1.5.3.23: glyphosate oxidoreductase
This is an abbreviated version!
For detailed information about glyphosate oxidoreductase, go to the full flat file.
Word Map on EC 1.5.3.23
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1.5.3.23
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ampa
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herbicide
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glyphosate-degrading
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bioremediation
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aminomethylphosphonic
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sarcosine
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glyphosate-resistant
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ochrobactrum
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degradation
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maize
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rrna
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soybean
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glyphosate-treated
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phosphorus
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napus
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shikimate
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analysis
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n-acetyltransferase
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glyoxylate
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5-enolpyruvylshikimate-3-phosphate
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phytotoxic
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rapeseed
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canola
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rape
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epsps
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brassica
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n-phosphonomethylglycine
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anthropi
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achromobacter
- 1.5.3.23
- ampa
-
herbicide
-
glyphosate-degrading
-
bioremediation
-
aminomethylphosphonic
- sarcosine
-
glyphosate-resistant
- ochrobactrum
- degradation
- maize
- rrna
- soybean
-
glyphosate-treated
- phosphorus
- napus
- shikimate
- analysis
- n-acetyltransferase
- glyoxylate
- 5-enolpyruvylshikimate-3-phosphate
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phytotoxic
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rapeseed
- canola
- rape
- epsps
- brassica
- n-phosphonomethylglycine
- anthropi
- achromobacter
Reaction
2 glyphosate + = 2 aminomethylphosphonate + 2 glyoxylate
Synonyms
GOX
ECTree
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Application
Application on EC 1.5.3.23 - glyphosate oxidoreductase
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analysis
degradation
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spectrophotometric method for determining glyphospate oxidoreductase activity in cell-free extract based on the rate of glyoxylate hydrazone formation
analysis
use of quantitative competitive PCR to estimate the copy number of the synthetic gox gene as a transgene, and measure of its transcript levels in transformed canola lines. There is no direct relationship between copy number and gene expression level for the gene
analysis
Brucella anthropi GPK 3
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spectrophotometric method for determining glyphospate oxidoreductase activity in cell-free extract based on the rate of glyoxylate hydrazone formation
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in Ochrobactrum sp., glyphosate (3 mM) degradation is induced by phosphate starvation, and is completed within 60 h. The bacterium grows even in the presence of glyphosate concentrations as high as 200 mM
degradation
Pseudomonas spp.
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inoculating glyphosate-treated soil samples with Pseudomonas sp. strains GA07, GA09 and GC04 results in a 2-3 times higher rate of glyphosate removal than that in non-inoculated soil. The degradation kinetics follows a first-order model. Glyphosate breakdown in strain GA09 is catalyzed both by C-P lyase and glyphosate oxidoreductase. Strains GA07 and GC04 degrade glyphosate only via glyphosate oxidoreductase, but no further metabolite is detected
degradation
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upon cultivation at initial pH 6.0, incubation temperature 35°C, glyphosate concentration 6 g/l, inoculation amount 5% and incubation time 5 days, strain CB4 utilizes 94.47% of glyphosate. The strain degrades glyphosate concentrations up to 12 g/l
degradation
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upon cultivation at initial pH 6.0, incubation temperature 35°C, glyphosate concentration 6 g/l, inoculation amount 5% and incubation time 5 days, strain CB4 utilizes 94.47% of glyphosate. The strain degrades glyphosate concentrations up to 12 g/l
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