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Analysis of mitochondrial subunit assembly into respiratory chain complexes using Blue Native polyacrylamide gel electrophoresis
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Version 1 2018-08-14, 17:04Version 1 2018-08-14, 17:04
journal contribution
posted on 2024-06-05, 00:13 authored by Matthew McKenzieMatthew McKenzie, M Lazarou, DR Thorburn, MT RyanThe mitochondrial respiratory chain consists of multi-subunit protein complexes embedded in the inner membrane. Although the majority of subunits are encoded by nuclear genes and are imported into mitochondria, 13 subunits in humans are encoded by mitochondrial DNA. The coordinated assembly of subunits encoded from two genomes is a poorly understood process, with assembly pathway defects being a major determinant in mitochondrial disease. In this study, we monitored the assembly of human respiratory complexes using radiolabeled, mitochondrially encoded subunits in conjunction with Blue Native polyacrylamide gel electrophoresis. The efficiency of assembly was found to differ markedly between complexes, and intermediate complexes containing newly synthesized mitochondrial DNA-encoded subunits could be observed for complexes I, III, and IV. In particular, we detected human cytochrome b as a monomer and as a component of a novel approximately 120 kDa intermediate complex at early chase times before being totally assembled into mature complex III. Furthermore, we show that this approach is highly suited for the rapid detection of respiratory complex assembly defects in fibroblasts from patients with mitochondrial disease and, thus, has potential diagnostic applications. © 2007 Elsevier Inc. All rights reserved.
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Journal
Analytical BiochemistryVolume
364Pagination
128-137Location
Amsterdam, The NetherlandsPublisher DOI
ISSN
0003-2697eISSN
1096-0309Language
engPublication classification
CN.1 Other journal articleIssue
2Publisher
ElsevierUsage metrics
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