Genomics, Proteomics & Bioinformatics (Feb 2023)

The First High-quality Reference Genome of Sika Deer Provides Insights into High-tannin Adaptation

  • Xiumei Xing,
  • Cheng Ai,
  • Tianjiao Wang,
  • Yang Li,
  • Huitao Liu,
  • Pengfei Hu,
  • Guiwu Wang,
  • Huamiao Liu,
  • Hongliang Wang,
  • Ranran Zhang,
  • Junjun Zheng,
  • Xiaobo Wang,
  • Lei Wang,
  • Yuxiao Chang,
  • Qian Qian,
  • Jinghua Yu,
  • Lixin Tang,
  • Shigang Wu,
  • Xiujuan Shao,
  • Alun Li,
  • Peng Cui,
  • Wei Zhan,
  • Sheng Zhao,
  • Zhichao Wu,
  • Xiqun Shao,
  • Yimeng Dong,
  • Min Rong,
  • Yihong Tan,
  • Xuezhe Cui,
  • Shuzhuo Chang,
  • Xingchao Song,
  • Tongao Yang,
  • Limin Sun,
  • Yan Ju,
  • Pei Zhao,
  • Huanhuan Fan,
  • Ying Liu,
  • Xinhui Wang,
  • Wanyun Yang,
  • Min Yang,
  • Tao Wei,
  • Shanshan Song,
  • Jiaping Xu,
  • Zhigang Yue,
  • Qiqi Liang,
  • Chunyi Li,
  • Jue Ruan,
  • Fuhe Yang

Journal volume & issue
Vol. 21, no. 1
pp. 203 – 215

Abstract

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Sika deer are known to prefer oak leaves, which are rich in tannins and toxic to most mammals; however, the genetic mechanisms underlying their unique ability to adapt to living in the jungle are still unclear. In identifying the mechanism responsible for the tolerance of a highly toxic diet, we have made a major advancement by explaining the genome of sika deer. We generated the first high-quality, chromosome-level genome assembly of sika deer and measured the correlation between tannin intake and RNA expression in 15 tissues through 180 experiments. Comparative genome analyses showed that the UGT and CYP gene families are functionally involved in the adaptation of sika deer to high-tannin food, especially the expansion of the UGT family 2 subfamily B of UGT genes. The first chromosome-level assembly and genetic characterization of the tolerance to a highly toxic diet suggest that the sika deer genome may serve as an essential resource for understanding evolutionary events and tannin adaptation. Our study provides a paradigm of comparative expressive genomics that can be applied to the study of unique biological features in non-model animals.

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