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Title: Separation and analysis of Bacillus subtilis respiratory chain complexes. Author: Picón Garrido GI, García García AP, González de la Vara L, Chagolla-López A, Gómez-Lojero C, Gutiérrez-Cirlos EB. Journal: J Bioenerg Biomembr; 2022 Dec; 54(5-6):251-271. PubMed ID: 36422766. Abstract: Bacillus subtilis is a Gram-positive bacterium with a respiratory chain embedded in the cytoplasmic membrane. The respiratory chain is bifurcated after menaquinol into a cytochrome b6c + caa3 branch and a branch with up to three quinol oxidases. The complexes that generate the proton gradient are b6c, associated with caa3 and aa3 oxidase. The b6c and caa3 complexes form a supercomplex, and it is proposed to form respiratory strings in the membrane. There is still information missing about the quinol branch and if the primary oxidase quinol aa3 is associated with the electron donor complexes. It is unclear whether succinate quinone reductase (SQR) can form associations with the quinol branch or the cytochrome branch. In this paper, we show the separation of an almost pure b6c complex associated with cytochromes c550 and c551. We obtained a b6c + caa3 supercomplex of 600 kDa and SQR, aa3, and NADH dehydrogenase by dodecyl maltoside solubilization and separation of the respiratory chain components by ionic exchange chromatography. We found that aa3 does not associate with other complexes. SQR was associated with the b6c complex in a mutant lacking aa3. This association could facilitate electron transfer from SQR to menaquinone-7. The lack of associations between the abundant quinol oxidase aa3 and other complexes is a feature we cannot explain yet.[Abstract] [Full Text] [Related] [New Search]