Structural and mutational analysis of amino acid residues involved in ATP specificity of Escherichia coli acetate kinase

Acetate kinase (AK) generally utilizes ATP as a phosphoryl donor, but AK from Entamoeba histolytica (PPi-ehiAK) uses pyrophosphate (PPi), not ATP, and is PPi-specific. The determinants of the phosphoryl donor specificity are unknown. Here, we inferred 5 candidate amino acid residues associated with this specificity, based on structural information. Each candidate residue in Escherichia coli ATP-specific AK (ATP-ecoAK), which is unable to use PPi, was substituted with the respective PPi-ehiAK amino acid residue. Each variant ATP-ecoAK had an increased Km for ATP, indicating that the 5 residues are the determinants for the specificity to ATP in ATP-ecoAK. Moreover, Asn-337 of ATP-ecoAK was shown to be particularly significant for the specificity to ATP. The 5 residues are highly conserved in 2625 PPi-ehiAK homologs, implying that almost all organisms have ATP-dependent, rather than PPi-dependent, AK.