domingo, 4 de agosto de 2013

Catalog of Published Genome-Wide Association Studies

open here please ► file Nº 40.000!
Catalog of Published Genome-Wide Association Studies

 Genome.gov National Human Genome Research Institute National Institutes of Health

Division of Genomic Medicine

A Catalog of Published Genome-Wide Association Studies

Sound file Current uses of and future directions for the Genome-Wide Association Studies Catalog New
On Thursday, July 18th, 2013, the Division of Genomic Medicine held a webinar to highlight current uses and explore  priorities and future directions for the GWAS catalog. Presentations will be archived and made available at a later date.

Additional information has been added to the HTML catalog columns below. For a description of column headings for the HTML catalog, go to: Catalog Heading DescriptionsPDF fileNew
Potential etiologic and functional implications of genome-wide association loci for human diseases and traitsPDF file
Click here to read our recent Proceedings of the Academy of Sciences (PNAS) article on catalog methods and analysis.

View the Interactive Diagram New   View the Full Catalog    Download the Catalog    Search the Catalog

Published Genome-Wide Associations Credit: Darryl Leja and Teri Manolio, NHGRI; Tony Burdett, Dani Welter, and Helen Parkinson, EBI View as PDFPDF file View PowerPoint slidePowerPoint file View the interactive diagram  
Published GWA Reports, 2005-6/2012 Credit: Teri Manolio View as PDFPDF file View PowerPoint slidePowerPoint file
The genome-wide association study (GWAS) publications listed here include only those attempting to assay at least 100,000 single nucleotide polymorphisms (SNPs) in the initial stage. Publications are organized from most to least recent date of publication, indexing from online publication if available. Studies focusing only on candidate genes are excluded from this catalog. Studies are identified through weekly PubMed literature searches, daily NIH-distributed compilations of news and media reports, and occasional comparisons with an existing database of GWAS literature (HuGE Navigator).
SNP-trait associations listed here are limited to those with p-values < 1.0 x 10-5 (see full methods for additional details). Multipliers of powers of 10 in p-values are rounded to the nearest single digit; odds ratios and allele frequencies are rounded to two decimals. Standard errors are converted to 95 percent confidence intervals where applicable. Allele frequencies, p-values, and odds ratios derived from the largest sample size, typically a combined analysis (initial plus replication studies), are recorded below if reported; otherwise statistics from the initial study sample are recorded. For quantitative traits, information on % variance explained, SD increment, or unit difference is reported where available. Odds ratios < 1 in the original paper are converted to OR > 1 for the alternate allele. Where results from multiple genetic models are available, we prioritized effect sizes (OR's or beta-coefficients) as follows: 1) genotypic model, per-allele estimate; 2) genotypic model, heterozygote estimate, 3) allelic model, allelic estimate.
Gene regions corresponding to SNPs were identified from the UCSC Genome Browser. Gene names and risk alleles are those reported by the authors in the original paper. Only one SNP within a gene or region of high linkage disequilibrium is recorded unless there was evidence of independent association.
We have limited the number of SNP-trait associations extracted from each paper to 50, due to workload constraints. Of associations meeting our eligibility criteria, those with lower p-values are given higher priority, as are those which are reported to be novel by the authors. If multiple phenotypes are present within one paper, associations may be chosen to balance the phenotypes. This impacts the following papers: Estrada, Nature Genet 2012, Gieger, Nature 2011; Sawcer, Nature 2011; Franke, Nat Genet 2010; Wang, Schizophr Res, 2010; Lango Allen, Nature 2010; Kamatani, Nat Genet 2010; Cirulli, Eur J Hum Genet 2010; Need, Hum Mol Genet 2009.
Occasionally the term "pending" is used to denote one or more studies that we identified as an eligible GWAS, but for which SNP information has not yet been extracted; studies of CNVs are also noted as pending.
How to cite the NHGRI GWAS Catalog:
Hindorff LA, MacArthur J (European Bioinformatics Institute), Morales J (European Bioinformatics Institute), Junkins HA, Hall PN, Klemm AK, and Manolio TA. A Catalog of Published Genome-Wide Association Studies. Available at: www.genome.gov/gwastudies. Accessed [date of access].
How to cite the NHGRI GWAS Catalog paper:
Hindorff LA, Sethupathy P, Junkins HA, Ramos EM, Mehta JP, Collins FS, and Manolio TA. Potential etiologic and functional implications of genome-wide association loci for human diseases and traits. Proc Natl Acad Sci USA. [May 27, 2009.]
  • Additional information has been added to the HTML catalog columns below. For a description of column headings for the HTML catalog, go to: Catalog Heading DescriptionsPDF fileNew


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For questions or comments about this page, send an e-mail to: gwas_table@mail.nih.gov
 
file Nº 40.000! August 04, 2013.
 

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