Scholars@Duke publication: Spatial structure of the human population contributes to the slow decay of linkage diseqeuilibrium and shifts the site frequency spectrum

Spatial structure of the human population contributes to the slow decay of linkage diseqeuilibrium and shifts the site frequency spectrum

Publication , Journal Article

De, A; Durrett, R

Published in: Genetics

2007

Duke Scholars

Author Richard Timothy Durrett Mathematics

Published In

Genetics

Publication Date

2007

Volume

176

Start / End Page

969 / 981

Related Subject Headings

Developmental Biology
0604 Genetics

Citation

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ICMJE

MLA

NLM

De, A., & Durrett, R. (2007). Spatial structure of the human population contributes to the slow decay of linkage diseqeuilibrium and shifts the site frequency spectrum. Genetics, 176, 969–981.

De, Arkendra, and R. Durrett. “Spatial structure of the human population contributes to the slow decay of linkage diseqeuilibrium and shifts the site frequency spectrum.” Genetics 176 (2007): 969–81.

De A, Durrett R. Spatial structure of the human population contributes to the slow decay of linkage diseqeuilibrium and shifts the site frequency spectrum. Genetics. 2007;176:969–81.

De, Arkendra, and R. Durrett. “Spatial structure of the human population contributes to the slow decay of linkage diseqeuilibrium and shifts the site frequency spectrum.” Genetics, vol. 176, 2007, pp. 969–81.

De A, Durrett R. Spatial structure of the human population contributes to the slow decay of linkage diseqeuilibrium and shifts the site frequency spectrum. Genetics. 2007;176:969–981.

Published In

Genetics

Publication Date

2007

Volume

176

Start / End Page

969 / 981

Related Subject Headings

Developmental Biology
0604 Genetics