1.20.9.1: arsenate reductase (azurin)
This is an abbreviated version!
For detailed information about arsenate reductase (azurin), go to the full flat file.
Word Map on EC 1.20.9.1
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1.20.9.1
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arsenic
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asiii
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arsenite-oxidizing
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biogeochemical
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chemolithoautotrophic
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rieske
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metalloid
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arsenic-contaminated
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antimonite
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chemoautotrophic
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geothermal
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arsenicoxydans
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thiomonas
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arsenic-rich
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asiii-oxidizing
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geochemical
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environmental protection
- 1.20.9.1
- arsenic
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asiii
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arsenite-oxidizing
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biogeochemical
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chemolithoautotrophic
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rieske
-
metalloid
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arsenic-contaminated
- antimonite
-
chemoautotrophic
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geothermal
- arsenicoxydans
- thiomonas
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arsenic-rich
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asiii-oxidizing
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geochemical
- environmental protection
Reaction
+ + 2 oxidized azurin = + 2 reduced azurin + 2 H+
Synonyms
aoxA, aoxB, arsenite oxidase, EC 1.20.98.1
ECTree
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environmental protection
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important implications for biomediation of arsenite contaminated soils and groud water
additional information
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bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
additional information
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
additional information
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
additional information
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
additional information
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
additional information
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
additional information
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
additional information
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
additional information
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
additional information
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
additional information
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
additional information
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
additional information
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
additional information
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biosensor for arsenite using molybdenum-containing arsenite oxidase, which is applicable for repeated analysis of spiked arsenite in tap water, river water, and commercial mineral water
additional information
-
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
-
additional information
-
biosensor for arsenite using molybdenum-containing arsenite oxidase, which is applicable for repeated analysis of spiked arsenite in tap water, river water, and commercial mineral water
-
additional information
-
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
-
additional information
-
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
-
additional information
-
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
-
additional information
-
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
-
additional information
-
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
-
additional information
-
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
-
additional information
-
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
-
additional information
-
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
-
additional information
Thermus thermophilus HB8 / ATCC 27634 / DSM 579
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bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
-
additional information
-
bacterial arsenite oxidase genes are not only phylogenetically diverse, but also ecologically widespread. Genes for aerobic arsenite oxidation are widely distributed in the bacterial domain, are widespread in soil-water systems containing arsenite, and play a critical role in the biogeochemical cycling of arsenite
-