Influence of technology in genetic epidemiology

M. Morey, A. Fernández‐Marmiesse, J. Cocho, M. Couce
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Abstract

Abstract Genetic epidemiology is the study of genetic factors and their influence on health and disease. Traditionally, these studies have been based on familial aggregation, segregation, or linkage analysis, mainly allowing the study of monogenic disorders. Advances in biotechnology have made techniques such as genome-wide association studies and next-generation sequencing possible, allowing more complex studies. In addition to the completion of large consortia projects, such as the Human Genome Project, ENCODE, and the 1000 Genome Project, these techniques make it possible to explain a higher proportion of the heritability in polygenic disorders compared to previous techniques. Here, we provide an overview of approaches to genetic epidemiology and how technological improvements have influenced experimentation in this area. These improvements have led genetic epidemiology to unprecedented advances, being excellent tools for understanding the genetic variability underlying complex phenotypes.
技术对遗传流行病学的影响
遗传流行病学是研究遗传因素及其对健康和疾病影响的学科。传统上,这些研究基于家族聚集、分离或连锁分析,主要允许对单基因疾病进行研究。生物技术的进步使全基因组关联研究和下一代测序等技术成为可能,从而使更复杂的研究成为可能。除了人类基因组计划、ENCODE和1000基因组计划等大型联合项目的完成之外,这些技术与以前的技术相比,可以解释多基因疾病中更高比例的遗传能力。在这里,我们提供了遗传流行病学方法的概述,以及技术进步如何影响这一领域的实验。这些改进使遗传流行病学取得了前所未有的进步,成为理解复杂表型下遗传变异性的绝佳工具。
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来源期刊
AIMS Genetics
AIMS Genetics GENETICS & HEREDITY-
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