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selenate + acetate
selenite + H2O + CO2
-
-
-
?
selenate + electron donor
selenite + H2O + oxidized donor
selenate + electron donor
selenite + H2O + oxidized electron donor
selenate + glucose
?
-
-
-
-
?
selenate + H2
selenite + H2O
-
-
-
-
?
selenate + lactate
selenite + H2O + acetate + HCO3-
selenate + malate
?
-
-
-
-
?
selenate + NADH + H+
selenite + H2O + NAD+
selenate + reduced acceptor
selenite + H2O + acceptor
selenate + reduced benzyl viologen
selenite + H2O + benzyl viologen
selenate + reduced benzyl viologen
selenite + H2O + oxidized benzyl viologen
selenate + reduced cytc-Ts4
selenite + H2O + oxidized cytc-Ts4
-
a c-type cytochrom is purified and shown to donate electrons to SerABC in vitro. Redox potentiometry, combined with UV-visible spectroscopy, show that cytc-Ts4 is a diheme cytochrome with a redox potential of +/-282 mV, and both hemes are predicted to have His-Met ligation
-
-
?
selenate + reduced methyl viologen
selenite + H2O + methyl viologen
-
-
-
-
?
selenate + reduced methyl viologen
selenite + H2O + oxidized methyl viologen
selenite + NADH + H+
selenium + H2O + NAD+
additional information
?
-
selenate + electron donor
selenite + H2O + oxidized donor
-
-
-
-
?
selenate + electron donor
selenite + H2O + oxidized donor
-
-
-
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
-
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
-
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
-
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
-
-
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
enzyme also reduces nitrate, thiosulfate, and fumarate
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
enzyme also reduces nitrate, thiosulfate, and fumarate
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
-
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
-
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
specific for selenate
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
specific for selenate
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + lactate
selenite + H2O + acetate + HCO3-
-
-
-
?
selenate + lactate
selenite + H2O + acetate + HCO3-
-
-
-
?
selenate + lactate
selenite + H2O + acetate + HCO3-
-
-
-
?
selenate + lactate
selenite + H2O + acetate + HCO3-
-
-
-
?
selenate + NADH + H+
selenite + H2O + NAD+
-
-
-
-
?
selenate + NADH + H+
selenite + H2O + NAD+
-
-
-
-
?
selenate + pyruvate
?
-
-
-
-
?
selenate + pyruvate
?
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
detoxification of selenate
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
detoxification of selenate
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced benzyl viologen
selenite + H2O + benzyl viologen
-
-
-
-
?
selenate + reduced benzyl viologen
selenite + H2O + benzyl viologen
-
-
-
-
?
selenate + reduced benzyl viologen
selenite + H2O + oxidized benzyl viologen
-
-
-
-
?
selenate + reduced benzyl viologen
selenite + H2O + oxidized benzyl viologen
-
-
-
-
?
selenate + reduced benzyl viologen
selenite + H2O + oxidized benzyl viologen
-
-
-
-
?
selenate + reduced benzyl viologen
selenite + H2O + oxidized benzyl viologen
-
best electron donor
-
-
?
selenate + reduced methyl viologen
selenite + H2O + oxidized methyl viologen
-
preferred electron donor
-
-
?
selenate + reduced methyl viologen
selenite + H2O + oxidized methyl viologen
-
preferred electron donor
-
-
?
selenate + reduced methyl viologen
selenite + H2O + oxidized methyl viologen
-
-
-
-
?
selenate + reduced methyl viologen
selenite + H2O + oxidized methyl viologen
-
-
-
-
?
selenate + reduced methyl viologen
selenite + H2O + oxidized methyl viologen
-
-
-
-
?
selenate + reduced methyl viologen
selenite + H2O + oxidized methyl viologen
-
11% of the activity with benzyl viologen
-
-
?
selenite + NADH + H+
selenium + H2O + NAD+
-
-
-
-
?
selenite + NADH + H+
selenium + H2O + NAD+
-
-
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
-
no substrate: nitrate, sulfate, perchlorate, thiosulfate
-
-
?
additional information
?
-
-
no substrate: nitrate, sulfate, perchlorate, thiosulfate
-
-
?
additional information
?
-
-
reduction of Se(VI) to Se(0) via Se(IV)
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
-
also active on nitrate, thiosulfate and fumarate
-
-
?
additional information
?
-
-
NADH, succinate, and lactate are no electron donors
-
-
?
additional information
?
-
-
no activity with nitrate, nitrite, sulfate, and chlorate
-
-
?
additional information
?
-
-
no activity with nitrate, nitrite, sulfate, and chlorate
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
selenate + electron donor
selenite + H2O + oxidized electron donor
selenate + H2
selenite + H2O
-
-
-
-
?
selenate + NADH + H+
selenite + H2O + NAD+
selenate + reduced acceptor
selenite + H2O + acceptor
selenite + NADH + H+
selenium + H2O + NAD+
additional information
?
-
selenate + electron donor
selenite + H2O + oxidized electron donor
-
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
-
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + electron donor
selenite + H2O + oxidized electron donor
selenate is the terminal electron acceptor in dissimilatory selenate reduction
-
?
selenate + NADH + H+
selenite + H2O + NAD+
-
-
-
-
?
selenate + NADH + H+
selenite + H2O + NAD+
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
detoxification of selenate
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
detoxification of selenate
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenate + reduced acceptor
selenite + H2O + acceptor
-
-
-
-
?
selenite + NADH + H+
selenium + H2O + NAD+
-
-
-
-
?
selenite + NADH + H+
selenium + H2O + NAD+
-
-
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
-
reduction of Se(VI) to Se(0) via Se(IV)
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
additional information
?
-
-
the organism is part of an enrichment of a bacterial assemblage from a mine impacted natural marsh sediment that is capable of simultaneous selenate reduction and denitrification, selenate reduction in selenate enrichment culture, SeRB, and selenate reduction in the presence of varying concentrations of nitrate, overview
-
-
?
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6.25
benzyl viologen
-
20°C
5.47
Selenite
-
pH 6.0, 35°C
additional information
additional information
-
0.0007
selenate
-
tungsten-SER, pH and temperature not specified in the publication, Vmax: 0.01 micromol/min/mg
0.016
selenate
-
molybdenum-SER, pH and temperature not specified in the publication, Vmax: 0.2 micromol/min/mg
1.8
selenate
-
pH 6.0, 35°C
2
selenate
-
using electron donormethyl viologen
2.1
selenate
-
pH 7.2, 30°C, holenzyme complex
5.5
selenate
-
pH 7.2, 30°C, isolated alpha subunit
6.25
selenate
-
with reduced benzyl viologen, 20°C
additional information
additional information
-
in vivo kinetics, selenate reduction follows first order kinetics with respect to the concentration of total dissolved selenium. The kinetic rate constant is independent of initial nitrate concentration over the range 3-143 mg/l NO3, The initial concentration of selenate inhibits selenate reduction kinetics over the range 1-24 mg/l Se
-
additional information
additional information
-
in vivo kinetics, selenate reduction follows first order kinetics with respect to the concentration of total dissolved selenium. The kinetic rate constant is independent of initial nitrate concentration over the range 3-143 mg/l NO3, The initial concentration of selenate inhibits selenate reduction kinetics over the range 1-24 mg/l Se
-
additional information
additional information
in vivo kinetics, selenate reduction follows first order kinetics with respect to the concentration of total dissolved selenium. The kinetic rate constant is independent of initial nitrate concentration over the range 3-143 mg/l NO3, The initial concentration of selenate inhibits selenate reduction kinetics over the range 1-24 mg/l Se
-
additional information
additional information
-
in vivo kinetics, selenate reduction follows first order kinetics with respect to the concentration of total dissolved selenium. The kinetic rate constant is independent of initial nitrate concentration over the range 3-143 mg/l NO3, The initial concentration of selenate inhibits selenate reduction kinetics over the range 1-24 mg/l Se
-
additional information
additional information
-
in vivo kinetics, selenate reduction follows first order kinetics with respect to the concentration of total dissolved selenium. The kinetic rate constant is independent of initial nitrate concentration over the range 3-143 mg/l NO3, The initial concentration of selenate inhibits selenate reduction kinetics over the range 1-24 mg/l Se
-
additional information
additional information
-
in vivo kinetics, selenate reduction follows first order kinetics with respect to the concentration of total dissolved selenium. The kinetic rate constant is independent of initial nitrate concentration over the range 3-143 mg/l NO3, The initial concentration of selenate inhibits selenate reduction kinetics over the range 1-24 mg/l Se
-
additional information
additional information
-
in vivo kinetics, selenate reduction follows first order kinetics with respect to the concentration of total dissolved selenium. The kinetic rate constant is independent of initial nitrate concentration over the range 3-143 mg/l NO3-, The initial concentration of selenate inhibits selenate reduction kinetics over the range 1-24 mg/l Se
-
additional information
additional information
-
in vivo kinetics, selenate reduction follows first order kinetics with respect to the concentration of total dissolved selenium. The kinetic rate constant is independent of initial nitrate concentration over the range 3-143 mg/l NO3-, The initial concentration of selenate inhibits selenate reduction kinetics over the range 1-24 mg/l Se
-
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isolated from Sabzevar of Iran
-
-
brenda
isolated from Sabzevar of Iran
-
-
brenda
-
-
-
brenda
isolated from sediment layer of seven locations on two mine sites, one near the town of Likely in British Columbia, Canada and the other in the Elk Valley in British Columbia, Canada
-
-
brenda
-
-
-
brenda
-
-
-
brenda
isolated from sediment layer of seven locations on two mine sites, one near the town of Likely in British Columbia, Canada and the other in the Elk Valley in British Columbia, Canada
-
-
brenda
isolated from sediment layer of seven locations on two mine sites, one near the town of Likely in British Columbia, Canada and the other in the Elk Valley in British Columbia, Canada
UniProt
brenda
isolated from sediment layer of seven locations on two mine sites, one near the town of Likely in British Columbia, Canada and the other in the Elk Valley in British Columbia, Canada
UniProt
brenda
isolated from sediment layer of seven locations on two mine sites, one near the town of Likely in British Columbia, Canada and the other in the Elk Valley in British Columbia, Canada
-
-
brenda
-
-
-
brenda
-
-
-
brenda
-
-
-
brenda
-
-
-
brenda
isolated from sediment layer of seven locations on two mine sites, one near the town of Likely in British Columbia, Canada and the other in the Elk Valley in British Columbia, Canada
-
-
brenda
-
-
-
brenda
-
-
-
brenda
alpha, beta, and gamma subunits serA, serB, and serC of selenate reductase; from selenate-reducing membrane biofilm reactor (MBfR) biofilms
UniProt
brenda
-
-
-
brenda
isolated from sediment layer of seven locations on two mine sites, one near the town of Likely in British Columbia, Canada and the other in the Elk Valley in British Columbia, Canada
-
-
brenda
isolated from sediment layer of seven locations on two mine sites, one near the town of Likely in British Columbia, Canada and the other in the Elk Valley in British Columbia, Canada
-
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brenda
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ATCC 700258
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expression under aerobic conditions, poor expression during anaerobic growth on nitrate
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highest activity when molybdate is added to the culture medium
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ATCC 700258
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expression under aerobic conditions, poor expression during anaerobic growth on nitrate
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highest activity when molybdate is added to the culture medium
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and derivatives
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ECISC-202
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genes ygfK, ygfM, and ygfN encode the 3 subunit polypeptides YgfK, YgfM, and YgfN
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subunit SrdA
UniProt
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subunit SrdB
UniProt
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subunit SrdC
UniProt
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subunit SrdA
UniProt
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subunit SrdB
UniProt
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subunit SrdC
UniProt
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isolated from sediment layer of seven locations on two mine sites, one near the town of Likely in British Columbia, Canada and the other in the Elk Valley in British Columbia, Canada
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UniProt
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alpha, beta, and gamma subunits serA, serB, and serC of selenate reductase; from selenate-reducing membrane biofilm reactor (MBfR) biofilms
UniProt
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selenate-respiring bacterium
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21000
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alphabetagammadelta, 1 * 82000 + 1 * 53000 + 1 * 34000 + 1 * 21000
34000
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alphabetagammadelta, 1 * 82000 + 1 * 53000 + 1 * 34000 + 1 * 21000
36000
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3* 100, alpha-subunit, 3 * 55000, beta-subunit, 3 * 36000, gamma-subunit, SDS-PAGE
37000
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1 * 99000, alpha, + 1 * 37000, beta, + 1 * 23000, gamma, SDS-PAGE
55000
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3* 100, alpha-subunit, 3 * 55000, beta-subunit, 3 * 36000, gamma-subunit, SDS-PAGE
700000
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native gel electrophoresis of cell-free extracts and activity stain
99000
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1 * 99000, alpha, + 1 * 37000, beta, + 1 * 23000, gamma, SDS-PAGE
180000
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23000
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1 * 99000, alpha, + 1 * 37000, beta, + 1 * 23000, gamma, SDS-PAGE
23000
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1 * 96000, alpha, + 1 * 40000, beta, + 1 * 23000, gamma, SDS-PAGE
23000
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alphabetagamma, 1 * 96000 + 1 * 40000 + 1 * 23000
23000
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1 * 96000 + 1 * 40000 + 1 * 23000, SER consists of three subunits SerA (96 kDa), SerB (40 kDa), and SerC (23 kDa)
40000
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1 * 96000, alpha, + 1 * 40000, beta, + 1 * 23000, gamma, SDS-PAGE
40000
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alphabetagamma, 1 * 96000 + 1 * 40000 + 1 * 23000
40000
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1 * 96000 + 1 * 40000 + 1 * 23000, SER consists of three subunits SerA (96 kDa), SerB (40 kDa), and SerC (23 kDa)
53000
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1 * 82000 + 1 * 53000 + 1 *34000 + 1* 21000
53000
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alphabetagammadelta, 1 * 82000 + 1 * 53000 + 1 * 34000 + 1 * 21000
82000
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1 * 82000 + 1 * 53000 + 1 *34000 + 1* 21000
82000
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alphabetagammadelta, 1 * 82000 + 1 * 53000 + 1 * 34000 + 1 * 21000
96000
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1 * 96000, alpha, + 1 * 40000, beta, + 1 * 23000, gamma, SDS-PAGE
96000
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alphabetagamma, 1 * 96000 + 1 * 40000 + 1 * 23000
96000
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1 * 96000 + 1 * 40000 + 1 * 23000, SER consists of three subunits SerA (96 kDa), SerB (40 kDa), and SerC (23 kDa)
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heterotetramer
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1 * 70000 + 1 * 45000 + 1 * 35000 + 1 *27000, SDS-PAGE
heterotetramer
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1 * 70000 + 1 * 45000 + 1 * 35000 + 1 *27000, SDS-PAGE
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heterotrimer
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the active enzyme is predicted to comprise at least three subunits where YnfE is a molybdenum-containing catalytic subunit
heterotrimer
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the active enzyme is predicted to comprise at least three subunits where YnfE is a molybdenum-containing catalytic subunit
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nonamer
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3* 100, alpha-subunit, 3 * 55000, beta-subunit, 3 * 36000, gamma-subunit, SDS-PAGE
nonamer
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3* 100, alpha-subunit, 3 * 55000, beta-subunit, 3 * 36000, gamma-subunit, SDS-PAGE
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tetramer
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1 * 82000 + 1 * 53000 + 1 *34000 + 1* 21000
tetramer
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alphabetagammadelta, 1 * 82000 + 1 * 53000 + 1 * 34000 + 1 * 21000
tetramer
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1 * 82000 + 1 * 53000 + 1 *34000 + 1* 21000
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trimer
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1 * 99000, alpha, + 1 * 37000, beta, + 1 * 23000, gamma, SDS-PAGE
trimer
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1 * 96000, alpha, + 1 * 40000, beta, + 1 * 23000, gamma, SDS-PAGE
trimer
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alpha, beta, gamma
trimer
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alphabetagamma, 1 * 96000 + 1 * 40000 + 1 * 23000
trimer
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1 * 96000 + 1 * 40000 + 1 * 23000, SER consists of three subunits SerA (96 kDa), SerB (40 kDa), and SerC (23 kDa)
additional information
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heterotrimeric complex: apparent about 600000 Da (3 alpha-subunits + 3 beta-subunits + 3 gamma-subunits), alpha-subunit: about 100000 Da, beta-subunit: about 55000 Da, gamma-subunit: about 36000 Da
additional information
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heterotrimeric complex: apparent about 600000 Da (3 alpha-subunits + 3 beta-subunits + 3 gamma-subunits), alpha-subunit: about 100000 Da, beta-subunit: about 55000 Da, gamma-subunit: about 36000 Da
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additional information
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the selenate reductase in Escherichia coli is a multisubunit enzyme predicted to bind Fe-S clusters
additional information
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YnfE signal peptide residues L24 and A28 are important for assembly of an active selenate reductase
additional information
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YnfE signal peptide residues L24 and A28 are important for assembly of an active selenate reductase
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additional information
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the gamma subunit may be identical with the cytochrome b
additional information
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1 cytochrome b per alphabetagamma-complex
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Rech, S.A.; Macy, J.M.
The terminal reductases for selenate and nitrate respiration in Thauera selenatis are two distinct enzymes
J. Bacteriol.
174
7316-7320
1992
Thauera selenatis
brenda
Schroder, I.; Rech, S.; Krafft, T.; Macy, J.M.
Purification and characterization of the selenate reductase from Thauera selenatis
J. Biol. Chem.
272
23765-23768
1997
Thauera selenatis
brenda
Stolz, J.F.; Oremland, R.S.
Bacterial respiration of arsenic and selenium
FEMS Microbiol. Rev.
23
615-627
1999
Anaerobacillus arseniciselenatis, Sulfurospirillum barnesii, Thauera selenatis, Sulfurospirillum barnesii SES-3
brenda
Krafft, T.; Bowen, A.; Theis, F.; Macy, J.M.
Cloning and sequencing of the genes encoding the periplasmic-cytochrome B-containing selenate reductase of Thauera selenatis
DNA Seq.
10
365-377
2000
Thauera selenatis (Q9S1H0 and Q9S1G9 and Q9S1G7), Thauera selenatis
brenda
Maher, M.J.; Macy, J.M.
Crystallization and preliminary X-ray analysis of the selenate reductase from Thauera selenatis
Acta Crystallogr. Sect. D
58
706-708
2002
Thauera selenatis
brenda
Bebien, M.; Kirsch, J.; Mejean, V.; Vermeglio, A.
Involvement of a putative molybdenum enzyme in the reduction of selenate by Escherichia coli
Microbiology
148
3865-3872
2002
Escherichia coli
brenda
Watts, C.A.; Ridley, H.; Condie, K.L.; Leaver, J.T.; Richardson, D.J.; Butler, C.S.
Selenate reduction by Enterobacter cloacae SLD1a-1 is catalysed by a molybdenum-dependent membrane-bound enzyme that is distinct from the membrane-bound nitrate reductase
FEMS Microbiol. Lett.
228
273-279
2003
Enterobacter cloacae, Enterobacter cloacae SLD1a-1 / ATCC 700258
brenda
Watts, C.A.; Ridley, H.; Dridge, E.J.; Leaver, J.T.; Reilly, A.J.; Richardson, D.J.; Butler, C.S.
Microbial reduction of selenate and nitrate: common themes and variations
Biochem. Soc. Trans.
33
173-175
2005
Enterobacter cloacae, Sulfurospirillum barnesii, Thauera selenatis, Enterobacter cloacae SLDa-1
brenda
Maher, M.J.; Santini, J.; Pickering, I.J.; Prince, R.C.; Macy, J.M.; George, G.N.
X-ray absorption spectroscopy of selenate reductase
Inorg. Chem.
43
402-404
2004
Thauera selenatis
brenda
Ridley, H.; Watts, C.A.; Richardson, D.J.; Butler, C.S.
Development of a viologen-based microtiter plate assay for the analysis of oxyanion reductase activity: application to the membrane-bound selenate reductase from Enterobacter cloacae SLD1a-1
Anal. Biochem.
358
289-294
2006
Enterobacter cloacae, Enterobacter cloacae SLD1a-1 / ATCC 700258
brenda
Ridley, H.; Watts, C.A.; Richardson, D.J.; Butler, C.S.
Resolution of distinct membrane-bound enzymes from Enterobacter cloacae SLD1a-1 that are responsible for selective reduction of nitrate and selenate oxyanions
Appl. Environ. Microbiol.
72
5173-5180
2006
Enterobacter cloacae, Enterobacter cloacae SLD1a-1 / ATCC 700258
brenda
Dridge, E.J.; Watts, C.A.; Jepson, B.J.; Line, K.; Santini, J.M.; Richardson, D.J.; Butler, C.S.
Investigation of the redox centres of periplasmic selenate reductase from Thauera selenatis by EPR spectroscopy
Biochem. J.
408
19-28
2007
Thauera selenatis
brenda
Hunter, W.J.; Manter, D.K.
Reduction of selenite to elemental red selenium by Pseudomonas sp. strain CA5
Curr. Microbiol.
58
493-498
2009
Pseudomonas sp., Pseudomonas sp. CA5
brenda
Ma, J.; Kobayashi, D.Y.; Yee, N.
Role of menaquinone biosynthesis genes in selenate reduction by Enterobacter cloacae SLD1a-1 and Escherichia coli K12
Environ. Microbiol.
11
149-158
2009
Enterobacter cloacae, Escherichia coli K-12, Enterobacter cloacae SLD1a-1 / ATCC 700258
brenda
Leaver, J.T.; Richardson, D.J.; Butler, C.S.
Enterobacter cloacae SLD1a-1 gains a selective advantage from selenate reduction when growing in nitrate-depleted anaerobic environments
J. Ind. Microbiol. Biotechnol.
35
867-873
2008
Enterobacter cloacae, Enterobacter cloacae SLD1a-1 / ATCC 700258
brenda
Dridge, E.J.; Butler, C.S.
Thermostable properties of the periplasmic selenate reductase from Thauera selenatis
Biochimie
92
1268-1273
2010
Thauera selenatis
brenda
Lowe, E.C.; Bydder, S.; Hartshorne, R.S.; Tape, H.L.; Dridge, E.J.; Debieux, C.M.; Paszkiewicz, K.; Singleton, I.; Lewis, R.J.; Santini, J.M.; Richardson, D.J.; Butler, C.S.
Quinol-cytochrome c oxidoreductase and cytochrome c4 mediate electron transfer during selenate respiration in Thauera selenatis
J. Biol. Chem.
285
18433-18442
2010
Thauera selenatis
brenda
Kuroda, M.; Yamashita, M.; Miwa, E.; Imao, K.; Fujimoto, N.; Ono, H.; Nagano, K.; Sei, K.; Ike, M.
Molecular cloning and characterization of the srdBCA operon, encoding the respiratory selenate reductase complex, from the selenate-reducing bacterium Bacillus selenatarsenatis SF-1
J. Bacteriol.
193
2141-2148
2011
Mesobacillus selenatarsenatis (E9RFC9), Mesobacillus selenatarsenatis (E9RFD0), Mesobacillus selenatarsenatis (E9RFD1), Mesobacillus selenatarsenatis, Mesobacillus selenatarsenatis SF-1 (E9RFC9), Mesobacillus selenatarsenatis SF-1 (E9RFD0), Mesobacillus selenatarsenatis SF-1 (E9RFD1), Mesobacillus selenatarsenatis SF-1
brenda
Subedi, G.; Taylor, J.; Hatam, I.; Baldwin, S.A.
Simultaneous selenate reduction and denitrification by a consortium of enriched mine site bacteria
Chemosphere
183
536-545
2017
Clostridium sp., Pseudomonas sp., Exiguobacterium sp., Lysinibacillus sp., Thauera sp. MZ1T, Tissierella sp., Schnuerera ultunensis, Gottschalkia acidurici (K0B418), Gottschalkia acidurici ATCC 7906 (K0B418)
brenda
Wen, L.L.; Lai, C.Y.; Yang, Q.; Chen, J.X.; Zhang, Y.; Ontiveros-Valencia, A.; Zhao, H.P.
Quantitative detection of selenate-reducing bacteria by real-time PCR targeting the selenate reductase gene
Enzyme Microb. Technol.
85
19-24
2016
Pseudomonas stutzeri, Thauera sp., Thauera selenatis (Q9S1H0 and Q9S1G9 and Q9S1G7), Thauera selenatis, Thauera selenatis ATCC 55363 (Q9S1H0 and Q9S1G9 and Q9S1G7)
brenda
Yee, N.; Choi, J.; Porter, A.W.; Carey, S.; Rauschenbach, I.; Harel, A.
Selenate reductase activity in Escherichia coli requires Isc iron-sulfur cluster biosynthesis genes
FEMS Microbiol. Lett.
361
138-143
2014
Escherichia coli
brenda
Mesbahi-Nowrouzi, M.; Mollania, N.
Purification of selenate reductase from Alcaligenes sp. CKCr-6A with the ability to biosynthesis of selenium nanoparticle Enzymatic behavior study in imidazolium based ionic liquids and organic solvent
J. Mol. Liq.
249
1254-1262
2018
Alcaligenes sp., Alcaligenes sp. CKCr-6A
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brenda
Connelly, K.R.; Stevenson, C.; Kneuper, H.; Sargent, F.
Biosynthesis of selenate reductase in Salmonella enterica critical roles for the signal peptide and DmsD
Microbiology
162
2136-2146
2016
Salmonella enterica subsp. enterica serovar Typhimurium, Salmonella enterica subsp. enterica serovar Typhimurium LT2a
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