師資
個人簡介:
吳先登,生命科學(xué)學(xué)院神經(jīng)生物學(xué)系副教授,博士生導(dǎo)師,國家級青年人才項目獲得者。2016年從南京大學(xué)獲理學(xué)學(xué)士學(xué)位,2021年從香港科技大學(xué)獲博士學(xué)位,并繼續(xù)從事博士后研究至2024年底,系統(tǒng)揭示了相分離是介導(dǎo)突觸前膜組裝的基本方式。2025年1月全職加入南方科技大學(xué)開展獨立工作,致力于理解相分離如何參與突觸前膜的組裝與功能,以及廣義的有膜與無膜細胞器互作。研究論文發(fā)表在Cell,Molecular Cell(2篇),Developmental Cell,Annual Review of Neuroscience等期刊。
研究領(lǐng)域:
相分離正逐漸被認為是細胞區(qū)室化的一種基本方式。神經(jīng)突觸是高度特化的極性結(jié)構(gòu),在這里亞細胞結(jié)構(gòu)分區(qū)深刻影響其功能。我們專注于理解相分離是如何參與到突觸前膜區(qū)室的形成與動態(tài)調(diào)節(jié)的,以及如何影響突觸形成與可塑性等功能。具體關(guān)注的問題包括:
◆ 相分離如何精細調(diào)控突觸囊泡循環(huán)?
◆ 突觸前膜多種凝聚體之間如何互作?
◆ 突觸前后膜凝聚體如何協(xié)調(diào)以響應(yīng)信號刺激與可塑性調(diào)節(jié)?
◆ 相分離如何參與普遍意義上的有膜與無膜細胞器互作?
工作經(jīng)歷:
2025.06 - 至今,副教授,南方科技大學(xué)
2025.01 - 2025.06,助理教授,南方科技大學(xué)
2021.07 - 2024.12,博士后,香港科技大學(xué)
學(xué)習(xí)經(jīng)歷:
2016.09 - 2021.06,博士(哲學(xué),生命科學(xué)),香港科技大學(xué)
2012.09 - 2016.06,學(xué)士(理學(xué),生物科學(xué)),南京大學(xué)
所獲榮譽:
2024 國家級青年人才項目
2021 香港研資局博士后獎學(xué)金(2021-2024),香港研究資助局
2019 理學(xué)院研究生杰出研究獎,香港科技大學(xué)
2016 優(yōu)秀畢業(yè)生,優(yōu)秀畢業(yè)論文,南京大學(xué)
2014 國家獎學(xué)金,南京大學(xué)
代表文章:
◆ Wu, X., Shen, Z., & Zhang, M.* (2025). Phase separation-mediated compartmentalization underlies synapse formation and plasticity. Annual Review of Neuroscience, [invited review]
◆ Qiu, H.#, Wu, X.#, Ma, X., Li, S., Cai, Q., Ganzella, M., Ge, L., Zhang, H., & Zhang, M.* (2024). Short-distance vesicle transport via phase separation. Cell, 187 (9), 2175-2193.e21. (co-first author)
◆ Wu, X., Qiu, H., & Zhang, M.* (2023). Interactions between membraneless condensates and membranous organelles at the presynapse: a phase separation view of synaptic vesicle cycle. Journal of Molecular Biology. [invited review]
◆ Wu, X., Ganzella, M., Zhou, J., Zhu, S., Jahn, R., Zhang, M.* (2021). Vesicle Tethering on the Surface of Phase Separated Active Zone Condensates. Molecular Cell, 81(1), 13-24.
◆ Wu, X., Cai, Q., Feng, Z., & Zhang, M.* (2020). Liquid-liquid phase separation in neuronal development and synaptic signaling. Developmental Cell, 55(1), 18-29. [invited review]
◆ Wu, X.#, Cai, Q.#, Shen, Z., Chen, X., Zeng, M., Du, S., & Zhang, M.* (2019). RIM and RIM-BP Form Presynaptic Active-Zone-like Condensates via Phase Separation. Molecular cell, 73(5), 971-984.
其他文章:
◆ Zhu, S., Shen, Z., Wu, X., & Zhang, M.* (2025). Phase separation in the multi-compartment organization of synapses. Current Opinion in Neurobiology, 90, 102975.
◆ Zhu, S.#, Shen, Z.#, Wu, X., Han, W., Jia, B., Lu, W., & Zhang, M.* (2024). Demixing is a default process for biological condensates formed via phase separation. Science, 384(6698), 920-928.
◆ Cai, Q., Zeng, M., Wu, X., Wu, H., Zhan, Y., Tian, R., & Zhang, M.* (2021). CaMKIIα-driven, phosphatase-checked postsynaptic plasticity via phase separation. Cell Research, 31(1), 37-51.
◆ Feng, Z., Wu, X., & Zhang, M.* (2021). Presynaptic bouton compartmentalization and postsynaptic density-mediated glutamate receptor clustering via phase separation. Neuropharmacology, 193, 108622. [invited review]
◆ Wu, X.#, Cai, Q.#, Chen, Y., Zhu, S., Mi, J., Wang, J., & Zhang, M.* (2020). Structural Basis for the High-Affinity Interaction between CASK and Mint1. Structure, 28(6), 664-673.
◆ Chen, X., Wu, X., Wu, H., & Zhang, M.* (2020). Phase separation at the synapse. Nature Neuroscience, 23(3), 301–310. [invited review]
◆ Feng, Z., Chen, X., Wu, X., & Zhang, M.* (2019). Formation of biological condensates via phase separation: Characteristics, analytical methods, and physiological implications. Journal of Biological Chemistry, 294(40), 14823-14835. [invited review]