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PEPTIDE DEFORMYLASE AS FE2+ CONTAINING FORM (NATIVE) IN COMPLEX WITH INHIBITOR POLYETHYLENE GLYCOL External Resource: Annotation Chains Type Family Name Domain Identifier Family Identifier Provenance Source (Version) A SCOP2B Superfamily Peptide deformylase 8033706 3001229 SCOP2B (2022-06-29) B SCOP2B Superfamily Peptide deformylase 8033706 3001229 SCOP2B (2022-06-29) C SCOP2B Superfamily Peptide deformylase 8033706 3001229 SCOP2B (2022-06-29)
Chains Family Name Domain Identifier Architecture Possible Homology Homology Topology Family Provenance Source (Version) A Pep_deformylase e1bszA1 A: a+b complex topology X: Peptide deformylase (From Topology) H: Peptide deformylase (From Topology) T: Peptide deformylase F: Pep_deformylase ECOD (1.6) B Pep_deformylase e1bszB1 A: a+b complex topology X: Peptide deformylase (From Topology) H: Peptide deformylase (From Topology) T: Peptide deformylase F: Pep_deformylase ECOD (1.6) C Pep_deformylase e1bszC1 A: a+b complex topology X: Peptide deformylase (From Topology) H: Peptide deformylase (From Topology) T: Peptide deformylase F: Pep_deformylase ECOD (1.6)
Chains Polymer Molecular Function Biological Process Cellular Component PROTEIN (PEPTIDE DEFORMYLASE)
Structure Motif Annotation: Mechanism and Catalytic Site Atlas M-CSA Database Homepage Chains Enzyme Name Description Catalytic Residues peptide deformylase
M-CSA #98 In prokaryotes, proteins are synthesised with an N-terminal formylmethionine which is removed by peptide deformylase. Eukaryotes do not use this enzyme, so it represents a potential drug target for the treatment of bacterial infections.
Defined by 7 residues: GLY:C-45 [auth C-1045] GLN:C-50 [auth C-1050] CYS:C-90 [auth C-1090] LEU:C-91 [auth C-1091] HIS:C-132 [auth C-1132] GLU:C-133 [auth C-1133] HIS:C-136 [auth C-1136]
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M-CSA Motif Definition
