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
Published In
Genetics
Publication Date
2007
Volume
176
Start / End Page
969 / 981
Related Subject Headings
- Developmental Biology
- 0604 Genetics
Citation
APA
Chicago
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