Litcius/Paper detail

Scalable multiplex co-fractionation/mass spectrometry platform for accelerated protein interactome discovery

Pierre C. Havugimana, Raghuveera Kumar Goel, Sadhna Phanse, Ahmed Youssef, Dzmitry Padhorny, Sergei Kotelnikov, Dima Kozakov, Andrew Emili

2022Nature Communications79 citationsDOIOpen Access PDF

Abstract

Co-fractionation/mass spectrometry (CF/MS) enables the mapping of endogenous macromolecular networks on a proteome scale, but current methods are experimentally laborious, resource intensive and afford lesser quantitative accuracy. Here, we present a technically efficient, cost-effective and reproducible multiplex CF/MS (mCF/MS) platform for measuring and comparing, simultaneously, multi-protein assemblies across different experimental samples at a rate that is up to an order of magnitude faster than previous approaches. We apply mCF/MS to map the protein interaction landscape of non-transformed mammary epithelia versus breast cancer cells in parallel, revealing large-scale differences in protein-protein interactions and the relative abundance of associated macromolecules connected with cancer-related pathways and altered cellular processes. The integration of multiplexing capability within an optimized workflow renders mCF/MS as a powerful tool for systematically exploring physical interaction networks in a comparative manner.

Topics & Concepts

InteractomeMultiplexComputational biologyMass spectrometryScalabilityFractionationComputer scienceChemistryBioinformaticsBiologyChromatographyDatabaseBiochemistryGeneAdvanced Proteomics Techniques and ApplicationsRNA and protein synthesis mechanismsProtein Structure and Dynamics
Scalable multiplex co-fractionation/mass spectrometry platform for accelerated protein interactome discovery | Litcius