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Population genomic analysis provides evidence of the past success and future potential of South China tiger captive conservation
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View Archive Info| Field | Value | |
| Title |
Population genomic analysis provides evidence of the past success and future potential of South China tiger captive conservation
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| Creator |
Chen Wang
Dong Dong Wu Yao Hua Yuan Meng Cheng Yao Han Jianlin Ya Jiang Wu Fen Shan Wan Ping Li Jun Qiong Zhai Mian Huang Shi Ming Peng Qin Hui Cai Jian Yi Yu Qun Xiu Liu Zhao Yang Liu Lin Xiang Li Ming Sheng Teng Wei Huang Jun Ying Zhou Chi Zhang Wu Chen Xiao Long Tu |
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| Subject |
animal breeding
genetics tigers cell biology physiology biotechnology |
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| Description |
Background Among six extant tiger subspecies, the South China tiger (Panthera tigris amoyensis) once was widely distributed but is now the rarest one and extinct in the wild. All living South China tigers are descendants of only two male and four female wild-caught tigers and they survive solely in zoos after 60 years of effective conservation efforts. Inbreeding depression and hybridization with other tiger subspecies were believed to have occurred within the small, captive South China tiger population. It is therefore urgently needed to examine the genomic landscape of existing genetic variation among the South China tigers. Results In this study, we assembled a high-quality chromosome-level genome using long-read sequences and re-sequenced 29 high-depth genomes of the South China tigers. By combining and comparing our data with the other 40 genomes of six tiger subspecies, we identified two significantly differentiated genomic lineages among the South China tigers, which harbored some rare genetic variants introgressed from other tiger subspecies and thus maintained a moderate genetic diversity. We noticed that the South China tiger had higher FROH values for longer runs of homozygosity (ROH > 1 Mb), an indication of recent inbreeding/founder events. We also observed that the South China tiger had the least frequent homozygous genotypes of both high- and moderate-impact deleterious mutations, and lower mutation loads than both Amur and Sumatran tigers. Altogether, our analyses indicated an effective genetic purging of deleterious mutations in homozygous states from the South China tiger, following its population contraction with a controlled increase in inbreeding based on its pedigree records. Conclusions The identification of two unique founder/genomic lineages coupled with active genetic purging of deleterious mutations in homozygous states and the genomic resources generated in our study pave the way for a genomics-informed conservation, following the real-time monitoring and rational exchange of reproductive South China tigers among zoos. |
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| Date |
2023-04-18
2023-04-23T10:53:34Z 2023-04-23T10:53:34Z |
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| Type |
Journal Article
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| Identifier |
Chen Wang, Dong Dong Wu, Yao Hua Yuan, Meng Cheng Yao, Jian Lin Han, Ya Jiang Wu, Fen Shan, Wan Ping Li, Jun Qiong Zhai, Mian Huang, Shi Ming Peng, Qin Hui Cai, Jian Yi Yu, Qun Xiu Liu, Zhao Yang Liu, Lin Xiang Li, Ming Sheng Teng, Wei Huang, Jun Ying Zhou, Chi Zhang, Wu Chen and Xiao Long Tu. 2023. Population genomic analysis provides evidence of the past success and future potential of South China tiger captive conservation. BMC Biology 21:64.
1741-7007 https://hdl.handle.net/10568/130118 https://doi.org/10.1186/s12915-023-01552-y |
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| Language |
en
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| Rights |
CC-BY-4.0
Open Access |
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| Publisher |
Springer
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| Source |
BMC Biology
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