Your search keyword '"Assam macaque"' showing total 4 results

1. Association of TRIMCyp and TRIM5α from assam macaques leads to a functional trade-off between HIV-1 and N-MLV inhibition.

Author

Mu, Dan, Zhu, Jia-Wu, Liu, Feng-Liang, Zheng, Hong-Yi, and Zheng, Yong-Tang

Abstract

TRIM5α restricts retroviruses in a species-specific manner. Cyclophilin A was independently retrotransposed into the TRIM5 loci in different species, leading to the generation of antiviral TRIM5-cyclophilin A (TRIMCyp) proteins. Previously, we found that assam macaques express a TRIMCyp chimera (amTRIMCyp), along with a TRIM5α allelic protein (amTRIM5α). Herein, we investigated the antiviral activity of amTRIMCyp and amTRIM5α individually, as well as their interaction and joint effects. amTRIMCyp showed a divergent restriction pattern from amTRIM5α. Although both proteins potently restricted the replication of HIV-1, only amTRIM5α inhibited N-MLV. Remarkably, cellular anti-HIV-1 activity increased when amTRIMCyp and amTRIM5α were coexpressed, indicating a synergistic block of HIV-1 replication. Consistently, PMBCs from heterozygous amTRIM5α/TRIMCyp showed stronger resistance to HIV-1 infection than those from amTRIM5α/TRIM5α homozygotes. The anti-HIV-1 synergistic effect was dependent on the amTRIMCyp-amTRIM5α interaction. In contrast, amTRIMCyp completely abrogated the anti-N-MLV activity mediated by amTRIM5α, showing a dominant-negative effect, indicating that the generation of amTRIMCyp was involved in the trade-off between divergent restriction activities. Our results provide a new paradigm to study functional trade-offs mediated by allelic proteins, a theoretical basis for utilizing animal models with various TRIM5 alleles, as well as novel HIV-1 gene therapy strategies. [ABSTRACT FROM AUTHOR]

Published

2018

2. Multilocus phylogeny suggests a distinct species status for the Nepal population of Assam macaques (Macaca assamensis): implications for evolution and conservation

Author

Mukesh Kumar Chalise, Xue-Long Jiang, Peng-Fei Fan, Laxman Khanal, and Randall C. Kyes

Subjects

0106 biological sciences, Mitochondrial DNA, paraphyletic, macaques, Population, Biology, Subspecies, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, taxonomy, Phylogenetics, lcsh:Zoology, Assam macaque, lcsh:QL1-991, Clade, education, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, education.field_of_study, Ecology, Phylogenetic tree, sinica-group, Small population size, biology.organism_classification, Evolutionary biology, himalaya, Animal Science and Zoology

Abstract

Phylogenetic relationships within the sinica-group of macaques based on morphological, behavioral, and molecular characteristics have remained controversial. The Nepal population of Assam macaques ( Macaca assamensis) (NPAM), the westernmost population of the species, is morphologically distinct but has never been used in phylogenetic analyses. Here, the phylogenetic relationship of NPAM with other congeners was tested using multiple mitochondrial and Y-chromosomal loci. The divergence times and evolutionary genetic distances among macaques were also estimated. Results revealed two major mitochondrial DNA clades of macaques under the sinica-group: the first clade included M. thibetana, M. sinica, and eastern subspecies of Assam macaque ( M. assamensis assamensis); the second clade included M. radiata together with species from the eastern and central Himalaya, namely, M. leucogenys, M. munzala, and NPAM. Among the second-clade species, NPAM was the first to diverge from the other members of the clade around 1.9 million years ago. Our results revealed that NPAM is phylogenetically distinct from the eastern Assam macaques and closer to other species and hence may represent a separate species. Because of its phylogenetic distinctiveness, isolated distribution, and small population size, the Nepal population of sinica-group macaques warrants detailed taxonomic revision and high conservation priority.

Published

2021

3. Mitochondrial DNA analyses and ecological niche modeling reveal post-LGM expansion of the Assam macaque (Macaca assamensis) in the foothills of Nepal Himalaya

Author

Laxman Khanal, Xue-Long Jiang, Yoshi Kawamoto, Bipin Kumar Acharya, Mukesh Kumar Chalise, and Kai He

Subjects

0106 biological sciences, 0301 basic medicine, Demographic history, Climate Change, Population, Population genetics, DNA, Mitochondrial, Models, Biological, 010603 evolutionary biology, 01 natural sciences, Nucleotide diversity, Feces, 03 medical and health sciences, Nepal, Animals, Assam macaque, education, Ecosystem, Ecology, Evolution, Behavior and Systematics, Isolation by distance, education.field_of_study, Genetic diversity, biology, Ecology, Genetic Variation, biology.organism_classification, 030104 developmental biology, Haplotypes, Genetic structure, Macaca, Animal Science and Zoology, Animal Distribution, human activities

Abstract

Genetic diversity of a species is influenced by multiple factors, including the Quaternary glacial-interglacial cycles and geophysical barriers. Such factors are not yet well documented for fauna from the southern border of the Himalayan region. This study used mitochondrial DNA (mtDNA) sequences and ecological niche modeling (ENM) to explore how the late Pleistocene climatic fluctuations and complex geography of the Himalayan region have shaped genetic diversity, population genetic structure, and demographic history of the Nepalese population of Assam macaques (Macaca assamensis) in the Himalayan foothills. A total of 277 fecal samples were collected from 39 wild troops over almost the entire distribution of the species in Nepal. The mtDNA fragment encompassing the complete control region (1121 bp) was recovered from 208 samples, thus defining 54 haplotypes. Results showed low nucleotide diversity (0.0075 ± SD 0.0001) but high haplotype diversity (0.965 ± SD 0.004). The mtDNA sequences revealed a shallow population genetic structure with a moderate but statistically significant effect of isolation by distance. Demographic history analyses using mtDNA sequences suggested a post-pleistocene population expansion. Paleodistribution reconstruction projected that the potential habitat of the Assam macaque was confined to the lower elevations of central Nepal during the Last Glacial Maximum. With the onset of the Holocene climatic optimum, the glacial refugia population experienced eastward range expansion to higher elevations. We conclude that the low genetic diversity and shallow population genetic structure of the Assam macaque population in the Nepal Himalaya region are the consequence of recent demographic and spatial expansion.

Published

2018

4. On the morphology, behaviour and systematic status of the assam macaque (Macaca assamensis McClelland, 1839)

Author

Irwin S. Bernstein and W. C. Osman Hill

Subjects

biology, Craniology, Animal ecology, Zoology, Assam macaque, Animal Science and Zoology, Morphology (biology), Subgenus, biology.organism_classification

Abstract

Studies on a living and freshly dead male ofM. assamensis at Y.R.P.R.C. supplemented by notes on a living pair and their male offspring observed at the Z.S.L., enable us to supplement existing data on the somatology, craniology, dental anatomy and behavioural features of the species. Collectively the new data necessitate taxonomic revision of the status of the species, viz: its removal from immediate association withM. mulatta (subgenusMaimon) and alignment within the subgenusZati. Zoogeographical discontinuity in this subgenus is compared with that of the subgenusSilenus.

Published

1969