glycine reductase activity (Q16631): Difference between revisions

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Created a new Item: glycine reductase activity, Catalysis of the reaction: acetyl phosphate + H(2)O + NH(4)(+) + thioredoxin disulfide = glycine + H(+) + phosphate + thioredoxin.
 
 
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Property / instance of: molecular function / rank
 
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Property / subclass of: oxidoreductase activity, acting on X-H and Y-H to form an X-Y bond, with a disulfide as acceptor / rank
 
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Property / exact match
 
Property / exact match: http://purl.obolibrary.org/obo/GO_0030699 / rank
 
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Property / exact match
 
Property / exact match: https://www.rhea-db.org/rhea/12232 / rank
 
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Property / has part(s): ammonium cation / rank
 
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Property / has part(s): ammonium cation / qualifier
 
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Property / has part(s): water / rank
 
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Property / has part(s): water / qualifier
 
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Property / has part(s): acetyl phosphate(2-) / rank
 
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Property / has part(s): acetyl phosphate(2-) / qualifier
 
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Property / has part(s): hydron / rank
 
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Property / has part(s): hydron / qualifier
 
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Property / has part(s): hydrogen phosphate ion / rank
 
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Property / has part(s): hydrogen phosphate ion / qualifier
 
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Property / has part(s): glycine zwitterion / rank
 
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Property / has part(s): glycine zwitterion / qualifier
 

Latest revision as of 19:55, 25 December 2023

Catalysis of the reaction: acetyl phosphate + H(2)O + NH(4)(+) + thioredoxin disulfide = glycine + H(+) + phosphate + thioredoxin.
  • acetyl-phosphate ammonia:thioredoxin disulfide oxidoreductase (glycine-forming)
  • GO:0030699
Language Label Description Also known as
English
glycine reductase activity
Catalysis of the reaction: acetyl phosphate + H(2)O + NH(4)(+) + thioredoxin disulfide = glycine + H(+) + phosphate + thioredoxin.
  • acetyl-phosphate ammonia:thioredoxin disulfide oxidoreductase (glycine-forming)
  • GO:0030699

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