Analysis of Chimpanzee History Based on Genome Sequence Alignments

Jennifer L Caswell,Swapan Mallick,Sante Gnerre,David Reich,Daniel J Richter,Julie Neubauer,Christine Schirmer,Gil Mcvean

doi:10.1371/journal.pgen.1000057

Jennifer L Caswell, Swapan Mallick + Show 6 more

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https://doi.org/10.1371/journal.pgen.1000057

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Abstract

Population geneticists often study small numbers of carefully chosen loci, but it has become possible to obtain orders of magnitude for more data from overlaps of genome sequences. Here, we generate tens of millions of base pairs of multiple sequence alignments from combinations of three western chimpanzees, three central chimpanzees, an eastern chimpanzee, a bonobo, a human, an orangutan, and a macaque. Analysis provides a more precise understanding of demographic history than was previously available. We show that bonobos and common chimpanzees were separated ∼1,290,000 years ago, western and other common chimpanzees ∼510,000 years ago, and eastern and central chimpanzees at least 50,000 years ago. We infer that the central chimpanzee population size increased by at least a factor of 4 since its separation from western chimpanzees, while the western chimpanzee effective population size decreased. Surprisingly, in about one percent of the genome, the genetic relationships between humans, chimpanzees, and bonobos appear to be different from the species relationships. We used PCR-based resequencing to confirm 11 regions where chimpanzees and bonobos are not most closely related. Study of such loci should provide information about the period of time 5–7 million years ago when the ancestors of humans separated from those of the chimpanzees.

Highlights

At least four distinct populations of chimpanzees have been defined based on morphological and geographic criteria, including bonobos (Pan paniscus) and three common chimpanzee populations: eastern (Pan troglodytes schweinfurthii), central (Pan troglodytes troglodytes), and western (Pan troglodytes verus) [1]
Studies of population history traditionally examine a small number of genetic regions in many individuals; with genome sequencing technologies it is possible to assemble data sets with thousands more aligned sequences albeit in fewer individuals
To explore whether such data can provide useful insights about population history, we assembled large-scale data sets consisting of overlaps of random genome sequencing reads from chimpanzees and bonobos

Summary

Introduction

At least four distinct populations of chimpanzees have been defined based on morphological and geographic criteria, including bonobos (Pan paniscus) and three common chimpanzee populations: eastern (Pan troglodytes schweinfurthii), central (Pan troglodytes troglodytes), and western (Pan troglodytes verus) [1]. The two largest data sets of this type were collected by Yu et al [8], who studied ,23 kilobases in 9 bonobos, 2 eastern, 5 central, and 6 western chimpanzees, and Fischer et al [9], who studied ,22 kilobases in 9 bonobos, 10 eastern, 10 central, and 10 western chimpanzees Analyses of these data sets by fitting the data to an Isolation and Migration (IM) model have resulted in important inferences about chimpanzee history [11,12]: that bonobos and common chimpanzees separated ,1 million years ago (Mya); western and central chimpanzees separated ,0.5 million Mya; there was a ,3-fold expansion in the central chimpanzee population size since the western-central population separation; and there has been migration between western and central chimpanzees since they separated. We aimed to generate a new kind of data and a model for analyzing the data that would increase the precision of previous estimates and be sensitive to different features of demographic history

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