4.1.1.74: indolepyruvate decarboxylase
This is an abbreviated version!
For detailed information about indolepyruvate decarboxylase, go to the full flat file.
Word Map on EC 4.1.1.74
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4.1.1.74
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iaa
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azospirillum
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cloacae
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enterobacter
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brasilense
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growth-promoting
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decarboxylases
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indole-3-acetaldehyde
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l-tryptophan
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zymomonas
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tryptophol
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mobilis
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2-keto
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benzoylformate
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phenylpyruvate
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diphosphate-dependent
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synthesis
- 4.1.1.74
- iaa
- azospirillum
- cloacae
- enterobacter
- brasilense
-
growth-promoting
- decarboxylases
- indole-3-acetaldehyde
- l-tryptophan
-
zymomonas
- tryptophol
- mobilis
-
2-keto
- benzoylformate
- phenylpyruvate
-
diphosphate-dependent
- synthesis
Reaction
Synonyms
Decarboxylase, indolepyruvate, Decarboxylase, indolepyruvate (Enterobacter agglomerans clone pMB2 gene ipdC reduced), GenBank L80006-derived protein GI 1507711, Indole-3-pyruvate decarboxylase, indole-3-pyruvic acid decarboxylase, Indolepyruvate decarboxylase, Indolepyruvate decarboxylase (Enterobacter herbocola strain 299R clone pMB2 gene ipdC reduced), Indolepyruvic acid decarboxylase, IpdC, Ipyr, IPyr decarboxylase, KivD
ECTree
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General Information
General Information on EC 4.1.1.74 - indolepyruvate decarboxylase
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malfunction
metabolism
physiological function
an ipdC-knockout mutant grown in the presence of tryptophan has decreased indole-3-acetic acid level (46% of wild type strain)
malfunction
Methylorubrum extorquens ATCC 14718 / DSM 1338 / JCM 2805 / NCIMB 9133 / AM1
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an ipdC-knockout mutant grown in the presence of tryptophan has decreased indole-3-acetic acid level (46% of wild type strain)
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IpdC id involved in indole-3-acetic acid biosynthesis
metabolism
Methylorubrum extorquens ATCC 14718 / DSM 1338 / JCM 2805 / NCIMB 9133 / AM1
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IpdC id involved in indole-3-acetic acid biosynthesis
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in a mutant lacking IpdC activity, the level of substrate indole-3-pyruvate is 2.3fold higher and the level of indole-3-lactic acid is 2.1fold higher. Phenylalanine metabolism is impacted by the loss of IpdC in the mutant strain as well as glucosinolate biosynthesis pathway
physiological function
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in a mutant lacking IpdC activity, the level of substrate indole-3-pyruvate is 2.3fold higher and the level of indole-3-lactic acid is 2.1fold higher. Phenylalanine metabolism is impacted by the loss of IpdC in the mutant strain as well as glucosinolate biosynthesis pathway
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