Identification of the initially NBD-labeled essential tyrosine residue in bovine heart MF1-ATPase

Bovine heart MF₁-ATPase was labeled with limiting amounts of ¹⁴C]NBD-C1(¹⁴C]4-chloro-7-nitro-2,1,3-benzoxadiazole) and the resulting radioactive label on the essential Tyr was stabilized by reduction with zinc in the presence of multidentate ligand EDTA and redox mediator 4,4′-dipyridyl. Subsequent treatment of the labeled protein with cyanogen bromide and separation of the reaction mixture by ion-exchange chromatography yielded essentially only one radioactive polypeptide. Further cleavage of this polypeptide with TPCK-trypsin, lactonization of the terminal homoserine residue and reaction with derivatized polystyrene resin gave a shorter peptide attached to the solid support which contained all the radioactivity. Edman degradation showed that the amino acid sequence of this peptide was Glu·Gly·Asn·Asp·Leu·Tyr·His·Glu·Met, which corresponds to residues 192–200 in the beta subunit of bovine heart MF₁-ATPase as determined by Runswick and Walker (1983). Since this specifically labeled Tyr-197 is separated by only one amino acid residue from the essential Glu-199 which was labeled specifically with dicyclohexylcarbodiimide by Yoshida et al. (1982) it seems most likely that both Tyr-197 and Glu-199 play direct roles in the catalytic hydrolysis and synthesis of ATP.