Binding of Yeast Cytochrome c to Forty-Four Charge-Reversal Mutants of Yeast Cytochrome c Peroxidase: Isothermal Titration Calorimetry.

Previously, we constructed, expressed, and purified 46 charge-reversal mutants of yeast cytochrome c peroxidase (CcP) and determined their electronic absorption spectra, their reaction with H2O2, and their steady-state catalytic properties [ Pearl , N. M. et al. (2008) Biochemistry 47 , 2766 - 2775 ]. Forty-four of the mutants involve the conversion of either an aspartate or glutamate residue to a lysine residue, while two are positive-to-negative mutations, R31E and K149D. In this paper, we report on a calorimetric study of the interaction of each charge-reversal mutant (excluding the internal mutants D76K and D235K) with recombinant yeast iso-1 ferricytochrome c(C102T) (yCc) under conditions where only one-to-one yCc/CcP complex formation is observed. Thirteen of the 44 surface-site charge-reversal mutants decrease the binding affinity for yCc by a factor of 2 or more. Eight of the 13 mutations (E32K, D33K, D34K, E35K, E118K, E201K, E290K, E291K) occur within, or on the immediate periphery, of the crystallographically defined yCc binding site [ Pelletier , H. and Kraut , J. (1992) Science 258 , 1748 - 1755 ], three of the mutations (D37K, E98K, E209K) are slightly removed from the crystallographic site, and two of the mutations (D165K, D241K) occur on the "back-side" of CcP. The current study is consistent with a model for yCc binding to CcP in which yCc binds predominantly near the region defined by crystallographic structure of the 1:1 yCc-CcP complex, whether as a stable electron-transfer active complex or as part of a dynamic encounter complex.

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