CancerGenes: a gene selection resource for cancer genome projects
ME Higgins, M Claremont, JE Major… - Nucleic acids …, 2007 - academic.oup.com
ME Higgins, M Claremont, JE Major, C Sander, AE Lash
Nucleic acids research, 2007•academic.oup.comThe genome sequence framework provided by the human genome project allows us to
precisely map human genetic variations in order to study their association with disease and
their direct effects on gene function. Since the description of tumor suppressor genes and
oncogenes several decades ago, both germ-line variations and somatic mutations have
been established to be important in cancer—in terms of risk, oncogenesis, prognosis and
response to therapy. The Cancer Genome Atlas initiative proposed by the NIH is poised to …
precisely map human genetic variations in order to study their association with disease and
their direct effects on gene function. Since the description of tumor suppressor genes and
oncogenes several decades ago, both germ-line variations and somatic mutations have
been established to be important in cancer—in terms of risk, oncogenesis, prognosis and
response to therapy. The Cancer Genome Atlas initiative proposed by the NIH is poised to …
Abstract
The genome sequence framework provided by the human genome project allows us to precisely map human genetic variations in order to study their association with disease and their direct effects on gene function. Since the description of tumor suppressor genes and oncogenes several decades ago, both germ-line variations and somatic mutations have been established to be important in cancer—in terms of risk, oncogenesis, prognosis and response to therapy. The Cancer Genome Atlas initiative proposed by the NIH is poised to elucidate the contribution of somatic mutations to cancer development and progression through the re-sequencing of a substantial fraction of the total collection of human genes—in hundreds of individual tumors and spanning several tumor types. We have developed the CancerGenes resource to simplify the process of gene selection and prioritization in large collaborative projects. CancerGenes combines gene lists annotated by experts with information from key public databases. Each gene is annotated with gene name(s), functional description, organism, chromosome number, location, Entrez Gene ID, GO terms, InterPro descriptions, gene structure, protein length, transcript count, and experimentally determined transcript control regions, as well as links to Entrez Gene, COSMIC, and iHOP gene pages and the UCSC and Ensembl genome browsers. The user-friendly interface provides for searching, sorting and intersection of gene lists. Users may view tabulated results through a web browser or may dynamically download them as a spreadsheet table. CancerGenes is available at .
Oxford University Press
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