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6. Ligases

6.2 Forming carbon-sulfur bonds

6.2.1 Acid-thiol ligases

ID:	6.2.1.54
Description:	D-alanine--[D-alanyl-carrier protein] ligase.

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UniProtKB Enzyme Link:	UniProtKB 6.2.1.54
BRENDA Enzyme Link:	BRENDA 6.2.1.54
KEGG Enzyme Link:	KEGG6.2.1.54
BioCyc Enzyme Link:	BioCyc 6.2.1.54
ExPASy Enzyme Link:	ExPASy6.2.1.54
EC2PDB Enzyme Link:	EC2PDB 6.2.1.54
ExplorEnz Enzyme Link:	ExplorEnz 6.2.1.54
PRIAM enzyme-specific profiles Link:	PRIAM 6.2.1.54
IntEnz Enzyme Link:	IntEnz 6.2.1.54
MEDLINE Enzyme Link:	MEDLINE 6.2.1.54

RHEA:55132	ATP + D-alanine + holo-[D-alanyl-carrier protein] = AMP + D-alanyl-[D-alanyl-carrier protein] + diphosphate
RULE(radius=1)	[:1]-[O;H0;+0:2]-[P;H0;+0:3](-[:4])(=[:5])-[:6].[:7]-[SH;+0:8].[:9]=[C;H0;+0:10](-[:11])-[OH;+0:12]>>[:1]-[OH;+0:2].[:4]-[P;H0;+0:3](=[:5])(-[:6])-[OH;+0:12].[:7]-[S;H0;+0:8]-[C;H0;+0:10](=[:9])-[:11]
Reaction
Core-to-Core	No scaffolds atoms were exchanged as a result of the reaction

Title	Authors	Date	PubMed ID
Incorporation of D-alanine into lipoteichoic acid and wall teichoic acid in Bacillus subtilis. Identification of genes and regulation.	Perego M, Glaser P, Minutello A, Strauch MA, Leopold K, Fischer W	1995 Jun 30	7797557
Crystal structure of Bacillus cereus D-alanyl carrier protein ligase (DltA) in complex with ATP.	Osman KT, Du L, He Y, Luo Y	2009 May 1	19324056
Crystal structure and enantiomer selection by D-alanyl carrier protein ligase DltA from Bacillus cereus.	Du L, He Y, Luo Y	2008 Nov 4	18847223
Crystal structure of DltA. Implications for the reaction mechanism of non-ribosomal peptide synthetase adenylation domains.	Yonus H, Neumann P, Zimmermann S, May JJ, Marahiel MA, Stubbs MT	2008 Nov 21	18784082