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Daniel M Weinreich

Showing results (1-10 of 37) with videos related to

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Elife|July 26, 2022
Developing evolution-resistant drugs for COVID-19Daniel M Weinreich
Nature Genetics|April 28, 2011
High-throughput identification of genetic interactions in HIV-1Daniel M Weinreich
Genetics|August 5, 2005
The rank ordering of genotypic fitness values predicts genetic constraint on natural selection on landscapes lacking sign epistasisDaniel M Weinreich
Evolutionary Applications|January 31, 2019
Genomic clustering of fitness-affecting mutations favors the evolution of chromosomal instabilityYevgeniy Raynes, Daniel M Weinreich
Evolution; International Journal of Organic Evolution|July 30, 2005
Rapid evolutionary escape by large populations from local fitness peaks is likely in natureDaniel M Weinreich, Lin Chao
Evolution; International Journal of Organic Evolution|October 8, 2013
Fisher's geometric model of adaptation meets the functional synthesis: data on pairwise epistasis for fitness yields insights into the shape and size of phenotype spaceDaniel M Weinreich, Jennifer L Knies
Annual Review of Ecology, Evolution, and Systematics|October 2, 2019
Variability in fitness effects can preclude selection of the fittestChristopher J Graves, Daniel M Weinreich
Evolution; International Journal of Organic Evolution|October 30, 2010
Genome structure and the benefit of sexRichard A Watson, Daniel M Weinreich, John Wakeley
Evolution; International Journal of Organic Evolution|January 12, 2019
Migration promotes mutator alleles in subdivided populationsYevgeniy Raynes, Paul D Sniegowski, Daniel M Weinreich
Evolution; International Journal of Organic Evolution|July 30, 2005
Perspective: Sign epistasis and genetic constraint on evolutionary trajectoriesDaniel M Weinreich, Richard A Watson, Lin Chao
Pageof 4

Showing results (1-10 of 37) with videos related to

Sort By:
Pageof 4
Elife|July 26, 2022
Developing evolution-resistant drugs for COVID-19Daniel M Weinreich
Nature Genetics|April 28, 2011
High-throughput identification of genetic interactions in HIV-1Daniel M Weinreich
Genetics|August 5, 2005
The rank ordering of genotypic fitness values predicts genetic constraint on natural selection on landscapes lacking sign epistasisDaniel M Weinreich
Evolutionary Applications|January 31, 2019
Genomic clustering of fitness-affecting mutations favors the evolution of chromosomal instabilityYevgeniy Raynes, Daniel M Weinreich
Evolution; International Journal of Organic Evolution|July 30, 2005
Rapid evolutionary escape by large populations from local fitness peaks is likely in natureDaniel M Weinreich, Lin Chao
Evolution; International Journal of Organic Evolution|October 8, 2013
Fisher's geometric model of adaptation meets the functional synthesis: data on pairwise epistasis for fitness yields insights into the shape and size of phenotype spaceDaniel M Weinreich, Jennifer L Knies
Annual Review of Ecology, Evolution, and Systematics|October 2, 2019
Variability in fitness effects can preclude selection of the fittestChristopher J Graves, Daniel M Weinreich
Evolution; International Journal of Organic Evolution|October 30, 2010
Genome structure and the benefit of sexRichard A Watson, Daniel M Weinreich, John Wakeley
Evolution; International Journal of Organic Evolution|January 12, 2019
Migration promotes mutator alleles in subdivided populationsYevgeniy Raynes, Paul D Sniegowski, Daniel M Weinreich
Evolution; International Journal of Organic Evolution|July 30, 2005
Perspective: Sign epistasis and genetic constraint on evolutionary trajectoriesDaniel M Weinreich, Richard A Watson, Lin Chao
Pageof 4