eLife (Mar 2016)

Trifunctional cross-linker for mapping protein-protein interaction networks and comparing protein conformational states

  • Dan Tan,
  • Qiang Li,
  • Mei-Jun Zhang,
  • Chao Liu,
  • Chengying Ma,
  • Pan Zhang,
  • Yue-He Ding,
  • Sheng-Bo Fan,
  • Li Tao,
  • Bing Yang,
  • Xiangke Li,
  • Shoucai Ma,
  • Junjie Liu,
  • Boya Feng,
  • Xiaohui Liu,
  • Hong-Wei Wang,
  • Si-Min He,
  • Ning Gao,
  • Keqiong Ye,
  • Meng-Qiu Dong,
  • Xiaoguang Lei

DOI
https://doi.org/10.7554/eLife.12509
Journal volume & issue
Vol. 5

Abstract

Read online

To improve chemical cross-linking of proteins coupled with mass spectrometry (CXMS), we developed a lysine-targeted enrichable cross-linker containing a biotin tag for affinity purification, a chemical cleavage site to separate cross-linked peptides away from biotin after enrichment, and a spacer arm that can be labeled with stable isotopes for quantitation. By locating the flexible proteins on the surface of 70S ribosome, we show that this trifunctional cross-linker is effective at attaining structural information not easily attainable by crystallography and electron microscopy. From a crude Rrp46 immunoprecipitate, it helped identify two direct binding partners of Rrp46 and 15 protein-protein interactions (PPIs) among the co-immunoprecipitated exosome subunits. Applying it to E. coli and C. elegans lysates, we identified 3130 and 893 inter-linked lysine pairs, representing 677 and 121 PPIs. Using a quantitative CXMS workflow we demonstrate that it can reveal changes in the reactivity of lysine residues due to protein-nucleic acid interaction.

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