Add to ORKGThe kinome comprises functionally diverse enzymes, with the current classification indicating very little about the extent of conserved regulatory mechanisms associated with phosphoryl transfer. The apparent Km of the kinases ranges from less than 0.4 μM to in excess of 1000 μM for ATP. It is not known how this diverse range of enzymes mechanistically achieves the regulation of catalysis via an affinity range for ATP varying by three-orders of magnitude. Results: We have demonstrated a previously undiscovered mechanism in kinase and synthetase enzymes where the overall rate of reaction is regulated via the C8-H of ATP. Using ATP deuterated at the C8 position (C8D-ATP) as a molecular probe it was shown that the C8-H plays a direct role in th...
Phosphoryl transfer reactions figure prominently in energy metabolism, signaling, transport and moti...
The integration of phosphorus chemistry with the mechanism of ATP synthesis/hydrolysis requires dyna...
<div><p>Phosphoryl transfer reactions figure prominently in energy metabolism, signaling, transport ...
The kinome comprises functionally diverse enzymes, with the current classification indicating very l...
The kinome comprises functionally diverse enzymes, with the current classification indicating very l...
Phosphoryl transfer is one of the most common biological reactions, and enzymes catalysing this are ...
Phosphoryl transfer is one of the most common biological reactions, and enzymes catalysing this are ...
AbstractBackground: Phosphoryl transfer, typically involving high energy phosphate donors such as AT...
Phosphagen kinases are widely distributed across many different animals, protozoa, and bacterial spe...
ATP synthase (F1Fo-ATPase) catalyses the production of ATP from ADP and orthophosphate by using the ...
The reaction mechanism of the catalytic phosphoryl transfer of cAMP-dependent protein kinase (cAPK) ...
© 2014 Summerton et al. Phosphoryl transfer reactions figure prominently in energy metabolism, signa...
F-type ATP synthases are transmembrane enzymes, which play a central role in the metabolism of all a...
F-type ATP synthases are transmembrane enzymes, which play a central role in the metabolism of all a...
Oxygen exchange reactions occurring at β-catalytic sites of the FOF1-ATP synthase/F1-ATPase imprint ...
Phosphoryl transfer reactions figure prominently in energy metabolism, signaling, transport and moti...
The integration of phosphorus chemistry with the mechanism of ATP synthesis/hydrolysis requires dyna...
<div><p>Phosphoryl transfer reactions figure prominently in energy metabolism, signaling, transport ...
The kinome comprises functionally diverse enzymes, with the current classification indicating very l...
The kinome comprises functionally diverse enzymes, with the current classification indicating very l...
Phosphoryl transfer is one of the most common biological reactions, and enzymes catalysing this are ...
Phosphoryl transfer is one of the most common biological reactions, and enzymes catalysing this are ...
AbstractBackground: Phosphoryl transfer, typically involving high energy phosphate donors such as AT...
Phosphagen kinases are widely distributed across many different animals, protozoa, and bacterial spe...
ATP synthase (F1Fo-ATPase) catalyses the production of ATP from ADP and orthophosphate by using the ...
The reaction mechanism of the catalytic phosphoryl transfer of cAMP-dependent protein kinase (cAPK) ...
© 2014 Summerton et al. Phosphoryl transfer reactions figure prominently in energy metabolism, signa...
F-type ATP synthases are transmembrane enzymes, which play a central role in the metabolism of all a...
F-type ATP synthases are transmembrane enzymes, which play a central role in the metabolism of all a...
Oxygen exchange reactions occurring at β-catalytic sites of the FOF1-ATP synthase/F1-ATPase imprint ...
Phosphoryl transfer reactions figure prominently in energy metabolism, signaling, transport and moti...
The integration of phosphorus chemistry with the mechanism of ATP synthesis/hydrolysis requires dyna...
<div><p>Phosphoryl transfer reactions figure prominently in energy metabolism, signaling, transport ...