Category: Resistance against oxidative and electrophile stress
[category|SW.4|4. Lifestyles]
[category|SW.4.3|4.3. Coping with stress]
[category|SW.4.3.8|4.3.8. Resistance against oxidative and electrophile stress]
| Name | Function |
| [gene|305DCA94A69BCF64E377F142722A035871A3B824|aag] | DNA repair, survival of stress conditions |
| [gene|352544F3E79943E94E28A6EB5F4C543B529A02D1|adhA] | response to toxic formaldehyde |
| [gene|B24BA6ABCAF7325EC5F8B2655CA182FFC23395FD|adhR] | regulation of the protective response to formaldehyde and methylglyoxal |
| [gene|D0982500E52577D52FADF775C0E512A4B9657B79|ahpC] | resistance against peroxide stres |
| [gene|8F23B575BC32EA63267C4321DD8E4BD546B11AF1|ahpF] | resistance against peroxide stress |
| [gene|398E6FAC317D9BD81FB80A7CC9DF1CC757F2FA98|ahpT] | protection of proteins against oxidative damage |
| [gene|F9CF067A2A8E3B2BACC6A51A0E87E84640349980|aldY] | stress resistance |
| [gene|CFFFFE96FB7AEEF7190F81332369F0A6834C34A4|azoR1] | quinone detoxification |
| [gene|0E2B1914A040666BAF042C0BE3F468144E1F1E06|azoR2] | resistance to 2-methylhydroquinone |
| [gene|FF7440B70CCB5A9C443944E0259D845A958EA279|bdr] | recycling of oxidized bacillithiol disulfide to the reduced form (BSH) |
| [gene|FBE3C55526FE0CBBDA71AE0B0D7C6AD074E8A63E|brxA] | de-bacillithiolation of S-bacillithiolated [protein|7A3A8AF7728474204396BB7A548F747D28E6FAC7|ohrR] and [protein|23F405D5B849E4EDC1D599F86C71DFD2E55C0305|metE] |
| [gene|8B134BDC82C92DB7747A3AF291C96BB0F223D0CF|brxB] | de-bacillithiolation of S-bacillithiolated [protein|7A3A8AF7728474204396BB7A548F747D28E6FAC7|ohrR] and [protein|23F405D5B849E4EDC1D599F86C71DFD2E55C0305|metE] |
| [gene|9929712AC9E5581DD0EF3213CC49A0E6C8D3087D|bsaA] | unknown |
| [gene|187C78441816FC74B0FCCE34997E8AEC0A80B114|bshA] | biosynthesis of bacillithiol |
| [gene|60367F0396612C8A6491FD92A73B30BED7215506|bshB1] | biosynthesis of bacillithiol |
| [gene|8106404D9D2CFA0825E1284D47CC7198D8A20E5D|bshB2] | biosynthesis of bacillithiol |
| [gene|115FA333FAD17ACE5EBF288F16F33C330C6B4473|bshC] | biosynthesis of bacillithiol |
| [gene|4CF981E8DFBF07A8E7AF8623788A5812328E54BE|bstA] | detoxification |
| [gene|B7A0D1B3CAA2733A33BCCDDB6774ABF1A0223473|catD] | detoxification of catechol |
| [gene|AA75013C05E1A88FC51410F9F1B30EE7D15F34C2|catE] | detoxification of catechol |
| [gene|5B9C4932B2E76D6B8F6BDB640D1ADEE28F488FAD|catR] | resistance against oxidative and electrophile stress |
| [gene|F8FDCE60F815597F228D8D1E6E05149EDF69835D|csbA] | protection against paraquat stress |
| [gene|824E6AE2FFA3CBC9F90648F15178A00A6CC49E4C|csbB] | lipoteichoic acid glycosylation , survival of stress conditions |
| [gene|0757FAEB38AA1C599C5067794AF83A4BA5912DC9|csbC] | protection against paraquat stress |
| [gene|88653A48CD7DD9C52CC6FA55FF69F6FDDBE2E205|cypC] | biosynthesis of beta-hydroxy fatty acid for lipopeptides |
| [gene|11D04B31B4BF223E276077EC16BBDA566694CBF6|dps] | iron storage, survival of of stress conditions |
| [gene|3985F88334D7B034A66473C5BB39188AB61A65F6|efeB] | ferrous iron conversion |
| [gene|01C43D05A53BF4B0F505D9C9CCAAFA1AF9E94F87|forE1] | survival of stress conditions |
| [gene|54E05955FF1732F434A0FAB08967573B8DD3ADD2|glxA] | detoxification of [metabolite|methylglyoxal] |
| [gene|0A244A61A9A484F0BF083C918AE5A2C6A3F8157E|glxB] | detoxification of methylglyoxal |
| [gene|AEEC5CAC20D3A182074332087FD3CDCCF05F28CC|guaD] | deamination of guanine to xanthine, purine salvage and interconversion |
| [gene|37B8B671B84266A7D65B90A9077A0DFF458D1851|hpf] | protection of essential ribosomal proteins ([protein|F1969E4C7BAAF70BCBE570F58350C12A3E417539|S2] and [protein|E7F4E01A6005C8469EAC64E8DFED96D0F29791A9|S3]) |
| [gene|BF480721B89661BFFE6632BB10C5F4DC29951784|hxlA] | ribulose monophosphate pathway for formaldehyde fixation |
| [gene|FB0CEA291CA4EC5FB8410050E61B89EDBA1771F9|hxlB] | ribulose monophosphate pathway for formaldehyde fixation |
| [gene|D9A187961CFB9496A6712E9E48AAD384357A3E1C|hxlR] | regulation of the ribulose monophosphate pathway |
| [gene|9DF5999568760E016ECA988385A1FA61A257D486|hypO] | protection against NaOCl stress |
| [gene|91085DA5E71B88E533D2E1D1BFB53E908116C6AA|hypR] | control of the nitroreductase gene [gene|9DF5999568760E016ECA988385A1FA61A257D486|hypO] in response to disulfide stress (diamide, NaOCl) |
| [gene|B0A1AB6E920E6CBEE45115297599AF9A80972E38|katA] | detoxification (degradation) of hydrogen peroxide |
| [gene|03FE63D6AAC77D6CEB052D0BF578ACD048C772FB|katE] | detoxification (degradation) of hydrogen peroxide |
| [gene|DA5EB526EE8AF41BE9B837F2C276432BC4183AA1|katX] | detoxification (degradation) of hydrogen peroxide |
| [gene|C107A958DFA2B0DA4837E2F9F648CD329A3116AC|liaF] | control of [protein|49E70A20CC05DBE485953C0AE34E634EFB33C3B2|liaR] activity |
| [gene|A71B0392FFF70EFFC096E7E9BD5FE30792821CDD|liaG] | unknown |
| [gene|AE4BF12C368468C553EED7A696D5EFC63F56CA39|liaH] | resistance against oxidative stress and cell wall antibiotics, [wiki|protein secretion] |
| [gene|B6D1159454969D1D578E05D5CE2259E079688510|liaI] | resistance against oxidative stress and cell wall antibiotics |
| [gene|49E70A20CC05DBE485953C0AE34E634EFB33C3B2|liaR] | regulation of the [gene|B6D1159454969D1D578E05D5CE2259E079688510|liaI]-[gene|AE4BF12C368468C553EED7A696D5EFC63F56CA39|liaH]-[gene|A71B0392FFF70EFFC096E7E9BD5FE30792821CDD|liaG]-[gene|C107A958DFA2B0DA4837E2F9F648CD329A3116AC|liaF]-[gene|9A1871BD853254EEA8B4E78CA187F9315CBDF43D|liaS]-[gene|49E70A20CC05DBE485953C0AE34E634EFB33C3B2|liaR] operon |
| [gene|9A1871BD853254EEA8B4E78CA187F9315CBDF43D|liaS] | control of [protein|49E70A20CC05DBE485953C0AE34E634EFB33C3B2|liaR] activity in response to bacitracin |
| [gene|6A38DAA96F7BBF31FD8A4018A8CA7A72F3C28F79|mgsR] | controls a subset of general stress genes |
| [gene|7334017333600B876030056BE9247AD4E8996A1D|mhqA] | resistence to methyl-hydroxyquinone |
| [gene|43CD556065D2EF14365C78E014B7B2051CA0C78F|mhqD] | may be involved in protection against methyl-hydroquinone |
| [gene|A1CB3DCF2EC78B9B0585CA6AC6F5BB37B8AF0208|mhqE] | resistance to methyl hydroquinone and catechol |
| [gene|A0842DD5F1B13AC15C95F18751E7836DF31B262A|mhqN] | unknown |
| [gene|ACAFB2072E74CC059B492A31EF492028B96C569F|mhqO] | resistence to methyl-hydroxyquinone |
| [gene|B4384C8C0874BAA7822E9B6DCAB57790018271D8|mhqP] | may be involved in protection against methyl-hydroquinone |
| [gene|997B828A99D6D8460712C18ED0CE566B285C22DC|mhqR] | regulation of resistance to quinones and diamide |
| [gene|68EFECAC6B771D7BDCCD7FD30511152EDEFCEE5B|mrgA] | iron storage, |
| [gene|389245FDE13226D65DF117E28B5DA346DC856860|msrA] | regeneration of methionine and restoration of protein function after oxidative damage |
| [gene|BF8A3C916C4B673D30AEF7C330C9BD5A487AB0EA|msrB] | regeneration of methionine and restoration of protein function after oxidative damage |
| [gene|5B95F7CFEFCB954FCBC11087F030A1D777F34B7A|nfrA] | unknown |
| [gene|BC434FE0E92376A618ED34ACBB07B8A2E7F31DE6|nox] | regeneration of NAD from NADH |
| [gene|869E46AECF6249610F8541E403D834284B62171D|ohrA] | organic peroxide resistance |
| [gene|C36DD4B670D803C5700428F62E6CA7ED127E4B41|ohrB] | organic peroxide resistance |
| [gene|7A3A8AF7728474204396BB7A548F747D28E6FAC7|ohrR] | regulation of [gene|869E46AECF6249610F8541E403D834284B62171D|ohrA] expression in response to organic peroxides |
| [gene|00BCAAE16576DC5426A652580C69A570FC7A1C2C|perR] | regulation of the response to peroxide |
| [gene|0472A4346ADA1DC41C9D00E8F3222A0EBB76DFA8|rnr] | nonspecific degradation of rRNA |
| [gene|6153A07B961017052E1072944B59F510D80CEC0F|sodA] | detoxification of oxygen radicals |
| [gene|E0645DD4A7A871457300139A7E5986EF11C07387|sodF] | detoxification of oxygen radicals |
| [gene|2C6386E9A63F410558D168798D077DF91590F454|spx] | negative and positive regulator of many genes |
| [gene|24EB23F594F2B0EEA2E055857BA14FD9E361E0FD|sqhC] | biosynthesis of sporulenes |
| [gene|2501228D435B151F151A3C0EF10DE99A8395977F|tpx] | unknown |
| [gene|4E5C84FDC8FE2FEFF47306C91ECAB7F17D3E38E9|trxA] | protection of proteins against oxidative damage |
| [gene|1BC439BBCD5FE19D5780519D7E4317C2EFF0D21B|trxB] | keeps [protein|4E5C84FDC8FE2FEFF47306C91ECAB7F17D3E38E9|thioredoxin] in the reduced state |
| [gene|E15BB518649B2B9CD44CEBBB4FA481E55BCE823C|tsaE] | control of tRNA modification |
| [gene|D7C7840B3ED780666AB05ED163DA371DFB78E15B|ushA] | maintainance of the pool of undecaprenyl phosphate |
| [gene|29342783A375260C5DAE920FBF6EC6EFD2D54DDE|ydaG] | survival of stress conditions |
| [gene|36F6585A2EB990FE06A09AC56F2DB4E67CAEEE28|ydeA] | detoxification of methylglyoxal |
| [gene|3A0BC04A1A61ABA747838CAF5FD513D9ABE23201|ydhK] | survival of stress conditions |
| [gene|D1AF9DA2594D2E2A94DC207A870C8495954A7A17|yerD] | protection against paraquat stress |
| [gene|EE8065E719D0359B5892C8DCBCEC0B246ABE7D5B|yfhE] | survival of stress conditions and low temperatures |
| [gene|0A9352AB10C7DC06BF477EBE384D6E21D920AAC8|yfkH] | survival of stress conditions |
| [gene|A38D85EE1BCCA5E5E77CAF9583E7D052BB7F8188|yfkI] | protection against paraquat stress |
| [gene|2CEFD8D9692D062CC09E3DEDA1A4015C76BC4167|yfkJ] | survival of stress conditions |
| [gene|F88F0153CAFC1E51F2586F733AFDF22320642151|yfkM] | detoxification of methylglyoxal |
| [gene|AA76BEF6A4CECB5D3910918E8D91D8B919EDEA7E|yfkS] | germination, survival of of stress conditions |
| [gene|A69E7536DFE6353C4CD1B09D1258C88BF0FB8B4D|yflA] | protection against paraquat stress |
| [gene|345EC248C0ADF48B0C25B175241AAE982E0E9B78|yhdA] | protection against oxidative stress |
| [gene|4DF9B105ABA64AFD5106EE75FCC9EFAB52BEFC83|yhdN] | detoxification of [metabolite|methylglyoxal] |
| [gene|07ABC6A548F1186B67B58C0E14915AC3FE94882E|yitT] | protection against paraquat stress |
| [gene|54D021424B31A8244F0F4B32EF9483CF27F90D43|yjbC] | survival of paraquat stress |
| [gene|948BD57CC45915C7CDDB8EF168287533FC514B7C|yjbI] | prevents oxidative aggregation of cell-surface proteins |
| [gene|24835CE6CD2E1F183DB9121F29A63101718B5DF9|ylxP] | protection against paraquat stress |
| [gene|0785B4C70C3DD00EFB8BCDD91EF4F98EF4372186|ymaD] | protection against oxidative stress |
| [gene|73AFDF65BE89C0E2CC59AF2AF64C29BD99D785DF|yodB] | regulation of quinone and diamide detoxification |
| [gene|3B45734D18D01BAB6D244DE3547C84F9488075FB|yojM] | unknown |
| [gene|E53B8D437B848B637AEC8C1BB9428EC8B6EB280E|yqhB] | protection against stress conditions |
| [gene|EB17629B7598C62741072E1AF0AB715C02041B70|yqjM] | reduction of double bonds of nonsaturated aldehydes |
| [gene|0960F1856A81237DBA6AF1FAF36172A63ECBE2D5|yraA] | detoxification of methylglyoxal |
| [gene|886EF2F8A9E031FDF919E01A858C1DBC1AFF1188|ytpQ] | maybe involved in iron homeostasis |
| [gene|A4BF42889C55566ACE702561E34109F184413B85|yugU] | survival of stress conditions |
| [gene|994D5A36AECC75F5D0B59F7755BC5DB935ED6CE8|yvgN] | unknown |
| [gene|07752EC6940F43DEBD1E9313A2A195E35EDB9F69|ywiE] | phospholipiid biosynthesis, protection against paraquat stress |
| [gene|A647A29CAEA5D7188A08868A4397B4DF8A575710|yxiS] | survival of stress conditions |
| [gene|F4C0A4050414B2FC9D6E571419D9537707DA4C05|yxjJ] | survival of stress conditions |
important original publications
reviews
Page visits: 2583
Time of last update: 2025-03-17 04:17:17
Author of last update: ghost