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AH2 + chlorate
A + H2O + chlorite
bromate + reduced electron acceptor
bromite + H2O + oxidized electron acceptor
bromate + reduced methyl viologen
bromite + H2O + methyl viologen
chlorate + reduced benzyl viologen
chlorite + H2O + benzyl viologen
-
-
-
-
r
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
chlorate + reduced methyl viologen
chlorite + H2O + methyl viologen
chlorite + H2O + FMN
chlorate + FMNH2
-
-
-
-
r
chlorite + H2O + riboflavin
chlorate + reduced rboflavin
-
-
-
-
r
ferricytochrome c + chlorate
ferrocytochrome c + H2O + chlorite
-
-
-
?
iodate + reduced electron acceptor
iodite + H2O + oxidized electron acceptor
nitrate + reduced electron acceptor
nitrite + H2O + oxidized electron acceptor
perchlorate + reduced electron acceptor
chlorate + H2O + oxidized electron acceptor
perchlorate + reduced methyl viologen
chlorate + H2O + methyl viologen
reduced acceptor + chlorate
acceptor + H2O + chlorite
reduced acceptor + perchlorate
acceptor + H2O + chlorate
reduced acceptor + perchlorate
acceptor + H2O + perchlorite
additional information
?
-
AH2 + chlorate
A + H2O + chlorite
-
the reaction is part of a proposed benzene degradation pathway with chlorate as the electron acceptor, benzene + ClO3- are converted into CO2 + Cl- + H2O
-
-
?
AH2 + chlorate
A + H2O + chlorite
-
the reaction is part of a proposed benzene degradation pathway with chlorate as the electron acceptor, benzene + ClO3- are converted into CO2 + Cl- + H2O
-
-
?
AH2 + chlorate
A + H2O + chlorite
-
-
-
-
?
AH2 + chlorate
A + H2O + chlorite
-
the 6 kDa periplasmatic cytochrome c is able to act as an electron donor in the reaction
-
-
?
AH2 + chlorate
A + H2O + chlorite
Stutzerimonas chloritidismutans
-
the reaction is part of a n-alkanes degradation pathway with chlorate as the electron acceptor, C10H22 + ClO3- are converted into HCO3- + Cl- + H2O + H+
-
-
?
AH2 + chlorate
A + H2O + chlorite
Stutzerimonas chloritidismutans AW-1 / DSM 13592
-
the reaction is part of a n-alkanes degradation pathway with chlorate as the electron acceptor, C10H22 + ClO3- are converted into HCO3- + Cl- + H2O + H+
-
-
?
AH2 + chlorate
A + H2O + chlorite
Stutzerimonas chloritidismutans AW-1(T)
-
the reaction is part of a n-alkanes degradation pathway with chlorate as the electron acceptor, C10H22 + ClO3- are converted into HCO3- + Cl- + H2O + H+
-
-
?
AH2 + perchlorate
?
-
-
-
-
?
AH2 + perchlorate
?
Dechlorosoma sp.
-
-
-
-
?
AH2 + perchlorate
?
Dechlorosoma sp. KJ / ATCC BAA-592
-
-
-
-
?
bromate + reduced electron acceptor
bromite + H2O + oxidized electron acceptor
-
-
-
-
?
bromate + reduced electron acceptor
bromite + H2O + oxidized electron acceptor
-
-
-
-
?
bromate + reduced electron acceptor
bromite + H2O + oxidized electron acceptor
-
-
-
-
?
bromate + reduced methyl viologen
bromite + H2O + methyl viologen
Stutzerimonas chloritidismutans
-
-
-
?
bromate + reduced methyl viologen
bromite + H2O + methyl viologen
Stutzerimonas chloritidismutans AW-1 / DSM 13592
-
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
-
-
-
ir
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
methyl viologen
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
methyl viologen
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
Dechlorosoma sp.
-
enables the use of chlorate for respiration
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
Dechlorosoma sp. KJ / ATCC BAA-592
-
enables the use of chlorate for respiration
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
e.g. benzyl viologen, most effective
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
FMN and riboflavin less effective, not: reduced pyridine nucleotides
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
-
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
important enzyme in bacterial treatment of bleach effluents in pulp and paper industry
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
the only known substrate is chlorate
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
the only known substrate is chlorate
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
electron transport during anaerobic respiration
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
enzyme probably acts as electron carrier, integral to the multienzyme system that produces gaseous H2 during the fermentation of glucose
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
enables the use of chlorate for respiration
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
enables the use of chlorate for respiration
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
methyl viologen
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
the bacterium reduces perchlorate and chlorate completely to chloride
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
the bacterium reduces perchlorate and chlorate completely to chloride
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
Stutzerimonas chloritidismutans
dissimilatory chlorate reduction, chlorate serves as terminal electron acceptor
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
Stutzerimonas chloritidismutans AW-1 / DSM 13592
dissimilatory chlorate reduction, chlorate serves as terminal electron acceptor
-
-
?
chlorate + reduced methyl viologen
chlorite + H2O + methyl viologen
Dechlorosoma sp.
-
-
-
-
?
chlorate + reduced methyl viologen
chlorite + H2O + methyl viologen
Dechlorosoma sp. KJ / ATCC BAA-592
-
-
-
-
?
chlorate + reduced methyl viologen
chlorite + H2O + methyl viologen
-
-
-
?
chlorate + reduced methyl viologen
chlorite + H2O + methyl viologen
-
-
-
?
chlorate + reduced methyl viologen
chlorite + H2O + methyl viologen
-
-
-
-
?
chlorate + reduced methyl viologen
chlorite + H2O + methyl viologen
-
-
-
-
?
chlorate + reduced methyl viologen
chlorite + H2O + methyl viologen
Stutzerimonas chloritidismutans
-
-
-
?
chlorate + reduced methyl viologen
chlorite + H2O + methyl viologen
Stutzerimonas chloritidismutans AW-1 / DSM 13592
-
-
-
?
iodate + reduced electron acceptor
iodite + H2O + oxidized electron acceptor
-
-
-
-
?
iodate + reduced electron acceptor
iodite + H2O + oxidized electron acceptor
-
-
-
-
?
nitrate + reduced electron acceptor
nitrite + H2O + oxidized electron acceptor
-
-
-
-
?
nitrate + reduced electron acceptor
nitrite + H2O + oxidized electron acceptor
-
-
-
-
?
nitrate + reduced electron acceptor
nitrite + H2O + oxidized electron acceptor
bacterium perc1ace
-
-
-
-
?
perchlorate + reduced electron acceptor
chlorate + H2O + oxidized electron acceptor
-
-
-
?
perchlorate + reduced electron acceptor
chlorate + H2O + oxidized electron acceptor
-
-
-
?
perchlorate + reduced electron acceptor
chlorate + H2O + oxidized electron acceptor
bacterium perc1ace
-
-
-
?
perchlorate + reduced electron acceptor
chlorate + H2O + oxidized electron acceptor
Dechlorosoma sp.
-
-
-
-
?
perchlorate + reduced electron acceptor
chlorate + H2O + oxidized electron acceptor
Dechlorosoma sp. KJ / ATCC BAA-592
-
-
-
-
?
perchlorate + reduced methyl viologen
chlorate + H2O + methyl viologen
Dechlorosoma sp.
-
-
-
-
?
perchlorate + reduced methyl viologen
chlorate + H2O + methyl viologen
Dechlorosoma sp. KJ / ATCC BAA-592
-
-
-
-
?
perchlorate + reduced methyl viologen
chlorate + H2O + methyl viologen
-
very low activity compared to clorate
-
-
?
perchlorate + reduced methyl viologen
chlorate + H2O + methyl viologen
-
very low activity compared to clorate
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
Acinetobacter thermotoleranticus
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
Stutzerimonas chloritidismutans
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
Stutzerimonas chloritidismutans ASK1
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
Stutzerimonas chloritidismutans AW1
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
Vibrio dechloraticans
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
Vibrio dechloraticans Cuznesove B-1168
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
Azospirillum lipoferum VPI Sp 59b
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
Dechlorospirillum anomalous
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
Dechlorospirillum anomalous 7JB116
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
Vibrio dechloraticans
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
Vibrio dechloraticans Cuznesove B-1168
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + perchlorite
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + perchlorite
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + perchlorite
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + perchlorite
-
-
-
-
?
additional information
?
-
a c-type cytochrome from Ideonella dechloratans donates electrons to Clr in vitro
-
-
?
additional information
?
-
-
a c-type cytochrome from Ideonella dechloratans donates electrons to Clr in vitro
-
-
?
additional information
?
-
-
no activity with chlorate
-
-
-
additional information
?
-
-
no activity with chlorate
-
-
-
additional information
?
-
-
no activity with chlorate
-
-
-
additional information
?
-
-
no activity with chlorate
-
-
-
additional information
?
-
-
no activity with perchlorate
-
-
-
additional information
?
-
-
no activity with perchlorate
-
-
-
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
AH2 + chlorate
A + H2O + chlorite
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
perchlorate + reduced electron acceptor
chlorate + H2O + oxidized electron acceptor
reduced acceptor + chlorate
acceptor + H2O + chlorite
reduced acceptor + perchlorate
acceptor + H2O + chlorate
reduced acceptor + perchlorate
acceptor + H2O + perchlorite
AH2 + chlorate
A + H2O + chlorite
-
the reaction is part of a proposed benzene degradation pathway with chlorate as the electron acceptor, benzene + ClO3- are converted into CO2 + Cl- + H2O
-
-
?
AH2 + chlorate
A + H2O + chlorite
-
the reaction is part of a proposed benzene degradation pathway with chlorate as the electron acceptor, benzene + ClO3- are converted into CO2 + Cl- + H2O
-
-
?
AH2 + chlorate
A + H2O + chlorite
-
-
-
-
?
AH2 + chlorate
A + H2O + chlorite
-
the 6 kDa periplasmatic cytochrome c is able to act as an electron donor in the reaction
-
-
?
AH2 + chlorate
A + H2O + chlorite
Stutzerimonas chloritidismutans
-
the reaction is part of a n-alkanes degradation pathway with chlorate as the electron acceptor, C10H22 + ClO3- are converted into HCO3- + Cl- + H2O + H+
-
-
?
AH2 + chlorate
A + H2O + chlorite
Stutzerimonas chloritidismutans AW-1 / DSM 13592
-
the reaction is part of a n-alkanes degradation pathway with chlorate as the electron acceptor, C10H22 + ClO3- are converted into HCO3- + Cl- + H2O + H+
-
-
?
AH2 + chlorate
A + H2O + chlorite
Stutzerimonas chloritidismutans AW-1(T)
-
the reaction is part of a n-alkanes degradation pathway with chlorate as the electron acceptor, C10H22 + ClO3- are converted into HCO3- + Cl- + H2O + H+
-
-
?
AH2 + perchlorate
?
-
-
-
-
?
AH2 + perchlorate
?
Dechlorosoma sp.
-
-
-
-
?
AH2 + perchlorate
?
Dechlorosoma sp. KJ / ATCC BAA-592
-
-
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
Dechlorosoma sp.
-
enables the use of chlorate for respiration
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
Dechlorosoma sp. KJ / ATCC BAA-592
-
enables the use of chlorate for respiration
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
important enzyme in bacterial treatment of bleach effluents in pulp and paper industry
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
electron transport during anaerobic respiration
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
enzyme probably acts as electron carrier, integral to the multienzyme system that produces gaseous H2 during the fermentation of glucose
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
enables the use of chlorate for respiration
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
-
enables the use of chlorate for respiration
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
Stutzerimonas chloritidismutans
dissimilatory chlorate reduction, chlorate serves as terminal electron acceptor
-
-
?
chlorate + reduced electron acceptor
chlorite + H2O + oxidized electron acceptor
Stutzerimonas chloritidismutans AW-1 / DSM 13592
dissimilatory chlorate reduction, chlorate serves as terminal electron acceptor
-
-
?
perchlorate + reduced electron acceptor
chlorate + H2O + oxidized electron acceptor
Dechlorosoma sp.
-
-
-
-
?
perchlorate + reduced electron acceptor
chlorate + H2O + oxidized electron acceptor
Dechlorosoma sp. KJ / ATCC BAA-592
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
Acinetobacter thermotoleranticus
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
Stutzerimonas chloritidismutans
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
Stutzerimonas chloritidismutans ASK1
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
Stutzerimonas chloritidismutans AW1
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
Vibrio dechloraticans
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
Vibrio dechloraticans Cuznesove B-1168
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + chlorate
acceptor + H2O + chlorite
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
Azospirillum lipoferum VPI Sp 59b
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
Dechlorospirillum anomalous
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
Dechlorospirillum anomalous 7JB116
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
Vibrio dechloraticans
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
Vibrio dechloraticans Cuznesove B-1168
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + chlorate
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + perchlorite
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + perchlorite
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + perchlorite
-
-
-
-
?
reduced acceptor + perchlorate
acceptor + H2O + perchlorite
-
-
-
-
?
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Acinetobacter thermotoleranticus
isolated from sewage
-
-
brenda
-
-
-
brenda
-
-
-
brenda
-
-
-
brenda
isolated from a subbmarine hot spring
-
-
brenda
isolated from a subbmarine hot spring
-
-
brenda
isolated from Marina
-
-
brenda
isolated from groundwater
-
-
brenda
isolated from groundwater
-
-
brenda
isolated from grass roots
-
-
brenda
Azospirillum lipoferum VPI Sp 59b
isolated from grass roots
-
-
brenda
bacterium perc1ace
ATCC 202172
-
-
brenda
DSM 158
-
-
brenda
isolated from a mix of soil, sediment, and waste sludge
-
-
brenda
isolated from sediment
-
-
brenda
isolated from sediment
-
-
brenda
isolated from pristine soil
-
-
brenda
isolated from activated sludge
-
-
brenda
isolated from activated sludge
-
-
brenda
Dechlorosoma sp. KJ / ATCC BAA-592
Dechlorospirillum anomalous
Dechlorospirillum anomalous 7JB116
a sewage treatment plant
-
-
brenda
Dechlorospirillum anomalous NCCB100047
-
-
-
brenda
K12, chlorate resistant mutant chl. C-
-
-
brenda
isolated from the Dead Sea
-
-
brenda
isolated from salt pools
-
-
brenda
isolated from Saltern
-
-
brenda
isolated from Saltern
-
-
brenda
isolated from a solar saltern
-
-
brenda
isolated from a solar saltern
-
-
brenda
I3R9M9: alpha-subunit (narG), I3R9M8: beta subunit (narH)
SwissProt
brenda
isolated from a salt pond
-
-
brenda
isolated from dead Sea sediment
-
-
brenda
isolated from dead Sea sediment
-
-
brenda
a municipal wastewater treatment plant
-
-
brenda
-
-
-
brenda
-
-
-
brenda
isolated from a hot spring
-
-
brenda
isolated from a hot spring
-
-
brenda
isolated from a hydrothermal spring
-
-
brenda
isolated from a hydrothermal spring
-
-
brenda
isolated from an anaerobic sludge, thermophilic bioreactor
-
-
brenda
isolated from an anaerobic sludge, thermophilic bioreactor
-
-
brenda
isolated from an underground gas storage reservoir
-
-
brenda
isolated from an underground gas storage reservoir
-
-
brenda
isolated from an anaerobic sludge, solid waste digester
-
-
brenda
isolated from an anaerobic sludge, solid waste digester
-
-
brenda
no activity in Dechloromonas aromatica
strain JJ
-
-
brenda
-
-
-
brenda
-
-
-
brenda
B 10, E1F1, AD2, C2
-
-
brenda
-
-
-
brenda
-
-
-
brenda
-
-
-
brenda
-
-
-
brenda
-
-
-
brenda
-
-
-
brenda
isolated from Marina
-
-
brenda
isolated from amrine sediment
-
-
brenda
isolated from marine sediment
-
-
brenda
isolated from marine sediment
-
-
brenda
isolated from an underground gas storage reservoir
-
-
brenda
isolated from an underground gas storage reservoir
-
-
brenda
a meso philic bacteriumisolated from an underground gas storage reservoir with methanol as substrate and perchlorate as electron acceptor. The isolate is able to respire with (per)chlorate, nitrate, and CO2
-
-
brenda
a meso philic bacteriumisolated from an underground gas storage reservoir with methanol as substrate and perchlorate as electron acceptor. The isolate is able to respire with (per)chlorate, nitrate, and CO2
-
-
brenda
Stutzerimonas chloritidismutans
Stutzerimonas chloritidismutans ASK1
isolated from an anaerobic wastewater treatment reactor
-
-
brenda
Stutzerimonas chloritidismutans AW-1 / DSM 13592
Stutzerimonas chloritidismutans AW-1(T)
-
-
-
brenda
Stutzerimonas chloritidismutans AW1
isolated from an anaerobic chlorate-reducing reactor
-
-
brenda
isolated from activated sludge
-
-
brenda
Vibrio dechloraticans
-
-
-
brenda
Vibrio dechloraticans Cuznesove B-1168
-
-
-
brenda
-
-
-
brenda
-
-
-
brenda
-
-
-
brenda
DSM 11199
-
-
brenda
isolated from activated sludge
-
-
brenda
DSM 11199
-
-
brenda
isolated from activated sludge
-
-
brenda
-
-
-
brenda
alpha subunit precursor; transcription occurs only under anaerobic (per)chlorate reducung conditions
SwissProt
brenda
beta subunit; transcription occurs only under anaerobic (per)chlorate reducung conditions
SwissProt
brenda
isolated from a mix of soil, sediment, and waste sludge
-
-
brenda
-
-
-
brenda
DSMZ no. 15637
-
-
brenda
isolated from pristine soil
-
-
brenda
Dechlorosoma sp.
-
-
-
brenda
Dechlorosoma sp.
formerly Dechlorosoma sp. KJ
-
-
brenda
Dechlorosoma sp. KJ / ATCC BAA-592
-
-
-
brenda
Dechlorosoma sp. KJ / ATCC BAA-592
formerly Dechlorosoma sp. KJ
-
-
brenda
Dechlorospirillum anomalous
-
-
-
brenda
Dechlorospirillum anomalous
a sewage treatment plant
-
-
brenda
I3R9M9: alpha-subunit (narG), I3R9M8: beta subunit (narH)
SwissProt
brenda
isolated from a salt pond
-
-
brenda
-
-
-
brenda
a municipal wastewater treatment plant
-
-
brenda
subunit alpha
UniProt
brenda
subunits alpha, beta, and gamma
UniProt
brenda
-
-
-
brenda
enzyme formed during anaerobic growth without nitrate
-
-
brenda
isolated from amrine sediment
-
-
brenda
isolated from Marina
-
-
brenda
Stutzerimonas chloritidismutans
-
-
-
brenda
Stutzerimonas chloritidismutans
isolated from an anaerobic chlorate-reducing reactor
-
-
brenda
Stutzerimonas chloritidismutans
isolated from an anaerobic wastewater treatment reactor
-
-
brenda
Stutzerimonas chloritidismutans
N-terminal sequence of the alpha subunit
SwissProt
brenda
Stutzerimonas chloritidismutans
N-terminal sequence of the beta subunit
SwissProt
brenda
Stutzerimonas chloritidismutans
N-terminal sequence of the gamma subunit
SwissProt
brenda
Stutzerimonas chloritidismutans AW-1 / DSM 13592
N-terminal sequence of the alpha subunit
SwissProt
brenda
Stutzerimonas chloritidismutans AW-1 / DSM 13592
N-terminal sequence of the beta subunit
SwissProt
brenda
Stutzerimonas chloritidismutans AW-1 / DSM 13592
N-terminal sequence of the gamma subunit
SwissProt
brenda
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
evolution
-
the enzyme belongs to the dimethylsulfoxide (DMSO) reductase family, and a subfamily that participates in a key step of the chlorine cycle
evolution
-
the enzyme belongs to the dimethylsulfoxide (DMSO) reductase family, and a subfamily that participates in a key step of the chlorine cycle
evolution
-
the enzyme belongs to the dimethylsulfoxide (DMSO) reductase family, and group 3 ClrA proteins subfamily that participates in a key step of the chlorine cycle. The Rhodoplanes roseus chlorate reductase has other substantial differences to previously characterized chlorate reductases
evolution
-
the enzyme belongs to the dimethylsulfoxide (DMSO) reductase family, and a subfamily that participates in a key step of the chlorine cycle
-
evolution
-
the enzyme belongs to the dimethylsulfoxide (DMSO) reductase family, and group 3 ClrA proteins subfamily that participates in a key step of the chlorine cycle. The Rhodoplanes roseus chlorate reductase has other substantial differences to previously characterized chlorate reductases
-
evolution
-
the enzyme belongs to the dimethylsulfoxide (DMSO) reductase family, and a subfamily that participates in a key step of the chlorine cycle
-
physiological function
a soluble periplasmic c-type cytochrome from Ideonella dechloratans donates electrons to Clr in vitro
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment
physiological function
Stutzerimonas chloritidismutans
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment
physiological function
Acinetobacter thermotoleranticus
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
Dechlorospirillum anomalous
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
Vibrio dechloraticans
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment.Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
physiological function
-
the enzyme participates in a key step of the chlorine cycle, perchlorate and chlorate being used as respiratory electron acceptors
physiological function
-
the enzyme participates in a key step of the chlorine cycle, perchlorate is used as respiratory electron acceptor
physiological function
-
the enzyme participates in a key step of the chlorine cycle, perchlorate is used as respiratory electron acceptors
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment.Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
Stutzerimonas chloritidismutans AW1
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment
-
physiological function
-
the enzyme participates in a key step of the chlorine cycle, perchlorate is used as respiratory electron acceptor
-
physiological function
Azospirillum lipoferum VPI Sp 59b
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
Vibrio dechloraticans Cuznesove B-1168
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
Stutzerimonas chloritidismutans ASK1
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment
-
physiological function
Dechlorospirillum anomalous 7JB116
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the enzyme participates in a key step of the chlorine cycle, perchlorate and chlorate being used as respiratory electron acceptors
-
physiological function
-
the enzyme participates in a key step of the chlorine cycle, perchlorate is used as respiratory electron acceptors
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment.Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment
-
physiological function
-
the reduction of chlorate is one alternative to derive energy in an anoxic environment. Perchlorate reductases are periplasmic heterodimers of PcrA and PcrB, carrying a Mo-bis (pyranopterin guanine dinucleotide) cofactor and iron-sulfur clusters. Electrons are transferred from a membrane-associated, proton pumping c cytochrome of the NapC/NrfH family to PcrA. PcrC, a soluble multiheme c cytochrome, is predicted to participate in electron transport reactions
-
additional information
the genes for the enzymes chlorate reductase (clrABDC) and chlorite dismutase, necessary for chlorate metabolism and probably acquired by lateral gene transfer, are located in a gene cluster that also includes other genes potentially important for chlorate metabolism. Among those are a gene for cytochrome c (cyc) whose gene product may serve as an electron carrier during chlorate reduction, a cofactor biosynthesis gene (mobB) and a predicted transcriptional regulator (arsR)
additional information
-
the genes for the enzymes chlorate reductase (clrABDC) and chlorite dismutase, necessary for chlorate metabolism and probably acquired by lateral gene transfer, are located in a gene cluster that also includes other genes potentially important for chlorate metabolism. Among those are a gene for cytochrome c (cyc) whose gene product may serve as an electron carrier during chlorate reduction, a cofactor biosynthesis gene (mobB) and a predicted transcriptional regulator (arsR)
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Oltmann, L.F.; Reijnders, W.N.M.; Stouthamer, A.H.
Characterization of purified nitrate reductase A and chlorate reductase C from Proteus mirabilis
Arch. Microbiol.
1111
25-35
1976
Proteus mirabilis
-
brenda
Oltmann, L.F.; Claassen, V.P.; Kastelein, P.; Reijnders, W.N.M.; Stouthamer, A.H.
Influence of tungstate on the formation and activities of four reductases in Proteus mirabilis: identification of two new molybdo-enzymes: chlorate reductase and tetrathionate reductase
FEBS Lett.
106
43-46
1979
Proteus mirabilis
brenda
Azoulay, E.; Mutaftschiev, S.; Rosado de Sousa, M.L.M.
Study of chlorate-resistant mutants in Escherichia coli K 12
Biochim. Biophys. Acta
237
579-590
1971
Escherichia coli
brenda
Roldan, M.D.; Reyes, F.; Moreno-Vivian, C.; Castillo, F.
Chlorate and nitrate reduction in the phototrophic bacteria Rhodobacter capsulatus and Rhodobacter sphaeroides
Curr. Microbiol.
29
241-245
1994
Rhodobacter capsulatus, Cereibacter sphaeroides
-
brenda
Kengen, S.W.M.; Rikken, G.B.; Hagen, W.R.; Van Ginkel, C.G.; Stams, A.J.M.
Purification and characterization of (per)chlorate reductase from the chlorate-respiring strain GR-1
J. Bacteriol.
181
6706-6711
1999
Azospira oryzae, Azospira oryzae GR-1
brenda
Giblin, T.; Frankenberger, W.T., Jr.
Perchlorate and nitrate reductase activity in the perchlorate-respiring bacterium perclace
Microbiol. Res.
156
311-315
2001
bacterium perc1ace
brenda
Steinberg, L.M.; Trimble, J.J.; Logan, B.E.
Enzymes responsible for chlorate reduction by Pseudomonas sp. are different from those used for perchlorate reduction by Azospira sp
FEMS Microbiol. Lett.
247
153-159
2005
Pseudomonas sp., Dechlorosoma sp., Pseudomonas sp. PDA, Dechlorosoma sp. KJ / ATCC BAA-592
brenda
Wolterink, A.F.; Schiltz, E.; Hagedoorn, P.L.; Hagen, W.R.; Kengen, S.W.; Stams, A.J.
Characterization of the chlorate reductase from Pseudomonas chloritidismutans
J. Bacteriol.
185
3210-3213
2003
Stutzerimonas chloritidismutans (P83448), Stutzerimonas chloritidismutans (P83449), Stutzerimonas chloritidismutans (P83450), Stutzerimonas chloritidismutans AW-1 / DSM 13592 (P83448), Stutzerimonas chloritidismutans AW-1 / DSM 13592 (P83449), Stutzerimonas chloritidismutans AW-1 / DSM 13592 (P83450)
brenda
Karlsson, J.; Nilsson, T.
The C subunit of Ideonella dechloratans chlorate reductase: expression, purification, refolding, and heme reconstitution
Protein Expr. Purif.
41
306-312
2005
Ideonella dechloratans
brenda
Bender, K.S.; Shang, C.; Chakraborty, R.; Belchik, S.M.; Coates, J.D.; Achenbach, L.A.
Identification, characterization, and classification of genes encoding perchlorate reductase
J. Bacteriol.
187
5090-5096
2005
Dechloromonas agitata (Q4G1W2), Dechloromonas agitata (Q84AD6), Dechloromonas agitata
brenda
Weelink, S.A.; Tan, N.C.; ten Broeke, H.; van den Kieboom, C.; van Doesburg, W.; Langenhoff, A.A.; Gerritse, J.; Junca, H.; Stams, A.J.
Isolation and characterization of Alicycliphilus denitrificans strain BC, which grows on benzene with chlorate as the electron acceptor
Appl. Environ. Microbiol.
74
6672-6681
2008
Alicycliphilus denitrificans, Alicycliphilus sp., Alicycliphilus denitrificans BC
brenda
Baecklund, A.S.; Bohlin, J.; Gustavsson, N.; Nilsson, T.
Periplasmic c cytochromes and chlorate reduction in Ideonella dechloratans
Appl. Environ. Microbiol.
75
2439-2445
2009
Ideonella dechloratans
brenda
Mehboob, F.; Junca, H.; Schraa, G.; Stams, A.J.
Growth of Pseudomonas chloritidismutans AW-1(T) on n-alkanes with chlorate as electron acceptor
Appl. Microbiol. Biotechnol.
83
739-747
2009
Stutzerimonas chloritidismutans, Stutzerimonas chloritidismutans AW-1(T)
brenda
Bansal, R.; Deobald, L.A.; Crawford, R.L.; Paszczynski, A.J.
Proteomic detection of proteins involved in perchlorate and chlorate metabolism
Biodegradation
20
603-620
2009
Dechlorosoma sp., Dechloromonas hortensis, Dechlorosoma sp. KJ / ATCC BAA-592
brenda
Bansal, R.; Crawford, R.L.; Paszczynski, A.J.
Peptide Biomarkers as Evidence of Perchlorate Biodegradation
Appl. Environ. Microbiol.
77
810-820
2011
Azospira oryzae, Dechloromonas agitata, Dechloromonas hortensis, Dechlorosoma sp., Dechlorospirillum anomalous, Dechlorospirillum anomalous NCCB100047
brenda
Balk, M.; Mehboob, F.; van Gelder, A.H.; Rijpstra, W.I.; Damste, J.S.; Stams, A.J.
(Per)chlorate reduction by an acetogenic bacterium, Sporomusa sp., isolated from an underground gas storage
Appl. Microbiol. Biotechnol.
88
595-603
2010
Sporomusa sp., Sporomusa sp. An4
brenda
Lindqvist, M.H.; Johansson, N.; Nilsson, T.; Rova, M.
Expression of chlorite dismutase and chlorate reductase in the presence of oxygen and/or chlorate as the terminal electron acceptor in Ideonella dechloratans
Appl. Environ. Microbiol.
78
4380-4385
2012
Ideonella dechloratans (P60068), Ideonella dechloratans
brenda
Martnez-Espinosa, R.M.; Richardson, D.J.; Bonete, M.J.
Characterisation of chlorate reduction in the haloarchaeon Haloferax mediterranei
Biochim. Biophys. Acta
1850
587-594
2015
Haloferax mediterranei (I3R9M9 and I3R9M8), Haloferax mediterranei ATCC 33500 (I3R9M9 and I3R9M8)
brenda
Liebensteiner, M.G.; Oosterkamp, M.J.; Stams, A.J.M.
Microbial respiration with chlorine oxyanions diversity and physiological and biochemical properties of chlorate and perchlorate-reducing microorganisms
Ann. N. Y. Acad. Sci.
1365
59-72
2016
Archaeoglobus fulgidus, Azospirillum lipoferum, Sulfurospirillum multivorans, Haloarcula marismortui, Haloarcula vallismortis, Haloferax volcanii, Haloferax denitrificans, Haloferax mediterranei, Ideonella dechloratans, Azospira oryzae, Wolinella succinogenes, Shewanella algae, Stutzerimonas chloritidismutans, Dechloromonas sp., Dechloromonas agitata, Dechloromonas aromatica, Alicycliphilus denitrificans, Dechloromonas hortensis, Sporomusa ovata, Dechlorospirillum anomalous, no activity in Dechloromonas aromatica, Arcobacter sp. CAB, Acinetobacter thermotoleranticus, Sedimenticola selenatireducens, Marinobacter vinifirmus, Vibrio dechloraticans, Moorella perchloratireducens, Moorella glycerini, Moorella mulderi, Moorella stamsii, Moorella humiferrea, Haloferax gibbonsii, Azospira sp., Ideonella dechloratans CCUG 30898, Dechloromonas agitata CKB, Wolinella succinogenes HAP-1, Moorella humiferrea 64-FGQ, Moorella glycerini JW/AS-Y6, Sedimenticola selenatireducens CUZ, Dechloromonas sp. JM, Stutzerimonas chloritidismutans AW1, Azospirillum lipoferum VPI Sp 59b, Dechloromonas aromatica RCB, Moorella perchloratireducens An10, Azospira oryzae GR-1, Vibrio dechloraticans Cuznesove B-1168, Marinobacter vinifirmus P4B1, Haloferax denitrificans S1, Stutzerimonas chloritidismutans ASK1, Dechlorospirillum anomalous 7JB116, Azospira sp. Perc1ace, Archaeoglobus fulgidus VC-16, Haloferax volcanii DS2, Dechloromonas hortensis MA-1, Alicycliphilus denitrificans BC, Haloferax mediterranei R-4, Moorella mulderi TMS, Sedimenticola selenatireducens NSS, Sporomusa ovata An4, Haloferax gibbonsii Ma 2.38, Shewanella algae ACDC, Moorella stamsii E3-O
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Hellberg Lindqvist, M.; Nilsson, T.; Sundin, P.; Rova, M.
Chlorate reductase is cotranscribed with cytochrome c and other downstream genes in the gene cluster for chlorate respiration of Ideonella dechloratans
FEMS Microbiol. Lett.
362
fnv019
2015
Ideonella dechloratans (P60068 AND P60069 AND P60000), Ideonella dechloratans
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Barnum, T.P.; Coates, J.D.
An uncharacterized clade in the DMSO reductase family of molybdenum oxidoreductases is a new type of chlorate reductase
Environ. Microbiol. Rep.
12
534-539
2020
Rhodoplanes roseus, Rhodoplanes elegans, Rhodoplanes piscinae, Rhodoplanes elegans DSM 11970, Rhodoplanes roseus DSM 5909, Rhodoplanes piscinae DSM 19946
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