EC Number |
Cofactor |
Reference |
---|
4.1.1.90 | more |
menadione does not work as a cofactor for gamma-glutamylcarboxylase |
715064 |
4.1.1.90 | phylloquinone |
- |
698695 |
4.1.1.90 | vitamin K |
- |
438307, 438309, 672089, 695615, 695976, 695978, 696184, 696271, 696951, 697786, 697924, 698697, 698705, 699400, 699860, 700930, 701022, 701112, 701296, 715657, 716060, 716953, 726845 |
4.1.1.90 | vitamin K |
aquamephyton |
696478 |
4.1.1.90 | vitamin K |
carboxylase and soybean seed lipoxygenase share 19.3% identity over a span of 198 amino acids, from residues 468 to 666 of carboxylase. This is interesting because the carboxylase acts as an oxygenase on the cofactor vitamin K-hydroquinone, and the similarity occurs in that region of the carboxylase likely to have enzymatic function |
701214 |
4.1.1.90 | vitamin K |
conversion of glutamic acid to gamma-carboxyglutamic acid is coupled with the oxygenation of KH2 to vitamin K 2,3-epoxide and has been referred to as vitamin K epoxidase activity |
698726 |
4.1.1.90 | vitamin K |
phytonadione |
698719 |
4.1.1.90 | vitamin K |
the carboxylase uses the energy of vitamin K hydroquinone oxygenation to convert glutamyl residues to gamma-carboxylated glutamyl residues in vitamin Kdependent proteins. During carboxylation, the vitamin K hydroquinone cofactor is oxidized to a vitamin K epoxide product |
695616 |
4.1.1.90 | vitamin K |
the enzyme requires vitamin K as a cofactor for its post-translational modification of glutamic acid residues to gamma-carboxyglutamic acid residues |
715064 |
4.1.1.90 | vitamin K1 |
- |
696930, 697705 |