A Cross-linking Mass Spectrometry Approach Defines Protein Interactions in Yeast Mitochondria

2020 | journal article; research paper. A publication with affiliation to the University of Göttingen.

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​A Cross-linking Mass Spectrometry Approach Defines Protein Interactions in Yeast Mitochondria​
Linden, A.; Deckers, M. ; Parfentev, I.; Pflanz, R.; Homberg, B.; Neumann, P.   & Ficner, R.  et al.​ (2020) 
Molecular & Cellular Proteomics19(7) pp. 1161​-1178​.​ DOI: https://doi.org/10.1074/mcp.RA120.002028 

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Linden, Andreas; Deckers, Markus ; Parfentev, Iwan; Pflanz, Ralf; Homberg, Bettina; Neumann, Piotr ; Ficner, Ralf ; Rehling, Peter ; Urlaub, Henning 
Protein cross-linking and the analysis of cross-linked peptides by mass spectrometry is currently receiving much attention. Not only is this approach applied to isolated complexes to provide information about spatial arrangements of proteins, but it is also increasingly applied to entire cells and their organelles. As in quantitative proteomics, the application of isotopic labeling further makes it possible to monitor quantitative changes in the protein-protein interactions between different states of a system. Here, we cross-linked mitochondria from Saccharomyces cerevisiae grown on either glycerol- or glucose-containing medium to monitor protein-protein interactions under non-fermentative and fermentative conditions. We investigated qualitatively the protein-protein interactions of the 400 most abundant proteins applying stringent data-filtering criteria, i.e. a minimum of two cross-linked peptide spectrum matches and a cut-off in the spectrum scoring of the used search engine. The cross-linker BS3 proved to be equally suited for connecting proteins in all compartments of mitochondria when compared with its water-insoluble but membrane-permeable derivative DSS. We also applied quantitative cross-linking to mitochondria of both the growth conditions using stable-isotope labeled BS3. Significant differences of cross-linked proteins under glycerol and glucose conditions were detected, however, mainly because of the different copy numbers of these proteins in mitochondria under both the conditions. Results obtained from the glycerol condition indicate that the internal NADH:ubiquinone oxidoreductase Ndi1 is part of an electron transport chain supercomplex. We have also detected several hitherto uncharacterized proteins and identified their interaction partners. Among those, Min8 was found to be associated with cytochrome c oxidase. BN-PAGE analyses of min8Δ mitochondria suggest that Min8 promotes the incorporation of Cox12 into cytochrome c oxidase.
Issue Date
Molecular & Cellular Proteomics 
EXC 2067: Multiscale Bioimaging 
SFB 1190: Transportmaschinen und Kontaktstellen zellulärer Kompartimente 
SFB 1190 | P13: Protein Transport über den mitochondrialen Carrier Transportweg 
SFB 1190 | Z02: Massenspektrometrie-basierte Proteomanalyse 
Working Group
RG Ficner (Molecular Structural Biology) 
RG Rehling (Mitochondrial Protein Biogenesis) 
RG Urlaub (Bioanalytische Massenspektrometrie) 
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