A chromosome-centric human proteome project (C-HPP) to characterize the sets of proteins encoded in chromosome 17

Suli Liu, Hogune Im, Amos Bairoch, Massimo Cristofanilli, Rui Chen, Eric W. Deutsch, Stephen Dalton, David Fenyo, Susan Fanayan, Chris Gates, Pascale Gaudet, Marina Hincapie, Samir Hanash, Hoguen Kim, Seul Ki Jeong, Emma Lundberg, George Mias, Rajasree Menon, Zhaomei Mu, Edouard NiceYoung Ki Paik, Mathias Uhlen, Lance Wells, Shiaw Lin Wu, Fangfei Yan, Fan Zhang, Yue Zhang, Michael Snyder, Gilbert S. Omenn, Ronald C. Beavis, William S. Hancock*

*Corresponding author for this work

Research output: Contribution to journalReview articlepeer-review

31 Scopus citations

Abstract

We report progress assembling the parts list for chromosome 17 and illustrate the various processes that we have developed to integrate available data from diverse genomic and proteomic knowledge bases. As primary resources, we have used GPMDB, neXtProt, PeptideAtlas, Human Protein Atlas (HPA), and GeneCards. All sites share the common resource of Ensembl for the genome modeling information. We have defined the chromosome 17 parts list with the following information: 1169 protein-coding genes, the numbers of proteins confidently identified by various experimental approaches as documented in GPMDB, neXtProt, PeptideAtlas, and HPA, examples of typical data sets obtained by RNASeq and proteomic studies of epithelial derived tumor cell lines (disease proteome) and a normal proteome (peripheral mononuclear cells), reported evidence of post-translational modifications, and examples of alternative splice variants (ASVs). We have constructed a list of the 59 missing proteins as well as 201 proteins that have inconclusive mass spectrometric (MS) identifications. In this report we have defined a process to establish a baseline for the incorporation of new evidence on protein identification and characterization as well as related information from transcriptome analyses. This initial list of missing proteins that will guide the selection of appropriate samples for discovery studies as well as antibody reagents. Also we have illustrated the significant diversity of protein variants (including post-translational modifications, PTMs) using regions on chromosome 17 that contain important oncogenes. We emphasize the need for mandated deposition of proteomics data in public databases, the further development of improved PTM, ASV, and single nucleotide variant (SNV) databases, and the construction of Web sites that can integrate and regularly update such information. In addition, we describe the distribution of both clustered and scattered sets of protein families on the chromosome. Since chromosome 17 is rich in cancer-associated genes, we have focused the clustering of cancer-associated genes in such genomic regions and have used the ERBB2 amplicon as an example of the value of a proteogenomic approach in which one integrates transcriptomic with proteomic information and captures evidence of coexpression through coordinated regulation.

Original languageEnglish (US)
Pages (from-to)45-57
Number of pages13
JournalJournal of Proteome Research
Volume12
Issue number1
DOIs
StatePublished - Jan 4 2013

Keywords

  • Chromosome 17 parts list
  • Chromosome-centric Human Proteome Project
  • ERBB2
  • Oncogene

ASJC Scopus subject areas

  • Biochemistry
  • Chemistry(all)

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