The properties of the nucleotide binding sites in the isolated beta and alpha subunits of H(+)-ATPase from Bacillus PS3 (TF1) have been examined by studying the EPR properties of bound VO(2+), which is a paramagnetic probe for the native Mg2+ cation cofactor. The amino acid ligands of the VO2+ complexes with the isolated beta subunit, with the isolated alpha subunit, with different mixtures of both alpha and beta subunits, and with the catalytic alpha 3 beta 3 gamma subcomplex have been characterized by a combination of EPR, ESEEM, and HYSCORE spectroscopies. The EPR spectrum of the isolated beta subunit with bound VO2+ (1 VO2+/beta) is characterized by (51)V hyperfine coupling parameters (A( parallel) = 168 x 10(-)(4) cm(-)(1) and A( perpendicular) = 60 x 10(-)(4) cm(-)(1)) that suggest that VO2+ binds to the isolated beta subunit with at least one nitrogen ligand. Results obtained for the analogous VO2+ complex with the isolated alpha subunit are virtually identical. ESEEM and HYSCORE spectra are also reported and are similar for both complexes, indicating a very similar coordination scheme for VO2+ bound to isolated alpha and beta subunits. In the isolated beta (or alpha) subunit, the bound VO2+ cation is coordinated by one nitrogen ligand with hyperfine coupling parameters A( parallel)((14)N) = 4.44 MHz, and A( perpendicular)((14)N) = 4.3 MHz and quadrupole coupling parameters e(2)()qQ approximately 3.18 MHz and eta approximately 1. These are typical for amine-type nitrogen ligands equatorial to the VO2+ cation; amino acid residues in the TF1 beta and alpha subunits with nitrogen donors that may bind VO2+ are reviewed. VO2+ bound to a mixture of alpha and beta subunits in the presence of 200 mM Na2SO4 to promote the formation of the alpha 3 beta 3 hexamer has a second nitrogen ligand with magnetic properties similar to those of a histidine imidazole. This situation is analogous to that in the alpha 3 beta 3 gamma subcomplex and in the whole TF1 enzyme [Buy, C., Matsui, T., Andrianambinintsoa, S., Sigalat, C., Girault, G., and Zimmermann, J.-L. (1996) Biochemistry 35, 14281-14293]. These data are interpreted in terms of only partially structured nucleotide binding sites in the isolated beta and alpha subunits as compared to fully structured nucleotide binding sites in the alpha 3 beta 3 heterohexamer, the alpha 3 beta 3 gamma subcomplex, and the whole TF1 ATPase.