Kinetic advantage of forming respiratory supercomplexes
Autor: | Alexei A. Stuchebrukhov, Jacob Schäfer, Johan Berg, Peter Brzezinski |
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Rok vydání: | 2020 |
Předmět: |
0303 health sciences
Chemistry Aerobic bacteria 030302 biochemistry & molecular biology Biophysics Cell Biology Biochemistry Models Biological Mitochondria Electron Transport 03 medical and health sciences Kinetics Electron Transport Chain Complex Proteins Functional significance Respiratory Chains Respiratory system Biological sciences 030304 developmental biology |
Zdroj: | Biochimica et biophysica acta. Bioenergetics. 1861(7) |
ISSN: | 1879-2650 |
Popis: | Components of respiratory chains in mitochondria and some aerobic bacteria assemble into larger, multiprotein membrane-bound supercomplexes. Here, we address the functional significance of supercomplexes composed of respiratory-chain complexes III and IV. Complex III catalyzes oxidation of quinol and reduction of water-soluble cytochrome c (cyt c), while complex IV catalyzes oxidation of the reduced cyt c and reduction of dioxygen to water. We focus on two questions: (i) under which conditions does diffusion of cyt c become rate limiting for electron transfer between these two complexes? (ii) is there a kinetic advantage of forming a supercomplex composed of complexes III and IV? To answer these questions, we use a theoretical approach and assume that cyt c diffuses in the water phase while complexes III and IV either diffuse independently in the two dimensions of the membrane or form supercomplexes. The analysis shows that the electron flux between complexes III and IV is determined by the equilibration time of cyt c within the volume of the intermembrane space, rather than the cyt c diffusion time constant. Assuming realistic relative concentrations of membrane-bound components and cyt c and that all components diffuse independently, the data indicate that electron transfer between complexes III and IV can become rate limiting. Hence, there is a kinetic advantage of bringing complexes III and IV together in the membrane to form supercomplexes. |
Databáze: | OpenAIRE |
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