1.97.1.1: chlorate reductase
This is an abbreviated version!
For detailed information about chlorate reductase, go to the full flat file.
Word Map on EC 1.97.1.1
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1.97.1.1
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nitrate
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perchlorate-reducing
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dissimilatory
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chlorate-reducing
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dechloromonas
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dechloratans
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ideonella
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denitrification
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pantotrophus
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hoqno
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menaquinol
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azospira
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bromate
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biotechnology
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stigmatellin
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degradation
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analysis
- 1.97.1.1
- nitrate
-
perchlorate-reducing
-
dissimilatory
-
chlorate-reducing
- dechloromonas
- dechloratans
-
ideonella
-
denitrification
- pantotrophus
-
hoqno
- menaquinol
- azospira
- bromate
- biotechnology
- stigmatellin
- degradation
- analysis
Reaction
Synonyms
chlorate reductase, chlorate reductase C, clr, ClrA, NarGH, PCR, perchlorate reductase, reductase, chlorate
ECTree
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Application
Application on EC 1.97.1.1 - chlorate reductase
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analysis
biotechnology
degradation
Dechlorosoma sp.
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proteomics-based methods are excellent tools for monitoring expression of perchlorate and chlorate-reducing enzyme systems in pure and mixed cultures, including environmental samples
analysis
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proteomics-based methods are excellent tools for monitoring expression of perchlorate and chlorate-reducing enzyme systems in pure and mixed cultures, including environmental samples
analysis
Dechlorosoma sp. KJ / ATCC BAA-592
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proteomics-based methods are excellent tools for monitoring expression of perchlorate and chlorate-reducing enzyme systems in pure and mixed cultures, including environmental samples
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using a mass spectrometry (MS)-based proteomics approach signature peptides derived from chlorite dismutase and perchlorate reductase (subunit A and B) are identified as biomarkers of perchlorate presence and biodegradation. The biomarker peptides are detected at perchlorate concentrations as low as 0.1 mM and at different time-points in both pure cultures and within perchlorate-reducing environmental enrichment consortia. This technique can be a useful for monitoring bioremediation processes of other anthropogenic environmental contaminants with known metabolic pathways
biotechnology
Dechlorosoma sp.
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using a mass spectrometry (MS)-based proteomics approach signature peptides derived from chlorite dismutase and perchlorate reductase (subunit A and B) are identified as biomarkers of perchlorate presence and biodegradation. The biomarker peptides are detected at perchlorate concentrations as low as 0.1 mM and at different time-points in both pure cultures and within perchlorate-reducing environmental enrichment consortia. This technique can be a useful for monitoring bioremediation processes of other anthropogenic environmental contaminants with known metabolic pathways
biotechnology
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using a mass spectrometry (MS)-based proteomics approach signature peptides derived from chlorite dismutase and perchlorate reductase (subunit A and B) are identified as biomarkers of perchlorate presence and biodegradation. The biomarker peptides are detected at perchlorate concentrations as low as 0.1 mM and at different time-points in both pure cultures and within perchlorate-reducing environmental enrichment consortia. This technique can be a useful for monitoring bioremediation processes of other anthropogenic environmental contaminants with known metabolic pathways
biotechnology
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using a mass spectrometry (MS)-based proteomics approach signature peptides derived from chlorite dismutase and perchlorate reductase (subunit A and B) are identified as biomarkers of perchlorate presence and biodegradation. The biomarker peptides are detected at perchlorate concentrations as low as 0.1 mM and at different time-points in both pure cultures and within perchlorate-reducing environmental enrichment consortia. This technique can be a useful for monitoring bioremediation processes of other anthropogenic environmental contaminants with known metabolic pathways
biotechnology
Dechlorospirillum anomalous
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using a mass spectrometry (MS)-based proteomics approach signature peptides derived from chlorite dismutase and perchlorate reductase (subunit A and B) are identified as biomarkers of perchlorate presence and biodegradation. The biomarker peptides are detected at perchlorate concentrations as low as 0.1 mM and at different time-points in both pure cultures and within perchlorate-reducing environmental enrichment consortia. This technique can be a useful for monitoring bioremediation processes of other anthropogenic environmental contaminants with known metabolic pathways
biotechnology
Dechlorospirillum anomalous NCCB100047
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using a mass spectrometry (MS)-based proteomics approach signature peptides derived from chlorite dismutase and perchlorate reductase (subunit A and B) are identified as biomarkers of perchlorate presence and biodegradation. The biomarker peptides are detected at perchlorate concentrations as low as 0.1 mM and at different time-points in both pure cultures and within perchlorate-reducing environmental enrichment consortia. This technique can be a useful for monitoring bioremediation processes of other anthropogenic environmental contaminants with known metabolic pathways
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degradation
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(per)chlorate-reducing microorganisms are useful for bioremediation of soils and sediments
degradation
Stutzerimonas chloritidismutans
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since the saturated hydrocarbon fraction is the most abundant in crude oil, its biodegradation is quantitatively most important in oil bioremediation
degradation
Stutzerimonas chloritidismutans AW-1 / DSM 13592
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since the saturated hydrocarbon fraction is the most abundant in crude oil, its biodegradation is quantitatively most important in oil bioremediation
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degradation
Stutzerimonas chloritidismutans AW-1(T)
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since the saturated hydrocarbon fraction is the most abundant in crude oil, its biodegradation is quantitatively most important in oil bioremediation
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degradation
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(per)chlorate-reducing microorganisms are useful for bioremediation of soils and sediments
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