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1.
Heredity (Edinb) ; 125(1-2): 15-27, 2020 08.
Article in English | MEDLINE | ID: mdl-32346130

ABSTRACT

Populations of the common chimpanzee (Pan troglodytes) are in an impending risk of going extinct in the wild as a consequence of damaging anthropogenic impact on their natural habitat and illegal pet and bushmeat trade. Conservation management programmes for the chimpanzee have been established outside their natural range (ex situ), and chimpanzees from these programmes could potentially be used to supplement future conservation initiatives in the wild (in situ). However, these programmes have often suffered from inadequate information about the geographical origin and subspecies ancestry of the founders. Here, we present a newly designed capture array with ~60,000 ancestry informative markers used to infer ancestry of individual chimpanzees in ex situ populations and determine geographical origin of confiscated sanctuary individuals. From a test panel of 167 chimpanzees with unknown origins or subspecies labels, we identify 90 suitable non-admixed individuals in the European Association of Zoos and Aquaria (EAZA) Ex situ Programme (EEP). Equally important, another 46 individuals have been identified with admixed subspecies ancestries, which therefore over time, should be naturally phased out of the breeding populations. With potential for future re-introduction to the wild, we determine the geographical origin of 31 individuals that were confiscated from the illegal trade and demonstrate the promises of using non-invasive sampling in future conservation action plans. Collectively, our genomic approach provides an exemplar for ex situ management of endangered species and offers an efficient tool in future in situ efforts to combat the illegal wildlife trade.


Subject(s)
Conservation of Natural Resources , Endangered Species , Pan troglodytes , Animals , Ecosystem , Pan troglodytes/genetics
2.
Primates ; 61(3): 347-350, 2020 May.
Article in English | MEDLINE | ID: mdl-32162159

ABSTRACT

The most frequent chromosomal aneuploidy in humans, trisomy 21 (T21), has only been reported twice in the common chimpanzee (Pan troglodytes). In both cases, phenotypical traits were comparable to human T21 traits and were formally diagnosed through conventional techniques like chromosomal staining. Here, we present the first application of sequencing data as a diagnostic tool to compare chromosomal dosage imbalances in chimpanzees. By calculating the ratio of mapped reads on each chromosome between a case and a control, we observe a trisomic dosage imbalance on chromosome 21 in the case individual. While case numbers remain too low to be conclusive, evidence suggests that prevalence of T21 in chimpanzees could be lower than in humans. In future genetic testing of captive ape populations, the genetic diagnostic methods presented here will allow for a reliable and time-efficient assessment of the global prevalence of chromosomal dose imbalances in chimpanzees and other great apes.


Subject(s)
Down Syndrome/veterinary , Animals , Down Syndrome/diagnosis , Down Syndrome/genetics , Female , Pan troglodytes
3.
Science ; 354(6311): 477-481, 2016 10 28.
Article in English | MEDLINE | ID: mdl-27789843

ABSTRACT

Our closest living relatives, chimpanzees and bonobos, have a complex demographic history. We analyzed the high-coverage whole genomes of 75 wild-born chimpanzees and bonobos from 10 countries in Africa. We found that chimpanzee population substructure makes genetic information a good predictor of geographic origin at country and regional scales. Multiple lines of evidence suggest that gene flow occurred from bonobos into the ancestors of central and eastern chimpanzees between 200,000 and 550,000 years ago, probably with subsequent spread into Nigeria-Cameroon chimpanzees. Together with another, possibly more recent contact (after 200,000 years ago), bonobos contributed less than 1% to the central chimpanzee genomes. Admixture thus appears to have been widespread during hominid evolution.


Subject(s)
Evolution, Molecular , Genetic Variation , Pan paniscus/genetics , Pan troglodytes/genetics , Animals , Cameroon , Gene Flow , Genome , Genomics , Haplotypes , Nigeria , Population
4.
Primates ; 55(1): 101-12, 2014 Jan.
Article in English | MEDLINE | ID: mdl-23982179

ABSTRACT

The Pleistocene epoch was a period of dramatic climate change that had profound impacts on the population sizes of many animal species. How these species were shaped by past events is often unclear, hindering our understanding of the population dynamics resulting in present day populations. We analyzed complete mitochondrial genomes representing all four recognized chimpanzee subspecies and the bonobo to infer the recent demographic history and used simulations to exclude a confounding effect of population structure. Our genus-wide Bayesian coalescent-based analysis revealed surprisingly dissimilar demographic histories of the chimpanzee subspecies and the bonobo, despite their overlapping habitat requirements. Whereas the central and eastern chimpanzee subspecies were inferred to have expanded tenfold between around 50,000 and 80,000 years ago and today, the population size of the neighboring bonobo remained constant. The changes in population size are likely linked to changes in habitat area due to climate oscillations during the late Pleistocene. Furthermore, the timing of population expansion for the rainforest-adapted chimpanzee is concurrent with the expansion of the savanna-adapted human, which could suggest a common response to changed climate conditions around 50,000-80,000 years ago.


Subject(s)
DNA, Mitochondrial/genetics , Pan paniscus/genetics , Pan troglodytes/genetics , Africa South of the Sahara , Animals , Bayes Theorem , Climate , Demography , Ecosystem , Molecular Sequence Data , Phylogeny , Population Dynamics , Sequence Alignment , Sequence Analysis, DNA
5.
Proc Natl Acad Sci U S A ; 109(6): 2054-9, 2012 Feb 07.
Article in English | MEDLINE | ID: mdl-22308321

ABSTRACT

Surveying genome-wide coding variation within and among species gives unprecedented power to study the genetics of adaptation, in particular the proportion of amino acid substitutions fixed by positive selection. Additionally, contrasting the autosomes and the X chromosome holds information on the dominance of beneficial (adaptive) and deleterious mutations. Here we capture and sequence the complete exomes of 12 chimpanzees and present the largest set of protein-coding polymorphism to date. We report extensive adaptive evolution specifically targeting the X chromosome of chimpanzees with as much as 30% of all amino acid replacements being adaptive. Adaptive evolution is barely detectable on the autosomes except for a few striking cases of recent selective sweeps associated with immunity gene clusters. We also find much stronger purifying selection than observed in humans, and in contrast to humans, we find that purifying selection is stronger on the X chromosome than on the autosomes in chimpanzees. We therefore conclude that most adaptive mutations are recessive. We also document dramatically reduced synonymous diversity in the chimpanzee X chromosome relative to autosomes and stronger purifying selection than for the human X chromosome. If similar processes were operating in the human-chimpanzee ancestor as in central chimpanzees today, our results therefore provide an explanation for the much-discussed reduction in the human-chimpanzee divergence at the X chromosome.


Subject(s)
Adaptation, Physiological/genetics , Evolution, Molecular , Genes, X-Linked/genetics , Pan troglodytes/genetics , X Chromosome/genetics , Animals , Base Pairing/genetics , Humans , Immunity/genetics , Mutation/genetics , Pan troglodytes/immunology , Polymorphism, Genetic , Selection, Genetic
6.
Genomics ; 92(5): 322-8, 2008 Nov.
Article in English | MEDLINE | ID: mdl-18718520

ABSTRACT

Chimpanzees are naturally and asymptomatically infected by simian immunodeficiency virus (SIV). Pathogenic properties of SIV/HIV vary and differences in susceptibility and pathogenicity of SIV/HIV depend in part on host-specific factors such as virus-receptor/co-receptor interactions. Since CD4 plays a primary role in virus binding and since SIVcpz have been found only in two African chimpanzee subspecies, we characterized the genetic diversity of CD4 receptors in all four recognized subspecies of chimpanzees. We found noticeable variation in the first variable region V1 of CD4 and in intron six among the subspecies of chimpanzees. We found the CD4 receptor to be conserved in individuals belonging to the P. t. verus subspecies and divergent from the other three subspecies, which harbored highly variable CD4 receptors. The CD4 receptor of chimpanzees differed from that of humans. We question whether the observed diversity can explain the species-specific differences in susceptibility to and pathogenicity of SIV/HIV.


Subject(s)
Ape Diseases/genetics , CD4 Antigens/genetics , Genetic Variation , Pan troglodytes/genetics , Simian Acquired Immunodeficiency Syndrome/genetics , Simian Immunodeficiency Virus/pathogenicity , Animals , Ape Diseases/virology , CD4 Antigens/metabolism , Humans , Molecular Sequence Data , Pan troglodytes/classification , Pan troglodytes/virology , Polymorphism, Single Nucleotide , Receptors, Virus/genetics , Receptors, Virus/metabolism , Sequence Analysis, DNA , Simian Acquired Immunodeficiency Syndrome/virology , Simian Immunodeficiency Virus/metabolism , Species Specificity
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