EC Number   |
Natural Substrates |
|---|
   2.8.3.16 | formyl-CoA + oxalate |
- |
| 2.8.3.16 | formyl-CoA + oxalate |
activation-decarboxylation reaction in the catabolism of oxalic acid, degradation and detoxification in mammalian intestinal flora |
| 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 |
| 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 |
| 2.8.3.16 | formyl-CoA + oxalate |
colonic oxalate-degrading bacteria have been shown to play an important role in human kidney stone formation |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
