Crucial aminoacids in the F O sector of the F 1 F O -ATP synthase address H + across the inner mitochondrial membrane: molecular implications in mitochondrial dysfunctions

The eukaryotic F 1 F O -ATP synthase/hydrolase activity is coupled to H + translocation through the inner mitochondrial membrane. According to a recent model, two asymmetric H + half-channels in the a subunit translate a transmembrane vertical H + flux into the rotor rotation required for ATP synthesis/hydrolysis. Along the H + pathway, conserved aminoacid residues, mainly glutamate, address H + both in the downhill and uphill transmembrane movements to synthesize or hydrolyze ATP, respectively. Point mutations responsible for these aminoacid changes affect H + transfer through the membrane and, as a cascade, result in mitochondrial dysfunctions and related pathologies. The involvement of specific aminoacid residues in driving H + along their transmembrane pathway within a subunit, sustained by the literature and calculated data, leads to depict a model consistent with some mitochondrial disorders.