Team:NYC Wetware/Deinococcus/Candidate Genes
From 2011.igem.org
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+ | <h3>D. rad Genes for Cloning</h3> | ||
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| align="center" style="background:#f0f0f0;"|'''Recommended By''' | | align="center" style="background:#f0f0f0;"|'''Recommended By''' | ||
| align="center" style="background:#f0f0f0;"|'''Citations''' | | align="center" style="background:#f0f0f0;"|'''Citations''' | ||
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- | | MntH||NRAMP transporter||DR_1709||Mn (II) transporter||Upregulate in order to establish Mn:Fe ratio similar to that of D. rad [other members of oxyR regulon?]||Jim Imlay | + | | MntH||NRAMP transporter||DR_1709||Mn (II) transporter||Upregulate in order to establish Mn:Fe ratio similar to that of D. rad [other members of oxyR regulon?]||Jim Imlay|| |
|- | |- | ||
- | | Dps||||||DNA-binding protein from starved cells – protect DNA by binding to form condensed co-crystal and by preventing oxidative damage - induced by oxyR||||Jim Imlay | + | | Dps||||||DNA-binding protein from starved cells – protect DNA by binding to form condensed co-crystal and by preventing oxidative damage - induced by oxyR||||Jim Imlay|| |
|- | |- | ||
- | | PprI||IrrE||DR_0167||Positive regulator of recA and other gamma irradiation-induced genes||Important effect||Blasius | + | | PprI||IrrE||DR_0167||Positive regulator of recA and other gamma irradiation-induced genes||Important effect||Blasius|| |
|- | |- | ||
- | | PprA||||DR_A0346||DNA binding and tethering of termini, stimulation of DNA ligases and catalase||Strongly induced upon ionizing radiation - Important effect||Battista | + | | PprA||||DR_A0346||DNA binding and tethering of termini, stimulation of DNA ligases and catalase||Strongly induced upon ionizing radiation - Important effect||Battista|| |
|- | |- | ||
- | | RecA||||DR_2340||Double strand break repair||Inverse DNA strand exchange pathway - Important effect||Battista | + | | RecA||||DR_2340||Double strand break repair||Inverse DNA strand exchange pathway - Important effect||Battista|| |
|- | |- | ||
- | | RecO||||DR_0819||DNA annealing during homologous recombination||Strong defect in growth and increased radiosensitivity of strain devoid of RecO - Important effect||Blasius | + | | RecO||||DR_0819||DNA annealing during homologous recombination||Strong defect in growth and increased radiosensitivity of strain devoid of RecO - Important effect||Blasius|| |
|- | |- | ||
- | | SodB ||Fe-SOD||||Catalyzes dismutation of superoxide into oxygen and HOOH – fixes iron||||Frederik Domann | + | | SodB ||Fe-SOD||||Catalyzes dismutation of superoxide into oxygen and HOOH – fixes iron||||Frederik Domann|| |
|- | |- | ||
- | | SodA||Mn-SOD||DR_1279?||‘’ – fixes manganese||Increases resistance to UV and HOOH damage in E. coli – But why? Without catalase/peroxidase?||Frederik Domann | + | | SodA||Mn-SOD||DR_1279?||‘’ – fixes manganese||Increases resistance to UV and HOOH damage in E. coli – But why? Without catalase/peroxidase?||Frederik Domann|| |
|- | |- | ||
- | | Fur||||||Transcriptional activator of bacterial sodB||Upregulate…||Frederik Domann | + | | Fur||||||Transcriptional activator of bacterial sodB||Upregulate…||Frederik Domann|| |
|- | |- | ||
- | | SOD?||predicted SODs||DR_1546, DR_A0202||superoxide dismutation||||||Omelchenko et al., 2005 | + | | SOD?||predicted SODs||DR_1546, DR_A0202||superoxide dismutation||||||Omelchenko et al., 2005 |
|- | |- | ||
- | | Catalases||predicted catalses||DR_1998, DR_A0259, DR_A 0146||Hydrogen peroxide to water and oxygen||Catalase is important next enzyme after SOD. If not present, H2O2 accumulate and have deleterious effect||||Omelchenko et al., 2005 | + | | Catalases||predicted catalses||DR_1998, DR_A0259, DR_A 0146||Hydrogen peroxide to water and oxygen||Catalase is important next enzyme after SOD. If not present, H2O2 accumulate and have deleterious effect||||Omelchenko et al., 2005 |
|- | |- | ||
- | | Thioredoxin||||DR_0994||reverses oxidized sulfur species||Important for defense against oxidative stress||||Obiero et al., 2010 :Journal of Bacteriology, January 2010, p. 494-501, Vol. 192, No. 2 | + | | Thioredoxin||||DR_0994||reverses oxidized sulfur species||Important for defense against oxidative stress||||Obiero et al., 2010 :Journal of Bacteriology, January 2010, p. 494-501, Vol. 192, No. 2 |
|- | |- | ||
- | | Thioredoxin reductase||||||maintains reduced Thioredoxin enzyme levels||Important for defense against oxidative stress | + | | Thioredoxin reductase||||||maintains reduced Thioredoxin enzyme levels||Important for defense against oxidative stress|||| |
|- | |- | ||
- | | DdrB||||DR_0070||Single strand binding protein||Strongly induced upon ionizing radiation - Important effect||Battista | + | | DdrB||||DR_0070||Single strand binding protein||Strongly induced upon ionizing radiation - Important effect||Battista|| |
|- | |- | ||
- | | DdrA||||DR_0423||End-capping||Strongly induced upon ionizing radiation, homolog of Rad52 - Important effect||Battista | + | | DdrA||||DR_0423||End-capping||Strongly induced upon ionizing radiation, homolog of Rad52 - Important effect||Battista|| |
|- | |- | ||
- | | DdrC||||DR_0003||Unknown||Strongly induced upon ionizing radiation - Modest effect||Battista | + | | DdrC||||DR_0003||Unknown||Strongly induced upon ionizing radiation - Modest effect||Battista|| |
|- | |- | ||
- | | DdrD||||DR_0326||Protection of 3\' ends of single strand DNA||Strongly induced upon ionizing radiation - Modest effect||Battista | + | | DdrD||||DR_0326||Protection of 3\' ends of single strand DNA||Strongly induced upon ionizing radiation - Modest effect||Battista|| |
|- | |- | ||
- | | RecN||||DR_1477||DNA Repair Protein||Mutant shows general repair deficiency||Blasius | + | | RecN||||DR_1477||DNA Repair Protein||Mutant shows general repair deficiency||Blasius|| |
|- | |- | ||
- | | RecF | + | | RecF|||||||||||| |
|- | |- | ||
- | | PolA||||DR_1707||DNA polymerase, probably involved in translesion synthesis||important role in ESDSA DSB repair pathway, modulated by Mn(II) - Important effect||Blasius | + | | PolA||||DR_1707||DNA polymerase, probably involved in translesion synthesis||important role in ESDSA DSB repair pathway, modulated by Mn(II) - Important effect||Blasius|| |
|- | |- | ||
- | | PolX||||DR_0467||DNA polymerase/ 3\'-5\' exonuclease||Nuclease is structure modulated, uses Mn(I) - Modest effect||Blasius | + | | PolX||||DR_0467||DNA polymerase/ 3\'-5\' exonuclease||Nuclease is structure modulated, uses Mn(I) - Modest effect||Blasius|| |
|- | |- | ||
- | | SbcD||||DR_1921||Homolog of Mre11, DNA end processing||Additive effect of SbcCD and PolX deficiencies||Blasius | + | | SbcD||||DR_1921||Homolog of Mre11, DNA end processing||Additive effect of SbcCD and PolX deficiencies||Blasius|| |
|- | |- | ||
- | | SbcC||||DR_1922||Homolog of Rad50, DNA end processing||Homolog of Mre11, DNA end processing||Blasius Paper | + | | SbcC||||DR_1922||Homolog of Rad50, DNA end processing||Homolog of Mre11, DNA end processing||Blasius Paper|| |
|- | |- | ||
- | | RuvB||||DR_0576||Resolution of Hollyday junctions||||Blasius | + | | RuvB||||DR_0576||Resolution of Hollyday junctions||||Blasius|| |
|- | |- | ||
- | | RadA||||DR_1105||RecA-like function||||Blasius | + | | RadA||||DR_1105||RecA-like function||||Blasius|| |
|- | |- | ||
- | | ClpP||||DR_1972||Proteolytic subunit of ATP-dependent Clp protease||||Blasius | + | | ClpP||||DR_1972||Proteolytic subunit of ATP-dependent Clp protease||||Blasius|| |
|- | |- | ||
- | | ClpX||||DR_1973||ATP-binding subunit of ATP-dependent Clp protease||||Blasius | + | | ClpX||||DR_1973||ATP-binding subunit of ATP-dependent Clp protease||||Blasius|| |
|- | |- | ||
- | | CrtB||||DR_0862||Phytoene synthase||Carotenoids have antioxidant properties, are located at the cell\'s 1st line of defense- the cell wall/membrane. Also they may be able to \"take the hit\" of ionizing radiation, thus protecting cytosolic components||Blasius||Zhang et al., 2007 (Arch Microbilogy) | + | | CrtB||||DR_0862||Phytoene synthase||Carotenoids have antioxidant properties, are located at the cell\'s 1st line of defense- the cell wall/membrane. Also they may be able to \"take the hit\" of ionizing radiation, thus protecting cytosolic components||Blasius||Zhang et al., 2007 (Arch Microbilogy) |
|- | |- | ||
- | | CrtI||||DR_0861||Phytoene desaturase||KO of carotenoid synthesis genes DR0861 and DR0862 resulted in increased sensitivity to oxidants, ionizing radiation and UV||Blasius||Zhang et al., 2007 (Arch Microbilogy) | + | | CrtI||||DR_0861||Phytoene desaturase||KO of carotenoid synthesis genes DR0861 and DR0862 resulted in increased sensitivity to oxidants, ionizing radiation and UV||Blasius||Zhang et al., 2007 (Arch Microbilogy) |
|- | |- | ||
- | | Crtlm||||DR_0801||Carotenoid synthesis||||These genes boxed off are in the biosynthesis pathway for deinoxathin, the major carotenoid pigment in D. rad. It also has antioxidant properties||Tian & Hua., 2010 | + | | Crtlm||||DR_0801||Carotenoid synthesis||||These genes boxed off are in the biosynthesis pathway for deinoxathin, the major carotenoid pigment in D. rad. It also has antioxidant properties||Tian & Hua., 2010 |
|- | |- | ||
- | | CrtO||||DR_0093||Carotenoid synthesis | + | | CrtO||||DR_0093||Carotenoid synthesis|||||| |
|- | |- | ||
- | | CruF||||DR_0091||Carotenoid synthesis | + | | CruF||||DR_0091||Carotenoid synthesis|||||| |
|- | |- | ||
- | | CrtD||||DR_2250||Carotenoid synthesis | + | | CrtD||||DR_2250||Carotenoid synthesis|||||| |
|- | |- | ||
- | | OxyR||||DR_0615||Oxidative stress resistance||little connection to IR resistance. MntH expresison is also downregulated by this regulon (which is contrary to what we would like to see)||||Nevermind. This protein was expressed in E. coli before and was not able to complement an E coli OxyR KO. It presumably does not bind the E coli polymerase | + | | OxyR||||DR_0615||Oxidative stress resistance||little connection to IR resistance. MntH expresison is also downregulated by this regulon (which is contrary to what we would like to see)||||Nevermind. This protein was expressed in E. coli before and was not able to complement an E coli OxyR KO. It presumably does not bind the E coli polymerase |
|- | |- | ||
- | | OxyR2||||DR_A0336||Oxidative stress resistance||Novel OxyR enzyme- this means D. rad has multiple OxyRs!!!||||Yin et al., 2010 (Jornal of Microbiology) | + | | OxyR2||||DR_A0336||Oxidative stress resistance||Novel OxyR enzyme- this means D. rad has multiple OxyRs!!!||||Yin et al., 2010 (Jornal of Microbiology) |
|- | |- | ||
- | | deiNOS||deinococcus nitric oxide synthase||DR_2597||Nitirc oxide production||KO causes increase in susceptibility to UV irradiation. Slower recover following insult||||Patel et al., 2009., Adak et al, 2002 | + | | deiNOS||deinococcus nitric oxide synthase||DR_2597||Nitirc oxide production||KO causes increase in susceptibility to UV irradiation. Slower recover following insult||||Patel et al., 2009., Adak et al, 2002 |
|- | |- | ||
- | | ObgE||||?||GTPase that regulates cel growth/proliferation||decreased ObgE afte NOS KO implicated as an important mediator of growth recovery following UV insult||||Patel et al., 2009., | + | | ObgE||||?||GTPase that regulates cel growth/proliferation||decreased ObgE afte NOS KO implicated as an important mediator of growth recovery following UV insult||||Patel et al., 2009., |
|- | |- | ||
- | | Hypothetical protein||||DR_A0282||nucleotide binding protein??- perhaps DNA repair||mutant had 10X less survival to 14Gy gamma. Enzyme also is manganese dependent!!!||||Das & Misra., 2011 | + | | Hypothetical protein||||DR_A0282||nucleotide binding protein??- perhaps DNA repair||mutant had 10X less survival to 14Gy gamma. Enzyme also is manganese dependent!!!||||Das & Misra., 2011 |
|- | |- | ||
- | | predicted ATP-dependent ABC-type transporter (Mn (II))||||DR_2284 DR_2523||Mn (II) transport||possibly maintain intracellular Mn(II) ratio.||||Daly et al., 2004 (Science mag, supporting information)|| | + | | predicted ATP-dependent ABC-type transporter (Mn (II))||||DR_2284 DR_2523||Mn (II) transport||possibly maintain intracellular Mn(II) ratio.||||Daly et al., 2004 (Science mag, supporting information) |
+ | |} | ||
+ | |||
+ | <h3>E. coli Genes for Cloning</h3> | ||
+ | {| {{table}} | ||
+ | | align="center" style="background:#f0f0f0;"|'''AhpC''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''Other Name''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''Organism of Origin''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''Function''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''Cnnxn to Radioresistance''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''Recommended By''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''Citations''' | ||
+ | |- | ||
+ | | MntH||||E. coli||Mn (II) transporter||Upregulate in order to establish Mn:Fe ratio similar to that of D. rad [other members of oxyR regulon?]||Jim Imlay|| | ||
+ | |- | ||
+ | | Dps||||E. coli||DNA-binding protein from starved cells – protect DNA by binding to form condensed co-crystal and by preventing oxidative damage - induced by oxyR||Upregulate for Fe (II) sequestration that helps with oxidative damage ||Jim Imlay|| | ||
+ | |- | ||
+ | | SodA||Mn-SOD||E. coli||‘Catalyzes dismutation of superoxide into oxygen and HOOH – fixes iron||||Frederik Domann|| | ||
+ | |- | ||
+ | | SodB||Fe-SOD||E. coli||Catalyzes dismutation of superoxide into oxygen and HOOH||||Frederik Domann|| | ||
+ | |- | ||
+ | | Fur||||E. coli||Transcriptional activator of bacterial sodB||Upregulate…||Frederik Domann|| | ||
+ | |- | ||
+ | | RecA||||E. coli||||Repair of DNA Double Strand Breaks||||http://www.photobiology.info/Smith_DSB.html | ||
+ | |- | ||
+ | | RecN||||E. coli||||Repair of DNA Double Strand Breaks||||http://www.photobiology.info/Smith_DSB.html | ||
+ | |- | ||
+ | | KatE||||E. coli|||||||| | ||
+ | |- | ||
+ | | KatG||||E. coli|||||||| | ||
+ | |- | ||
+ | | AhpC||||E. coli|||||||| | ||
+ | |- | ||
+ | | Tpx||||E. coli|||||||| | ||
+ | |- | ||
+ | | BtuE||||E. coli|||||||| | ||
+ | |- | ||
+ | | OsmC||||E. coli|||||||| | ||
|- | |- | ||
- | | |||||||| | + | | phrA||||E. coli||photolyase activities||remove UV-induced DNA lesions from the genome|||| |
|- | |- | ||
- | | |||||||| | + | | phrB||||E. coli||photolyase activities||remove UV-induced DNA lesions from the genome|||| |
|- | |- | ||
- | | |||||||||||| | + | | recB||||E. coli||exonuclease V subunit, recBCD enzyme subunit, nuclease, helicase||Repair of DNA Double Strand Breaks||||http://www.photobiology.info/Smith_DSB.html |
|- | |- | ||
- | | |||||||||||| | + | | recC||||E. coli||exonuclease V subunit, recBCD enzyme subunit, nuclease, helicase||Repair of DNA Double Strand Breaks||||http://www.photobiology.info/Smith_DSB.html |
|- | |- | ||
- | | |||||||||||| | + | | recF||||E. coli||RecFOR complex stabilizes the RecA filament-DNA complex||Repair of DNA Double Strand Breaks||||http://www.photobiology.info/Smith_DSB.html |
|- | |- | ||
- | | |||||||||||| | + | | recJ||||E. coli||5\'-3\' exonuclease||Repair of DNA Double Strand Breaks||||http://www.photobiology.info/Smith_DSB.html |
|- | |- | ||
- | | |||||||||||| | + | | lexA||||E. coli||repressor of the SOS regulon||Repair of DNA Double Strand Breaks||||http://www.photobiology.info/Smith_DSB.html |
|- | |- | ||
- | | |||||||||||| | + | | uvrD||||E. coli||helicase II||Repair of DNA Double Strand Breaks||||http://www.photobiology.info/Smith_DSB.html |
|- | |- | ||
- | | |||||||||||| | + | | radA||||E. coli||sms, recombination intermediate stabilization||Repair of DNA Double Strand Breaks||||http://www.photobiology.info/Smith_DSB.html |
|- | |- | ||
- | | |||||||||||| | + | | ruvA||||E. coli||recombination intermediate stabilization||Repair of DNA Double Strand Breaks||||http://www.photobiology.info/Smith_DSB.html |
|- | |- | ||
- | | |||||||||||| | + | | ruvB||||E. coli||recombination intermediate stabilization||Repair of DNA Double Strand Breaks||||http://www.photobiology.info/Smith_DSB.html |
|- | |- | ||
- | | |||||||||||| | + | | ruvC||||E. coli||recombination intermediate stabilization||Repair of DNA Double Strand Breaks||||http://www.photobiology.info/Smith_DSB.html |
|- | |- | ||
- | | |||||||||||| | + | | recG||||E. coli||radC, recombination intermediate stabilization||Repair of DNA Double Strand Breaks||||http://www.photobiology.info/Smith_DSB.html |
|} | |} |
Latest revision as of 15:53, 28 September 2011
D. rad Genes for Cloning
Name | Other Name | Number | Function | Cnnxn to Radioresistance | Recommended By | Citations |
MntH | NRAMP transporter | DR_1709 | Mn (II) transporter | Upregulate in order to establish Mn:Fe ratio similar to that of D. rad [other members of oxyR regulon?] | Jim Imlay | |
Dps | DNA-binding protein from starved cells – protect DNA by binding to form condensed co-crystal and by preventing oxidative damage - induced by oxyR | Jim Imlay | ||||
PprI | IrrE | DR_0167 | Positive regulator of recA and other gamma irradiation-induced genes | Important effect | Blasius | |
PprA | DR_A0346 | DNA binding and tethering of termini, stimulation of DNA ligases and catalase | Strongly induced upon ionizing radiation - Important effect | Battista | ||
RecA | DR_2340 | Double strand break repair | Inverse DNA strand exchange pathway - Important effect | Battista | ||
RecO | DR_0819 | DNA annealing during homologous recombination | Strong defect in growth and increased radiosensitivity of strain devoid of RecO - Important effect | Blasius | ||
SodB | Fe-SOD | Catalyzes dismutation of superoxide into oxygen and HOOH – fixes iron | Frederik Domann | |||
SodA | Mn-SOD | DR_1279? | ‘’ – fixes manganese | Increases resistance to UV and HOOH damage in E. coli – But why? Without catalase/peroxidase? | Frederik Domann | |
Fur | Transcriptional activator of bacterial sodB | Upregulate… | Frederik Domann | |||
SOD? | predicted SODs | DR_1546, DR_A0202 | superoxide dismutation | Omelchenko et al., 2005 | ||
Catalases | predicted catalses | DR_1998, DR_A0259, DR_A 0146 | Hydrogen peroxide to water and oxygen | Catalase is important next enzyme after SOD. If not present, H2O2 accumulate and have deleterious effect | Omelchenko et al., 2005 | |
Thioredoxin | DR_0994 | reverses oxidized sulfur species | Important for defense against oxidative stress | Obiero et al., 2010 :Journal of Bacteriology, January 2010, p. 494-501, Vol. 192, No. 2 | ||
Thioredoxin reductase | maintains reduced Thioredoxin enzyme levels | Important for defense against oxidative stress | ||||
DdrB | DR_0070 | Single strand binding protein | Strongly induced upon ionizing radiation - Important effect | Battista | ||
DdrA | DR_0423 | End-capping | Strongly induced upon ionizing radiation, homolog of Rad52 - Important effect | Battista | ||
DdrC | DR_0003 | Unknown | Strongly induced upon ionizing radiation - Modest effect | Battista | ||
DdrD | DR_0326 | Protection of 3\' ends of single strand DNA | Strongly induced upon ionizing radiation - Modest effect | Battista | ||
RecN | DR_1477 | DNA Repair Protein | Mutant shows general repair deficiency | Blasius | ||
RecF | ||||||
PolA | DR_1707 | DNA polymerase, probably involved in translesion synthesis | important role in ESDSA DSB repair pathway, modulated by Mn(II) - Important effect | Blasius | ||
PolX | DR_0467 | DNA polymerase/ 3\'-5\' exonuclease | Nuclease is structure modulated, uses Mn(I) - Modest effect | Blasius | ||
SbcD | DR_1921 | Homolog of Mre11, DNA end processing | Additive effect of SbcCD and PolX deficiencies | Blasius | ||
SbcC | DR_1922 | Homolog of Rad50, DNA end processing | Homolog of Mre11, DNA end processing | Blasius Paper | ||
RuvB | DR_0576 | Resolution of Hollyday junctions | Blasius | |||
RadA | DR_1105 | RecA-like function | Blasius | |||
ClpP | DR_1972 | Proteolytic subunit of ATP-dependent Clp protease | Blasius | |||
ClpX | DR_1973 | ATP-binding subunit of ATP-dependent Clp protease | Blasius | |||
CrtB | DR_0862 | Phytoene synthase | Carotenoids have antioxidant properties, are located at the cell\'s 1st line of defense- the cell wall/membrane. Also they may be able to \"take the hit\" of ionizing radiation, thus protecting cytosolic components | Blasius | Zhang et al., 2007 (Arch Microbilogy) | |
CrtI | DR_0861 | Phytoene desaturase | KO of carotenoid synthesis genes DR0861 and DR0862 resulted in increased sensitivity to oxidants, ionizing radiation and UV | Blasius | Zhang et al., 2007 (Arch Microbilogy) | |
Crtlm | DR_0801 | Carotenoid synthesis | These genes boxed off are in the biosynthesis pathway for deinoxathin, the major carotenoid pigment in D. rad. It also has antioxidant properties | Tian & Hua., 2010 | ||
CrtO | DR_0093 | Carotenoid synthesis | ||||
CruF | DR_0091 | Carotenoid synthesis | ||||
CrtD | DR_2250 | Carotenoid synthesis | ||||
OxyR | DR_0615 | Oxidative stress resistance | little connection to IR resistance. MntH expresison is also downregulated by this regulon (which is contrary to what we would like to see) | Nevermind. This protein was expressed in E. coli before and was not able to complement an E coli OxyR KO. It presumably does not bind the E coli polymerase | ||
OxyR2 | DR_A0336 | Oxidative stress resistance | Novel OxyR enzyme- this means D. rad has multiple OxyRs!!! | Yin et al., 2010 (Jornal of Microbiology) | ||
deiNOS | deinococcus nitric oxide synthase | DR_2597 | Nitirc oxide production | KO causes increase in susceptibility to UV irradiation. Slower recover following insult | Patel et al., 2009., Adak et al, 2002 | |
ObgE | ? | GTPase that regulates cel growth/proliferation | decreased ObgE afte NOS KO implicated as an important mediator of growth recovery following UV insult | Patel et al., 2009., | ||
Hypothetical protein | DR_A0282 | nucleotide binding protein??- perhaps DNA repair | mutant had 10X less survival to 14Gy gamma. Enzyme also is manganese dependent!!! | Das & Misra., 2011 | ||
predicted ATP-dependent ABC-type transporter (Mn (II)) | DR_2284 DR_2523 | Mn (II) transport | possibly maintain intracellular Mn(II) ratio. | Daly et al., 2004 (Science mag, supporting information) |
E. coli Genes for Cloning
AhpC | Other Name | Organism of Origin | Function | Cnnxn to Radioresistance | Recommended By | Citations |
MntH | E. coli | Mn (II) transporter | Upregulate in order to establish Mn:Fe ratio similar to that of D. rad [other members of oxyR regulon?] | Jim Imlay | ||
Dps | E. coli | DNA-binding protein from starved cells – protect DNA by binding to form condensed co-crystal and by preventing oxidative damage - induced by oxyR | Upregulate for Fe (II) sequestration that helps with oxidative damage | Jim Imlay | ||
SodA | Mn-SOD | E. coli | ‘Catalyzes dismutation of superoxide into oxygen and HOOH – fixes iron | Frederik Domann | ||
SodB | Fe-SOD | E. coli | Catalyzes dismutation of superoxide into oxygen and HOOH | Frederik Domann | ||
Fur | E. coli | Transcriptional activator of bacterial sodB | Upregulate… | Frederik Domann | ||
RecA | E. coli | Repair of DNA Double Strand Breaks | http://www.photobiology.info/Smith_DSB.html | |||
RecN | E. coli | Repair of DNA Double Strand Breaks | http://www.photobiology.info/Smith_DSB.html | |||
KatE | E. coli | |||||
KatG | E. coli | |||||
AhpC | E. coli | |||||
Tpx | E. coli | |||||
BtuE | E. coli | |||||
OsmC | E. coli | |||||
phrA | E. coli | photolyase activities | remove UV-induced DNA lesions from the genome | |||
phrB | E. coli | photolyase activities | remove UV-induced DNA lesions from the genome | |||
recB | E. coli | exonuclease V subunit, recBCD enzyme subunit, nuclease, helicase | Repair of DNA Double Strand Breaks | http://www.photobiology.info/Smith_DSB.html | ||
recC | E. coli | exonuclease V subunit, recBCD enzyme subunit, nuclease, helicase | Repair of DNA Double Strand Breaks | http://www.photobiology.info/Smith_DSB.html | ||
recF | E. coli | RecFOR complex stabilizes the RecA filament-DNA complex | Repair of DNA Double Strand Breaks | http://www.photobiology.info/Smith_DSB.html | ||
recJ | E. coli | 5\'-3\' exonuclease | Repair of DNA Double Strand Breaks | http://www.photobiology.info/Smith_DSB.html | ||
lexA | E. coli | repressor of the SOS regulon | Repair of DNA Double Strand Breaks | http://www.photobiology.info/Smith_DSB.html | ||
uvrD | E. coli | helicase II | Repair of DNA Double Strand Breaks | http://www.photobiology.info/Smith_DSB.html | ||
radA | E. coli | sms, recombination intermediate stabilization | Repair of DNA Double Strand Breaks | http://www.photobiology.info/Smith_DSB.html | ||
ruvA | E. coli | recombination intermediate stabilization | Repair of DNA Double Strand Breaks | http://www.photobiology.info/Smith_DSB.html | ||
ruvB | E. coli | recombination intermediate stabilization | Repair of DNA Double Strand Breaks | http://www.photobiology.info/Smith_DSB.html | ||
ruvC | E. coli | recombination intermediate stabilization | Repair of DNA Double Strand Breaks | http://www.photobiology.info/Smith_DSB.html | ||
recG | E. coli | radC, recombination intermediate stabilization | Repair of DNA Double Strand Breaks | http://www.photobiology.info/Smith_DSB.html |