田雷，博士，德国洪堡学者，四川大学研究员、博士生导师。入选国家自然基金委海外高层次人才青年项目、四川大学“双百人才工程”计划。长期从事植物—微生物互作以及植物病原真菌遗传发育与侵染致病机制研究。相关研究成果以第一作者（含共同）在 Science、Cell、Nature Communications、Trends in Genetics、The Plant Cell 等国际知名期刊发表论文十余篇。担任PNAS、New Phytologist等多个期刊审稿人。

联系方式：lei.tian@scu.edu.cn

学习及工作经历

2015.09-2019.06  南开大学，生物科学拔尖计划伯苓班，学士

2019.09-2023.06  加拿大英属哥伦比亚大学，植物学博士

2023.07-2023.09  加拿大英属哥伦比亚大学，博士后

2023.10-2026.03  德国哥廷根大学，博士后

2026.05-至今       四川大学生命科学学院，研究员，博士生导师

主要研究方向

1. 植物病原真菌（如核盘菌）抵御环境微生物侵袭的免疫防御机制研究及其在作物病害防控中的应用。

2. 植物—微生物及微生物—微生物互作过程中介导信号转导和信息交流的次级代谢产物与小分子的挖掘与解析。

课题组欢迎本科、硕士、博士研究生和博士后加盟！

代表性论文（#共同第一作者，*通讯作者）

1. Tian, L. #, Chen, X. #, Weerasinghe, T. #, Wang, A., Wang, S., Zhang, Y., Fischer, M.*, and Li, X.* (2026). Beyond the ‘one nucleus, one whole genome’ rule. Trends in Genetics, 42, 212-214.

2. Tian, L., and Feussner, I.* (2025). Hidden route to salicylic acid has finally been uncovered. Plant Communications, 6(10).

3. Tian, L. #, Xu, Y. #, Li, J., Tan, J., Zhang, Y., and Li, X.* (2025). Normal meiosis in the fungus Sclerotinia sclerotiorum despite the irregular distribution of haploid chromosomes between two nuclei. Nature Communications, 16(1), 7492.

4. Xu, Y. #, Tian, L. #, Tan, J. #, Huang, W., Li, J., O’Neil, N. J., Hirst, M., Hieter, P., Zhang, Y. *, and Li, X. * (2025). Distribution of haploid chromosomes into separate nuclei in two pathogenic fungi. Science, 388(6748), 784-788.

5. Tian, L. #, Hossbach, B. M. #, and Feussner, I.* (2024). Small size, big impact: Small molecules in plant systemic immune signaling. Current Opinion in Plant Biology, 81, 102618.

6. Tian, L., Li, J., Xu, Y., Qiu, Y., Zhang, Y., and Li, X.* (2024). A MAP kinase cascade broadly regulates the lifestyle of Sclerotinia sclerotiorum and can be targeted by HIGS for disease control. The Plant Journal, 118(2), 324-344.

7. Gong, Y. #, Tian, L. #, Kontos, I., Li, J., and Li, X.* (2023). Plant immune signaling network mediated by helper NLRs. Current Opinion in Plant Biology, 73, 102354.

8. Tian, L., Lu, J., and Li, X.* (2022). Differential requirement of TIR enzymatic activities in TIR-type immune receptor SNC1-mediated immunity. Plant Physiology, 190(4), 2094-2098.

9. Tian, L., and Li, X.* (2022). TIR domains as two-tiered enzymes to activate plant immunity. Cell, 185(13), 2208-2209.

10. Wu, Z. #, Tian, L. #, Liu, X., Huang, W., Zhang, Y., and Li, X.* (2022). The N-terminally truncated helper NLR NRG1C antagonizes immunity mediated by its full-length neighbors NRG1A and NRG1B. The Plant Cell, 34(5), 1621-1640.

11. Wu, Z. #, Tian, L. #, Liu, X., Zhang, Y., and Li, X.* (2021). TIR signal promotes interactions between lipase-like proteins and ADR1-L1 receptor and ADR1-L1 oligomerization. Plant Physiology, 187(2), 681-686.

12. Tian, L., and Li, X.* (2020). Enzyme formation by immune receptors. Science, 370(6521), 1163-1164.