6.1.1.13	ATP + D-2-amino-n-butyric acid + membrane fragments	not L-2-amino-n-butyric acid	Lacticaseibacillus casei	D-2-Amino-n-butryl-membrane fragments + AMP + diphosphate	-	?	141672	
6.1.1.13	ATP + D-Ala + D-alanyl carrier protein	D-alanyl carrier protein is a protein of MW 6200, cloned and expressed in E. coli	Lacticaseibacillus casei	D-Alanyl-D-alanyl carrier protein + AMP + diphosphate	-	?	141670	
6.1.1.13	ATP + D-Ala + D-alanyl carrier protein	two-step reaction with a high-energy D-Ala-AMP intermediate	Bacillus subtilis	D-Alanyl-D-alanyl carrier protein + AMP + diphosphate	-	?	141670	
6.1.1.13	ATP + D-Ala + hydroxylamine	D-Ala can be substituted by D-2-amino-n-butyric acid with 14.6% and D-Ser with 7.5% efficiency	Lactiplantibacillus plantarum	D-Alanine hydroxamate + AMP + diphosphate	-	?	141673	
6.1.1.13	ATP + D-Ala + membrane fragments	ATP can be substituted by ADP, GTP, CTP, UTP, not by AMP, D-Ala cannot be substituted by L-Ala	Lacticaseibacillus casei	D-Alanyl-membrane fragments + AMP + diphosphate	-	?	141671	
6.1.1.13	ATP + D-alanine + D-alanyl lipoteichoic acid	-	Staphylococcus epidermidis	AMP + diphosphate + D-alanyl lipoteichoic acid	-	?	427374	
6.1.1.13	ATP + D-alanine + D-alanyl teichoic acid	-	Bacillus subtilis	AMP + diphosphate + D-alanyl teichoic acid	-	?	427375	
6.1.1.13	ATP + D-alanine + D-alanyl teichoic acid	-	Bacillus subtilis 168	AMP + diphosphate + D-alanyl teichoic acid	-	?	427375	
6.1.1.13	ATP + D-alanine + poly(ribitol phosphate)	-	Lacticaseibacillus casei	AMP + diphosphate + O-D-alanyl-poly(ribitol phosphate)	-	r	368865	
6.1.1.13	ATP + D-alanine + poly(ribitol phosphate)	-	Lacticaseibacillus rhamnosus	AMP + diphosphate + O-D-alanyl-poly(ribitol phosphate)	-	?	368865	
6.1.1.13	ATP + D-alanine + poly(ribitol phosphate)	biosynthesis of teichoic acids	Lacticaseibacillus rhamnosus	AMP + diphosphate + O-D-alanyl-poly(ribitol phosphate)	-	?	368865	
6.1.1.13	ATP + D-alanine + poly(ribitol phosphate)	the enzyme is required for D-alanylation of membrane-associated lipoteichoic acid in Gram-positive organisms. Dcp has a unique binding site which interacts with the poly(Gro-P) moiety of lipoteichoic acid. The reversibility of this process provides a mechanism for the transacylation of the D-alanyl ester residues between lipoteichoic acids and wall teichoic acids	Lacticaseibacillus casei	AMP + diphosphate + O-D-alanyl-poly(ribitol phosphate)	-	r	368865	
6.1.1.13	ATP + D-alanine + poly(ribitol phosphate)	-	Lacticaseibacillus rhamnosus 7469	AMP + diphosphate + O-D-alanyl-poly(ribitol phosphate)	-	?	368865	
6.1.1.13	ATP + D-alanine + poly(ribitol phosphate)	biosynthesis of teichoic acids	Lacticaseibacillus rhamnosus 7469	AMP + diphosphate + O-D-alanyl-poly(ribitol phosphate)	-	?	368865	
6.1.1.13	ATP + D-alanine + poly(ribitol phosphate)	-	Lacticaseibacillus casei 102S	AMP + diphosphate + O-D-alanyl-poly(ribitol phosphate)	-	r	368865	
6.1.1.13	ATP + D-alanine + poly(ribitol phosphate)	the enzyme is required for D-alanylation of membrane-associated lipoteichoic acid in Gram-positive organisms. Dcp has a unique binding site which interacts with the poly(Gro-P) moiety of lipoteichoic acid. The reversibility of this process provides a mechanism for the transacylation of the D-alanyl ester residues between lipoteichoic acids and wall teichoic acids	Lacticaseibacillus casei 102S	AMP + diphosphate + O-D-alanyl-poly(ribitol phosphate)	-	r	368865	
6.1.1.13	ATP + diphosphate	-	Lactiplantibacillus plantarum	ATP + diphosphate	-	?	141674	
6.1.1.13	D-Alanine + ATP + ?	biosynthesis of teichoic acid	Lacticaseibacillus casei	?	-	?	369904