Genomic-transcriptomic analysis identifies the Syrian hamster as a superior animal model for human diseases

Wang, Chuchu; Cheng, Zhenguo; Miao, Jinxin; Xue, Xia; Dong, Yunshu; Zhao, Li; Guo, Haoran; Wang, Jianyao; Wang, Zhizhong; Lu, Shuangshuang; Fang, Guangming; Peng, Ying; Zhai, Yafei; Zhang, Zhongxian; Gao, Dongling; Wang, Zhimin; Wang, Pengju; Zhang, Lirong; Dunmall, Louisa S Chard; Wang, Jun; Tang, Wenxue; Li, Xiaowei; Ding, Zhongren; Zhao, Xiaoyan; Li, Ling; Lemoine, Nicholas R.; Wang, Zhongde; Tonge, Daniel; Tan, Wenjie; Dong, Jianzeng; Wang, Yaohe

doi:10.1186/s12864-025-11393-4

Genomic-transcriptomic analysis identifies the Syrian hamster as a superior animal model for human diseases

Wang, Chuchu; Cheng, Zhenguo; Miao, Jinxin; Xue, Xia; Dong, Yunshu; Zhao, Li; Guo, Haoran; Wang, Jianyao; Wang, Zhizhong; Lu, Shuangshuang; Fang, Guangming; Peng, Ying; Zhai, Yafei; Zhang, Zhongxian; Gao, Dongling; Wang, Zhimin; Wang, Pengju; Zhang, Lirong; Dunmall, Louisa S Chard; Wang, Jun; Tang, Wenxue; Li, Xiaowei; Ding, Zhongren; Zhao, Xiaoyan; Li, Ling; Lemoine, Nicholas R.; Wang, Zhongde; Tonge, Daniel; Tan, Wenjie; Dong, Jianzeng; Wang, Yaohe

Authors

Chuchu Wang

Zhenguo Cheng

Jinxin Miao

Xia Xue

Yunshu Dong

Li Zhao

Haoran Guo

Jianyao Wang

Zhizhong Wang

Shuangshuang Lu

Guangming Fang

Ying Peng

Yafei Zhai

Zhongxian Zhang

Dongling Gao

Zhimin Wang

Pengju Wang

Lirong Zhang

Louisa S Chard Dunmall

Jun Wang

Wenxue Tang

Xiaowei Li

Zhongren Ding

Xiaoyan Zhao

Ling Li

Nicholas R. Lemoine

Zhongde Wang

Daniel Tonge d.p.tonge@keele.ac.uk

Wenjie Tan

Jianzeng Dong

Yaohe Wang

Abstract

Background: The Syrian hamster (Mesocricetus auratus) has shown promise as a human diseases model, recapitulating features of different human diseases including COVID-19. However, the landscape of its genome and transcriptome has not been systematically dissected, restricting its potential applications. Results: Here we provide a complete analysis of the genome and transcriptome of the Syrian hamster and found that its lineage diverged from that of the Chinese hamster (Cricetulus griseus) around 29.4 million years ago. 21,387 protein-coding genes were identified, with 90.03% of the 2.56G base pair sequence being anchored to 22 chromosomes. Further comparison of the transcriptomes from 15 tissues of the Syrian hamster revealed that the Syrian hamster shares a pattern of alternative splicing modes more similar to humans, compared to rats and mice. An integrated genomic-transcriptomic analysis revealed that the Syrian hamster also has genetic and biological advantages as a superior animal model for cardiovascular diseases. Strikingly, several genes involved in SARS-COV-2 infection, including ACE2, present a higher homology with humans compared to other rodents and show the same function as their human counterparts. Conclusion: The detailed molecular characterisation of the Syrian hamster in the present study opens a wealth of fundamental resources from this small rodent for future research into human disease pathology and treatment.

Citation

Wang, C., Cheng, Z., Miao, J., Xue, X., Dong, Y., Zhao, L., Guo, H., Wang, J., Wang, Z., Lu, S., Fang, G., Peng, Y., Zhai, Y., Zhang, Z., Gao, D., Wang, Z., Wang, P., Zhang, L., Dunmall, L. S. C., Wang, J., …Wang, Y. (in press). Genomic-transcriptomic analysis identifies the Syrian hamster as a superior animal model for human diseases. BMC Genomics, 26(1), 1-18. https://doi.org/10.1186/s12864-025-11393-4

Journal Article Type	Article
Acceptance Date	Feb 20, 2025
Online Publication Date	Mar 24, 2025
Deposit Date	Apr 2, 2025
Publicly Available Date	Apr 2, 2025
Journal	BMC Genomics
Electronic ISSN	1471-2164
Publisher	Springer Verlag
Peer Reviewed	Peer Reviewed
Volume	26
Issue	1
Article Number	286
Pages	1-18
DOI	https://doi.org/10.1186/s12864-025-11393-4
Keywords	Syrian hamster, Omics, SARS-COV-2, Cardiovascular disease, Cancer, Model animal
Public URL	https://keele-repository.worktribe.com/output/1112645

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