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Results 1 - 10 of 11 > >>
EC Number
Reaction
Commentary
Reference
ATP + creatine = ADP + phosphocreatine
; N-ethylglycocyamine can also act as acceptor
-
ATP + creatine = ADP + phosphocreatine
bireactant catalytic mechanism, transition state stabilization by six arginines clustered in the active site of the enzyme
ATP + creatine = ADP + phosphocreatine
catalytic cysteine, active site residues are Glu226, Glu227, and Asp228, the enzyme follows a random or an ordered bimolecular mechanism dependent on pH, direct phosphoryl transfer, no phosphorylated intermediate, overview
ATP + creatine = ADP + phosphocreatine
catalytic cysteine, active site structure involving His66 and Asp326, overview, the enzyme follows a random or an ordered bimolecular mechanism dependent on pH, direct phosphoryl transfer, no phosphorylated intermediate, overview
ATP + creatine = ADP + phosphocreatine
catalytic cysteine, the enzyme follows a random or an ordered bimolecular mechanism dependent on pH, direct phosphoryl transfer, no phosphorylated intermediate, overview
ATP + creatine = ADP + phosphocreatine
catalytic mechanism and substrate binding involving 2 flexible loops and a specificity pocket formed by Ile69 and Val325 determining substrate specificity, active site structure
ATP + creatine = ADP + phosphocreatine
enzyme is functionally coupled to ouabain-inhibited (Na+,K+)-ATPase
ATP + creatine = ADP + phosphocreatine
kinetic model of reaction
ATP + creatine = ADP + phosphocreatine
mechanism
ATP + creatine = ADP + phosphocreatine
mitochondrial enzymes, mechanism, overview
Results 1 - 10 of 11 > >>