Intermonomer electron transfer in the bc1 complex dimer is controlled by the energized state and by impaired electron transfer between low and high potential hemes期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

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Intermonomer electron transfer in the bc1 complex dimer is controlled by the energized state and by impaired electron transfer between low and high potential hemes

Authors:	Shinkarev Vladimir P Wraight Colin A

Institution:	Department of Biochemistry, University of Illinois at Urbana Champaign, 156 Davenport Hall, 607 South Mathews Avenue, Urbana, IL 6l801, United States. vshinkar@uiuc.edu

Abstract:	The cytochrome bc(1) complex (commonly called Complex III) is the central enzyme of respiratory and photosynthetic electron transfer chains. X-ray structures have revealed the bc(1) complex to be a dimer, and show that the distance between low potential (b(L)) and high potential (b(H)) hemes, is similar to the distance between low potential hemes in different monomers. This suggests that electron transfer between monomers should occur at the level of the b(L) hemes. Here, we show that although the rate constant for b(L)-->b(L) electron transfer is substantial, it is slow compared to the forward rate from b(L) to b(H), and the intermonomer transfer only occurs after equilibration within the first monomer. The effective rate of intermonomer transfer is about 2-orders of magnitude slower than the direct intermonomer electron transfer.

Keywords:	bc₁ complex ubiquinol:cytochrome c oxidoreductase b_L and b_H low- and high-potential hemes of cytochrome b respectively cyt cytochrome E_h redox potential of the medium E_m midpoint redox potential F the Faraday constant ISP Rieske iron-sulfur protein k^app apparent rate constant of electron transfer between monomers K_bHQ the equilibrium constant of electron transfer from cyt b_H to Q_i _method=retrieve& _eid=1-s2 0-S0014579307003031& _mathId=si6 gif& _pii=S0014579307003031& _issn=00145793& _acct=C000054348& _version=1& _userid=3837164& md5=647316ef69446ea11aed87a14c181028')" style="cursor:pointer K_{b_Lb_H}" target="_blank">" alt="Click to view the MathML source" title="Click to view the MathML source">K_{b_Lb_H} the equilibrium constant of electron transfer between b_L and b_H hemes _method=retrieve& _eid=1-s2 0-S0014579307003031& _mathId=si7 gif& _pii=S0014579307003031& _issn=00145793& _acct=C000054348& _version=1& _userid=3837164& md5=f26f005ceb381fae51dafa97af168f15')" style="cursor:pointer " alt="Click to view the MathML source" title="Click to view the MathML source">els-cdn com/content/image/1-s2 0-S0014579307003031-si7 " target="_blank">gif"> the equilibrium constant of electron transfer between b_L and b_H hemes at zero transmembrane potential _method=retrieve& _eid=1-s2 0-S0014579307003031& _mathId=si8 gif& _pii=S0014579307003031& _issn=00145793& _acct=C000054348& _version=1& _userid=3837164& md5=860a6a0cdd4d7d332a0fca1d4bbc06a9')" style="cursor:pointer k_{b_Lb_H}" target="_blank">" alt="Click to view the MathML source" title="Click to view the MathML source">k_{b_Lb_H} the intrinsic rate constant of electron transfer between b_L and b_H hemes in the same monomer _method=retrieve& _eid=1-s2 0-S0014579307003031& _mathId=si9 gif& _pii=S0014579307003031& _issn=00145793& _acct=C000054348& _version=1& _userid=3837164& md5=488a6d734d512119233d0ce6b519be27')" style="cursor:pointer k_{b_Lb_L}" target="_blank">" alt="Click to view the MathML source" title="Click to view the MathML source">k_{b_Lb_L} the intrinsic rate constant of electron transfer between b_L hemes MET monomer-monomer electron transfer Q coenzyme Q (ubiquinone) QH₂ dihydroquinone (ubiquinol) Q_i site (Q_o site) quinone reducing (quinol oxidizing) site of bc₁ complex r edge-to-edge distance R the gas constant Rb Rhodobacter _method=retrieve& _eid=1-s2 0-S0014579307003031& _mathId=si10 gif& _pii=S0014579307003031& _issn=00145793& _acct=C000054348& _version=1& _userid=3837164& md5=ac8c7a389e5b3fcb4844db6f52df0c71')" style="cursor:pointer r_{b_Lb_H}" target="_blank">" alt="Click to view the MathML source" title="Click to view the MathML source">r_{b_Lb_H} edge-to-edge distance between b_L and b_H hemes _method=retrieve& _eid=1-s2 0-S0014579307003031& _mathId=si11 gif& _pii=S0014579307003031& _issn=00145793& _acct=C000054348& _version=1& _userid=3837164& md5=dee8b31df0beca3a237d3cced7f94f8d')" style="cursor:pointer r_{b_Lb_L}" target="_blank">" alt="Click to view the MathML source" title="Click to view the MathML source">r_{b_Lb_L} edge-to-edge distance between b_L and b_H hemes SQ semiquinone T the absolute temperature α the fraction of Δψ applied between b_H and b_L γ the coefficient in Eq (1) equal to either 4 2 or 3 1 λ the reorganization energy in eV Δλ difference of reorganization energies for the reactions b_L ↔ b_H and b_L ↔ b_L Δψ transmembrane electric potential τ^app = 1/k^app apparent time of electron transfer between monomers which takes into account the equilibration within the initial monomer _method=retrieve& _eid=1-s2 0-S0014579307003031& _mathId=si12 gif& _pii=S0014579307003031& _issn=00145793& _acct=C000054348& _version=1& _userid=3837164& md5=c0ab38c7787eac269f15fe25723e8e67')" style="cursor:pointer τ_{b_Lb_L}" target="_blank">" alt="Click to view the MathML source" title="Click to view the MathML source">τ_{b_Lb_L} intrinsic time of electron transfer between b_L hemes ΔG^° the standard reaction free energy in eV
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