Electron Transfer in Ruthenium-Modified Spinach Plastocyanin Mutants

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• 作者：Sigfridsson ; Kalle ; Ejdebä ; ck ; Mikael ; Sundahl ; Mikael ; Hansson ; Ö ; rjan
• 刊名：Archives of Biochemistry and Biophysics
• 出版年：1998
• 出版时间：March 15, 1998
• 年：1998
• 卷：351
• 期：2
• 页码：197-206
• 全文大小：246 K

文摘

Four site-directed mutants of spinach plastocyanin, Pc(Leu12His), Pc(Leu15His), Pc(Thr79His), and Pc(Lys81His), have been modified by covalent attachment of a photoactive [Ru(bpy)₂(im)]²⁺complex at the surface-exposed histidine residues. The Pc–Ru complexes were characterized with optical absorption, CD, and EPR spectroscopy and their spectra were found to be similar to the unmodified proteins except in the case of the Pc(Leu12His) mutant which lost the Cu ion irreversibly during the Ru modification. Electron transfer (ET) within the other Pc–Ru complexes was studied with time-resolved optical spectroscopy, using an external-quencher approach. The fully reduced [Cu(I), Ru(II)] proteins were photoexcited and subsequently oxidized by an external quencher, [Ru(NH₃)₆]Cl₃, forming the [Cu(I), Ru(III)] proteins. This was followed by an internal ET from Cu(I) to Ru(III). The rates of the internal ET reactions exhibit an exponential dependence on metal-to-metal separation, with a decay factor of 1.1 Å⁻¹. From a temperature-dependence study of the Ru-modified Pc(Lys81His) protein, a reorganization energy for the Cu-to-Ru ET reaction of 1.2 eV was determined. In this analysis it was found necessary to include an appreciable temperature dependence in the driving force of the ET reaction.