Conformational Changes in Chloroplast F1-ATPase Caused by Thiol-Dependent Activation and MgADP-Dependent Inactivation

—The state of tyrosine residues of the chloroplast coupling factor CF 1 was studied by spectrophotometric titration. It was shown that some tyrosine residues of CF 1 underwent deprotonation at pH values of the medium much lower than the p K of free tyrosine. The number of such residues depends on bo...

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Veröffentlicht in:Biophysics (Oxford) 2018-09, Vol.63 (5), p.713-717
Hauptverfasser: Malyan, A. N., Opanasenko, V. K.
Format: Artikel
Sprache:eng
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Zusammenfassung:—The state of tyrosine residues of the chloroplast coupling factor CF 1 was studied by spectrophotometric titration. It was shown that some tyrosine residues of CF 1 underwent deprotonation at pH values of the medium much lower than the p K of free tyrosine. The number of such residues depends on both the conformational state of the enzyme and the composition of the medium. They are abundant in CF 1 with the γ-subunit that contains a disulfide bridge. Bridge reduction leads to a decrease of their number and, accordingly, an increase in the number of residues that undergo deprotonation at a pH higher than the tyrosine p K . The minimum number of residues that dissociated within the 6.0–9.0 pH range was observed in the reaction mixture containing Mg 2+ or MgADP. It is assumed that the changes in p K values for tyrosine residues result from the presence or absence of positively charged amino-acid residues in their neighborhood, which is indicative of alterations in the tertiary structure of the enzyme. Deprotonation of a considerable part of tyrosine residues in the presence of Mg 2+ or MgADP occurs within an abnormally narrow pH range and demonstrates the cooperative transition to the new conformational state of the enzyme. Comparison of the data obtained with our previous kinetic data indicates that the titration characteristics and the respective structures of CF 1 -ATPase observed in the presence of Mg 2+ or MgADP result from reversible inactivation caused by MgADP binding to one catalytic site and one noncatalytic site.
ISSN:0006-3509
1555-6654
DOI:10.1134/S0006350918050172