Intermonomer electron transfer between the low-potential b hemes of cytochrome bc 1

Pascal Lanciano, Dong Woo Lee, Honghui Yang, Elisabeth Darrouzet, Fevzi Daldal

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47 Citations (Scopus)


Cytochrome (cyt) bc1 is a structural dimer with its monomers consisting of the Fe-S protein, cyt b, and cyt c1 subunits. Its three-dimensional architecture depicts it as a symmetrical homodimer, but the mobility of the head domain of the Fe-S protein indicates that the functional enzyme exists in asymmetrical heterodimeric conformations. Here, we report a new genetic system for studying intra- and intermonomer interactions within the cyt bc1 using the facultative phototrophic bacterium Rhodobacter capsulatus. The system involves two different sets of independently expressed cyt bc1 structural genes carried by two plasmids that are coharbored by a cell without its endogenous enzyme. Our results indicate that coexpressed cyt bc1 subunits were matured, assorted, and assembled in vivo into homo- and heterodimeric enzymes that can bear different mutations in each monomer. Using the system, the occurrence of intermonomer electron transfer between the low-potential b hemes of cyt bc1 was probed by choosing mutations that perturb electron transfer at the hydroquinone oxidation (Q o) and quinone reduction (Qi) sites of the enzyme. The data demonstrate that active heterodimeric variants, formed of monomers carrying mutations that abolish only one of the two (Qo or Qi) active sites of each monomer, are produced, and they support photosynthetic growth of R. capsulatus. Detailed analyses of the physicochemical properties of membranes of these mutants, as well as purified homo- and heterodimeric cyt bc1 preparations, demonstrated that efficient and productive electron transfer occurs between the low-potential bL hemes of the monomers in a heterodimeric enzyme. Overall findings are discussed with respect to intra- and intermonomer interactions that take place during the catalytic turnover of cyt bc1.

Original languageEnglish
Pages (from-to)1651-1663
Number of pages13
Issue number10
Publication statusPublished - 2011 Mar 15

All Science Journal Classification (ASJC) codes

  • Biochemistry


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