Reticulate speciation and barriers to introgression in the anopheles gambiae species complex

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Reticulate speciation and barriers to introgression in the anopheles gambiae species complex. / Crawford, Jacob E.; Riehle, Michelle M.; Guelbeogo, Wamdaogo M.; Gneme, Awa; Sagnon, N'fale; Vernick, Kenneth D.; Nielsen, Rasmus; Lazzaro, Brian P.

In: Genome Biology and Evolution, Vol. 7, No. 11, 01.11.2015, p. 3116-3131.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Crawford, JE, Riehle, MM, Guelbeogo, WM, Gneme, A, Sagnon, N, Vernick, KD, Nielsen, R & Lazzaro, BP 2015, 'Reticulate speciation and barriers to introgression in the anopheles gambiae species complex', Genome Biology and Evolution, vol. 7, no. 11, pp. 3116-3131. https://doi.org/10.1093/gbe/evv203

APA

Crawford, J. E., Riehle, M. M., Guelbeogo, W. M., Gneme, A., Sagnon, N., Vernick, K. D., Nielsen, R., & Lazzaro, B. P. (2015). Reticulate speciation and barriers to introgression in the anopheles gambiae species complex. Genome Biology and Evolution, 7(11), 3116-3131. https://doi.org/10.1093/gbe/evv203

Vancouver

Crawford JE, Riehle MM, Guelbeogo WM, Gneme A, Sagnon N, Vernick KD et al. Reticulate speciation and barriers to introgression in the anopheles gambiae species complex. Genome Biology and Evolution. 2015 Nov 1;7(11):3116-3131. https://doi.org/10.1093/gbe/evv203

Author

Crawford, Jacob E. ; Riehle, Michelle M. ; Guelbeogo, Wamdaogo M. ; Gneme, Awa ; Sagnon, N'fale ; Vernick, Kenneth D. ; Nielsen, Rasmus ; Lazzaro, Brian P. / Reticulate speciation and barriers to introgression in the anopheles gambiae species complex. In: Genome Biology and Evolution. 2015 ; Vol. 7, No. 11. pp. 3116-3131.

Bibtex

@article{4e42bcc38be04de890a53930126a445f,
title = "Reticulate speciation and barriers to introgression in the anopheles gambiae species complex",
abstract = "Speciation as a process remains a central focus of evolutionary biology, but our understanding of the genomic architecture and prevalence of speciation in the face of gene flow remains incomplete. The Anopheles gambiae species complex of malaria mosquitoes is a radiation of ecologically diverse taxa. This complex is well-suited for testing for evidence of a speciation continuum and genomic barriers to introgression because its members exhibit partially overlapping geographic distributions as well as varying levels of divergence and reproductive isolation. We sequenced 20 genomes from wild A. gambiae s.s., Anopheles coluzzii, Anopheles arabiensis, and compared these with 12 genomes from the {"}GOUNDRY{"} subgroup of A. gambiae s.l. Amidst a backdrop of strong reproductive isolation, we find strong evidence for a speciation continuum with introgression of autosomal chromosomal regions among species and subgroups. The X chromosome, however, is strongly differentiated among all taxa, pointing to a disproportionately large effect of X chromosome genes in driving speciation among anophelines. Strikingly, we find that autosomal introgression has occurred from contemporary hybridization between A. gambiae and A. arabiensis despite strong divergence (∼5× higher than autosomal divergence) and isolation on the X chromosome. In addition to the X, we find strong evidence that lowly recombining autosomal regions, especially pericentromeric regions, serve as barriers to introgression secondarily to the X. We show that speciation with gene flow results in genomic mosaicism of divergence and introgression. Such a reticulate gene pool connecting vector taxa across the speciation continuum has important implications for malaria control efforts.",
keywords = "Anopheles, Gene flow, Introgression, Population genetics, Speciation",
author = "Crawford, {Jacob E.} and Riehle, {Michelle M.} and Guelbeogo, {Wamdaogo M.} and Awa Gneme and N'fale Sagnon and Vernick, {Kenneth D.} and Rasmus Nielsen and Lazzaro, {Brian P.}",
year = "2015",
month = nov,
day = "1",
doi = "10.1093/gbe/evv203",
language = "English",
volume = "7",
pages = "3116--3131",
journal = "Genome Biology and Evolution",
issn = "1759-6653",
publisher = "Oxford University Press",
number = "11",

}

RIS

TY - JOUR

T1 - Reticulate speciation and barriers to introgression in the anopheles gambiae species complex

AU - Crawford, Jacob E.

AU - Riehle, Michelle M.

AU - Guelbeogo, Wamdaogo M.

AU - Gneme, Awa

AU - Sagnon, N'fale

AU - Vernick, Kenneth D.

AU - Nielsen, Rasmus

AU - Lazzaro, Brian P.

PY - 2015/11/1

Y1 - 2015/11/1

N2 - Speciation as a process remains a central focus of evolutionary biology, but our understanding of the genomic architecture and prevalence of speciation in the face of gene flow remains incomplete. The Anopheles gambiae species complex of malaria mosquitoes is a radiation of ecologically diverse taxa. This complex is well-suited for testing for evidence of a speciation continuum and genomic barriers to introgression because its members exhibit partially overlapping geographic distributions as well as varying levels of divergence and reproductive isolation. We sequenced 20 genomes from wild A. gambiae s.s., Anopheles coluzzii, Anopheles arabiensis, and compared these with 12 genomes from the "GOUNDRY" subgroup of A. gambiae s.l. Amidst a backdrop of strong reproductive isolation, we find strong evidence for a speciation continuum with introgression of autosomal chromosomal regions among species and subgroups. The X chromosome, however, is strongly differentiated among all taxa, pointing to a disproportionately large effect of X chromosome genes in driving speciation among anophelines. Strikingly, we find that autosomal introgression has occurred from contemporary hybridization between A. gambiae and A. arabiensis despite strong divergence (∼5× higher than autosomal divergence) and isolation on the X chromosome. In addition to the X, we find strong evidence that lowly recombining autosomal regions, especially pericentromeric regions, serve as barriers to introgression secondarily to the X. We show that speciation with gene flow results in genomic mosaicism of divergence and introgression. Such a reticulate gene pool connecting vector taxa across the speciation continuum has important implications for malaria control efforts.

AB - Speciation as a process remains a central focus of evolutionary biology, but our understanding of the genomic architecture and prevalence of speciation in the face of gene flow remains incomplete. The Anopheles gambiae species complex of malaria mosquitoes is a radiation of ecologically diverse taxa. This complex is well-suited for testing for evidence of a speciation continuum and genomic barriers to introgression because its members exhibit partially overlapping geographic distributions as well as varying levels of divergence and reproductive isolation. We sequenced 20 genomes from wild A. gambiae s.s., Anopheles coluzzii, Anopheles arabiensis, and compared these with 12 genomes from the "GOUNDRY" subgroup of A. gambiae s.l. Amidst a backdrop of strong reproductive isolation, we find strong evidence for a speciation continuum with introgression of autosomal chromosomal regions among species and subgroups. The X chromosome, however, is strongly differentiated among all taxa, pointing to a disproportionately large effect of X chromosome genes in driving speciation among anophelines. Strikingly, we find that autosomal introgression has occurred from contemporary hybridization between A. gambiae and A. arabiensis despite strong divergence (∼5× higher than autosomal divergence) and isolation on the X chromosome. In addition to the X, we find strong evidence that lowly recombining autosomal regions, especially pericentromeric regions, serve as barriers to introgression secondarily to the X. We show that speciation with gene flow results in genomic mosaicism of divergence and introgression. Such a reticulate gene pool connecting vector taxa across the speciation continuum has important implications for malaria control efforts.

KW - Anopheles

KW - Gene flow

KW - Introgression

KW - Population genetics

KW - Speciation

UR - http://www.scopus.com/inward/record.url?scp=84957077006&partnerID=8YFLogxK

U2 - 10.1093/gbe/evv203

DO - 10.1093/gbe/evv203

M3 - Journal article

C2 - 26615027

AN - SCOPUS:84957077006

VL - 7

SP - 3116

EP - 3131

JO - Genome Biology and Evolution

JF - Genome Biology and Evolution

SN - 1759-6653

IS - 11

ER -

ID: 222639567