Abstract
Site-directed mutations were made to the phosphate-binding loop threonine in the beta-subunit of the chloroplast F1-ATPase in Chlamydomonas (betaT168). Rates of photophosphorylation and ATPase-driven proton translocation measured in coupled thylakoids purified from betaT168D, betaT168C, and betaT168L mutants had <10% of the wild type rates, as did rates of Mg2+-ATPase activity of purified chloroplast F1-ATPase (CF1). The EPR spectra of VO2+-ATP bound to Site 3 of CF1 from wild type and mutants showed that EPR species C, formed exclusively upon activation, was altered in CF1 from each mutant in both signal intensity and in 51V hyperfine parameters that depend on the equatorial VO2+ ligands. These data provide the first direct evidence that Site 3 is a catalytic site. No significant differences between wild type and mutants were observed in EPR species B, the predominant form of the latent enzyme. Thus, the phosphate-binding loop threonine is an equatorial metal ligand in the activated conformation but not in the latent conformation of Site 3. The metal-nucleotide conformation that gives rise to species B is consistent with the Mg2+-ADP complex that becomes entrapped in a catalytic site in a manner that regulates enzymatic activity. The lack of catalytic function of CF1 with entrapped Mg2+-ADP may be explained in part by the absence of the phosphate-binding loop threonine as a metal ligand.
Highlights
Site-directed mutations were made to the phosphatebinding loop threonine in the -subunit of the chloroplast F1-ATPase in Chlamydomonas (T168)
Rates of photophosphorylation and ATPase-driven proton translocation measured in coupled thylakoids purified from T168D, T168C, and T168L mutants had
The results indicate that T168 contributes a hydroxyl group as an equatorial metal ligand when VO2ϩ binds to Site 3 in the manner that gives rise to EPR species C, the activated enzyme conformation
Summary
F1, the extrinsic membrane portion of the F1F0-ATP synthase; CF1, chloroplast F1; EF1, Escherichia coli F1; P-loop, phosphate-binding loop; kb, kilobase. We have characterized site-directed mutants of the Ploop threonine in the -subunit of CF1 from Chlamydomonas reinhardtii (T168) The effects of these mutations on the EPR spectra of VO2ϩ bound to Site 3 of CF1 were examined to determine whether changes could be observed in a manner that would indicate that this residue is a metal ligand. The results indicate that T168 contributes a hydroxyl group as an equatorial metal ligand when VO2ϩ binds to Site 3 in the manner that gives rise to EPR species C, the activated enzyme conformation. This is the first direct evidence to indicate that Site 3 is a catalytic site. This group is not an equatorial ligand to VO2ϩ under conditions that give rise to EPR species B, the predominant form in the latent state
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