UMNK88_5073
UMNK88_5074	operon_1940	NC_017641.1|gene5019|UMNK88_5074
UMNK88_5075	operon_1940	NC_017641.1|gene5020|UMNK88_5075
UMNK88_5076	operon_1941	NC_017641.1|gene5021|UMNK88_5076
UMNK88_5077	operon_1941	NC_017641.1|gene5022|UMNK88_5077|aspA
UMNK88_5078	operon_1942	NC_017641.1|gene5023|UMNK88_5078
UMNK88_5079	operon_1943	NC_017641.1|gene5024|UMNK88_5079
UMNK88_5080	operon_1944	NC_017641.1|gene5025|UMNK88_5080
UMNK88_5081	operon_1944	NC_017641.1|gene5026|UMNK88_5081|groL
UMNK88_5082	operon_1944	NC_017641.1|gene5027|UMNK88_5082
UMNK88_5083	operon_1945	NC_017641.1|gene5028|UMNK88_5083
UMNK88_5084	operon_1945	NC_017641.1|gene5029|UMNK88_5084
UMNK88_5085	operon_1946	NC_017641.1|gene5030|UMNK88_5085|efp
UMNK88_5086	operon_1946	NC_017641.1|gene5031|UMNK88_5086
UMNK88_5087	operon_1946	NC_017641.1|gene5032|UMNK88_5087
UMNK88_5089	operon_1947	NC_017641.1|gene5033|UMNK88_5089
UMNK88_5088	operon_1948	NC_017641.1|gene5034|UMNK88_5088
UMNK88_5090	operon_1949	NC_017641.1|gene5035|UMNK88_5090
UMNK88_5091	operon_1950	NC_017641.1|gene5036|UMNK88_5091
UMNK88_5092	operon_1950	NC_017641.1|gene5037|UMNK88_5092
UMNK88_5093	operon_1950	NC_017641.1|gene5038|UMNK88_5093
UMNK88_5094	operon_1950	NC_017641.1|gene5039|UMNK88_5094|frdA
UMNK88_5095	operon_1951	NC_017641.1|gene5040|UMNK88_5095
UMNK88_5096	operon_1951	NC_017641.1|gene5041|UMNK88_5096
UMNK88_5097	operon_1952	NC_017641.1|gene5042|UMNK88_5097
UMNK88_5098	operon_1952	NC_017641.1|gene5043|UMNK88_5098|psd
UMNK88_5099	operon_1952	NC_017641.1|gene5044|UMNK88_5099|rsgA
UMNK88_5100	operon_1953	NC_017641.1|gene5045|UMNK88_5100
UMNK88_t90	operon_1953	NC_017641.1|gene5046|UMNK88_t90
UMNK88_t91	operon_1953	NC_017641.1|gene5047|UMNK88_t91
UMNK88_t92	operon_1953	NC_017641.1|gene5048|UMNK88_t92
UMNK88_5104	operon_1954	NC_017641.1|gene5049|UMNK88_5104
UMNK88_5105	operon_1955	NC_017641.1|gene5050|UMNK88_5105
UMNK88_5106	operon_1955	NC_017641.1|gene5051|UMNK88_5106
UMNK88_5107	operon_1955	NC_017641.1|gene5052|UMNK88_5107
UMNK88_5108	operon_1955	NC_017641.1|gene5053|UMNK88_5108
UMNK88_5109	operon_1955	NC_017641.1|gene5054|UMNK88_5109|mutL
UMNK88_5110	operon_1955	NC_017641.1|gene5055|UMNK88_5110|miaA
UMNK88_5111	operon_1955	NC_017641.1|gene5056|UMNK88_5111|hfq
UMNK88_5112	operon_1955	NC_017641.1|gene5057|UMNK88_5112|hflX
UMNK88_5113	operon_1955	NC_017641.1|gene5058|UMNK88_5113
UMNK88_5114	operon_1955	NC_017641.1|gene5059|UMNK88_5114
UMNK88_5115	operon_1956	NC_017641.1|gene5060|UMNK88_5115
UMNK88_5116	operon_1956	NC_017641.1|gene5061|UMNK88_5116|purA
UMNK88_5117	operon_1956	NC_017641.1|gene5062|UMNK88_5117
UMNK88_5118	operon_1956	NC_017641.1|gene5063|UMNK88_5118|rnr
UMNK88_5119	operon_1956	NC_017641.1|gene5064|UMNK88_5119
UMNK88_5120	operon_1957	NC_017641.1|gene5065|UMNK88_5120
UMNK88_5121	operon_1958	NC_017641.1|gene5066|UMNK88_5121
UMNK88_5122	operon_1958	NC_017641.1|gene5067|UMNK88_5122
UMNK88_5123	operon_1958	NC_017641.1|gene5068|UMNK88_5123
UMNK88_5124	operon_1959	NC_017641.1|gene5069|UMNK88_5124
UMNK88_5125	operon_1959	NC_017641.1|gene5070|UMNK88_5125
UMNK88_5126	operon_1959	NC_017641.1|gene5071|UMNK88_5126|conserved hypothetical%3B pseudogene%3B possible frameshift
UMNK88_5128	operon_1959	NC_017641.1|gene5072|UMNK88_5128
UMNK88_5129	operon_1959	NC_017641.1|gene5073|UMNK88_5129
UMNK88_5130	operon_1959	NC_017641.1|gene5074|UMNK88_5130|conserved hypothetical%3B pseudogene%3B possible frameshift
UMNK88_5132	operon_1959	NC_017641.1|gene5075|UMNK88_5132
UMNK88_5133	operon_1960	NC_017641.1|gene5076|UMNK88_5133
UMNK88_5134	operon_1961	NC_017641.1|gene5077|UMNK88_5134
UMNK88_5135	operon_1961	NC_017641.1|gene5078|UMNK88_5135
UMNK88_5137	operon_1962	NC_017641.1|gene5079|UMNK88_5137
UMNK88_5136	operon_1963	NC_017641.1|gene5080|UMNK88_5136
UMNK88_5138	operon_1964	NC_017641.1|gene5081|UMNK88_5138
UMNK88_5139	operon_1964	NC_017641.1|gene5082|UMNK88_5139
UMNK88_5140	operon_1965	NC_017641.1|gene5083|UMNK88_5140
UMNK88_5141	operon_1965	NC_017641.1|gene5084|UMNK88_5141
UMNK88_5142	operon_1965	NC_017641.1|gene5085|UMNK88_5142
UMNK88_5143	operon_1965	NC_017641.1|gene5086|UMNK88_5143
UMNK88_5144	operon_1965	NC_017641.1|gene5087|UMNK88_5144
UMNK88_5145	operon_1965	NC_017641.1|gene5088|UMNK88_5145
UMNK88_5146	operon_1965	NC_017641.1|gene5089|UMNK88_5146
UMNK88_5147	operon_1966	NC_017641.1|gene5090|UMNK88_5147
UMNK88_5148	operon_1967	NC_017641.1|gene5091|UMNK88_5148|rpsF
UMNK88_5149	operon_1967	NC_017641.1|gene5092|UMNK88_5149|rpsR
UMNK88_5150	operon_1967	NC_017641.1|gene5093|UMNK88_5150|rplI
UMNK88_5151	operon_1968	NC_017641.1|gene5094|UMNK88_5151
UMNK88_5153	operon_1969	NC_017641.1|gene5095|UMNK88_5153
UMNK88_5152	operon_1970	NC_017641.1|gene5096|UMNK88_5152
UMNK88_5154	operon_1971	NC_017641.1|gene5097|UMNK88_5154
UMNK88_5155	operon_1971	NC_017641.1|gene5098|UMNK88_5155
UMNK88_5156	operon_1972	NC_017641.1|gene5099|UMNK88_5156
UMNK88_5157	operon_1972	NC_017641.1|gene5100|UMNK88_5157
UMNK88_5158	operon_1972	NC_017641.1|gene5101|UMNK88_5158
UMNK88_5159	operon_1973	NC_017641.1|gene5102|UMNK88_5159
UMNK88_5160	operon_1974	NC_017641.1|gene5103|UMNK88_5160|cpdB
UMNK88_5161	operon_1975	NC_017641.1|gene5104|UMNK88_5161|cysQ
UMNK88_5162	operon_1976	NC_017641.1|gene5105|UMNK88_5162
UMNK88_5163	operon_1977	NC_017641.1|gene5106|UMNK88_5163
UMNK88_5164	operon_1978	NC_017641.1|gene5107|UMNK88_5164
UMNK88_5165	operon_1979	NC_017641.1|gene5108|UMNK88_5165
UMNK88_5166	operon_1980	NC_017641.1|gene5109|UMNK88_5166
UMNK88_5167	operon_1980	NC_017641.1|gene5110|UMNK88_5167|msrA
UMNK88_5169	operon_1981	NC_017641.1|gene5111|UMNK88_5169
UMNK88_5170	operon_1981	NC_017641.1|gene5112|UMNK88_5170
UMNK88_5171	operon_1981	NC_017641.1|gene5113|UMNK88_5171
UMNK88_5172	operon_1982	NC_017641.1|gene5114|UMNK88_5172
UMNK88_5173	operon_1983	NC_017641.1|gene5115|UMNK88_5173
UMNK88_5174	operon_1984	NC_017641.1|gene5116|UMNK88_5174
UMNK88_5175	operon_1984	NC_017641.1|gene5117|UMNK88_5175
UMNK88_5176	operon_1984	NC_017641.1|gene5118|UMNK88_5176
UMNK88_5177	operon_1984	NC_017641.1|gene5119|UMNK88_5177
UMNK88_5178	operon_1985	NC_017641.1|gene5120|UMNK88_5178
UMNK88_5179	operon_1986	NC_017641.1|gene5121|UMNK88_5179|mpl
UMNK88_5180	operon_1987	NC_017641.1|gene5122|UMNK88_5180
UMNK88_5181	operon_1988	NC_017641.1|gene5123|UMNK88_5181
UMNK88_5182	operon_1988	NC_017641.1|gene5124|UMNK88_5182
UMNK88_5183	operon_1989	NC_017641.1|gene5125|UMNK88_5183|nrdG
UMNK88_5184	operon_1989	NC_017641.1|gene5126|UMNK88_5184|nrdD
UMNK88_5185	operon_1990	NC_017641.1|gene5127|UMNK88_5185
UMNK88_5186	operon_1991	NC_017641.1|gene5128|UMNK88_5186|treC
UMNK88_5187	operon_1991	NC_017641.1|gene5129|UMNK88_5187|treP
UMNK88_5188	operon_1991	NC_017641.1|gene5130|UMNK88_5188|treR
UMNK88_5189	operon_1992	NC_017641.1|gene5131|UMNK88_5189|mgtA
UMNK88_5190	operon_1993	NC_017641.1|gene5132|UMNK88_5190
UMNK88_5191	operon_1993	NC_017641.1|gene5133|UMNK88_5191|pyrI
UMNK88_5192	operon_1993	NC_017641.1|gene5134|UMNK88_5192|pyrB
UMNK88_5193	operon_1994	NC_017641.1|gene5135|UMNK88_5193
UMNK88_5194	operon_1995	NC_017641.1|gene5136|UMNK88_5194
UMNK88_5195	operon_1995	NC_017641.1|gene5137|UMNK88_5195
UMNK88_5196	operon_1996	NC_017641.1|gene5138|UMNK88_5196
UMNK88_5197	operon_1996	NC_017641.1|gene5139|UMNK88_5197
UMNK88_5198	operon_1996	NC_017641.1|gene5140|UMNK88_5198
UMNK88_5199	operon_1997	NC_017641.1|gene5141|UMNK88_5199|argF
UMNK88_5200	operon_1998	NC_017641.1|gene5142|UMNK88_5200
UMNK88_5201	operon_1999	NC_017641.1|gene5143|UMNK88_5201
UMNK88_5202	operon_2000	NC_017641.1|gene5144|UMNK88_5202
UMNK88_5203	operon_2001	NC_017641.1|gene5145|UMNK88_5203|valS
UMNK88_5204	operon_2001	NC_017641.1|gene5146|UMNK88_5204
UMNK88_5205	operon_2001	NC_017641.1|gene5147|UMNK88_5205
UMNK88_5206	operon_2001	NC_017641.1|gene5148|UMNK88_5206
UMNK88_5207	operon_2002	NC_017641.1|gene5149|UMNK88_5207
UMNK88_5208	operon_2002	NC_017641.1|gene5150|UMNK88_5208
UMNK88_5209	operon_2003	NC_017641.1|gene5151|UMNK88_5209
UMNK88_5210	operon_2004	NC_017641.1|gene5152|UMNK88_5210
UMNK88_t93	operon_2005	NC_017641.1|gene5153|UMNK88_t93
UMNK88_5213	operon_2005	NC_017641.1|gene5154|UMNK88_5213
UMNK88_5214	operon_2006	NC_017641.1|gene5155|UMNK88_5214
UMNK88_5215	operon_2007	NC_017641.1|gene5156|UMNK88_5215
UMNK88_5216	operon_2008	NC_017641.1|gene5157|UMNK88_5216
UMNK88_5217	operon_2008	NC_017641.1|gene5158|UMNK88_5217
UMNK88_5218	operon_2008	NC_017641.1|gene5159|UMNK88_5218|msbB
UMNK88_5219	operon_2008	NC_017641.1|gene5160|UMNK88_5219
UMNK88_5220	operon_2008	NC_017641.1|gene5161|UMNK88_5220
UMNK88_5221	operon_2008	NC_017641.1|gene5162|UMNK88_5221
UMNK88_5222	operon_2009	NC_017641.1|gene5163|UMNK88_5222
UMNK88_5223	operon_2009	NC_017641.1|gene5164|UMNK88_5223
UMNK88_5224	operon_2009	NC_017641.1|gene5165|UMNK88_5224
UMNK88_5225	operon_2010	NC_017641.1|gene5166|UMNK88_5225
UMNK88_5226	operon_2011	NC_017641.1|gene5167|UMNK88_5226
UMNK88_5227	operon_2012	NC_017641.1|gene5168|UMNK88_5227
UMNK88_5228	operon_2012	NC_017641.1|gene5169|UMNK88_5228
UMNK88_5229	operon_2012	NC_017641.1|gene5170|UMNK88_5229
UMNK88_5230	operon_2013	NC_017641.1|gene5171|UMNK88_5230
UMNK88_5231	operon_2013	NC_017641.1|gene5172|UMNK88_5231
UMNK88_5232	operon_2013	NC_017641.1|gene5173|UMNK88_5232
UMNK88_5233	operon_2014	NC_017641.1|gene5174|UMNK88_5233
UMNK88_5234	operon_2014	NC_017641.1|gene5175|UMNK88_5234
UMNK88_5235	operon_2015	NC_017641.1|gene5176|UMNK88_5235
UMNK88_5236	operon_2016	NC_017641.1|gene5177|UMNK88_5236
UMNK88_5237	operon_2017	NC_017641.1|gene5178|UMNK88_5237
UMNK88_5238	operon_2017	NC_017641.1|gene5179|UMNK88_5238
UMNK88_5239	operon_2017	NC_017641.1|gene5180|UMNK88_5239
UMNK88_5240	operon_2017	NC_017641.1|gene5181|UMNK88_5240
UMNK88_5241	operon_2018	NC_017641.1|gene5182|UMNK88_5241
UMNK88_5242	operon_2018	NC_017641.1|gene5183|UMNK88_5242
UMNK88_5243	operon_2019	NC_017641.1|gene5184|UMNK88_5243|uxuA
UMNK88_5244	operon_2019	NC_017641.1|gene5185|UMNK88_5244
UMNK88_5245	operon_2020	NC_017641.1|gene5186|UMNK88_5245
UMNK88_5246	operon_2021	NC_017641.1|gene5187|UMNK88_5246
UMNK88_5247	operon_2022	NC_017641.1|gene5188|UMNK88_5247
UMNK88_5248	operon_2022	NC_017641.1|gene5189|UMNK88_5248
UMNK88_5250	operon_2022	NC_017641.1|gene5190|UMNK88_5250
UMNK88_5249	operon_2023	NC_017641.1|gene5191|UMNK88_5249
UMNK88_5251	operon_2023	NC_017641.1|gene5192|UMNK88_5251|iadA
UMNK88_5252	operon_2023	NC_017641.1|gene5193|UMNK88_5252
UMNK88_5253	operon_2023	NC_017641.1|gene5194|UMNK88_5253
UMNK88_5254	operon_2024	NC_017641.1|gene5195|UMNK88_5254
UMNK88_5255	operon_2024	NC_017641.1|gene5196|UMNK88_5255|kptA
UMNK88_5256	operon_2025	NC_017641.1|gene5197|UMNK88_5256
UMNK88_5257	operon_2025	NC_017641.1|gene5198|UMNK88_5257
UMNK88_5258	operon_2025	NC_017641.1|gene5199|UMNK88_5258
UMNK88_5259	operon_2025	NC_017641.1|gene5200|UMNK88_5259
UMNK88_5260	operon_2025	NC_017641.1|gene5201|UMNK88_5260
UMNK88_5261	operon_2025	NC_017641.1|gene5202|UMNK88_5261
UMNK88_5262	operon_2025	NC_017641.1|gene5203|UMNK88_5262
UMNK88_5263	operon_2026	NC_017641.1|gene5204|UMNK88_5263
UMNK88_5264	operon_2026	NC_017641.1|gene5205|UMNK88_5264
UMNK88_5265	operon_2026	NC_017641.1|gene5206|UMNK88_5265
UMNK88_5266	operon_2026	NC_017641.1|gene5207|UMNK88_5266
UMNK88_5267	operon_2027	NC_017641.1|gene5208|UMNK88_5267
UMNK88_5268	operon_2027	NC_017641.1|gene5209|UMNK88_5268
UMNK88_5269	operon_2028	NC_017641.1|gene5210|UMNK88_5269
UMNK88_5270	operon_2029	NC_017641.1|gene5211|UMNK88_5270
UMNK88_5271	operon_2030	NC_017641.1|gene5212|UMNK88_5271
UMNK88_5272	operon_2030	NC_017641.1|gene5213|UMNK88_5272
UMNK88_5273	operon_2031	NC_017641.1|gene5214|UMNK88_5273
UMNK88_5274	operon_2032	NC_017641.1|gene5215|UMNK88_5274
UMNK88_5275	operon_2032	NC_017641.1|gene5216|UMNK88_5275
UMNK88_5276	operon_2032	NC_017641.1|gene5217|UMNK88_5276
UMNK88_5277	operon_2032	NC_017641.1|gene5218|UMNK88_5277
UMNK88_5278	operon_2033	NC_017641.1|gene5219|UMNK88_5278
UMNK88_5279	operon_2033	NC_017641.1|gene5220|UMNK88_5279
UMNK88_5280	operon_2034	NC_017641.1|gene5221|UMNK88_5280
UMNK88_5281	operon_2034	NC_017641.1|gene5222|UMNK88_5281
UMNK88_5282	operon_2034	NC_017641.1|gene5223|UMNK88_5282
UMNK88_5283	operon_2035	NC_017641.1|gene5224|UMNK88_5283
UMNK88_5284	operon_2036	NC_017641.1|gene5225|UMNK88_5284
UMNK88_t94	operon_2037	NC_017641.1|gene5226|UMNK88_t94
UMNK88_t95	operon_2037	NC_017641.1|gene5227|UMNK88_t95
UMNK88_t96	operon_2037	NC_017641.1|gene5228|UMNK88_t96
UMNK88_5288	operon_2037	NC_017641.1|gene5229|UMNK88_5288
UMNK88_5289	operon_2038	NC_017641.1|gene5230|UMNK88_5289|holD
UMNK88_5290	operon_2038	NC_017641.1|gene5231|UMNK88_5290|rimI
UMNK88_5291	operon_2038	NC_017641.1|gene5232|UMNK88_5291
UMNK88_5292	operon_2039	NC_017641.1|gene5233|UMNK88_5292|prfC
UMNK88_5293	operon_2039	NC_017641.1|gene5234|UMNK88_5293
UMNK88_5294	operon_2039	NC_017641.1|gene5235|UMNK88_5294
UMNK88_5295	operon_2040	NC_017641.1|gene5236|UMNK88_5295
UMNK88_5296	operon_2040	NC_017641.1|gene5237|UMNK88_5296
UMNK88_5297	operon_2041	NC_017641.1|gene5238|UMNK88_5297
UMNK88_5298	operon_2042	NC_017641.1|gene5239|UMNK88_5298
UMNK88_5299	operon_2043	NC_017641.1|gene5240|UMNK88_5299
UMNK88_5300	operon_2043	NC_017641.1|gene5241|UMNK88_5300|deoC
UMNK88_5301	operon_2043	NC_017641.1|gene5242|UMNK88_5301|deoA
UMNK88_5302	operon_2043	NC_017641.1|gene5243|UMNK88_5302|deoB
UMNK88_5303	operon_2043	NC_017641.1|gene5244|UMNK88_5303|deoD
UMNK88_5304	operon_2044	NC_017641.1|gene5245|UMNK88_5304
UMNK88_5305	operon_2044	NC_017641.1|gene5246|UMNK88_5305
UMNK88_5306	operon_2044	NC_017641.1|gene5247|UMNK88_5306
UMNK88_5307	operon_2045	NC_017641.1|gene5248|UMNK88_5307|serB
UMNK88_5308	operon_2045	NC_017641.1|gene5249|UMNK88_5308|radA
UMNK88_5309	operon_2045	NC_017641.1|gene5250|UMNK88_5309
UMNK88_5310	operon_2046	NC_017641.1|gene5251|UMNK88_5310
UMNK88_5311	operon_2047	NC_017641.1|gene5252|UMNK88_5311
UMNK88_5312	operon_2047	NC_017641.1|gene5253|UMNK88_5312|trpR
UMNK88_5313	operon_2048	NC_017641.1|gene5254|UMNK88_5313
UMNK88_5315	operon_2049	NC_017641.1|gene5255|UMNK88_5315
UMNK88_5314	operon_2050	NC_017641.1|gene5256|UMNK88_5314
UMNK88_5316	operon_2051	NC_017641.1|gene5257|UMNK88_5316
UMNK88_5317	operon_2051	NC_017641.1|gene5258|UMNK88_5317
UMNK88_5318	operon_2051	NC_017641.1|gene5259|UMNK88_5318
UMNK88_5319	operon_2051	NC_017641.1|gene5260|UMNK88_5319
UMNK88_5320	operon_2052	NC_017641.1|gene5261|UMNK88_5320
UMNK88_5321	operon_2053	NC_017641.1|gene5262|UMNK88_5321