Author:
Walker Michael G.,Volkmuth Wayne,Sprinzak Einat,Hodgson David,Klingler Tod
Abstract
We wish to identify genes associated with disease. To do so, we look for novel genes whose expression patterns mimic those of known disease-associated genes, using a method we call Guilt-by-Association (GBA), on the basis of a combinatoric measure of association. Using GBA, we have examined the expression of 40,000 human genes in 522 cDNA libraries, and have discovered several hundred previously unidentified genes associated with cancer, inflammation, steroid-synthesis, insulin-synthesis, neurotransmitter processing, matrix remodeling, and other disease processes. The majority of the genes thus discovered show no sequence similarity to known genes, and thus could not have been identified by homology searches. We present here an example of the discovery of eight genes associated with prostate cancer. Of the 40,000 most-abundant human genes, these 8 are the most closely linked to the known diagnostic genes, and thus are prime targets for pharmaceutical research.[The sequence data described in this paper have been submitted to the GenBank data library under accession nos.AF109298–AF109303.]
Publisher
Cold Spring Harbor Laboratory
Subject
Genetics (clinical),Genetics
Reference42 articles.
1. Agresti A. (1990) Categorical data analysis. (Wiley, New York, NY).
2. Bostwick D. (1998) Pathology of prostate cancer. in Prostate cancer, eds Ernstoff M. Heaney J. Peschel R. (Blackwell Science, Malden, MA), p 15.
3. Detection of a prostate-specific protein, human glandular kallikrein (hK2), in sera of patients with elevated prostate-specific antigen levels
4. Cross-reactivity of ten anti-prostate-specific antigen monoclonal antibodies with human glandular kallikrein
5. Detection of prostate specific antigen (PSA)-cleaved parathyroid hormone-related protein (PTHrP) in human serum.;Cramer;Proc. Am. Assoc. Cancer Res.,1998
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