李毓龙 

 

电子邮件:  yulongli@pku.edu.cn 

实验室主页: http://www.yulonglilab.org/

  

研究方向:

       人的大脑由数十亿的神经元组成，后者又通过数万亿的突触组成复杂的神经网络。不同种类的神经元经过或远或近的投射，通过突触与其他神经元进行信息交流，实现感知、决策和运动等高级神经功能。

       研究大脑的最大挑战在于脑的高度复杂性。我们实验室集中在神经元通讯的基本结构突触上，从两个层面上开展研究：一是开发前沿的工具，即开发新型成像探针，用于在时间和空间尺度上解析神经系统的复杂功能；二是借助先进的工具探究突触传递的调节机制，特别是在生理及病理条件下对神经递质释放的调节。

  

代表性科研论文:
 

1.       Zhuo, Y.#, Luo, B.#, Yi, X., Dong, H., Miao, X., Wan, J., Williams, J. T., Campbell, M. G., Cai, R., Qian, T., Li, F., Weber, S. J., Wang, L., Li, B., Wei, Y., Li, G., Wang, H., Zheng, Y., Zhao, Y., Wolf, M. E., Zhu, Y., Watabe-Uchida, M., & Li, Y.* (2023). Improved green and red GRAB sensors for monitoring dopaminergic activity in vivo. Nature Methods

2.       Wang, H.#, Qian, T.#, Zhao, Y., Zhuo, Y., Wu, C., Osakada, T., Chen, P., Chen, Z., Ren, H., Yan, Y., Geng, L., Fu, S., Mei, L., Li, G., Wu, L., Jiang, Y., Qian, W., Zhang, L., Peng, W., Xu, M., Hu, J., Jiang, M., Chen, L., Tang, C., Zhu, Y., Lin, D., Zhou, J.-N., & Li, Y.* (2023). A tool kit of highly selective and sensitive genetically encoded neuropeptide sensors. Science

3.       Wu, Z.#, Cui, Y.#, Wang, H.#, Wu, H., Wan, Y., Li, B., Wang, L., Pan, S., Peng, W., Dong, A., Yuan, Z., Jing, M., Xu, M., Luo, M.*, & Li, Y.* (2023). Neuronal activity-induced, equilibrative nucleoside transporter-dependent, somatodendritic adenosine release revealed by a GRAB sensor. Proceedings of the National Academy of Sciences

4.       Dong, H.#, Li, M.#, Yan, Y., Qian, T., Lin, Y., Ma, X., Vischer, H. F., Liu, C., Li, G., Wang, H., Leurs, R., & Li, Y.* (2023). Genetically encoded sensors for measuring histamine release both in vitro and in vivo. Neuron

5.       Zeng, J.#*, Li, X.#, Zhang, R., Lv, M., Wang, Y., Tan, K., Xia, X., Wan, J., Jing, M., Zhang, X., Li, Y., Yang, Y., Wang, L., Chu, J., Li, Y., & Li, Y.*. (2023). Local 5-HT signaling bi-directionally regulates the coincidence time window for associative learning. Neuron

6.       Qian, T.#, Wang, H.#, Wang, P.#, Geng, L., Mei, L., Osakada, T., Wang, L., Tang, Y., Kania, A., Grinevich, V., Stoop, R., Lin, D., Luo, M., & Li, Y.* (2023). A genetically encoded sensor measures temporal oxytocin release from different neuronal compartments. Nature Biotechnology

7.       Wu, Z.*, He, K., Chen, Y., Li, H., Pan, S., Li, B., Liu, T., Wang, H., Du, J., Jing, M., & Li, Y.* (2021). A sensitive GRAB sensor for detecting extracellular ATP in vitro and in vivo Neuron

8.       Dong, A., He, K., Dudok, B., Farrell, J. S., Guan, W., Liput, D. J., Puhl, H. L., Cai, R., Wang, H., Duan, J., Albarran, E., Ding, J., Lovinger, D. M., Li, B., Soltesz, I., & Li, Y.*. (2021). A fluorescent sensor for spatiotemporally resolved imaging of endocannabinoid dynamics in vivo. Nature Biotechnology

9.       Wan, J., Peng, W., Li, X., Qian, T., Song, K., Zeng, J., Deng, F., Hao, S., Feng,J., Zhang, P., Zhang, Y., Zou, J., Pan, S., Shin, M., Venton, B. J., Zhu, J. J., Jing, M., Xu, M., Li, Y.*.(2021). A genetically encoded sensor for measuring serotonin dynamics. Nature Neuroscience

10.     Qian, C., Wu, Z., Sun, R., Yu, H., Zeng, J., Rao, Y., & Li, Y.* (2021). Localization, proteomics, and metabolite profiling reveal a putative vesicular transporter for UDP-glucose. eLife

11.      Sun, F.#, Zhou, J.#, Dai, B.#, Qian, T., Zeng, J., Li, X., Zhuo, Y., Zhang, Y., Wang, Y., Qian, C., Tan, K., Feng, J., Dong, H., Lin, D.*, Cui, G.*, & Li, Y.* (2020). Next-generation GRAB sensors for monitoring dopaminergic activity in vivo. Nature Methods  

12.     Jing, M.*, Li, Y., Zeng, J., Huang, P., Skirzewski, M., Kljakic, O., Peng, W., Qian, T., Tan, K., Wu, R., Zhang, S., Pan, S., Xu, M., Li, H., Saksida, L. M., Prado, V. F., Bussey, T., Prado, M. A. M., Chen, L., Cheng, H., & Li, Y.* (2020). An optimized acetylcholine sensor for monitoring in vivo cholinergic activity. Nature Methods

13.     Yu, H., Zhao, T., Liu, S., Wu, Q., Johnson, O., Wu, Z., Zhuang, Z., Shi, Y., He, R., Yang, Y., Sun, J., Wang, X., Xu, H., Zeng, Z., Lei, X., Luo, W.*, & Li, Y.* (2019). MRGPRX4 is a bile acid receptor for human cholestatic itch. eLife

14.     Feng, J., Zhang, C., Lischinsky, J., Jing, M., Zhou, J., Wang, H., Zhang Y., Dong, A., Wu Z., Wu, H., … & Li, Y.* (2019). A genetically encoded fluorescent sensor for rapid and specific in vivo detection of norepinephrine. Neuron

15.     Wu, L., Dong, A., Dong, L., Wang, S., & Li, Y.* (2019). PARIS, an optogenetic method for functionally mapping gap junctions. eLife 

16.     Sun, F.#, Zeng, J.#, Jing, M.#, Zhou, J., Feng, J., Owen, S., … & Li, Y.* (2018). A genetically-encoded fluorescent sensor enables rapid and specific detection of dopamine in flies, fish, and mice. Cell 

17.     Jing, M.#, Zhang, P.#, Wang, G., Feng, J., Mesik, L., Zeng, J., … Zhu, JJ.*, & Li, Y.* (2018). A genetically-encoded fluorescent acetylcholine indicator for in vitro and in vivo studies. Nature Biotechnology