1.2.1.17	glyoxylate + CoA + NADP+	-	Pseudomonas sp.	oxalyl-CoA + NADPH	-	r	258027	
1.2.1.17	glyoxylate + CoA + NADP+	-	Alcaligenes sp.	oxalyl-CoA + NADPH	-	r	258027	
1.2.1.17	glyoxylate + CoA + NADP+	-	Cupriavidus oxalaticus	oxalyl-CoA + NADPH	-	r	258027	
1.2.1.17	glyoxylate + CoA + NADP+	-	Aspergillus ochraceus	oxalyl-CoA + NADPH	-	r	258027	
1.2.1.17	glyoxylate + CoA + NADP+	-	Methylorubrum extorquens	oxalyl-CoA + NADPH	-	r	258027	
1.2.1.17	glyoxylate + CoA + NADP+	-	Mangifera indica	oxalyl-CoA + NADPH	-	r	258027	
1.2.1.17	glyoxylate + CoA + NADP+	on ripening of mango fruit the levels of the enzyme show a considerable increase	Mangifera indica	oxalyl-CoA + NADPH	-	r	258027	
1.2.1.17	glyoxylate + CoA + NADP+	the enzyme is related to the glyoxylate cycle, which plays an important role in sclerotia formation in the fungus	Aspergillus ochraceus	oxalyl-CoA + NADPH	-	r	258027	
1.2.1.17	glyoxylate + CoA + NADP+	-	Methylorubrum extorquens ATCC 14718 / DSM 1338 / JCM 2805 / NCIMB 9133 / AM1	oxalyl-CoA + NADPH	-	r	258027	
1.2.1.17	glyoxylate + CoA + NADP+	-	Pseudomonas fluorescens	oxalyl-CoA + NADPH + H+	-	r	402675	
1.2.1.17	additional information	modified TCA cycle with diminished efficacy in NADH production and decreased CO2-evolving capacity, orchestrates the synthesis of oxalate, NADPH and ATP, ingredients pivotal to the survival in an aluminium environment	Pseudomonas fluorescens	?	-	?	89