wANNOVAR: annotating genetic variants for personal genomes via the web

X Chang, K Wang - Journal of medical genetics, 2012 - jmg.bmj.com
Journal of medical genetics, 2012jmg.bmj.com
Background High-throughput DNA sequencing platforms have become widely available. As
a result, personal genomes are increasingly being sequenced in research and clinical
settings. However, the resulting massive amounts of variants data pose significant
challenges to the average biologists and clinicians without bioinformatics skills. Methods
and results We developed a web server called wANNOVAR to address the critical needs for
functional annotation of genetic variants from personal genomes. The server provides …
Background
High-throughput DNA sequencing platforms have become widely available. As a result, personal genomes are increasingly being sequenced in research and clinical settings. However, the resulting massive amounts of variants data pose significant challenges to the average biologists and clinicians without bioinformatics skills.
Methods and results
We developed a web server called wANNOVAR to address the critical needs for functional annotation of genetic variants from personal genomes. The server provides simple and intuitive interface to help users determine the functional significance of variants. These include annotating single nucleotide variants and insertions/deletions for their effects on genes, reporting their conservation levels (such as PhyloP and GERP++ scores), calculating their predicted functional importance scores (such as SIFT and PolyPhen scores), retrieving allele frequencies in public databases (such as the 1000 Genomes Project and NHLBI-ESP 5400 exomes), and implementing a ‘variants reduction’ protocol to identify a subset of potentially deleterious variants/genes. We illustrated how wANNOVAR can help draw biological insights from sequencing data, by analysing genetic variants generated on two Mendelian diseases.
Conclusions
We conclude that wANNOVAR will help biologists and clinicians take advantage of the personal genome information to expedite scientific discoveries. The wANNOVAR server is available at http://wannovar.usc.edu, and will be continuously updated to reflect the latest annotation information.
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