The phosphocarrier protein HPr of the bacterial phosphotransferase system globally regulates energy metabolism by directly interacting with multiple enzymes in Escherichia coli
Irina A. Rodionova(University of California, San Diego), Zhongge Zhang(University of California, San Diego), Jitender Mehla(Virginia Commonwealth University), Norman Goodacre(Virginia Commonwealth University), Mohan Babu(University of Regina), Andrew Emili(University of Toronto), Peter Uetz(Virginia Commonwealth University), Milton H. Saier(University of California, San Diego)
Cited by 47Open Access
Abstract
for fructose-6-P, which likely influences both gluconeogenesis and glycolysis. Moreover, NagB activation by HPr was important for the utilization of amino sugars, and allosteric inhibition of Adk activity by HPr-P, but not by HPr, allows HPr to regulate the cellular energy charge coordinately with glycolysis. These observations suggest that HPr serves as a directly interacting global regulator of carbon and energy metabolism and probably of other physiological processes in enteric bacteria.
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