一、课题组简介
本课题组致力于植物与昆虫、微生物互作分子机理研究,以番茄-番茄潜叶蛾、烟草-烟粉虱等互作体系为研究对象,综合利用分子生物学、生物化学和生物信息学等手段,挖掘植物抗病、抗虫关键基因;探究昆虫与寄主植物间化学信号转导机理;以昆虫唾液效应子为切入点,研究昆虫或微生物侵害植物机制。本课题组研究成果为开发新型植物病虫害防控技术和手段提供了科学依据,相关成果在PNAS,New Phytologist,Functional Ecology等国际知名期刊上发表多篇文章。课题组获批发明专利9项,参与制定国家标准2项。
二、课题组成员
课题组长:张蓬军
教师:董玉妹
研究生:王淑贞,桑雅莉,赵郅励,赵俊苒,吴国兰
三、承担的科研项目
1. 烟粉虱诱导月桂烯抑制番茄抗虫防御反应的分子机制研究,国家自然科学基金面上项目,2022-2025,58万
2. 烟粉虱唾液激发子BtE1功能及其被番茄识别机制研究,国家自然科学基金青年项目,2025-2027,30万
3. 番茄响应烟粉虱诱导挥发物调控其抗病防御反应的机制研究,浙江省自然科学基金重点项目,2012-2023,30万
4. 风险可疑邮寄物拆包防护装备及痕量风险源快速识别技术,国家重点研发课题,2018-2021,330万
5. 农田生态系统病虫害演替规律及其调节作用机制,国家重点研发项目-任务,2017-2021,73.2万
6. 基于植物防御路径间交互作用的烟粉虱反防御策略机制研究,国家自然科学基金面上项目,2015-2018,80万
7. 扶桑绵粉蚧瓦解寄主植物防御反应的行为及分子机制研究,国家自然科学基金青年项目,2013-2015,24万
四、代表性论文
1. Zhang PJ, Wei JN, Zhao C, Zhang YF, Li CY, Liu SS, Dicke M, Yu XP*, Turlings TCJ (2019) Airborne host-plant manipulation by whiteflies via an inducible blend of plant volatiles. Proceedings of the National Academy of Sciences, USA. 116 (15) 7387-7396.
2. Zhang PJ, Zheng SJ, van Loon JJA, Boland W, David A, Mumm R, Dicke M. (2009) Whiteflies interfere with indirect plant defense against spider mites in Lima bean. Proceedings of the National Academy of Sciences, USA. 106: 21202-21207.
3. Shi PQ, Wang L, Chen XY, Wang K, Wu QJ, Turlings TCJ*, Zhang PJ *, Qiu BL*. 2024 Rickettsia transmission from whitefly to plants benefits herbivore insects but is detrimental to fungal and viral pathogens. mBio, 15:e02448-23.
4. Zhang PJ, Broekgaarden C, Zheng SJ, Snoeren TAL, van Loon JJA, Gols R, Dicke M. (2013) Jasmonate and ethylene signaling mediate whitefly-induced interference with indirect plant defense in Arabidopsis thaliana. New Phytologist, 197: 1291-1299.
5. Zhang PJ*, Xu CX, Zhang JM, Lu YB, Wei JN, Liu YQ, David A, Boland W, Turlings TCJ. (2013). Phloem-feeding whiteflies can fool their host plants, but not their parasitoids. Functional Ecology, 27: 1304-1312.
6. Chen CS, Zhao C, Wu ZY, Liu GF, Yu XP, Zhang PJ*. (2021) Whitefly-induced tomato volatiles mediate host habitat location of the parasitic wasp Encarsia formosa, and enhance its efficacy as a bio-control agent. Pest Management Science, 77:749-757.
7. Yumei Dong, Jiangxuan Zhou, Yuxia Yang, et al. (2023). Cyclophilin effector Al106 of mirid bug Apolygus lucorum inhibits plant immunity and promotes insect feeding by targeting PUB33. New Phytologist, 237(6): 2388-2403.
8. Yumei Dong*, Maofeng Jing*, et al. 8. (2020). The mirid bug Apolygus lucorum deploys a glutathione peroxidase as a candidate effector to enhance plant susceptibility. Journal of Experimental Botany,71(9): 2701-2712.
9. Yumei Dong, Xingge Huang,Yuxia Yang, et al. (2022). Characterization of salivary secreted proteins that induce cell death from Riptortus pedestris (Fabricius) and their roles in insect-plant interactions. Frontiers in Plant Science, 13:912603.
10. Yumei Dong, Wendan Zhang, Yan Jin,et al. (2022). Apolygus lucorum effector Al6 promotes insect feeding performance on soybean plants: RNAi analysis and feeding behavior study with electrical penetration graph. Insect Molecular Biology, 32(1): 1-10.
11. Danyu Shen*, Yumei Dong*, Yun Wei, et al. (2019). Genome-wide and functional analyses of tyrosine kinase-like family genes reveal potential roles in development and virulence in mosquito pathogen Pythium guiyangense. Fungal Genetics and Biology.
12. 董玉妹, 张美倩, 沈慧等. (2021). 植食性昆虫唾液效应子和激发子的研究进展,《昆虫学报》, 64: 982-997.
13. 傅意茗,陈婵珊,黄芳,杨倩倩,刘光富,俞晓平,张蓬军 (2022)植物病毒与媒介昆虫互作促进其传播的研究进展。植物保护学报 49(3):711-720.
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