期刊
JOURNAL OF PROTEOME RESEARCH
卷 12, 期 4, 页码 1569-1579出版社
AMER CHEMICAL SOC
DOI: 10.1021/pr3011638
关键词
Cross-linking; PIR; protein interaction reporter; real-time MS strategy; FTICR MS; protein interaction topologies; in vivo protein interactions; XL-MS
资金
- University of Washington Proteomics Resource [UWPR95794]
- National Institutes of Health [2R01GM086688, 1R01GM097112, 5R01RR023334, 7S10RR025107]
Protein interaction topologies are critical determinants of biological function. Large-scale or proteome-wide measurements of protein interaction topologies in cells currently pose an unmet challenge that could dramatically improve understanding of complex biological systems. A primary impediment includes direct protein topology and interaction measurements from living systems since interactions that lack biological significance may be introduced during cell lysis. Furthermore, many biologically relevant protein interactions will likely not survive the lysis/sample preparation and may only be measured with in vivo methods. As a step toward meeting this challenge, a new mass spectrometry method called Real-time Analysis for Cross-linked peptide Technology (ReACT) has been developed that enables assignment of cross-linked peptides on-the-fly. Using ReACT, 708 unique cross-linked (<5% FDR) peptide pairs were identified from cross-linked E. coli cells. These data allow assembly of the first protein interaction network that also contains topological features of every interaction, as it existed in cells during cross-linker application. Of the identified interprotein crosslinked peptide pairs, 40% are derived from known interactions and provide new topological data that can help visualize how these interactions exist in cells. Other identified cross-linked peptide pairs are from proteins known to be involved within the same complex, but yield newly discovered direct physical interactors. ReACT enables the first view of these interactions inside cells, and the results acquired with this method suggest cross-linking can play a major role in future efforts to map the interactome in cells.
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