Integration with the human genome of peptide sequences obtained by high-throughput mass spectrometry

Frank Desiere; Eric W. Deutsch; Alexey I. Nesvizhskii; Parag Mallick; Nichole L. King; Jimmy K. Eng; Alan Aderem; Rose Boyle; Erich Brunner; Samuel Donohoe; Nelson Fausto; Ernst Hafen; Lee Hood; Michael G. Katze; Kathleen A. Kennedy; Floyd Kregenow; Hookeun Lee; Biaoyang Lin; Dan Martin; Jeffrey A. Ranish; David J. Rawlings; Lawrence E. Samelson; Yuzuru Shiio; Julian D. Watts; Bernd Wollscheid; Michael E. Wright; Wei Yan; Lihong Yang; Eugene C. Yi; Hui Zhang; Ruedi Aebersold

doi:10.1186/gb-2004-6-1-r9

Integration with the human genome of peptide sequences obtained by high-throughput mass spectrometry

Frank Desiere(Yahoo (United Kingdom)), Eric W. Deutsch(Institute for Systems Biology), Alexey I. Nesvizhskii(Institute for Systems Biology), Parag Mallick(Institute for Systems Biology), Nichole L. King(Institute for Systems Biology), Jimmy K. Eng(Institute for Systems Biology), Alan Aderem(Institute for Systems Biology), Rose Boyle(Institute for Systems Biology), Erich Brunner(University of Zurich), Samuel Donohoe(Institute for Systems Biology), Nelson Fausto(University of Washington), Ernst Hafen(University of Zurich), Lee Hood(Institute for Systems Biology), Michael G. Katze(University of Washington), Kathleen A. Kennedy(Institute for Systems Biology), Floyd Kregenow(Institute for Systems Biology), Hookeun Lee(Institute for Systems Biology), Biaoyang Lin(Institute for Systems Biology), Dan Martin(Institute for Systems Biology), Jeffrey A. Ranish(Institute for Systems Biology), David J. Rawlings(University of Washington), Lawrence E. Samelson(National Cancer Institute), Yuzuru Shiio(Institute for Systems Biology), Julian D. Watts(Institute for Systems Biology), Bernd Wollscheid(Institute for Systems Biology), Michael E. Wright(Institute for Systems Biology), Wei Yan(Institute for Systems Biology), Lihong Yang(IJ Research (United States)), Eugene C. Yi(Institute for Systems Biology), Hui Zhang(Institute for Systems Biology), Ruedi Aebersold(Institute for Systems Biology)

Genome biology

December 10, 2004

10.1186/gb-2004-6-1-r9

Cited by 295Open Access

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Abstract

A crucial aim upon the completion of the human genome is the verification and functional annotation of all predicted genes and their protein products. Here we describe the mapping of peptides derived from accurate interpretations of protein tandem mass spectrometry (MS) data to eukaryotic genomes and the generation of an expandable resource for integration of data from many diverse proteomics experiments. Furthermore, we demonstrate that peptide identifications obtained from high-throughput proteomics can be integrated on a large scale with the human genome. This resource could serve as an expandable repository for MS-derived proteome information.

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