3.5.4.42: N-isopropylammelide isopropylaminohydrolase
This is an abbreviated version!
For detailed information about N-isopropylammelide isopropylaminohydrolase, go to the full flat file.
Reaction
Synonyms
amidase, N-isopropylammelide, AtzC, EC 3.5.99.4, IAIA, N-isopropylammelide amidase, N-isopropylammelide isopropylamidohydrolase
ECTree
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Application
Application on EC 3.5.4.42 - N-isopropylammelide isopropylaminohydrolase
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degradation
molecular biology
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biotic interaction between earthworms and the bacterial community involved in degradation of the herbicide atrazine in a maize-cropped soil, earthworms significantly affect the structure of the soil bacterial communities in the biostructures, they reduce the size of the population of Pseudomonas sp. ADP, thereby contributing to the diminution of the atrazine-degrading genetic potential in soil microsites
degradation
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broad level bacterial community interactions that are involved in atrazine degradation in nature
degradation
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broad level bacterial community interactions that are involved in atrazine degradation in nature
degradation
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broad level bacterial community interactions that are involved in atrazine degradation in nature
degradation
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broad level bacterial community interactions that are involved in atrazine degradation in nature
degradation
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broad level bacterial community interactions that are involved in atrazine degradation in nature
degradation
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broad level bacterial community interactions that are involved in atrazine degradation in nature
degradation
Flavobacterium oryzihabitans
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broad level bacterial community interactions that are involved in atrazine degradation in nature
degradation
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broad level bacterial community interactions that are involved in atrazine degradation in nature, Nocardia sp. plays a crucial role for stable maintenance of the degrader community, dechlorination of atrazine is carried out exclusively by Nocardia sp. which apart from the atzC gene contains the trzN gene
degradation
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enzyme degrades the herbicide atrazine, biodegredation in the microcosm appears to occur predominantely by Nocardioides sp. to yield cyanuric acid, which can be mineralised by other relatively ubiquitous microbes
degradation
novel atrazine catabolic pathway combining trzN with atzB and atzC, the gene products dechlorinate and then dealkylate atrazine
degradation
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novel atrazine catabolic pathway combining trzN with atzB and atzC, the gene products dechlorinate and then dealkylate atrazine
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degradation
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enzyme degrades the herbicide atrazine, biodegredation in the microcosm appears to occur predominantely by Nocardioides sp. to yield cyanuric acid, which can be mineralised by other relatively ubiquitous microbes
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hybridization studies localize atzC together with TrzN and atzB to a 380-kb plasmid in Arthrobacter aurescens strain TC1
molecular biology
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hybridization studies localize atzC together with TrzN and atzB to a 380-kb plasmid in Arthrobacter aurescens strain TC1
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