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
-
phytotoxic
-
rapeseed
- canola
- rape
- epsps
- brassica
- n-phosphonomethylglycine
- anthropi
- achromobacter
Reaction
2 glyphosate + = 2 aminomethylphosphonate + 2 glyoxylate
Synonyms
GOX
ECTree
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Crystallization
Crystallization on EC 1.5.3.23 - glyphosate oxidoreductase
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glyphosate contacts with the active site of GOX by hydrogen bonds as well as hydrophobic and van der Waals interactions in aqueous solution to maintain its stability. The active site residues Ile15, Ser44, Gly384, Gly387, and Met388 stabilize the complex with glyphosate via six hydrogen bonds. The presence of glyphosate and aminomethylphosphonic acid in the active site significantly changes the conformation of GOX. The GOX complexes are stable during the catalytic reaction