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Novel pyrophosphate-forming acetate kinase from the protist Entamoeba histolytica.

Eukaryotic cell (2012-08-21)
Matthew L Fowler, Cheryl Ingram-Smith, Kerry S Smith
RESUMEN

Acetate kinase (ACK) catalyzes the reversible synthesis of acetyl phosphate by transfer of the γ-phosphate of ATP to acetate. Here we report the first biochemical and kinetic characterization of a eukaryotic ACK, that from the protist Entamoeba histolytica. Our characterization revealed that this protist ACK is the only known member of the ASKHA structural superfamily, which includes acetate kinase, hexokinase, and other sugar kinases, to utilize inorganic pyrophosphate (PP(i))/inorganic phosphate (P(i)) as the sole phosphoryl donor/acceptor. Detection of ACK activity in E. histolytica cell extracts in the direction of acetate/PP(i) formation but not in the direction of acetyl phosphate/P(i) formation suggests that the physiological direction of the reaction is toward acetate/PP(i) production. Kinetic parameters determined for each direction of the reaction are consistent with this observation. The E. histolytica PP(i)-forming ACK follows a sequential mechanism, supporting a direct in-line phosphoryl transfer mechanism as previously reported for the well-characterized Methanosarcina thermophila ATP-dependent ACK. Characterizations of enzyme variants altered in the putative acetate/acetyl phosphate binding pocket suggested that acetyl phosphate binding is not mediated solely through a hydrophobic interaction but also through the phosphoryl group, as for the M. thermophila ACK. However, there are key differences in the roles of certain active site residues between the two enzymes. The absence of known ACK partner enzymes raises the possibility that ACK is part of a novel pathway in Entamoeba.

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Sigma-Aldrich
Pyrophosphoric acid, technical grade
Sigma-Aldrich
Pyrophosphoric acid, SAJ first grade, ≥90.0%