Candidate gene discovery in autoimmunity by using extreme phenotypes, next generation sequencing and whole exome capture

Angad S. Johar; Juan Manuel Anaya; Dan Andrews; Hardip R. Patel; Matthew Field; Chris Goodnow; Mauricio Arcos-Burgos

doi:10.1016/j.autrev.2014.10.021

Candidate gene discovery in autoimmunity by using extreme phenotypes, next generation sequencing and whole exome capture

Angad S. Johar, Juan Manuel Anaya^*, Dan Andrews, Hardip R. Patel, Matthew Field, Chris Goodnow, Mauricio Arcos-Burgos

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

31 Citations (Scopus)

Abstract

Whole exome sequencing (WES) is a widely used strategy for detection of protein coding and splicing variants associated with inherited diseases. Many studies have shown that the strategy has been broad and proficient due to its ability in detecting a high proportion of disease causing variants, using only a small portion of the genome. In this review we outline the main steps involved in WES, the comprehensive analysis of the massive data obtained including the genomic capture, amplification, sequencing, alignment, curating, filtering and genetic analysis to determine the presence of candidate variants with potential pathogenic/functional effect. Further, we propose that the multiple autoimmune syndrome, an extreme phenotype of autoimmune disorders, is a very well suited trait to tackle genomic variants of major effect underpinning the lost of self-tolerance.

Original language	English
Pages (from-to)	204-209
Number of pages	6
Journal	Autoimmunity Reviews
Volume	14
Issue number	3
DOIs	https://doi.org/10.1016/j.autrev.2014.10.021
Publication status	Published - 1 Mar 2015

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title = "Candidate gene discovery in autoimmunity by using extreme phenotypes, next generation sequencing and whole exome capture",

abstract = "Whole exome sequencing (WES) is a widely used strategy for detection of protein coding and splicing variants associated with inherited diseases. Many studies have shown that the strategy has been broad and proficient due to its ability in detecting a high proportion of disease causing variants, using only a small portion of the genome. In this review we outline the main steps involved in WES, the comprehensive analysis of the massive data obtained including the genomic capture, amplification, sequencing, alignment, curating, filtering and genetic analysis to determine the presence of candidate variants with potential pathogenic/functional effect. Further, we propose that the multiple autoimmune syndrome, an extreme phenotype of autoimmune disorders, is a very well suited trait to tackle genomic variants of major effect underpinning the lost of self-tolerance.",

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AU - Johar, Angad S.

AU - Anaya, Juan Manuel

AU - Andrews, Dan

AU - Patel, Hardip R.

AU - Field, Matthew

AU - Goodnow, Chris

AU - Arcos-Burgos, Mauricio

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AB - Whole exome sequencing (WES) is a widely used strategy for detection of protein coding and splicing variants associated with inherited diseases. Many studies have shown that the strategy has been broad and proficient due to its ability in detecting a high proportion of disease causing variants, using only a small portion of the genome. In this review we outline the main steps involved in WES, the comprehensive analysis of the massive data obtained including the genomic capture, amplification, sequencing, alignment, curating, filtering and genetic analysis to determine the presence of candidate variants with potential pathogenic/functional effect. Further, we propose that the multiple autoimmune syndrome, an extreme phenotype of autoimmune disorders, is a very well suited trait to tackle genomic variants of major effect underpinning the lost of self-tolerance.

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Candidate gene discovery in autoimmunity by using extreme phenotypes, next generation sequencing and whole exome capture

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