Abstract
Malic enzymes participate in key metabolic processes, the MaeB-like malic enzymes carry a catalytic inactive phosphotransacetylase domain whose function remains elusive. Here we show that acetyl-CoA directly binds and inhibits MaeB-like enzymes with a saturable profile under physiological relevant acetyl-CoA concentrations. A MaeB-like enzyme from the nitrogen-fixing bacterium Azospirillum brasilense, namely AbMaeB1, binds both acetyl-CoA and unesterified CoASH in a way that inhibition of AbMaeB1 by acetyl-CoA is relieved by increasing CoASH concentrations. Hence, AbMaeB1 senses the acetyl-CoA/CoASH ratio. We revisited E. coli MaeB regulation to determine the inhibitory constant for acetyl-CoA. Our data support that the phosphotransacetylase domain of MaeB-like enzymes senses acetyl-CoA to dictate the fate of carbon distribution at the phosphoenol-pyruvate / pyruvate / oxaloacetate metabolic node.
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More From: Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics
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