LS-SNP: large-scale annotation of coding non-synonymous SNPs based on multiple information sources

doi:10.1093/bioinformatics/bti442

Bioinformatics Advance Access originally published online on April 12, 2005
Bioinformatics 2005 21(12):2814-2820; doi:10.1093/bioinformatics/bti442

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LS-SNP: large-scale annotation of coding non-synonymous SNPs based on multiple information sources

Rachel Karchin ¹^,2^,3^,*, Mark Diekhans ⁴^,5, Libusha Kelly ¹^,2^,3, Daryl J. Thomas ⁴^,5, Ursula Pieper ¹^,2^,3, Narayanan Eswar ¹^,2^,3, David Haussler ⁴^,5^,6 and Andrej Sali ¹^,2^,3

¹Department of Biopharmaceutical Sciences, University of California at San Francisco San Francisco, CA 94143, USA
²Department of Pharmaceutical Chemistry, University of California at San Francisco San Francisco, CA 94143, USA
³California Institute for Quantitative Biomedical Research, University of California at San Francisco San Francisco, CA 94143, USA
⁴Center for Biomolecular Science and Engineering, University of California Santa at Cruz, Santa Cruz, CA 95076, USA
⁵California Institute for Quantitative Biomedical Research, University of California Santa at Cruz, Santa Cruz, CA 95076, USA
⁶Howard Hughes Medical Institute, University of California Santa at Cruz, Santa Cruz, CA 95076, USA

^*To whom correspondence should be addressed.

Motivation: The NCBI dbSNP database lists over 9 million singlenucleotide polymorphisms (SNPs) in the human genome, but currentlycontains limited annotation information. SNPs that result inamino acid residue changes (nsSNPs) are of critical importancein variation between individuals, including disease and drugsensitivity.

Results: We have developed LS-SNP, a genomic scale softwarepipeline to annotate nsSNPs. LS-SNP comprehensively maps nsSNPsonto protein sequences, functional pathways and comparativeprotein structure models, and predicts positions where nsSNPsdestabilize proteins, interfere with the formation of domain–domaininterfaces, have an effect on protein–ligand binding orseverely impact human health. It currently annotates 28 043validated SNPs that produce amino acid residue substitutionsin human proteins from the SwissProt/TrEMBL database. Annotationscan be viewed via a web interface either in the context of agenomic region or by selecting sets of SNPs, genes, proteinsor pathways. These results are useful for identifying candidatefunctional SNPs within a gene, haplotype or pathway and in probingmolecular mechanisms responsible for functional impacts of nsSNPs.

Availability: http://www.salilab.org/LS-SNP

Contact: rachelk{at}salilab.org

Supplementary information: http://salilab.org/LS-SNP/supp-info.pdf

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