教师基本信息
姓名:王吉鹏
职称:青年研究员
电子邮箱:jipengwang@fudan.edu.cn
办公地点:B301
办公电话:暂无
研究方向
全世界约20亿人感染蠕虫,其中土源性蠕虫病和血吸虫病是最重要的蠕虫病。血吸虫病在全世界78个国家和地区流行,感染人数超过2亿,每年致死人数超过25万。作为一种寄生蠕虫,血吸虫经历两个宿主及7个虫期,涉及感染、寄生、发育、生殖、产卵等一系列生物学过程,其自身发育调控及与宿主互作过程的诸多科学问题亟需解决。本研究团队以血吸虫为模型,研究寄生蠕虫的寄生、发育、生殖及致病的分子机理,筛选新型药物靶点及抗虫小分子抑制剂。目前主要的研究方向如下:
(1)血吸虫寄生、发育与生殖的分子机理
(2)血吸虫与宿主互作的分子机制
(3)重要分子操纵手段建立
(4)药物疫苗开发
欢迎各位硕士、博士及博后!
个人简介
王吉鹏,博士,独立PI,博导。
2009年毕业于南昌大学,获生物工程专业工学学士学位,2015年毕业于复旦大学,获微生物专业理学博士学位。2015-2021年在美国德克萨斯大学西南医学中心开展博士后研究。2021年6月入职复旦大学生命科学学院。近年发表SCI 论文15篇,包括Science、Cell、PNAS、Sciences advances、Nature Communications等国际知名期刊。主持国自然重点项目、国家海外优青项目、国家重点研发计划子课题。现任中华医学会热带病与寄生虫病分会青年学组副组长、上海市寄生虫学会理事、 PLOS Neglected Tropical Diseases学术编辑。
授课情况
《病原生物学基础》《生物实验室安全》等
招生专业
微生物学
代表性论文和论著
1. Gu, M., Cheng, W., Li, S., Chen, G., Chen, X., Jiang, R., Yuan, M., Wang, J., Zhang, W., Yi, C., Xie, Y., Wang, X., Hu, W., Wang, J. *, 2026. A male-pheromone-elevated transcription factor ZNF362.1 in female schistosomes determines sexual maturation. Science Advances 12, eaec6907. (*独立通讯)
2. Chen, X., Y. You, W. Liu, S. Li, C. Yi, M. Gu, W. Cheng, G. Chen, Y. Wang, E. Tang, L. Wei, H. Lu, W. Hu, and J. Wang*. (2026). Tissue-specific and sex-biased glycoproteomic landscape of Schistosoma mansoni.Nature Communications 17 (1):1696. (*独立通讯)
3.You, Y., S. Cheng, X. Chen, X. Chen, C. Yi, M. Cai, F. Luo, X. Wang, Y. Xie, W. Yang, L. Xiu, M. Gu, C. Sun, L. Huo, G. Chen, S. Li, J. Wang*, and W. Hu*. (2026). Dynamic single-cell transcriptomics reveals lsamp-guided neural network formation in male S. japonicum driving female reproduction. Nature Communications 17(1):1602. (*共同通讯)
4. Chen, G., J. H. Jun, T. Wijshake, E. O. Kwarteng, Y. Li, M. Yuan, J. Rose, 3rd, S. Li, S. Cobb, W. Serpa, B. Folger, Y. Li, L. Li, W. Chen, J. J. Collins, 3rd, J. Wang*, and M. Agathocleous*. (2025). Loss of vitamin C biosynthesis protects from the pathology of a parasitic infection. PNAS 122 (52):e2517730122. (*共同通讯)
5.Cheng W., Gu M., Wang Y., Wang J., Li S., Chen G., Chen X., Oyeyemi O., Hong Y., Hu W.*, Wang J.*. (2025). Highly accurate protein structure prediction-based virtual docking pipeline accelerating the identification of anti-schistosomal compounds. PLOS Pathogens 21(10): e1013274. (*最后通讯)
6.Wu,S., Du,C., Cao, C., Yang, Z., Luo, F., Gou,C., Wang,L., Han J.*, Li S.*, Dong Y.*, Wang, J*.(2025). Molecular diagnosis of suspected intestinal schistosomiasis in a non-endemic area of Yunnan Province, China. Infectious disease of poverty 9;14(1):99. (*最后通讯)
7. Xie, Y., X. Wang, S. Cheng, W. Liu, C. Yi, Y. You, W. Zhang, Y. Wang, E. Tang, J. Wang* & W. Hu*. (2025). RNAi screening of uncharacterized genes identifies promising druggable targets in Schistosoma japonicum. PLOS Pathogens 21 (3): e1013014. (*共同通讯)
8.Cheng, S., You, Y., Wang, X., Yi, C., Zhang, W., Xie, Y., Xiu, L., Luo, F., Lu, Y., Wang, J*. & Hu, W*. (2024). Dynamic profiles of lncRNAs reveal a functional natural antisense RNA that regulates the development of Schistosoma japonicum. PLOS Pathogens 20(1), e1011949. (*共同通讯
9. Chen, R#., J. Wang#, I. Gradinaru, H. S. Vu, S. Geboers, J. Naidoo, J. M. Ready, N. S. Williams, R. J. DeBerardinis, E. M. Ross, and J. J. Collins, 3rd. (2022). A male-derived nonribosomal peptide pheromone controls female schistosome development, Cell 185: 1506-20 e17. (#共同一作)
10. Wang, J.#, Paz, C.#, Padalino, G., Coghlan, A., Lu, Z., Gradinaru, I., Collins, J., Berriman, M., Hoffmann, K. F., & Collins, J. J.*, 3rd (2020). Large-scale RNAi screening uncovers therapeutic targets in the parasite Schistosoma mansoni. Science 369 (6511), 1649–1653. (#共同一作)