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Full-Text Articles in Medicine and Health Sciences
Family-Specific, Novel, Deleterious Germline Variants Provide A Rich Resource To Identify Genetic Predispositions For Brcax Familial Breast Cancer., Hongxiu Wen, Yeong C. Kim, Carrie Snyder, Fengxia Xiao, Elizabeth A. Fleissner, Dina Becirovic, Jiangtao Luo, Bradley Downs, Simon Sherman, Kenneth Cowan, Henry T. Lynch, San Ming Wang
Family-Specific, Novel, Deleterious Germline Variants Provide A Rich Resource To Identify Genetic Predispositions For Brcax Familial Breast Cancer., Hongxiu Wen, Yeong C. Kim, Carrie Snyder, Fengxia Xiao, Elizabeth A. Fleissner, Dina Becirovic, Jiangtao Luo, Bradley Downs, Simon Sherman, Kenneth Cowan, Henry T. Lynch, San Ming Wang
Journal Articles: Eppley Institute
BACKGROUND: Genetic predisposition is the primary risk factor for familial breast cancer. For the majority of familial breast cancer, however, the genetic predispositions remain unknown. All newly identified predispositions occur rarely in disease population, and the unknown genetic predispositions are estimated to reach up to total thousands. Family unit is the basic structure of genetics. Because it is an autosomal dominant disease, individuals with a history of familial breast cancer must carry the same genetic predisposition across generations. Therefore, focusing on the cases in lineages of familial breast cancer, rather than pooled cases in disease population, is expected to provide …
Brain White Matter Development Is Associated With A Human-Specific Haplotype Increasing The Synthesis Of Long Chain Fatty Acids, B. D. Peters, A. N. Voineskos, P. R. Szeszko, T. A. Lett, P. Derosse, S. Guha, K. H. Karlsgodt, M. John, T. Lencz, A. K. Malhotra, +4 Additional Authors
Brain White Matter Development Is Associated With A Human-Specific Haplotype Increasing The Synthesis Of Long Chain Fatty Acids, B. D. Peters, A. N. Voineskos, P. R. Szeszko, T. A. Lett, P. Derosse, S. Guha, K. H. Karlsgodt, M. John, T. Lencz, A. K. Malhotra, +4 Additional Authors
Journal Articles
The genetic and molecular pathways driving human brain white matter (WM) development are only beginning to be discovered. Long chain polyunsaturated fatty acids (LC-PUFAs) have been implicated in myelination in animal models and humans. The biosynthesis of LC-PUFAs is regulated by the fatty acid desaturase (FADS) genes, of which a human-specific haplotype is strongly associated with omega-3 and omega-6 LC-PUFA concentrations in blood. To investigate the relationship between LC-PUFA synthesis and human brain WM development, we examined whether this FADS haplotype is associated with age-related WM differences across the life span in healthy individuals 9-86 years of age (n = …