Cytochrome bc1 complexes of microorganisms.

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Microbiol Mol Biol Rev. 1990 June; 54(2): 101-129

Cytochrome bc1 complexes of microorganisms.

B L Trumpower

Department of Biochemistry, Dartmouth Medical School, Hanover, New Hampshire 03756.

SUMMARY

The cytochrome bc1 complex is the most widely occurring electrontransfer complex capable of energy transduction. Cytochromebc1 complexes are found in the plasma membranes of phylogeneticallydiverse photosynthetic and respiring bacteria, and in the innermitochondrial membrane of all eucaryotic cells. In all of thesespecies the bc1 complex transfers electrons from a low-potentialquinol to a higher-potential c-type cytochrome and links thiselectron transfer to proton translocation. Most bacteria alsopossess alternative pathways of quinol oxidation capable ofcircumventing the bc1 complex, but these pathways generallylack the energy-transducing, protontranslocating activity ofthe bc1 complex. All cytochrome bc1 complexes contain threeelectron transfer proteins which contain four redox prostheticgroups. These are cytochrome b, which contains two b heme groupsthat differ in their optical and thermodynamic properties; cytochromec1, which contains a covalently bound c-type heme; and a 2Fe-2Siron-sulfur protein. The mechanism which links proton translocationto electron transfer through these proteins is the proton motiveQ cycle, and this mechanism appears to be universal to all bc1complexes. Experimentation is currently focused on understandingselected structure-function relationships prerequisite for theseredox proteins to participate in the Q-cycle mechanism. Thecytochrome bc1 complexes of mitochondria differ from those ofbacteria, in that the former contain six to eight supernumerarypolypeptides, in addition to the three redox proteins commonto bacteria and mitochondria. These extra polypeptides are encodedin the nucleus and do not contain redox prosthetic groups. Thefunctions of the supernumerary polypeptides of the mitochondrialbc1 complexes are generally not known and are being activelyexplored by genetically manipulating these proteins in Saccharomycescerevisiae.

Microbiol Mol Biol Rev. 1990 June; 54(2): 101-129

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