Comparative Genomics Strategies for Susceptibility Components for Inheritance
Harris, Glenn   
Virginia State University, Petersburg, VA, United States

Non-insulin dependant diabetes mellitus (NIDDM) is one of the most significant chronic human diseases,affecting over 20 million people in the United States (7% of the population). Twin and family studies havedemonstrated a strong genetic component to NIDDM, but despite recent advances in molecular geneticssusceptibility genes for the most common forms of the disease have yet to be identified. A large number ofgenome-wide scans have been published resulting in the identification of multiple genomic regions inhumans showing significant linkage to the disease, and many more regions in mouse and rat animal modelsas well. Work is ongoing in many laboratories and multiple populations to map additional regions.The long-range goal of the proposed effort is to utilize modern methods of comparative genomics togetherwith previously published genomic research to facilitate the discovery of genetic susceptibility componentsfor NIDDM. Quantitative trait locus (QTL) and single nucleotide polymorphism (SNiP) information fromhuman, mouse and rat studies will be compiled, compared and analyzed. Comparative genomics tools willbe used and developed as necessary to narrow the QTL intervals and to identify consensus regions amongthe species. These regions may then be further localized using SNiP mapping techniques. Comprehensivelists of candidate genes and SNiPs from the consensus regions will be made available for focused study infuture projects. The lists of candidate genes, as well as the developed tools and maps used to identify them,will be made publicly available in an online database. The specific objectives of this project are:1. Identify genetic susceptibility components for NIDDM.2. Build an online database to house information and tools.3. Promote and enhance bioinformatics training at Virginia State University.Relevance of research to public health: This research will use comparative genomics to enhance previouslypublished genomic research on non-insulin dependant diabetes mellitus (NIDDM). The ultimate goal is toconstruct a comprehensive list of genes that are most likely to be involved in susceptibility to the disease.