*第一作者
#通讯作者
1. Lin, H., & Zhou, J#. Hippocampal and orbitofrontal neurons contribute to complementary aspects of associative structure. Nat Commun, 2024, 15, 5283.
2. Ma, F., Zhang, L., & Zhou, J#. Event-specific and persistent representations for contextual states in orbitofrontal neurons. Curr Biol, 2024, 34(5), 1023-1033.
3. Song, W., Liu, X., Huang, H., Wu, Y., Tang, Z., Wang, J., Ma, F., Zhou, J., & Zhang, M#. A frequency-division transceiver for long-range neural signal recording from multiple subjects. IEEE JSSC, 2024, 59(3), 923-934.
4. Zong, W#., Zhou, J., Gardner, M. P. H., Costa, K. M., Zhang, Z., & Schoenbaum, G#. Schema cell formation in orbitofrontal cortex is suppressed by hippocampal output. bioRxiv, 2023, 539307.
5. Bruch, S#., McClure, P., Zhou, J., Schoenbaum G. & Pereira F#. Validating the representational space of deep reinforcement learning models of behavior with neural data. bioRxiv, 2021, 448556.
6. Zhou, J#., Gardner, M. P., & Schoenbaum, G#. Is the core function of orbitofrontal cortex to signal values or make predictions? Curr Opin Behav Sci, 2021, 41, 1-9.
7. Zhou, J#., Zong, W., Jia, C., Gardner, M.P.H., & Schoenbaum, G#. Prospective representations in rat orbitofrontal ensembles. Behav Neurosci, 2021, 135 (4), 518–527.
8. Zhou, J#., Jia, C., Montesinos-Cartagena, M., Gardner, M.P.H., Zong, W., & Schoenbaum, G#. Evolving schema representations in orbitofrontal ensembles during learning. Nature, 2021, 590, 606–611.
10. Gardner, M#., Sanchez, D., Conroy, J.S., Wikenheiser, A., Zhou, J., & Schoenbaum, G#. Processing in lateral orbitofrontal cortex is required to estimate subjective preference during initial, but not established, economic choice. Neuron, 2020, 108, 1-12.
11. Gardner, M#, Conroy, J., Sanchez, D., Zhou, J., & Schoenbaum, G#. Real-time value integration during economic choice is regulated by orbitofrontal cortex. Curr Biol, 2019, 29(24), 4315-4322.
12. Zhou, J#., Montesinos-Cartagena, M., Wikenheiser, A., Gardner, M., Niv, Y., & Schoenbaum, G#. Complementary task structure representations in hippocampus and orbitofrontal cortex during an odor sequence task. Curr Biol, 2019, 29(20), 3402-3409.
13. Zhou, J#., Gardner, M., Stalnaker, T., Ramus, S., Wikenheiser, A., Niv, Y., & Schoenbaum, G#. Rat orbitofrontal ensemble activity contains multiplexed but dissociable representations of value and task structure in an odor sequence task. Curr Biol, 2019, 29(6), 897-907. (F1000 recommended)
14. Wang, D., Li, Y., Feng, Q., Guo, Q., Zhou, J., & Luo, M#. Learning shapes the aversion and reward responses of lateral habenula neurons. eLife, 2017, 6, e23045.
15. Zhang, J., Tan, L., Ren, Y., Liang, J., Lin, R., Feng, Q., Zhou, J., Hu, F., Ren, J., Wei, C., Yu, T., Zhuang, Y., Bettler, B., Wang, F., & Luo, M#. Presynaptic excitation via GABA B receptors in habenula cholinergic neurons regulates fear memory expression. Cell, 2016, 166(3), 716-728.
16. Li, Y., Zhong, W., Wang, D., Feng, Q., Liu, Z., Zhou, J., Jia, C., Hu, F., Zeng, J., Guo, Q., Fu, L., & Luo, M#. Serotonin neurons in the dorsal raphe nucleus encode reward signals. Nat Commun, 2016, 7.
17. Guo, Q*., Zhou, J*., Feng, Q., Lin, R., Luo Q., Zeng S., Luo, M#., & Fu, L#. Multi-channel fiber photometry for population neuronal activity recording. Biomed Opt Express, 2015, 6(10), 3919-3931.
18. Luo M#., Zhou J., & Liu Z. Reward processing by the dorsal raphe nucleus: 5-HT and beyond. Learn Mem, 2015, 22: 452-460.
19. Zhou, J., Jia, C., Feng, Q., Bao, J., & Luo, M#. Prospective coding of dorsal raphe reward signals by the orbitofrontal cortex. J Neurosci, 2015, 35(6), 2717-2730.
20. Liu, Z*., Zhou, J*., Li, Y., Hu, F., Lu, Y., Ma, M., Feng, Q., Zhang, J., Wang, D., Zeng, J., Bao, J., Kim, J., Chen, Z., Mestikawy, S., & Luo, M#. Dorsal raphe neurons signal reward through 5-HT and glutamate. Neuron, 2014, 81(6), 1360-1374. (F1000 recommended).
21. Zhan, C*#., Zhou, J*., Feng, Q., Zhang, J. E., Lin, S., Bao, J., Wu, P., & Luo, M#. Acute and long-term suppression of feeding behavior by POMC neurons in the brainstem and hypothalamus, respectively. J Neurosci, 2013, 33(8), 3624-3632. (F1000 recommended).
所有文章列表:https://scholar.google.com/citations?user=ZQD-fmcAAAAJ