谭树乾 | |||||||||||||||
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基本信息
工作经历 2024.1-至今 中国农业大学 副教授 2019.9-2023.12 中国农业大学 讲师 2016.12-2019.8 中国农业大学 博士后 教育经历 2006.9-2010.6 潍坊学院 学士 2010.9-2013.6 西北农林科技大学 硕士 中国农业科学院植物保护研究所 联合培养 2013.9-2016.12 中国农业大学 博士 教学工作 课程: 本科生《分子生物学实验》《植保实验1》主讲 研究生《昆虫病理学》主讲 本科生《农业昆虫学》参讲 研究方向 昆虫病理及行为 科研项目 1. 国家自然科学基金青年项目,32102191,2022.01-2024.12,主持。 2. 国家重点研发计划,2022YFD1400500,2022.9-2025.12,子课题主持 3. 中国博士后基金面上项目, 2017M611056,2017.06-2018.12,主持。 4. 宁夏植物病虫害防治重点实验室开放课题, NXDPL-01,2019.04-2020.04,主持。 代表性论文 代表论文(*通讯作者,#第一作者): 1. Tan S, Wei H, Camara I, Jia H, Cao K, Shi, W*. 2023. Symbiotic bacteria system of Locusta migratoria showed antifungal capabilities against Beauveria bassiana. International Journal of Molecular Sciences, 24(4): 3138. 2. Lou Y, Jin X, Jia Z, Sun Y, Xu Y, Liu Z, Tan S*, Yi F*, Duan L. 2023. Coronatine-based gene expression changes impart partial resistance to fall armyworm (Spodoptera frugiperda) in seedling maize. Genes, 14(3): 735. 3. Jia H, Camara I, Zhang Z, Gao Y, Yang X, Sangbaramou R, Zhen C, Shi W, Tan S*. 2023. Effect of ultraviolet radiation on Beauveria bassiana virulence and development of protective formulations. Archives of Microbiology, 205(4): 112. 4. Tan S, Wei H, Li Z, and Liu X*. 2023. The odorant-binding protein 1 mediates the foraging behavior of Grapholita molesta larvae. Journal of Agricultural and Food Chemistry. 72(1): 116-127. 5. Wei H#, Tan S#, Yan S, Li Z, Shen J, Liu X*. 2022. Nanocarrier-mediated transdermal dsRNA-NPF1 delivery system contributes to pest control via inhibiting feeding behavior in Grapholita molesta. Journal of Pest Science, 95: 983-995. 6. Camara I, Cao K, Sangbaramou R, Sun Y, Zhao X, Xu Y, Cao C, Shi W, Tan S*. 2022. Virulence analysis of novel Beauveria bassiana strains isolated from three different climatic zones against Locusta migratoria. International Journal of Tropical Insect Science. 42(4): 2877-2886. 7. Camara I, Cao K, Sangbaramou R, Wu P, Shi W, Tan S*. 2022. Screening of Beauveria bassiana (Bals.) (Hypocreales: Cordycipitaceae) strains against Megalurothrips usitatus (Bagnall) (Thysanoptera: Thripidae) and conditions for large-scale production. Egyptian Journal of Biological Pest Control. 32(1): 85. 8. Tan S, Yin Y, Cao K, Zhao X, Wang X, Zhang Y, Shi W*. 2021. Effects of a combined infection with Paranosema locustae and Beauveria bassiana on Locusta migratoria and its gut microflora. Insect Science, 28(2): 347-354. 9. Tan S*, Wang Y, Liu P, Ge Y, Li A, Xing Y, Hunter DM and Shi W*. 2018. Increase of albinistic hosts caused by gut parasites promotes self-transmission. Frontiers in Microbiology, 9:1525. 10. Tan S, Li A, Wang Y and Shi W*. 2018. Role of neuropeptide F 1 in regulating the appetite for food of Locusta migratoria. Pest Management Science, 75(5): 1304-1309. 11. Sangbaramou R, Camara I, Huang X, Shen J, Tan S*, Shi W. 2018. Behavioral thermoregulation in Locusta migratoria manilensis (Orthoptera: Acrididae) in response to the entomopathogenic fungus, Beauveria bassiana. PLoS One, 13(11): e0206816. 12. Shu C#, Tan S#, Yin J, Soberón M, Bravo A, Liu C, Geng L, Song F, Li K*, Zhang J*. 2015. Assembling of Holotrichia parallela (dark black chafer) midgut tissue transcriptome and identification of midgut proteins that bind to Cry8Ea toxin from Bacillus thuringiensis. Applied Microbiology and Biotechnology, 99 (17): 7209-7218. 13. Tan S, Zhang K, Chen H, Yang G, Rong J* and Shi W*. 2015. The mechanism for microsporidian parasite suppression of the hindgut bacteria of the migratory locust Locusta migratoria manilensis. Scientific Reports, 5: 17365.
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