1. Mitochondrial dynamics generate equal distribution but patchwork localization of respiratory Complex I
- Author
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Ilka Wittig, Juergen Bereiter-Hahn, Hermann Schägger, Marina Jendrach, and Karin B. Busch
- Subjects
Electron Transport Complex I ,Respiratory chain ,Cell Biology ,Biology ,Mitochondrion ,Transfection ,Mitochondrial carrier ,Membrane Fusion ,Fluorescence ,Mitochondria ,Cell biology ,Xenopus laevis ,Mitochondrial membrane transport protein ,mitochondrial fusion ,Mitochondrial Membranes ,Translocase of the inner membrane ,biology.protein ,Animals ,Humans ,Mitochondrial fission ,Inner mitochondrial membrane ,Molecular Biology ,Cells, Cultured ,HeLa Cells - Abstract
Highly dynamic mitochondrial morphology is a prerequisite for fusion and fission. Mitochondrial fusion may represent a rescue mechanism for impaired mitochondria by exchanging constituents (proteins, lipids and mitochondrial DNA) and thus maintaining functionality. Here we followed for the first time the dynamics of a protein complex of the respiratory chain during fusion and fission. HeLa cells with differently labelled respiratory Complex I were fused and the dynamics of Complex I were investigated. The mitochondrial proteins spread throughout the whole mitochondrial population within 3 to 6 h after induction of cell fusion. Mitochondria of fused cells displayed a patchy substructure where the differently labelled proteins occupied separate and distinct spaces. This patchy appearance was already--although less pronounced--observed within single mitochondria before fusion, indicating a specific localization of Complex I with restricted diffusion within the inner membrane. These findings substantiate the view of a homogenous mitochondrial population due to constantly rearranging mitochondria, but also indicate the existence of distinct inner mitochondrial sub-compartments for respiratory chain complexes.
- Published
- 2006
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