TY - JOUR
T1 - Examining phylogenetic relationships among gibbon genera using whole genome sequence data using an approximate bayesian computation approach
AU - Veeramah, Krishna R.
AU - Woerner, August E.
AU - Johnstone, Laurel
AU - Gut, Ivo
AU - Gut, Marta
AU - Marques-Bonet, Tomas
AU - Carbone, Lucia
AU - Wall, Jeff D.
AU - Hammer, Michael F.
N1 - Publisher Copyright:
© 2015 by the Genetics Society of America.
PY - 2015/1/1
Y1 - 2015/1/1
N2 - Gibbons are believed to have diverged from the larger great apes ̴16.8 MYA and today reside in the rainforests of Southeast Asia. Based on their diploid chromosome number, the family Hylobatidae is divided into four genera, Nomascus, Symphalangus, Hoolock, and Hylobates. Genetic studies attempting to elucidate the phylogenetic relationships among gibbons using karyotypes, mitochondrial DNA (mtDNA), the Y chromosome, and short autosomal sequences have been inconclusive. To examine the relationships among gibbon genera in more depth, we performed second-generation whole genome sequencing (WGS) to a mean of ̴15x coverage in two individuals from each genus. We developed a coalescent-based approximate Bayesian computation (ABC) method incorporating a model of sequencing error generated by high coverage exome validation to infer the branching order, divergence times, and effective population sizes of gibbon taxa. Although Hoolock and Symphalangus are likely sister taxa, we could not confidently resolve a single bifurcating tree despite the large amount of data analyzed. Instead, our results support the hypothesis that all four gibbon genera diverged at approximately the same time. Assuming an autosomal mutation rate of 1x10-9/site/year this speciation process occurred ̴5 MYA during a period in the Early Pliocene characterized by climatic shifts and fragmentation of the Sunda shelf forests. Whole genome sequencing of additional individuals will be vital for inferring the extent of gene flow among species after the separation of the gibbon genera.
AB - Gibbons are believed to have diverged from the larger great apes ̴16.8 MYA and today reside in the rainforests of Southeast Asia. Based on their diploid chromosome number, the family Hylobatidae is divided into four genera, Nomascus, Symphalangus, Hoolock, and Hylobates. Genetic studies attempting to elucidate the phylogenetic relationships among gibbons using karyotypes, mitochondrial DNA (mtDNA), the Y chromosome, and short autosomal sequences have been inconclusive. To examine the relationships among gibbon genera in more depth, we performed second-generation whole genome sequencing (WGS) to a mean of ̴15x coverage in two individuals from each genus. We developed a coalescent-based approximate Bayesian computation (ABC) method incorporating a model of sequencing error generated by high coverage exome validation to infer the branching order, divergence times, and effective population sizes of gibbon taxa. Although Hoolock and Symphalangus are likely sister taxa, we could not confidently resolve a single bifurcating tree despite the large amount of data analyzed. Instead, our results support the hypothesis that all four gibbon genera diverged at approximately the same time. Assuming an autosomal mutation rate of 1x10-9/site/year this speciation process occurred ̴5 MYA during a period in the Early Pliocene characterized by climatic shifts and fragmentation of the Sunda shelf forests. Whole genome sequencing of additional individuals will be vital for inferring the extent of gene flow among species after the separation of the gibbon genera.
KW - Approximate bayesian computation
KW - Gibbon species
KW - Rapid radiation
KW - Whole genome sequences
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U2 - 10.1534/genetics.115.174425
DO - 10.1534/genetics.115.174425
M3 - Article
C2 - 25769979
AN - SCOPUS:84929008310
SN - 0016-6731
VL - 200
SP - 295
EP - 308
JO - Genetics
JF - Genetics
IS - 1
ER -