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Category: Resistance against oxidative and electrophile stress
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Category: Resistance against oxidative and electrophile stress

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4. Lifestyles

4.3. Coping with stress

4.3.8. Resistance against oxidative and electrophile stress

NameFunction
aagDNA repair, survival of stress conditions
adhAresponse to toxic formaldehyde
adhRregulation of the protective response to formaldehyde and methylglyoxal
ahpCresistance against peroxide stres
ahpFresistance against peroxide stress
ahpTprotection of proteins against oxidative damage
aldYstress resistance
azoR1quinone detoxification
azoR2resistance to 2-methylhydroquinone
brxAde-bacillithiolation of S-bacillithiolated [protein|7A3A8AF7728474204396BB7A548F747D28E6FAC7|OhrR] and [protein|23F405D5B849E4EDC1D599F86C71DFD2E55C0305|MetE]
brxBde-bacillithiolation of S-bacillithiolated [protein|7A3A8AF7728474204396BB7A548F747D28E6FAC7|OhrR] and [protein|23F405D5B849E4EDC1D599F86C71DFD2E55C0305|MetE]
bsaAunknown
bshAbiosynthesis of bacillithiol
bshB1biosynthesis of bacillithiol
bshB2biosynthesis of bacillithiol
bshCbiosynthesis of bacillithiol
bstAdetoxification
catDdetoxification of catechol
catEdetoxification of catechol
catRresistance against oxidative and electrophile stress
csbAprotection against paraquat stress
csbBlipoteichoic acid glycosylation , survival of stress conditions
csbCprotection against paraquat stress
cypCbiosynthesis of beta-hydroxy fatty acid for lipopeptides
dpsiron storage, survival of of stress conditions
efeBferrous iron conversion
glxAdetoxification of methylglyoxal
glxBdetoxification of methylglyoxal
guaDdeamination of guanine to xanthine, purine salvage and interconversion
hpfprotection of essential ribosomal proteins ([protein|F1969E4C7BAAF70BCBE570F58350C12A3E417539|S2] and [protein|E7F4E01A6005C8469EAC64E8DFED96D0F29791A9|S3])
hxlAribulose monophosphate pathway for formaldehyde fixation
hxlBribulose monophosphate pathway for formaldehyde fixation
hxlRregulation of the ribulose monophosphate pathway
hypOprotection against NaOCl stress
hypRcontrol of the nitroreductase gene [gene|9DF5999568760E016ECA988385A1FA61A257D486|hypO] in response to disulfide stress (diamide, NaOCl)
katAdetoxification (degradation) of hydrogen peroxide
katEdetoxification (degradation) of hydrogen peroxide
katXdetoxification (degradation) of hydrogen peroxide
liaFcontrol of [protein|49E70A20CC05DBE485953C0AE34E634EFB33C3B2|LiaR] activity
liaGunknown
liaHresistance against oxidative stress and cell wall antibiotics, [SW|protein secretion]
liaIresistance against oxidative stress and cell wall antibiotics
liaRregulation of the [gene|B6D1159454969D1D578E05D5CE2259E079688510|liaI]-[gene|AE4BF12C368468C553EED7A696D5EFC63F56CA39|liaH]-[gene|A71B0392FFF70EFFC096E7E9BD5FE30792821CDD|liaG]-[gene|C107A958DFA2B0DA4837E2F9F648CD329A3116AC|liaF]-[gene|9A1871BD853254EEA8B4E78CA187F9315CBDF43D|liaS]-[gene|search|liaR ]operon
liaScontrol of [protein|49E70A20CC05DBE485953C0AE34E634EFB33C3B2|LiaR] activity in response to bacitracin
mgsRcontrols a subset of general stress genes
mhqAresistence to methyl-hydroxyquinone
mhqDmay be involved in protection against methyl-hydroquinone
mhqEresistance to methyl hydroquinone and catechol
mhqNunknown
mhqOresistence to methyl-hydroxyquinone
mhqPmay be involved in protection against methyl-hydroquinone
mhqRregulation of resistance to quinones and diamide
mrgAiron storage,
msrAregeneration of methionine and restoration of protein function after oxidative damage
msrBregeneration of methionine and restoration of protein function after oxidative damage
nfrAunknown
ohrAorganic peroxide resistance
ohrBorganic peroxide resistance
ohrRregulation of [gene|869E46AECF6249610F8541E403D834284B62171D|ohrA] expression in response to organic peroxides
perRregulation of the response to peroxide
rnrnonspecific degradation of rRNA
sodAdetoxification of oxygen radicals
sodFdetoxification of oxygen radicals
spxnegative and positive regulator of many genes
sqhCbiosynthesis of sporulenes
tpxunknown
trxAprotection of proteins against oxidative damage
trxBkeeps [protein|4E5C84FDC8FE2FEFF47306C91ECAB7F17D3E38E9|thioredoxin] in the reduced state
tsaEcontrol of tRNA modification
ydaGsurvival of stress conditions
ydeAdetoxification of methylglyoxal
ydhKsurvival of stress conditions
yerDprotection against paraquat stress
yfhEsurvival of stress conditions and low temperatures
yfkHsurvival of stress conditions
yfkIprotection against paraquat stress
yfkJsurvival of stress conditions
yfkMdetoxification of methylglyoxal
yfkSgermination, survival of of stress conditions
yflAprotection against paraquat stress
yhdAprotection against oxidative stress
yhdNdetoxification of methylglyoxal
yitTprotection against paraquat stress
yjbCsurvival of paraquat stress
yjgDsurvival of stress conditions
ylxPprotection against paraquat stress
ymaDprotection against oxidative stress
yodBregulation of quinone and diamide detoxification
yodCregeneration of NAD from NADH
yojMunknown
ypdArecycling of oxidized bacillithiol disulfide to the reduced form (BSH)
yqhBprotection against stress conditions
yqjLresistence against paraquat
yqjMreduction of double bonds of nonsaturated aldehydes
yraAdetoxification of methylglyoxal
ytpQmaybe involved in iron homeostasis
yugUsurvival of stress conditions
yvgNunknown
ywiEphospholipiid biosynthesis, protection against paraquat stress
yxiSsurvival of stress conditions
yxjJsurvival of stress conditions

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