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- Q4915358 subject Q9089708.
- Q4915358 abstract "Biotin/lipoyl attachment domain has a conserved lysine residue that binds biotin or lipoic acid. Biotin plays a catalytic role in some carboxyl transfer reactions and is covalently attached, via an amide bond, to a lysine residue in enzymes requiring this coenzyme. Lipoamide acyltransferases have an essential cofactor, lipoic acid, which is covalently bound via an amide linkage to a lysine group. The lipoic acid cofactor is found in a variety of proteins.".
- Q4915358 symbol "Biotin_lipoyl".
- Q4915358 wikiPageWikiLink Q17543787.
- Q4915358 wikiPageWikiLink Q17709139.
- Q4915358 wikiPageWikiLink Q17914013.
- Q4915358 wikiPageWikiLink Q181354.
- Q4915358 wikiPageWikiLink Q243238.
- Q4915358 wikiPageWikiLink Q312229.
- Q4915358 wikiPageWikiLink Q415235.
- Q4915358 wikiPageWikiLink Q898273.
- Q4915358 wikiPageWikiLink Q908303.
- Q4915358 wikiPageWikiLink Q9089708.
- Q4915358 symbol "Biotin_lipoyl".
- Q4915358 type Biomolecule.
- Q4915358 type Protein.
- Q4915358 type Thing.
- Q4915358 type Q206229.
- Q4915358 type Q8054.
- Q4915358 comment "Biotin/lipoyl attachment domain has a conserved lysine residue that binds biotin or lipoic acid. Biotin plays a catalytic role in some carboxyl transfer reactions and is covalently attached, via an amide bond, to a lysine residue in enzymes requiring this coenzyme. Lipoamide acyltransferases have an essential cofactor, lipoic acid, which is covalently bound via an amide linkage to a lysine group. The lipoic acid cofactor is found in a variety of proteins.".
- Q4915358 label "Biotin attachment domain".