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Professor Alexander Barg (ECE/ISR) is the principal investigator for a new NSF collaborative research grant, A General Theory of Group Testing for Genotyping. The three-year, $250K grant will fund the development of a comprehensive, yet analytically or computationally tractable general theory of group testing for genotyping.
Next generation high-throughput sequencing devices have brought the promise of personalized genotyping to the field of human genomics. Advances in personalized genotyping depend on developments of procedures for cost-efficient, large-scale association studies. Such large-scale experiments and studies face a number of obstacles related to constraints imposed by bioengineering systems and test subjects, including a) the restriction that tests have to be performed with small samples of individuals' genetic material; b) the constraint that subjects have to be multiplexed, so that genetic sequences have to be barcoded; c) the fact that the outcomes of the tests are semi-quantitative; d) the reality that many tests have to be performed within groups of related individuals, thereby significantly increasing the cost of screening whole families; e) the fact that tests have to deal with the challenge of variant discovery and individuals that may exhibit different gene copy numbers. A natural way to overcome these and many other obstacles is to perform genotyping via group testing.
Barg?s proposed theory will answer the unique challenges arising in genotyping by sequencing. In addition to genotyping applications, parts of the theory also may find independent applications in areas as diverse as constrained multiple access channel analysis, fingerprinting and identification coding, and error-control coding. Several new models will be introduced into the field of group testing, including subjects with different types and strengths, semi-quantitative testing, two-dimensional pooling, and Poisson probabilistic testing.
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September 15, 2012
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