Cell Reports (Jul 2014)

Human-Chromatin-Related Protein Interactions Identify a Demethylase Complex Required for Chromosome Segregation

  • Edyta Marcon,
  • Zuyao Ni,
  • Shuye Pu,
  • Andrei L. Turinsky,
  • Sandra Smiley Trimble,
  • Jonathan B. Olsen,
  • Rosalind Silverman-Gavrila,
  • Lorelei Silverman-Gavrila,
  • Sadhna Phanse,
  • Hongbo Guo,
  • Guoqing Zhong,
  • Xinghua Guo,
  • Peter Young,
  • Swneke Bailey,
  • Denitza Roudeva,
  • Dorothy Zhao,
  • Johannes Hewel,
  • Joyce Li,
  • Susanne Gräslund,
  • Marcin Paduch,
  • Anthony A. Kossiakoff,
  • Mathieu Lupien,
  • Andrew Emili,
  • Shoshana J. Wodak,
  • Jack Greenblatt

DOI
https://doi.org/10.1016/j.celrep.2014.05.050
Journal volume & issue
Vol. 8, no. 1
pp. 297 – 310

Abstract

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Chromatin regulation is driven by multicomponent protein complexes, which form functional modules. Deciphering the components of these modules and their interactions is central to understanding the molecular pathways these proteins are regulating, their functions, and their relation to both normal development and disease. We describe the use of affinity purifications of tagged human proteins coupled with mass spectrometry to generate a protein-protein interaction map encompassing known and predicted chromatin-related proteins. On the basis of 1,394 successful purifications of 293 proteins, we report a high-confidence (85% precision) network involving 11,464 protein-protein interactions among 1,738 different human proteins, grouped into 164 often overlapping protein complexes with a particular focus on the family of JmjC-containing lysine demethylases, their partners, and their roles in chromatin remodeling. We show that RCCD1 is a partner of histone H3K36 demethylase KDM8 and demonstrate that both are important for cell-cycle-regulated transcriptional repression in centromeric regions and accurate mitotic division.