姓 名:王孝林 | ||||
技术职称:首聘教授 | ||||
学位学历:博士研究生 | ||||
导师类别:博士生导师 | ||||
联系电话: | ||||
邮 箱:xlwang@scau.edu.cn |
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王孝林 ,首聘教授、硕士生导师/博士生导师。
研究领域:
植物微生物组对宿主的营养吸收、生长发育和环境适应至关重要,被称为植物的“第二基因组”。实验室结合分子生态学、宏基因组学、多组学关联分析和微生物菌群重组等技术,从事植物微生物组、植物基因组与环境三者的相互作用研究。主要研究方向包括:
(1)植物微生物组与植物-微生物共生;
(2)植物微生物组的群落构建与稳态维持;
(3)植物微生物组与宿主的协同进化机制。
教育经历:
2013 -2018 中国农业大学生物学院,微生物学,博士
2009 -2013 江南大学生物工程学院,生物技术,学士
工作经历:
2023-至今,澳门十大赌博正规官网,首聘教授
2018 -2023,中国科学院分子植物科学卓越创新中心,博士后
主要研究成果:
长期致力于植物微生物组学研究,“千种植物微生物组计划”(The 1,000 Plant Microbiomes Project,1KPM)的主要设计和执行人之一。目前,以(共同)第一或微生物组学负责人在Nature,Cell,Molecular Plant,Science Bulletin,Nature Communications,Plant Biotechnology Journal,Soil Biology and Biochemistry等国际著名期刊发表多篇研究论文,并受邀在Annual Review of Plant Biology和植物生理学报等期刊撰写综述。主要学术成果包括:
(1)建立植物根际微生物群落的“扩增-选择”组装模型;
(2)揭示丛枝菌根共生与根瘤共生在植物根际层面的协同进化机制;
(3)通过多组学联动技术,将菌群稳态失调和双生病毒侵染与大豆重大病害“症青”的发生建立关联,为农作物病原的快速鉴定提供了范例;
(4)提出植物“农业精准微生物组”概念;
(6)设计并开展“千种植物微生物组计划”。
论文著作:# Equal contribution; * correspondence author
1. Wang, X., Feng, H., Wang, Y., Wang, M., Xie, X., Chang, H., Wang, L., Qu, J., Sun, K., He, W., et al. (2021). Mycorrhizal symbiosis modulates the rhizosphere microbiota to promote rhizobia-legume symbiosis. Molecular Plant 14, 503-516.
2. Wang, X., Wang, M., Xie, X., Guo, S., Zhou, Y., Zhang, X., Yu, N., and Wang, E. (2020). An amplification-selection model for quantified rhizosphere microbiota assembly. Science Bulletin 65, 983-986.
3. Wang, X., Wang, M., Wang, L., Feng, H., He, X., Chang, S., Wang, D., Wang, L., Yang, J., An, G., et al. (2022). Whole-plant microbiome profiling reveals a novel geminivirus associated with soybean stay-green disease. Plant Biotechnology Journal 20, 2159-2173.
4. Wang, X., Cui, W., Feng, X., Zhong, Z., Li, Y., Chen, W., Chen, W., Shao, X., and Tian, C. (2018). Rhizobia inhabiting nodules and rhizosphere soils of alfalfa: A strong selection of facultative microsymbionts. Soil Biology Biochemistry 116, 340-350.
5. Wang, Y.#, Wang, X.#, Sun, S., Jin, C., Su, J., Wei, J., Luo, X., Wen, J., Wei, T., Sahu, S., et al. (2022). GWAS, MWAS and mGWAS provide insights into precision agriculture based on genotype-dependent microbial effects in foxtail millet. Nature Communications 13, 5913.
6. Shi, J.#, Wang, X.#, and Wang, E*. (2023). Mycorrhizal Symbiosis in Plant Growth and Stress Adaptation: From Genes to Ecosystems. Annual Review of Plant Biology 74, 569-607.
7. Chen, T.#, Nomura, K.#, Wang, X., Sohrabi, R., Xu, J., Yao, L., Paasch, B.C., Ma, L., Kremer, J., Cheng, Y., et al. (2020). A plant genetic network for preventing dysbiosis in the phyllosphere. Nature 580, 653-657.
8. Shi, J., Zhao, B., Zheng, S., Zhang, X., Wang, X., Dong, W., Xie, Q., Wang, G., Xiao, Y., Chen, F., et al. (2021). A phosphate starvation response-centered network regulates mycorrhizal symbiosis. Cell 184, 5527-5540 e5518.
9. Wu, Z., Chen, H., Pan, Y., Feng, H., Fang, D., Yang, J., Wang, Y., Yang, J., Sahu, S.K., Liu, J., Xing, Y., Wang, X., et al. (2022). Genome of Hippophae rhamnoides provides insights into a conserved molecular mechanism in actinorhizal and rhizobial symbioses. New Phytologist 235, 276-291.
10. Chen, L., Li, K., Shi, W., Wang, X., Wang, E., Liu, J., Sui, X., Mi, G., Tian, C., and Chen, W. (2021). Negative impacts of excessive nitrogen fertilization on the abundance and diversity of diazotrophs in black soil under maize monocropping. Geoderma 393.
11. Zhao, R., Liu, L., Zhang, Y., Jiao, J., Cui, W., Zhang, B., Wang, X., Li, M., Chen, Y., Xiong, Z., et al. (2018). Adaptive evolution of rhizobial symbiotic compatibility mediated by co-evolved insertion sequences. The ISME Journal 12, 101-111.
12. Xiong, H., Zhang, X., Guo, H., Ji, Y., Li, Y., Wang, X., Zhao, W., Mo, F., Chen, J., Yang, T., et al. (2017). The epidemicity of facultative microsymbionts in faba bean rhizosphere soils. Soil Biology Biochemistry 115, 243-252.
13. 王孝林, 王二涛 (2019). 根际微生物促进水稻氮利用的机制. 植物学报 54, 285-287.
14. 禹坷#, 王孝林#, 张学斌*, 王二涛* (2020). 植物根系与益生菌相互作用的研究进展. 植物生理学报 56, 2275-2287.
承担科研项目情况:
1. 国家自然科学基金青年科学基金项目, 32100227, 植物基因型、共生微生物和根际微环境的“共生三角”相互作用研究, 2022/01-2024/12, 30万元, 主持
2. 中国博士后科学基金特别资助(站中), 2021T140666, 多倍体化与根际微生物组稳态对植物应对病原菌的适应机制研究, 2021/06-2023/05, 18万元, 主持