Exploration of signals of positive selection derived from genotype-based human genome scans using re-sequencing data

Min Hu; Qasim Ayub; José Afonso Guerra-Assunção; Quan Long; Zemin Ning; Ni Huang; Irene Gallego Romero; Lira Mamanova; Pelin Akan; Xin Liu; Alison J. Coffey; Daniel J. Turner; Harold Swerdlow; John Burton; Michael A. Quail; Donald F. Conrad; Anton J. Enright; Chris Tyler-Smith; Yali Xue

doi:10.1007/s00439-011-1111-9

Exploration of signals of positive selection derived from genotype-based human genome scans using re-sequencing data

Min Hu, Qasim Ayub, José Afonso Guerra-Assunção, Quan Long, Zemin Ning, Ni Huang, Irene Gallego Romero, Lira Mamanova, Pelin Akan, Xin Liu, Alison J. Coffey, Daniel J. Turner, Harold Swerdlow, John Burton, Michael A. Quail, Donald F. Conrad, Anton J. Enright, Chris Tyler-Smith, Yali Xue

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Abstract

We have investigated whether regions of the genome showing signs of positive selection in scans based on haplotype structure also show evidence of positive selection when sequence-based tests are applied, whether the target of selection can be localized more precisely, and whether such extra evidence can lead to increased biological insights. We used two tools: simulations under neutrality or selection, and experimental investigation of two regions identified by the HapMap2 project as putatively selected in human populations. Simulations suggested that neutral and selected regions should be readily distinguished and that it should be possible to localize the selected variant to within 40 kb at least half of the time. Re-sequencing of two ∼300 kb regions (chr4:158Mb and chr10:22Mb) lacking known targets of selection in HapMap CHB individuals provided strong evidence for positive selection within each and suggested the micro-RNA gene hsa-miR-548c as the best candidate target in one region, and changes in regulation of the sperm protein gene SPAG6 in the other.

Original language	English (US)
Pages (from-to)	665-674
Number of pages	10
Journal	Human genetics
Volume	131
Issue number	5
DOIs	https://doi.org/10.1007/s00439-011-1111-9
State	Published - May 2012
Externally published	Yes

ASJC Scopus subject areas

Genetics
Genetics(clinical)

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Hu, M., Ayub, Q., Guerra-Assunção, J. A., Long, Q., Ning, Z., Huang, N., Romero, I. G., Mamanova, L., Akan, P., Liu, X., Coffey, A. J., Turner, D. J., Swerdlow, H., Burton, J., Quail, M. A., Conrad, D. F., Enright, A. J., Tyler-Smith, C., & Xue, Y. (2012). Exploration of signals of positive selection derived from genotype-based human genome scans using re-sequencing data. Human genetics, 131(5), 665-674. https://doi.org/10.1007/s00439-011-1111-9

Hu, M, Ayub, Q, Guerra-Assunção, JA, Long, Q, Ning, Z, Huang, N, Romero, IG, Mamanova, L, Akan, P, Liu, X, Coffey, AJ, Turner, DJ, Swerdlow, H, Burton, J, Quail, MA, Conrad, DF, Enright, AJ, Tyler-Smith, C & Xue, Y 2012, 'Exploration of signals of positive selection derived from genotype-based human genome scans using re-sequencing data', Human genetics, vol. 131, no. 5, pp. 665-674. https://doi.org/10.1007/s00439-011-1111-9

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title = "Exploration of signals of positive selection derived from genotype-based human genome scans using re-sequencing data",

abstract = "We have investigated whether regions of the genome showing signs of positive selection in scans based on haplotype structure also show evidence of positive selection when sequence-based tests are applied, whether the target of selection can be localized more precisely, and whether such extra evidence can lead to increased biological insights. We used two tools: simulations under neutrality or selection, and experimental investigation of two regions identified by the HapMap2 project as putatively selected in human populations. Simulations suggested that neutral and selected regions should be readily distinguished and that it should be possible to localize the selected variant to within 40 kb at least half of the time. Re-sequencing of two ∼300 kb regions (chr4:158Mb and chr10:22Mb) lacking known targets of selection in HapMap CHB individuals provided strong evidence for positive selection within each and suggested the micro-RNA gene hsa-miR-548c as the best candidate target in one region, and changes in regulation of the sperm protein gene SPAG6 in the other.",

author = "Min Hu and Qasim Ayub and Guerra-Assun{\c c}{\~a}o, {Jos{\'e} Afonso} and Quan Long and Zemin Ning and Ni Huang and Romero, {Irene Gallego} and Lira Mamanova and Pelin Akan and Xin Liu and Coffey, {Alison J.} and Turner, {Daniel J.} and Harold Swerdlow and John Burton and Quail, {Michael A.} and Conrad, {Donald F.} and Enright, {Anton J.} and Chris Tyler-Smith and Yali Xue",

note = "Funding Information: Acknowledgments We thank Nancy Hamlin for managing the Illumina sequencing project, all members of the Sanger Illumina sequencing and library construction teams, and Daniel G. MacArthur for helpful suggestions on XP-EHH calculation. This work was supported by The Wellcome Trust.",

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doi = "10.1007/s00439-011-1111-9",

language = "English (US)",

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AU - Ayub, Qasim

AU - Guerra-Assunção, José Afonso

AU - Long, Quan

AU - Ning, Zemin

AU - Huang, Ni

AU - Romero, Irene Gallego

AU - Mamanova, Lira

AU - Akan, Pelin

AU - Liu, Xin

AU - Coffey, Alison J.

AU - Turner, Daniel J.

AU - Swerdlow, Harold

AU - Burton, John

AU - Quail, Michael A.

AU - Conrad, Donald F.

AU - Enright, Anton J.

AU - Tyler-Smith, Chris

AU - Xue, Yali

N1 - Funding Information: Acknowledgments We thank Nancy Hamlin for managing the Illumina sequencing project, all members of the Sanger Illumina sequencing and library construction teams, and Daniel G. MacArthur for helpful suggestions on XP-EHH calculation. This work was supported by The Wellcome Trust.

PY - 2012/5

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N2 - We have investigated whether regions of the genome showing signs of positive selection in scans based on haplotype structure also show evidence of positive selection when sequence-based tests are applied, whether the target of selection can be localized more precisely, and whether such extra evidence can lead to increased biological insights. We used two tools: simulations under neutrality or selection, and experimental investigation of two regions identified by the HapMap2 project as putatively selected in human populations. Simulations suggested that neutral and selected regions should be readily distinguished and that it should be possible to localize the selected variant to within 40 kb at least half of the time. Re-sequencing of two ∼300 kb regions (chr4:158Mb and chr10:22Mb) lacking known targets of selection in HapMap CHB individuals provided strong evidence for positive selection within each and suggested the micro-RNA gene hsa-miR-548c as the best candidate target in one region, and changes in regulation of the sperm protein gene SPAG6 in the other.

AB - We have investigated whether regions of the genome showing signs of positive selection in scans based on haplotype structure also show evidence of positive selection when sequence-based tests are applied, whether the target of selection can be localized more precisely, and whether such extra evidence can lead to increased biological insights. We used two tools: simulations under neutrality or selection, and experimental investigation of two regions identified by the HapMap2 project as putatively selected in human populations. Simulations suggested that neutral and selected regions should be readily distinguished and that it should be possible to localize the selected variant to within 40 kb at least half of the time. Re-sequencing of two ∼300 kb regions (chr4:158Mb and chr10:22Mb) lacking known targets of selection in HapMap CHB individuals provided strong evidence for positive selection within each and suggested the micro-RNA gene hsa-miR-548c as the best candidate target in one region, and changes in regulation of the sperm protein gene SPAG6 in the other.

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Exploration of signals of positive selection derived from genotype-based human genome scans using re-sequencing data

Abstract

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