The Decay of Disease Association with Declining Linkage Disequilibrium: A Fine Mapping Theorem

Maadooliat, Mehdi; Bansal, Naveen K.; Upadhya, Jiblal; Farazi, Manzur; Ye, Zhan; Li, Xiang; Schrodi, Steven J.

doi:10.1101/052381

2016

DOI: 10.1101/052381

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The Decay of Disease Association with Declining Linkage Disequilibrium: A Fine Mapping Theorem

Mehdi Maadooliat

Naveen K. Bansal

Jiblal Upadhya

et al.

Abstract: Several important and fundamental aspects of disease genetics models have yet to be described. One such property is the relationship of disease association statistics at a marker site closely linked to a disease causing site. A complete description of this two-locus system is of particular importance to experimental efforts to fine map association signals for complex diseases. Here, we present a simple relationship between disease association statistics and the decline of linkage disequilibrium from a causal s… Show more

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Reflections on the Field of Human Genetics: A Call for Increased Disease Genetics Theory

Schrodi

2016

Front. Genet.

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Development of human genetics theoretical models and the integration of those models with experiment and statistical evaluation are critical for scientific progress. This perspective argues that increased effort in disease genetics theory, complementing experimental, and statistical efforts, will escalate the unraveling of molecular etiologies of complex diseases. In particular, the development of new, realistic disease genetics models will help elucidate complex disease pathogenesis, and the predicted patterns in genetic data made by these models will enable the concurrent, more comprehensive statistical testing of multiple aspects of disease genetics predictions, thereby better identifying disease loci. By theoretical human genetics, I intend to encompass all investigations devoted to modeling the heritable architecture underlying disease traits and studies of the resulting principles and dynamics of such models. Hence, the scope of theoretical disease genetics work includes construction and analysis of models describing how disease-predisposing alleles (1) arise, (2) are transmitted across families and populations, and (3) interact with other risk and protective alleles across both the genome and environmental factors to produce disease states. Theoretical work improves insight into viable genetic models of diseases consistent with empirical results from linkage, transmission, and association studies as well as population genetics. Furthermore, understanding the patterns of genetic data expected under realistic disease models will enable more powerful approaches to discover disease-predisposing alleles and additional heritable factors important in common diseases. In spite of the pivotal role of disease genetics theory, such investigation is not particularly vibrant.

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Reflections on the Field of Human Genetics: A Call for Increased Disease Genetics Theory

Schrodi

2016

Front. Genet.

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The Decay of Disease Association with Declining Linkage Disequilibrium: A Fine Mapping Theorem

Cited by 1 publication

References 46 publications

Reflections on the Field of Human Genetics: A Call for Increased Disease Genetics Theory

Reflections on the Field of Human Genetics: A Call for Increased Disease Genetics Theory

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