ENERGY-COUPLING MECHANISMS IN MITOCHONDRIA: KINETIC, SPECTROSCOPIC, AND THERMODYNAMIC PROPERTIES OF AN ENERGY-TRANSDUCING FORM OF CYTOCHROME b
01 Aug 1970-Proceedings of the National Academy of Sciences of the United States of America (National Academy of Sciences)-Vol. 66, Iss: 4, pp 1175-1182
TL;DR: Kinetic capability of cytochrome b(T) is evidenced by its rapid electron transfer and energization time of less than 200 msec, its thermodynamic capability-by a 280 mV potential span suitable for providing one of the two electron transfer reactions required in ATP formation.
Abstract: The primary event of coupled electron transfer at phosphorylation site II is identified with a modification in one of the two chemically distinct forms of cytochrome b, designated as the energy-transducing cytochrome bT. This modification is expressed through a change in the redox midpoint potential and by an increase in its reaction half time with cytochrome c1. In pigeon heart mitochondria cytochrome bT exhibits an absorption maximum at 564 nm and on this basis, it can be distinguished from Keilin's cytochrome b which exhibits an absorption maximum at 560 nm and serves as an electron carrier on the substrate side of cytochrome bT. Kinetic capability of cytochrome bT is evidenced by its rapid electron transfer and energization time of less than 200 msec, its thermodynamic capability—by a 280 mV potential span suitable for providing one of the two electron transfer reactions required in ATP formation. Two secondary events of coupled electron flow may be identified with a charge separation across the lipid structure of the permeability barrier and a change in water structure; both events result in an increased 1-anilino-8-naphthalene-sulfonic acid (ANS) response to the altered environment.
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TL;DR: The cytochrome bc complexes represent a phylogenetically diverse group of complexes of electron-transferring membrane proteins, most familiarly represented by the mitochondrial and bacterial bc1 complexes and the chloroplast and cyanobacterial b6f complex.
Abstract: ▪ Abstract The cytochrome bc complexes represent a phylogenetically diverse group of complexes of electron-transferring membrane proteins, most familiarly represented by the mitochondrial and bacterial bc 1 complexes and the chloroplast and cyanobacterial b 6 f complex. All these complexes couple electron transfer to proton translocation across a closed lipid bilayer membrane, conserving the free energy released by the oxidation-reduction process in the form of an electrochemical proton gradient across the membrane. Recent exciting developments include the application of site-directed mutagenesis to define the role of conserved residues, and the emergence over the past five years of X-ray structures for several mitochondrial complexes, and for two important domains of the b 6 f complex.
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TL;DR: It is concluded that Parkinson's disease is a systemic disorder of Oxphos, probably of a complex genetic etiology, and premature cell death in the nigrostriatal dopamine pathway could be due to energetic impairment and accentuated free radical generation caused by anOxphos defect.
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347 citations
TL;DR: Analysis of the DNA sequence has revealed that in the strain D273-10B, the cytochrome b gene is composed of three exons, which is somewhat less complex than has been reported for other yeast strains i which exon b1 appears to be further fragmented into three smaller exons.
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