4.4.1.28: L-cysteine desulfidase
This is an abbreviated version!
For detailed information about L-cysteine desulfidase, go to the full flat file.
Reaction
Synonyms
aecD, At5g28030, CDL, CFL1_01513, cystalysin, DES1, L-cysteine desulfhydrase, les, MJ1025
ECTree
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General Information
General Information on EC 4.4.1.28 - L-cysteine desulfidase
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metabolism
physiological function
the enzyme is closely associated with the pathogenesis of Prevotella intermedia
metabolism
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the enzyme is responsible for in vivo cysteine catabolism by Treponema denticola. Unregulated enzyme, with the resulting H2S production being essential to the hemolytic activity
metabolism
the enzyme is responsible for the H2S production, and may play an important role in plant growth regulators and chemical stimuli responses
metabolism
the enzyme plays an important role in L-cysteine degradation in Corynebacterium glutamicum cells
metabolism
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the enzyme plays an important role in L-cysteine degradation in Corynebacterium glutamicum cells
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metabolism
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the enzyme is closely associated with the pathogenesis of Prevotella intermedia
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possible involvement in iron-sulfur center biosynthesis
physiological function
hydrogen sulfide generated by L-cysteine desulfhydrase acts upstream of nitric oxide to modulate abscisic acid-dependent stomatal closure
physiological function
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the enzyme could function in vivo as a virulence factor
physiological function
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presence of NH4Cl triggers the induction of L-cysteine desulfhydrase-related H2S production in rice seedling roots. The activity of L-cysteine desulfidase, as well as the enzymes involved in nitrogen metabolism, is significantly increased in the photoperiod sensitivity SE5-overexpression line, whereas it impaired in the SE5-knockdown mutant
physiological function
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possible involvement in iron-sulfur center biosynthesis
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physiological function
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the enzyme could function in vivo as a virulence factor
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physiological function
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the enzyme could function in vivo as a virulence factor
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physiological function
Oryza sativa Wuyunjing 7
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presence of NH4Cl triggers the induction of L-cysteine desulfhydrase-related H2S production in rice seedling roots. The activity of L-cysteine desulfidase, as well as the enzymes involved in nitrogen metabolism, is significantly increased in the photoperiod sensitivity SE5-overexpression line, whereas it impaired in the SE5-knockdown mutant
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