Please use this identifier to cite or link to this item: https://doi.org/10.1021/pr400794x
Title: Protannotator: A semiautomated pipeline for chromosome-wise functional annotation of the "missing" human proteome
Authors: Islam, M.T.
Garg, G.
Hancock, W.S.
Risk, B.A.
Baker, M.S.
Ranganathan, S. 
Keywords: functional annotation
human chromosome
Human Proteome Project
missing proteins
proteogenomics
proteotypic peptides
sequential BLAST
Issue Date: 3-Jan-2014
Citation: Islam, M.T., Garg, G., Hancock, W.S., Risk, B.A., Baker, M.S., Ranganathan, S. (2014-01-03). Protannotator: A semiautomated pipeline for chromosome-wise functional annotation of the "missing" human proteome. Journal of Proteome Research 13 (1) : 76-83. ScholarBank@NUS Repository. https://doi.org/10.1021/pr400794x
Abstract: The chromosome-centric human proteome project (C-HPP) aims to define the complete set of proteins encoded in each human chromosome. The neXtProt database (September 2013) lists 20 128 proteins for the human proteome, of which 3831 human proteins (∼19%) are considered "missing" according to the standard metrics table (released September 27, 2013). In support of the C-HPP initiative, we have extended the annotation strategy developed for human chromosome 7 "missing" proteins into a semiautomated pipeline to functionally annotate the "missing" human proteome. This pipeline integrates a suite of bioinformatics analysis and annotation software tools to identify homologues and map putative functional signatures, gene ontology, and biochemical pathways. From sequential BLAST searches, we have primarily identified homologues from reviewed nonhuman mammalian proteins with protein evidence for 1271 (33.2%) "missing" proteins, followed by 703 (18.4%) homologues from reviewed nonhuman mammalian proteins and subsequently 564 (14.7%) homologues from reviewed human proteins. Functional annotations for 1945 (50.8%) "missing" proteins were also determined. To accelerate the identification of "missing" proteins from proteomics studies, we generated proteotypic peptides in silico. Matching these proteotypic peptides to ENCODE proteogenomic data resulted in proteomic evidence for 107 (2.8%) of the 3831 "missing proteins, while evidence from a recent membrane proteomic study supported the existence for another 15 "missing" proteins. The chromosome-wise functional annotation of all "missing" proteins is freely available to the scientific community through our web server (http://biolinfo.org/protannotator). © 2013 American Chemical Society.
Source Title: Journal of Proteome Research
URI: http://scholarbank.nus.edu.sg/handle/10635/109553
ISSN: 15353893
DOI: 10.1021/pr400794x
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