Your search keyword '"Kiyang JA"' showing total 5 results

1. Great ape genetic diversity and population history.

Author

Prado-Martinez J, Sudmant PH, Kidd JM, Li H, Kelley JL, Lorente-Galdos B, Veeramah KR, Woerner AE, O'Connor TD, Santpere G, Cagan A, Theunert C, Casals F, Laayouni H, Munch K, Hobolth A, Halager AE, Malig M, Hernandez-Rodriguez J, Hernando-Herraez I, Prüfer K, Pybus M, Johnstone L, Lachmann M, Alkan C, Twigg D, Petit N, Baker C, Hormozdiari F, Fernandez-Callejo M, Dabad M, Wilson ML, Stevison L, Camprubí C, Carvalho T, Ruiz-Herrera A, Vives L, Mele M, Abello T, Kondova I, Bontrop RE, Pusey A, Lankester F, Kiyang JA, Bergl RA, Lonsdorf E, Myers S, Ventura M, Gagneux P, Comas D, Siegismund H, Blanc J, Agueda-Calpena L, Gut M, Fulton L, Tishkoff SA, Mullikin JC, Wilson RK, Gut IG, Gonder MK, Ryder OA, Hahn BH, Navarro A, Akey JM, Bertranpetit J, Reich D, Mailund T, Schierup MH, Hvilsom C, Andrés AM, Wall JD, Bustamante CD, Hammer MF, Eichler EE, and Marques-Bonet T

Subjects

Africa, Animals, Animals, Wild genetics, Animals, Zoo genetics, Asia, Southeastern, Evolution, Molecular, Gene Flow genetics, Genetics, Population, Genome genetics, Gorilla gorilla classification, Gorilla gorilla genetics, Hominidae classification, Humans, Inbreeding, Pan paniscus classification, Pan paniscus genetics, Pan troglodytes classification, Pan troglodytes genetics, Phylogeny, Polymorphism, Single Nucleotide genetics, Population Density, Genetic Variation, Hominidae genetics

Abstract

Most great ape genetic variation remains uncharacterized; however, its study is critical for understanding population history, recombination, selection and susceptibility to disease. Here we sequence to high coverage a total of 79 wild- and captive-born individuals representing all six great ape species and seven subspecies and report 88.8 million single nucleotide polymorphisms. Our analysis provides support for genetically distinct populations within each species, signals of gene flow, and the split of common chimpanzees into two distinct groups: Nigeria-Cameroon/western and central/eastern populations. We find extensive inbreeding in almost all wild populations, with eastern gorillas being the most extreme. Inferred effective population sizes have varied radically over time in different lineages and this appears to have a profound effect on the genetic diversity at, or close to, genes in almost all species. We discover and assign 1,982 loss-of-function variants throughout the human and great ape lineages, determining that the rate of gene loss has not been different in the human branch compared to other internal branches in the great ape phylogeny. This comprehensive catalogue of great ape genome diversity provides a framework for understanding evolution and a resource for more effective management of wild and captive great ape populations.

Published

2013

2. Species association of hepatitis B virus (HBV) in non-human apes; evidence for recombination between gorilla and chimpanzee variants.

Author

Lyons S, Sharp C, LeBreton M, Djoko CF, Kiyang JA, Lankester F, Bibila TG, Tamoufé U, Fair J, Wolfe ND, and Simmonds P

Subjects

Animals, Base Sequence, Genome, Viral genetics, Hepatitis B virus isolation & purification, Humans, Phylogeny, Species Specificity, Genetic Variation, Gorilla gorilla virology, Hepatitis B virus genetics, Hepatitis B virus physiology, Pan troglodytes virology, Recombination, Genetic genetics

Abstract

Hepatitis B virus (HBV) infections are widely distributed in humans, infecting approximately one third of the world's population. HBV variants have also been detected and genetically characterised from Old World apes; Gorilla gorilla (gorilla), Pan troglodytes (chimpanzee), Pongo pygmaeus (orang-utan), Nomascus nastusus and Hylobates pileatus (gibbons) and from the New World monkey, Lagothrix lagotricha (woolly monkey). To investigate species-specificity and potential for cross species transmission of HBV between sympatric species of apes (such as gorillas and chimpanzees in Central Africa) or between humans and chimpanzees or gorillas, variants of HBV infecting captive wild-born non-human primates were genetically characterised. 9 of 62 chimpanzees (11.3%) and two from 11 gorillas (18%) were HBV-infected (15% combined frequency), while other Old world monkey species were negative. Complete genome sequences were obtained from six of the infected chimpanzee and both gorillas; those from P. t .ellioti grouped with previously characterised variants from this subspecies. However, variants recovered from P. t. troglodytes HBV variants also grouped within this clade, indicative of transmission between sub-species, forming a paraphyletic clade. The two gorilla viruses were phylogenetically distinct from chimpanzee and human variants although one showed evidence for a recombination event with a P.t.e.-derived HBV variant in the partial X and core gene region. Both of these observations provide evidence for circulation of HBV between different species and sub-species of non-human primates, a conclusion that differs from the hypothesis if of strict host specificity of HBV genotypes.

Published

2012

3. Widespread infection with homologues of human parvoviruses B19, PARV4, and human bocavirus of chimpanzees and gorillas in the wild.

Author

Sharp CP, LeBreton M, Kantola K, Nana A, Diffo Jle D, Djoko CF, Tamoufe U, Kiyang JA, Babila TG, Ngole EM, Pybus OG, Delwart E, Delaporte E, Peeters M, Soderlund-Venermo M, Hedman K, Wolfe ND, and Simmonds P

Subjects

Animals, Animals, Wild virology, Ape Diseases epidemiology, Cameroon epidemiology, Cercopithecidae virology, Evolution, Molecular, Genetic Variation, Humans, Molecular Epidemiology, Molecular Sequence Data, Monkey Diseases epidemiology, Monkey Diseases virology, Parvoviridae Infections epidemiology, Parvoviridae Infections virology, Parvovirus classification, Parvovirus genetics, Parvovirus isolation & purification, Phylogeny, Recombination, Genetic, Seroepidemiologic Studies, Species Specificity, Ape Diseases virology, Gorilla gorilla virology, Human bocavirus classification, Human bocavirus genetics, Human bocavirus isolation & purification, Pan troglodytes virology, Parvoviridae Infections veterinary, Parvovirus B19, Human classification, Parvovirus B19, Human genetics, Parvovirus B19, Human isolation & purification

Abstract

Infections with human parvoviruses B19 and recently discovered human bocaviruses (HBoVs) are widespread, while PARV4 infections are transmitted parenterally and prevalent specifically in injecting drug users and hemophiliacs. To investigate the exposure and circulation of parvoviruses related to B19 virus, PARV4, and HBoV in nonhuman primates, plasma samples collected from 73 Cameroonian wild-caught chimpanzees and gorillas and 91 Old World monkey (OWM) species were screened for antibodies to recombinant B19 virus, PARV4, and HBoV VP2 antigens by enzyme-linked immunosorbent assay (ELISA). Moderate to high frequencies of seroreactivity to PARV4 (63% and 18% in chimpanzees and gorillas, respectively), HBoV (73% and 36%), and B19 virus (8% and 27%) were recorded for apes, while OWMs were uniformly negative (for PARV4 and B19 virus) or infrequently reactive (3% for HBoV). For genetic characterization, plasma samples and 54 fecal samples from chimpanzees and gorillas collected from Cameroonian forest floors were screened by PCR with primers conserved within Erythrovirus, Bocavirus, and PARV4 genera. Two plasma samples (chimpanzee and baboon) were positive for PARV4, while four fecal samples were positive for HBoV-like viruses. The chimpanzee PARV4 variant showed 18% and 15% nucleotide sequence divergence in NS and VP1/2, respectively, from human variants (9% and 7% amino acid, respectively), while the baboon variant was substantially more divergent, mirroring host phylogeny. Ape HBoV variants showed complex sequence relationships with human viruses, comprising separate divergent homologues of HBoV1 and the recombinant HBoV3 species in chimpanzees and a novel recombinant species in gorillas. This study provides the first evidence for widespread circulation of parvoviruses in primates and enables future investigations of their epidemiology, host specificity, and (co)evolutionary histories.

Published

2010

4. Dientamoeba fragilis: initial evidence of pathogenicity in the western lowland gorilla (Gorilla gorilla gorilla).

Author

Lankester F, Kiyang JA, Bailey W, and Unwin S

Subjects

Animals, Dientamoebiasis drug therapy, Feces parasitology, Female, Gorilla gorilla, Antiprotozoal Agents therapeutic use, Ape Diseases drug therapy, Dientamoeba, Dientamoebiasis veterinary, Metronidazole therapeutic use

Abstract

A 7-yr-old female western lowland gorilla (Gorilla gorilla gorilla) shared an enclosure with 10 other gorillas at the Limbe Wildlife Centre (LWC), a wildlife rehabilitation centre in Cameroon. The gorilla had been living at the LWC for more than 6 yr prior to the exhibition of irritable bowel syndrome (IBS)-like clinical signs. The gorilla improved dramatically after metronidazole therapy. The report suggests that metronidazole was effective because it eliminated the protozoa, Dientamoeba fragilis. Dientamoeba fragilis should be considered on the differential diagnosis list of any captive gorilla with IBS-like symptoms.

Published

2010

5. Tracing the origins of rescued chimpanzees reveals widespread chimpanzee hunting in Cameroon.

Author

Ghobrial L, Lankester F, Kiyang JA, Akih AE, de Vries S, Fotso R, Gadsby EL, Jenkins PD Jr, and Gonder MK

Subjects

Animals, Cameroon, Cluster Analysis, Crime, DNA, Mitochondrial genetics, Gene Frequency, Genotype, Geography, Humans, Microsatellite Repeats, Nigeria, Sequence Analysis, DNA, Conservation of Natural Resources, Pan troglodytes genetics

Abstract

Background: While wild chimpanzees are experiencing drastic population declines, their numbers at African rescue and rehabilitation projects are growing rapidly. Chimpanzees follow complex routes to these refuges; and their geographic origins are often unclear. Identifying areas where hunting occurs can help law enforcement authorities focus scarce resources for wildlife protection planning. Efficiently focusing these resources is particularly important in Cameroon because this country is a key transportation waypoint for international wildlife crime syndicates. Furthermore, Cameroon is home to two chimpanzee subspecies, which makes ascertaining the origins of these chimpanzees important for reintroduction planning and for scientific investigations involving these chimpanzees., Results: We estimated geographic origins of 46 chimpanzees from the Limbe Wildlife Centre (LWC) in Cameroon. Using Bayesian approximation methods, we determined their origins using mtDNA sequences and microsatellite (STRP) genotypes compared to a spatial map of georeferenced chimpanzee samples from 10 locations spanning Cameroon and Nigeria. The LWC chimpanzees come from multiple regions of Cameroon or forested areas straddling the Cameroon-Nigeria border. The LWC chimpanzees were partitioned further as originating from one of three biogeographically important zones occurring in Cameroon, but we were unable to refine these origin estimates to more specific areas within these three zones., Conclusions: Our findings suggest that chimpanzee hunting is widespread across Cameroon. Live animal smuggling appears to occur locally within Cameroon, despite the existence of local wildlife cartels that operate internationally. This pattern varies from the illegal wildlife trade patterns observed in other commercially valuable species, such as elephants, where specific populations are targeted for exploitation. A broader sample of rescued chimpanzees compared against a more comprehensive grid of georeferenced samples may reveal 'hotspots' of chimpanzee hunting and live animal transport routes in Cameroon. These results illustrate also that clarifying the origins of refuge chimpanzees is an important tool for designing reintroduction programs. Finally, chimpanzees at refuges are frequently used in scientific investigations, such as studies investigating the history of zoonotic diseases. Our results provide important new information for interpreting these studies within a precise geographical framework.

Published

2010