Areas of Focus
- 行为/系统和细胞神经科学
Work Experience
- 现任 - 南京大学 - 教授
- 过去 - 伊利诺伊大学 - 研究员
- 过去 - 西奈山医学院 - 研究员
Academic Background & Achievements
- 1987 - 学士学位:北京大学
- 1998 - 博士学位:伊利诺伊大学
- 编辑书籍:网络功能与可塑性,学术出版社,2017
Publications
- A single central pattern generator for the control of a locomotor rolling wave in mollusc Aplysia, Wang H. Y., Yu K., Yang Z., Zhang G., Guo S. Q., WangT., Liu D. D., Jia R. N., Zheng Y. T., Su Y.N., Lou Y., Weiss K.R., Zhou H. B.*, Liu F.*, Cropper E.C., Yu Q.*, Jing J.*, 2023
- AI protein structure prediction-based modeling and mutagenesis of a protostome receptor and peptide ligands reveal key residues for their interaction, Guo S. Q., Li Y. D., Chen P., Zhang G., Wang H. Y., Jiang H. M., Liu W.J., Xu J. P., Ding X.Y., Fu P., Yu K., Zhou H. B. *, Checco J. W. *, Jing J.*, 2022
- Identification of an allatostatin C signaling system in mollusc Aplysia, Jiang H. M., Yang Z., Xue Y. Y., Wang H. Y., Guo S. Q., Xu J. P., Li Y. D., Ding X. Y., Yu K., Liu W. J., Zhang G. *, Wang J.*, Zhou H. B.*, Susswein A.J., Jing J.*, 2022
- Synaptic mechanisms for motor variability in a feedforward network, Zhang G., Yu K., WangT., Chen T-T., Yuan W-D., Yang F., LeZ-W., Guo S-Q., XueY-Y., Chen S-A., Yang Z., Liu F.*, Cropper E.C., Weiss K.R., Jing J.*, 2020
- Aplysia allatotropin-related peptide and its newly identified d-amino acid–containing epimer both activate a receptor and a neuronal target, Checco J.W., Zhang G., Yuan W-D., Le Z-W., Jing J. *, Sweedler J.V.*, 2018
- Molecular and physiological characterization of a receptor for D‑amino acid-containing neuropeptides, Checco J.W., Zhang G., Yuan W-D., Yu K., Yin S-Y., Roberts-Galbraith R.H., Yau P.M., Romanova E.V., Jing J. *, Sweedler J.V. *, 2018
- Newly identified Aplysia SPTR-Gene Family-Derived Peptides: localization and function, Zhang G., Yuan W-D., Vilim F.S., Romanova E.V., Yu K., Yin S-Y., Le Z-W., Xue Y-Y., Chen T-T., Chen G-K., Chen S-A., Cropper E.C., Sweedler J.V., Weiss K.R., Jing J. *, 2018
- Discovery of leucokinin-like neuropeptides that modulate a specific parameter of feeding motor programs in the molluscan model, Aplysia, Zhang G., Vilim F.S., Liu D-D, Romanova E.V., Yu K., Yuan W-D., Xiao H., Chen T-T., Alexeeva V.Y., Yin S-Y., Chen S-A., Cropper E.C., Sweedler J.V., Weiss K.R., Jing J. *, 2017
- A D-amino acid-containing neuropeptide discovery funnel, Livnat I., Tai H-C., Jansson E. T., Bai L., Romanova E.V., Chen T-T., Yu K., Chen S-A., Zhang Y., WangZ-Y., Liu D-D., Weiss K.R., Jing J. *, Sweedler J.V. *, 2016
- Repetition priming of motor activity mediated by a central pattern generator: the importance of extrinsic vs. intrinsic program initiators, Siniscalchi M.J., Cropper E.C., Jing J., Weiss K.R., 2016
- Aplysia locomotion: network and behavioral actions of GdFFD, a D-amino acid-containing neuropeptide, Yang C-Y., Yu K., Wang Y., Chen S-A., Liu D-D., WangZ-Y., Su Y-N., Yang S-Z., Chen T-T., Livnat I., Vilim F.S., Cropper E.C., Weiss K.R., Sweedler J.V., Jing J. *, 2016
- Functional characterization of a vesicular glutamate transporter in an interneuron that makes excitatory and inhibitory synaptic connections in a molluscan neural circuit, Jing J. *, Alexeeva V.Y., Chen S-A., Yu K., Due M.R., Tan L-N., Chen T-T., Liu D-D., Cropper E.C., Vilim F.S., Weiss K.R., 2015
- Complementary interactions between command-like interneurons that function to activate and specify motor programs, Wu J-S., Wang N, Siniscalchi M.J., Perkins M.H., Zheng Y-T., Yu W., Chen S-A., Jia R-N., Gu J-W., Qian Y-Q., Ye Y., Vilim F.S., Cropper E.C., Weiss K.R., Jing J. *, 2014
- Characterization of GdFFD, a D-amino acid-containing neuropeptide that functions as an extrinsic modulator of the Aplysia feeding circuit, Bai L., Livnat I., Romanova E.V., Alexeeva V.Y., Yau P.M., Vilim F.S., Weiss K.R., Jing J. *, Sweedler J.V.*, 2013
- Functional differentiation of a population of electrically coupled heterogeneous elements in a microcircuit, Sasaki K., Cropper E.C., Weiss K.R., Jing J. *, 2013
- Feedforward compensation mediated by the central and peripheral actions of a single neuropeptide discovered using representational differences analysis, Jing J. *, Sweedler J.V., Cropper E.C., Alexeeva V., Park J.H., Romanova E., Xie F., Dembrow N.C., Ludwar B.C., Weiss K.R., Vilim F.S., 2010
- Distinct inhibitory neurons exert temporally specific control over activity of a motoneuron receiving concurrent excitation and inhibition, Sasaki K., Brezina V., Weiss K.R., Jing J.*, 2009
- Neural analog of arousal: persistent conditional activation of a feeding modulator by serotonergic initiators of locomotion, Jing J. *, Vilim F.S., Cropper E.C., Weiss K.R., 2008
- From hunger to satiety: reconfiguration of a feeding network by Aplysia neuropeptide Y, Jing J. *, Vilim F.S., Horn C., Alexeeva V.Y., Hatcher N.G., Sasaki K., Yashina I., Zhurov Y., Kupfermann I., Sweedler J.V., Weiss K.R., 2007
- Generation of variants of a motor act in a modular and hierarchical motor network, Jing J. *, Weiss K.R., 2005
- The construction of movement with behavior-specific and behavior-independent modules, Jing J. *, Cropper E.C., Hurwitz I., Weiss K.R., 2004
- Directional avoidance turns encoded by single interneurons and sustained by multifunctional serotonergic cells, Jing J. *, Gillette R., 2003