1.8.1.10	CoA disulfide + NADPH	substrate CoASSCoA, enzyme forms during catalysis a stable mixed disulfide intermediate with CoA	Staphylococcus aureus	CoA + NADP+	-	?	260658	
1.8.1.10	CoA disulfide + NADPH	central role in thiol metabolism	Staphylococcus aureus	CoA + NADP+	-	?	260658	
1.8.1.10	CoA disulfide + NADPH	substrate CoASSCoA, enzyme forms during catalysis a stable mixed disulfide intermediate with CoA	Staphylococcus aureus NCTC 8325	CoA + NADP+	-	?	260658	
1.8.1.10	CoA disulfide + NADPH	central role in thiol metabolism	Staphylococcus aureus NCTC 8325	CoA + NADP+	-	?	260658	
1.8.1.10	CoA-glutathione + NADPH	-	Rattus norvegicus	glutathione + CoA + NADP+	-	?	260657	
1.8.1.10	CoA-glutathione + NADPH	-	Rattus norvegicus	glutathione + CoA + NADP+	-	ir	260657	
1.8.1.10	CoA-glutathione + NADPH	-	Saccharomyces cerevisiae	glutathione + CoA + NADP+	-	ir	260657	
1.8.1.10	CoA-glutathione + NADPH	high substrate specificity	Rattus norvegicus	glutathione + CoA + NADP+	-	?	260657	
1.8.1.10	CoA-glutathione + NADPH	substrate coenzyme A-glutathione mixed disulfide, CoAS-SG, is capable of binding one molecule of Fe3+	Escherichia coli	glutathione + CoA + NADP+	-	ir	260657	
1.8.1.10	CoA-glutathione + NADPH	may be important in metabolism of CoASSG	Rattus norvegicus	glutathione + CoA + NADP+	-	?	260657	
1.8.1.10	CoA-glutathione + NADPH	metabolism of CoA-glutathione disulfide, role may be to replenish the CoA pool from CoAS-SG formed either chemically or enzymatically during cell growth, accumulation of CoAS-SG in vivo in spite of high enzyme levels indicates involvement of a control mechanism	Escherichia coli	glutathione + CoA + NADP+	-	?	260657	
1.8.1.10	additional information	no reduction of disulfides such as cystine, cystamine, panthetine, and insulin	Rattus norvegicus	?	-	?	89	
1.8.1.10	additional information	no reduction of CoASSCys, GSSCys or CysSSCys	Saccharomyces cerevisiae	?	-	?	89