2001
DOI: 10.1016/s0968-0004(01)01897-7
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Large scale domain movement in cytochrome bc1: a new device for electron transfer in proteins

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Cited by 135 publications
(116 citation statements)
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“…Apparently, even when the FeS domain moves unperturbedly (microseconds), the risk of an occurrence of the state with SQ at the Q o site and FeS away from the site does exist, as reflected by the various levels of superoxide production seen in the wild type and the c 1 knockout. 4 Indeed, the variations in the production of superoxide by cytochrome bc 1 observed by us and others could reflect variations in the distribution of all states described in Figure 4 and, thus, result from reactions involving SQ o produced in both semiforward and semireverse reactions. It is, however, worth mentioning that there is one significant difference between the states encountered by the enzyme after formation of SQ o in semiforward and semireverse reactions.…”
Section: Competition Of Short-circuits With Leaks On Oxygen During Thmentioning
confidence: 72%
“…Apparently, even when the FeS domain moves unperturbedly (microseconds), the risk of an occurrence of the state with SQ at the Q o site and FeS away from the site does exist, as reflected by the various levels of superoxide production seen in the wild type and the c 1 knockout. 4 Indeed, the variations in the production of superoxide by cytochrome bc 1 observed by us and others could reflect variations in the distribution of all states described in Figure 4 and, thus, result from reactions involving SQ o produced in both semiforward and semireverse reactions. It is, however, worth mentioning that there is one significant difference between the states encountered by the enzyme after formation of SQ o in semiforward and semireverse reactions.…”
Section: Competition Of Short-circuits With Leaks On Oxygen During Thmentioning
confidence: 72%
“…The ubihydroquinone : cytochrome (cyt) c oxidoreductase (or cyt bc 1 ), is a multi subunit membrane integral enzyme encountered in a broad variety of prokaryotic and eukaryotic organisms (for reviews see Darrouzet et al 2001;Cramer et al 2004;Darrouzet et al 2004)). While the mitochondrial and bacterial enzymes are referred to as cyt bc 1 , the homologous enzyme in plant and algal chloroplasts and cyanobacteria is called plastohydroquinone : plastocyanin oxidoreductase or cyt b 6 f (for a review see Cramer et al 1996;Cramer et al 2004).…”
Section: Introductionmentioning
confidence: 99%
“…This makes up the Q cycle and leads to pumping of protons across the membrane. Crystallographic studies by Zhang et al [28] suggest that a significant conformational change in the protein is associated with this direction of the electrons from the reduced coenzyme Q [27]. In one conformation the Fe 2 S 2 cluster is close enough to the coenzyme Q binding site to pick up an electron.…”
Section: The Coqh 2 -Cyt C Reductase Complexmentioning
confidence: 99%
“…The CoQH 2 -cyt c reductase complex, also referred to as the cytochrome bc 1 complex or complex III, is a homodimeric transmembrane protein complex that takes electrons from the reduced coenzyme Q, produced by the NADH-CoQ reductase and succinate-CoQ reductase complexes, and passes the electrons to cytochrome c, a water soluble 13 kDa electron transfer protein through the so-called Q cycle [26,27]. In doing so it pumps two protons across the membrane and releases another two from the reduced quinone The reduced coenzyme Q, CoQH 2 , is oxidised in two steps with one electron being transferred to a high potential redox chain to give the semiquinone, CoQ , which then gives up a second electron to a separate low-potential redox chain in what appears to be a concerted electron transfer, since no intermediate semiquinone can be detected.…”
Section: The Coqh 2 -Cyt C Reductase Complexmentioning
confidence: 99%