2015年，福建农林大学生物科学专业，学士学位；
2022年，中国科学院分子植物科学卓越创新中心遗传学专业，博士学位；
2022年，厦门大学生命科学学院，副教授，博导；
2023年，入选第九届中国科协青年人才托举工程；
2024年，获福建省优秀青年科学基金资助；
2025年，获国家自然科学基金优秀青年基金/青年项目（B类）资助；
2025年，厦门大学南强青年拔尖人才A类；
2025年至今，厦门大学生命科学学院，教授，博导
B.S. 2015, Fujian Agriculture and Forestry University, Biology;
Ph.D. 2022, CAS Center for Excellence in Molecular Plant Sciences, Genetics;
Associate Professor, School of Life Sciences, Xiamen University, 2022；
Professor, School of Life Sciences, Xiamen University, 2025 to present.

植物在生长过程会受到多种环境胁迫压力的影响，其中高温、干旱和盐碱等是造成世界粮食减产最为主要的胁迫因子。我们以水稻等粮食作物为主要研究对象，利用遗传学、分子生物学、转录组学和细胞生物学等手段，揭示作物逆境抗性基因的分子调控机理，为作物育种改良提供了重要的基因资源和理论依据。研究成果发表于Science、Sci. Bull.、JGG等期刊，入选2022年度中国生命科学“十大进展”和中国科学院上海分院2022年度科技创新“十大进展”。欢迎加入本课题组，一起学习交流和进步！
Plants are easily influenced by various environmental stress, among which high temperature, drought and salinization are the most severe stress factors leading to the reduction of crops yield. Taking rice and other crops as the main research object, we use genetics, molecular biology, transcriptomics and cell biology to reveal molecular mechanisms of stress resistance genes, thereby providing excellent genetic resources for crops breeding and improvement. The research findings have been published in journals such as Science, Science Bulletin, and Journal of Genetics and Genomics. This work was recognized as one of the "Top 10 Advances in Life Sciences in China 2022" and was also listed among the "Top 10 Scientific and Technological Innovations of the Shanghai Branch of the Chinese Academy of Sciences in 2022." Join us to be part of this exciting work—let's learn, exchange, and grow together.

代表性论文(^# co-first author, ^* Corresponding author):

1. Tao, W., L. Qiu, J. Zheng, L. Jiang, Q. Xu, S. Xu, S. Song, Z. Fan, Q. Zheng, Q. Wu, J. Han, R. Li, J. Wang, Y. Cui, X. Huang, C. Zheng*, H. Zhang*, R. Huang*, and X. Ouyang*. 2025. A gap-free and haplotype-resolved genome of an early-season indica variety provides insights into rice thermotolerance and grain quality. J Genet Genomics, 52: 1417-20.（共通讯）
2. Wenchuang He; Huiying He; Qiaoling Yuan; Hai Zhang；Xiaoxia Li; Tianyi Wang; YingxueYang; Longbo Yang; Yuting Yang; Xiangpei Liu; Hua Wei; Hong Zhang; Bin Zhang; Mingliang Guo; YueLeng; Chuanlin Shi; Yang Lv; Wu Chen; Xianmeng Wang; Zhipeng Zhang; Bohui Yu; Bintao Zhang; Qiang Xu; Hongge Qian; Yongfeng Zhou; Shaokui Wang; Qian Qian; Lianguang Shang ; Widespread inversions shape the genetic and phenotypic diversity in rice, Science Bulletin, 2023, 69(5): 593-596（共一,封面）
3. Hai Zhang, Ji-Fu Zhou, Yi Kan, Jun-Xiang Shan, Wang-Wei Ye, Nai-Qian Dong, Tao GuoYou-Huang Xiang, Yi-Bing Yang Ya-Chao Li, Huai-Yu Zhao, Hong-Xiao Yu1, Zi-Qi Lu, Shuang-Qin Guo, Jie-Jie Lei, Ben Liao, Xiao-Rui Mu, Ying-Jie Cao, Jia-Jun Yu, Youshun Lin*, Hong-Xuan Lin.* (2022). A genetic module at one locus in rice protects chloroplasts to enhance thermotolerance. Science, 376, 1293-1300. （独立一作，2022年度中国生命科学十大进展）
4. Xiang, Y.H., Yu, J.J., Liao, B., Shan, J.X., Ye, W.W., Dong, N.Q., Guo, T., Kan, Y., Zhang, H. , Yang, Y.B., Li, Y.C., Zhao, H.Y., Yu, H.X., Lu, Z.Q., Lin, H.X.* (2022). An α/β hydrolase family member negatively regulates salt tolerance but promotes flowering through three distinct functions in rice. Mol Plant. S1674-2052(22)00369-0.
5. Kan, Y., Mu, X.-R., Zhang, H. , Gao, J., Shan, J.-X., Ye, W.-W., and Lin, H.-X.* (2022). TT2 controls rice thermotolerance through SCT1-dependent alteration of wax biosynthesis. Nature Plants. 8(1):53-67
6. Yi-Min Zhang, Hong-Xiao Yu, Wang-Wei Ye, Jun-Xiang Shan, Nai-Qian Dong, Tao Guo, Yi Kan, You-Huang Xiang, Hai Zhang, Yi-Bing Yang, Ya-Chao Li, Huai-Yu Zhao, Zi-Qi Lu, Shuang-Qin Guo, Jie-Jie Lei, Ben Liao, Xiao-Rui Mu, Ying-Jie Cao, Jia-Jun Yu, Hong-Xuan Lin. (2021). A rice QTL GS3.1 regulates grain size through metabolic-flux distribution between flavonoid and lignin metabolons without affecting stress tolerance. Commun Biol .4, 1171.
7. Dong, N. Q., Y. Sun, T. Guo, C. L. Shi, Y. M. Zhang, Y. Kan, Y. H. Xiang, H. Zhang, Y. B. Yang, Y. C. Li, H. Y. Zhao, H. X. Yu, Z. Q. Lu, Y. Wang, W. W. Ye, J. X. Shan and H. X. Lin. (2020). UDP-glucosyltransferase regulates grain size and abiotic stress tolerance associated with metabolic flux redirection in rice. Nat Commun. 11(1): 2629.
8. Chen K#, Guo T#, Li XM#, Zhang YM, Yang YB, Ye WW, Dong NQ, Shi CL, Kan Y, Xiang YH, Zhang H, Li YC, Gao JP, Huang X, Zhao Q, Han B, Shan JX, Lin HX (2019) Translational Regulation of Plant Response to High Temperature by a Dual Function tRNAHis Guanylyltransferase in Rice. Mol Plant.12: 1123–1142.

荣誉、奖励及参加学术团体的情况:

指导本科生获得：
2025大学生生命科学竞赛（福建省）一等奖、
2025大学生生命科学竞赛（全国）一等奖；
个人获奖：
中国科学院大学优秀毕业生
北京市优秀毕业生
上海科技大学2022届校长奖