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  • Title: Chemical Mechanism of the Branched-Chain Aminotransferase IlvE from Mycobacterium tuberculosis.
    Author: Amorim Franco TM, Hegde S, Blanchard JS.
    Journal: Biochemistry; 2016 Nov 15; 55(45):6295-6303. PubMed ID: 27780341.
    Abstract:
    The biosynthetic pathway of the branched-chain amino acids is essential for Mycobacterium tuberculosis growth and survival. We report here the kinetic and chemical mechanism of the pyridoxal 5'-phosphate (PLP)-dependent branched-chain aminotransferase, IlvE, from M. tuberculosis (MtIlvE). This enzyme is responsible for the final step of the synthesis of the branched-chain amino acids isoleucine, leucine, and valine. As seen in other aminotransferases, MtIlvE displays a ping-pong kinetic mechanism. pK values were identified from the pH dependence on V as well as V/K, indicating that the phosphate ester of the PLP cofactor, and the α-amino group from l-glutamate and the active site Lys204, play roles in acid-base catalysis and binding, respectively. An intrinsic primary kinetic isotope effect was identified for the α-C-H bond cleavage of l-glutamate. Large solvent kinetic isotope effect values for the ping and pong half-reactions were also identified. The absence of a quininoid intermediate in combination with the Dkobs in our multiple kinetic isotope effects under single-turnover conditions suggests a concerted type of mechanism. The deprotonation of C2 of l-glutamate and the protonation of C4' of the PLP cofactor happen synchronously in the ping half-reaction. A chemical mechanism is proposed on the basis of the results obtained here.
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