PseudoPipe: An automated pseudogene identification pipeline

Zhaolei Zhang; Nicholas Carriero; Deyou Zheng; John Karro; Paul M. Harrison; Mark Gerstein

doi:10.1093/bioinformatics/btl116

PseudoPipe: An automated pseudogene identification pipeline

Zhaolei Zhang, Nicholas Carriero, Deyou Zheng, John Karro, Paul M. Harrison, Mark Gerstein

Research output: Contribution to journal › Article › peer-review

138 Scopus citations

Abstract

Motivation: Mammalian genomes contain many 'genomic fossils' i.e. pseudogenes. These are disabled copies of functional genes that have been retained in the genome by gene duplication or retrotransposition events. Pseudogenes are important resources in understanding the evolutionary history of genes and genomes. Results: We have developed a homology-based computational pipeline ('PseudoPipe') that can search a mammalian genome and identify pseudogene sequences in a comprehensive and consistent manner. The key steps in the pipeline involve using BLAST to rapidly cross-reference potential "parent" proteins against the intergenic regions of the genome and then processing the resulting "raw hits" - i.e. eliminating redundant ones, clustering together neighbors, and associating and aligning clusters with a unique parent. Finally, pseudogenes are classified based on a combination of criteria including homology, intron-exon structure, and existence of stop codons and frameshifts.

Original language	English (US)
Pages (from-to)	1437-1439
Number of pages	3
Journal	Bioinformatics
Volume	22
Issue number	12
DOIs	https://doi.org/10.1093/bioinformatics/btl116
State	Published - Jun 15 2006
Externally published	Yes

ASJC Scopus subject areas

Statistics and Probability
Biochemistry
Molecular Biology
Computer Science Applications
Computational Theory and Mathematics
Computational Mathematics

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10.1093/bioinformatics/btl116

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title = "PseudoPipe: An automated pseudogene identification pipeline",

abstract = "Motivation: Mammalian genomes contain many 'genomic fossils' i.e. pseudogenes. These are disabled copies of functional genes that have been retained in the genome by gene duplication or retrotransposition events. Pseudogenes are important resources in understanding the evolutionary history of genes and genomes. Results: We have developed a homology-based computational pipeline ('PseudoPipe') that can search a mammalian genome and identify pseudogene sequences in a comprehensive and consistent manner. The key steps in the pipeline involve using BLAST to rapidly cross-reference potential {"}parent{"} proteins against the intergenic regions of the genome and then processing the resulting {"}raw hits{"} - i.e. eliminating redundant ones, clustering together neighbors, and associating and aligning clusters with a unique parent. Finally, pseudogenes are classified based on a combination of criteria including homology, intron-exon structure, and existence of stop codons and frameshifts.",

author = "Zhaolei Zhang and Nicholas Carriero and Deyou Zheng and John Karro and Harrison, {Paul M.} and Mark Gerstein",

note = "Funding Information: Z.Z. acknowledges start-up fund from University of Toronto Faculty of Medicine. M.G. acknowledges funding support from the NIH/NHGRI (IU01HG003156-01). Funding to pay the Open Access publication charges was provided by the NIH (grant no. NIH/NHGRI HG02357).",

year = "2006",

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doi = "10.1093/bioinformatics/btl116",

language = "English (US)",

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T2 - An automated pseudogene identification pipeline

AU - Zhang, Zhaolei

AU - Carriero, Nicholas

AU - Zheng, Deyou

AU - Karro, John

AU - Harrison, Paul M.

AU - Gerstein, Mark

N1 - Funding Information: Z.Z. acknowledges start-up fund from University of Toronto Faculty of Medicine. M.G. acknowledges funding support from the NIH/NHGRI (IU01HG003156-01). Funding to pay the Open Access publication charges was provided by the NIH (grant no. NIH/NHGRI HG02357).

PY - 2006/6/15

Y1 - 2006/6/15

N2 - Motivation: Mammalian genomes contain many 'genomic fossils' i.e. pseudogenes. These are disabled copies of functional genes that have been retained in the genome by gene duplication or retrotransposition events. Pseudogenes are important resources in understanding the evolutionary history of genes and genomes. Results: We have developed a homology-based computational pipeline ('PseudoPipe') that can search a mammalian genome and identify pseudogene sequences in a comprehensive and consistent manner. The key steps in the pipeline involve using BLAST to rapidly cross-reference potential "parent" proteins against the intergenic regions of the genome and then processing the resulting "raw hits" - i.e. eliminating redundant ones, clustering together neighbors, and associating and aligning clusters with a unique parent. Finally, pseudogenes are classified based on a combination of criteria including homology, intron-exon structure, and existence of stop codons and frameshifts.

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PseudoPipe: An automated pseudogene identification pipeline

Abstract

ASJC Scopus subject areas

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