Advanced search×

A Tissue-Specific Atlas of Mouse Protein Phosphorylation and Expression

Edward L Huttlin, Mark P Jedrychowski, Joshua E Elias, Tapasree Goswami, Ramin Rad, Sean A Beausoleil, Judit Villén, Wilhelm Haas, Mathew E Sowa, and Steven P Gygi

Cell 143(7):16 (2010) PMID 21183079 PMCID PMC3035969

Although most tissues in an organism are genetically identical, the biochemistry of each is optimized to fulfill its unique physiological roles, with important consequences for human health and disease. Each tissue's unique physiology requires tightly regulated gene and protein expression coordinated by specialized, phosphorylation-dependent intracellular signaling. To better understand the role of phosphorylation in maintenance of physiological differences among tissues, we performed proteomic and phosphoproteomic characterizations of nine mouse tissues. We identified 12,039 proteins, including 6296 phosphoproteins harboring nearly 36,000 phosphorylation sites. Comparing protein abundances and phosphorylation levels revealed specialized, interconnected phosphorylation networks within each tissue while suggesting that many proteins are regulated by phosphorylation independently of their expression. Our data suggest that the ''typical'' phosphoprotein is widely expressed yet displays variable, often tissue-specific phosphorylation that tunes protein activity to the specific needs of each tissue. We offer this dataset as an online resource for the biological research community.

Copyright © 2010 Elsevier Ltd. All rights reserved.

DOI: 10.1016/j.cell.2010.12.001
Version: za2963e q8za2 q8zb8 q8zc3 q8zd6 q8zec q8zfc q8zg1
View PDF

Similar articles you may find interesting…

  1. Identification of a secondary promoter within the human B-cell receptor component gene, hCD79b.
    Eung Jae Yoo, Nancy E Cooke, and Stephen A Liebhaber

    J Biol Chem (2013) PMID 23649625

    We explored these determinants using a series of hCD79b transgenic mouse models. Remarkably, we observed that the previously described hCD79b promoter along with its associated enhancer elements and first exon could be deleted without appreciable loss of hCD79b transcriptional activity or tissue-spe...
    PDF not found
  2. Scaffolding Proteins DLG1 and CASK Cooperate to Maintain the Nephron Progenitor Population during Kidney Development.
    Sun-Young Ahn, Yeawon Kim, and Jeffrey H Miner

    J Am Soc Nephrol (2013) PMID 23661808

    We generated mice deficient in both DLG1 and CASK either 1) globally, 2) in metanephric mesenchyme, or 3) in nephron progenitors. With each approach, Dlg1;Cask double-knockout (DKO) kidneys were severely hypoplastic and dysplastic and demonstrated rapid, premature depletion of nephron progenitors/st...
    Buy PDF
  3. Protein fishing using magnetic nano-beads containing calmodulin site-specifically immobilized via an azido-group.
    Akiyoshi Ikeda-Boku, Keisuke Kondo, and Kazuya Nishikawa

    J Biol Chem (2013) PMID 23653405

    We developed a novel method for capturing proteins which interact with a target protein. This method utilizes a protein containing a site-specifically incorporated 3-azidotyrosine (N3-Y) and FG beads for immobilization of the protein via the azido group. Using calmodulin (CaM) as the target protein,...
    PDF not found