2.8.3.16	formyl-CoA + oxalate	-	Escherichia coli	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Starkeya novella	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Azospirillum brasilense	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Streptomyces violaceoruber	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Xanthomonas sp.	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Xanthobacter flavus	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Cupriavidus oxalaticus	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Lactobacillus acidophilus	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Oxalobacter formigenes	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Methylorubrum extorquens	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Methylobacterium organophilum	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Variovorax paradoxus	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Proteobacteria	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Azospirillum lipoferum	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Actinobacteria	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Cupriavidus necator	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Rhodopseudomonas palustris	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Shigella flexneri	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Streptomyces avermitilis	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Streptomyces coelicolor	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Xanthobacter autotrophicus	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Ancylobacter polymorphus	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Ancylobacter oerskovii	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Bradyrhizobium japonicum	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Methylorubrum thiocyanatum	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Pandoraea sp.	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Oxalicibacterium flavum	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Bradyrhizobium sp.	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Arquibacter sp.	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Herminiimonas saxobsidens	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Azorhizobium sp.	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Paraburkholderia xenovorans	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Lactobacillus gasseri	formate + oxalyl-CoA	-	r	360588	
2.8.3.16	formyl-CoA + oxalate	-	Herminiimonas arsenicoxydans	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Janthinobacterium sp. Marseille	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Firmicutes	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Acetobacter aceti	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Pseudomonas abietaniphila	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	activation-decarboxylation reaction in the catabolism of oxalic acid, degradation and detoxification in mammalian intestinal flora	Oxalobacter formigenes	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	involvement of the Asp169 side chain in mediating enzyme-catalyzed CoA transfer via a series of anhydride intermediates	Oxalobacter formigenes	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	the enzyme is required for oxalate degradation together with oxalyl-CoA decarboxylase, EC 4.1.1.8, overview	Lactobacillus acidophilus	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	the enzyme is required for oxalate degradation together with oxalyl-CoA decarboxylase, EC 4.1.1.8, overview, contribution of Lactobacillus in regulating the intestinal oxalate homeostasis in the human host	Lactobacillus acidophilus	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	colonic oxalate-degrading bacteria have been shown to play an important role in human kidney stone formation	Lactobacillus gasseri	formate + oxalyl-CoA	-	r	360588	
2.8.3.16	formyl-CoA + oxalate	FRC and oxalyl-CoA decarboxylase are essential for the survival of Oxalobacter in that they mediate the conversion of oxalate into formate and CO2 in a coupled catalytic cycle	Oxalobacter formigenes	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate catabolism has a central role in Oxalobacter formigenes, where oxalate serves as vital source of energy as well as carbon	Oxalobacter formigenes	formate + oxalyl-CoA	-	r	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Escherichia coli	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Starkeya novella	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Azospirillum brasilense	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Streptomyces violaceoruber	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Xanthomonas sp.	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Xanthobacter flavus	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Cupriavidus oxalaticus	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Methylorubrum extorquens	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Methylobacterium organophilum	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Variovorax paradoxus	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Azospirillum lipoferum	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Oxalobacter formigenes	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Cupriavidus necator	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Rhodopseudomonas palustris	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Shigella flexneri	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Streptomyces avermitilis	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Streptomyces coelicolor	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Xanthobacter autotrophicus	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Ancylobacter polymorphus	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Ancylobacter oerskovii	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Bradyrhizobium japonicum	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Methylorubrum thiocyanatum	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Pandoraea sp.	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Oxalicibacterium flavum	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Bradyrhizobium sp.	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Arquibacter sp.	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Herminiimonas saxobsidens	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Azorhizobium sp.	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Paraburkholderia xenovorans	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Herminiimonas arsenicoxydans	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Janthinobacterium sp. Marseille	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalyl-CoA decarboxylase and formyl-CoA transferase are the key enzymes in the oxalate catabolism of Oxalobacter formigenes which dwell in the intestine of vertebrates and have an important symbiotic relationship with their hosts	Oxalobacter formigenes	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	YfdW catalyzes the conversion of oxalate into oxalyl-CoA by using formyl-CoA as a donor, YfdW is a formyl-CoA transferase and YfdW appears to be more stringent than the corresponding enzyme (FRC) in Oxalobacter in employing formyl-CoA and oxalate as substrates	Escherichia coli	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	catalytic mechanism, beta-aspartyl-CoA thioester as intermediate	Oxalobacter formigenes	formate + oxalyl-CoA	-	r	360588	
2.8.3.16	formyl-CoA + oxalate	-	Lactobacillus gasseri Gasser AM63T	formate + oxalyl-CoA	-	r	360588	
2.8.3.16	formyl-CoA + oxalate	colonic oxalate-degrading bacteria have been shown to play an important role in human kidney stone formation	Lactobacillus gasseri Gasser AM63T	formate + oxalyl-CoA	-	r	360588	
2.8.3.16	formyl-CoA + oxalate	-	Lactobacillus acidophilus NCFM	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	the enzyme is required for oxalate degradation together with oxalyl-CoA decarboxylase, EC 4.1.1.8, overview	Lactobacillus acidophilus NCFM	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Escherichia coli MG1655	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	YfdW catalyzes the conversion of oxalate into oxalyl-CoA by using formyl-CoA as a donor, YfdW is a formyl-CoA transferase and YfdW appears to be more stringent than the corresponding enzyme (FRC) in Oxalobacter in employing formyl-CoA and oxalate as substrates	Escherichia coli MG1655	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Oxalobacter formigenes OxB / ATCC 35274	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Cupriavidus necator JMP 134-1	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	oxalate is a highly oxidized compound that may be used as C- and energy sources by oxalotrophic bacteria	Cupriavidus necator JMP 134-1	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Acetobacter aceti 1023	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	formyl-CoA + oxalate	-	Pseudomonas abietaniphila ODB36	formate + oxalyl-CoA	-	?	360588	
2.8.3.16	additional information	no activity with acetate or malonate	Oxalobacter formigenes	?	-	?	89	
2.8.3.16	succinyl-CoA + oxalate	-	Oxalobacter formigenes	succinate + oxalyl-CoA	-	?	360589	
2.8.3.16	succinyl-CoA + oxalate	no activity with the recombinant enzyme expressed in Escherichia coli	Oxalobacter formigenes	succinate + oxalyl-CoA	-	?	360589	
2.8.3.16	succinyl-CoA + oxalate	11% of the reaction rate observed with formyl-CoA	Oxalobacter formigenes	succinate + oxalyl-CoA	-	?	360589