4.2.1.130: D-lactate dehydratase
This is an abbreviated version!
For detailed information about D-lactate dehydratase, go to the full flat file.
Word Map on EC 4.2.1.130
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4.2.1.130
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methylglyoxal
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parkinsonism
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glyoxals
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glyoxalases
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methylglyoxalase
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deglycase
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diauxic
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horikoshii
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agriculture
- 4.2.1.130
- methylglyoxal
- parkinsonism
- glyoxals
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glyoxalases
- methylglyoxalase
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deglycase
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diauxic
- horikoshii
- agriculture
Reaction
Synonyms
DJ-1, DJ-1 glyoxalase, DJ-1a, DJ-1b, DJ-1c, DJ-1e, DJ-1f, GLO3, glutathione-independent glyoxalase, glutathione-independent glyoxalase III, glyoxalase III, glyoxylase III, GSH-independent glyoxalase III, hchA, heat shock protein 31, Hsp31, Hsp3101, Hsp3102, hsp3106, Hsp31p glyoxalase III, More, PfpI, protein DJ-1 homolog A, protein DJ-1 homolog B, protein DJ-1 homolog C, protein DJ-1 homolog E, protein DJ-1 homolog F, SAV0551, SpDJ-1, yajL, yhbO
ECTree
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Expression
Expression on EC 4.2.1.130 - D-lactate dehydratase
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glyoxalase III is a stationary-phase enzyme. Its activity reaches a maximum at the entry into the stationary phase and remained high for at least 20 h. Glyoxalase III is regulated by rpoS
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glyoxalase III is not elevated in Escherichia coli cells deleted for glyoxalase I
no induction of glyoxalase III by growth in the presence of methylglyoxal. Paraquat, which can increase the aerobic production of superoxide, suppresses glyoxalase III in JI132
strong induction of this gene is caused by high concentrations of ethanol and other products of glycolysis. HSP31 gene expression is controlled by multiple transcription factors, including Yap1p, Cad1p, Msn2p, Msn4p, Haa1p and Hsf1p. These transcription factors mediate the HSP31 promoter responses to oxidative, osmotic and thermal stresses, to potentially toxic products of glycolysis, such as methylglyoxal and acetic acid, and to the diauxic shift
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glyoxalase III is not elevated in Escherichia coli cells deleted for glyoxalase I
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no induction of glyoxalase III by growth in the presence of methylglyoxal. Paraquat, which can increase the aerobic production of superoxide, suppresses glyoxalase III in JI132
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no induction of glyoxalase III by growth in the presence of methylglyoxal. Paraquat, which can increase the aerobic production of superoxide, suppresses glyoxalase III in JI132
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strong induction of this gene is caused by high concentrations of ethanol and other products of glycolysis. HSP31 gene expression is controlled by multiple transcription factors, including Yap1p, Cad1p, Msn2p, Msn4p, Haa1p and Hsf1p. These transcription factors mediate the HSP31 promoter responses to oxidative, osmotic and thermal stresses, to potentially toxic products of glycolysis, such as methylglyoxal and acetic acid, and to the diauxic shift
strong induction of this gene is caused by high concentrations of ethanol and other products of glycolysis. HSP31 gene expression is controlled by multiple transcription factors, including Yap1p, Cad1p, Msn2p, Msn4p, Haa1p and Hsf1p. These transcription factors mediate the HSP31 promoter responses to oxidative, osmotic and thermal stresses, to potentially toxic products of glycolysis, such as methylglyoxal and acetic acid, and to the diauxic shift
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