The crystal structure of a putative aminotransferase from Corynebacterium diphtheriae


Domain Annotation: ECOD Classification ECOD Database Homepage

ChainsFamily NameDomain Identifier ArchitecturePossible HomologyHomologyTopologyFamilyProvenance Source (Version)
DPYNP_Ce3d6kD1 A: alpha arraysX: Ribosomal protein L19 (L19e) C-terminal domainH: Ribosomal protein L19 (L19e) C-terminal domainT: Ribosomal protein L19 (L19e) C-terminal domainF: PYNP_CECOD (v295)
CPYNP_Ce3d6kC1 A: alpha arraysX: Ribosomal protein L19 (L19e) C-terminal domainH: Ribosomal protein L19 (L19e) C-terminal domainT: Ribosomal protein L19 (L19e) C-terminal domainF: PYNP_CECOD (v295)
BPYNP_Ce3d6kB1 A: alpha arraysX: Ribosomal protein L19 (L19e) C-terminal domainH: Ribosomal protein L19 (L19e) C-terminal domainT: Ribosomal protein L19 (L19e) C-terminal domainF: PYNP_CECOD (v295)
APYNP_Ce3d6kA1 A: alpha arraysX: Ribosomal protein L19 (L19e) C-terminal domainH: Ribosomal protein L19 (L19e) C-terminal domainT: Ribosomal protein L19 (L19e) C-terminal domainF: PYNP_CECOD (v295)
AIso_dhe3d6kA2 A: alpha arraysX: Rubredoxin-likeH: Ferritin/Heme oxygenaseT: Heme oxygenase/Ribonucleotide reductaseF: Iso_dhECOD (v295)

Domain Annotation: CATH CATH Database Homepage

Protein Family Annotation Pfam Database Homepage

ChainsAccessionNameDescriptionCommentsSource
A, B, C, D
PF12897Aspartate amino-transferase (Asp_aminotransf)Aspartate amino-transferaseThese proteins catalyse the reversible transfer of an amino group from the amino acid substrate to an acceptor alpha-keto acid. They require pyridoxal 5'-phosphate (PLP) as a cofactor to catalyse this reaction. Trans-amination reactions are of centra ...These proteins catalyse the reversible transfer of an amino group from the amino acid substrate to an acceptor alpha-keto acid. They require pyridoxal 5'-phosphate (PLP) as a cofactor to catalyse this reaction. Trans-amination reactions are of central importance in amino acid metabolism and in links to carbohydrate and fat metabolism. This class of amino-transferases acts as dimers in a head-to-tail configuration. It has been demonstrated that these proteins are aspartate amino-transferases from Bacteria (Jansen, R.S. et al. Nat Commun 11, 1960 (2020)) [1].
Domain