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Direct Tissue Profiling of Protein Complexes: Toward Native Mass Spectrometry Imaging
Abstract
Native mass spectrometry seeks to probe noncovalent protein interactions in terms of protein quaternary structure, protein–protein and protein–ligand complexes. The ultimate goal is to link the understanding of protein interactions to the protein environment by visualizing the spatial distribution of noncovalent protein interactions within tissue. Previously, we have shown that noncovalently bound protein complexes can be directly probed via liquid extraction surface analysis from dried blood spot samples, where hemoglobin is highly abundant. Here, we show that the intact hemoglobin complex can be sampled directly from thin tissue sections of mouse liver and correlated to a visible vascular feature, paving the way for native mass spectrometry imaging- Text
- Journal contribution
- Biophysics
- Biochemistry
- Genetics
- Molecular Biology
- Biotechnology
- Cancer
- Inorganic Chemistry
- Chemical Sciences not elsewhere classified
- Physical Sciences not elsewhere classified
- mouse liver
- protein interactions
- blood spot samples
- mass spectrometry imaging
- protein complexes
- protein quaternary structure
- probe noncovalent protein interactions
- Direct Tissue Profiling
- tissue sections
- Protein Complexes
- noncovalent protein interactions
- Native Mass Spectrometry ImagingNative mass spectrometry
- extraction surface analysis
- protein environment