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个人简介

教育经历: 2007年9月-2010年6月 华中师范大学生命科学学院 获动物学博士学位 2001年9月-2004年6月 华中师范大学生命科学学院 获动物学硕士学位 1997年9月-2001年6月 华中师范大学生命科学学院 获理学学士学位 工作经历: 2004年7月-至今 华中师范大学生命科学学院 副教授 2011年12月-2012年7月 香港理工大学 访问学者

研究领域

主要研究领域: 1.哺乳动物听中枢声信号加工及调制研究 2.听觉认知研究

近期论文

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1. Tang J, Wei CX, Chen MX, Wang QC, Kong HF, Fu ZY, Chen QC*. 2017. Recovery cycle of inferior collicular neurons in Hipposideros pratti under behavior-related sound stimulus and the best Doppler-shift compensation conditions. Physiology & Behavior, 171: 236-242, 2017. 2.Peng K, Peng Y J, Wang J,Yang MJ,Fu ZY,Tang J,Chen QC. Latency modulation of collicular neurons induced by electric stimulation of the auditory cortex in Hipposideros pratti: In vivo intracellular recording. Plos One, 2017, 12(9):e0184097. 3. Mei HX #, Tang J #, Fu ZY#, Liang Cheng, Qicai Chen*. 2016. Plastic Change in the Auditory Minimum Threshold Induced by Intercollicular Effects in Mice, Neural Plasticity, (Article 4195391): 1-8. 4. Tang J, Fu ZY, Wei CX, Chen QC*. 2015. Effect of echolocation behavior-related constant frequency-frequency modulation sound on the frequency tuning of inferior collicular neurons in Hipposideros armiger. J Comp Physiol A, 201: 783–794. 5. Li YL, Fu ZY, Yang MJ, Wang J, Peng K, Yang LJ, Tang J, Chen QC*. 2015. Post-spike hyperpolarization participates in the formation of auditory behavior-related response patterns of inferior collicular neurons in Hipposideros pratti. Neurosci, 289: 443–451. 6. Fu ZY, Dai XY, Xu N, Shi Q, Li GJ, Li B, Li J, Li J, Tang J, Jen PHS, Chen QC*. 2015. Sexual dimorphism in echolocation pulse parameters of the CF-FM bat, Hipposideros pratti. Zool Stud, 54: 44-1~9. 7. Fu ZY,, Xu N Wang J, Tang J, Jen PHS, Chen QC*. 2014. The role of the FM component in shaping the number of impulses and response latency of inferior collicular neurons of Hipposideros armiger elicited by CF-FM sounds. Neurosci Lett, 576: 97-101. 8. Fu ZY, Mei HX, Cheng L, Bai J, Tang J *, Jen PHS, Chen QC. 2013. Local neuronal circuits that may shape the discharge patterns of inferior collicular neurons. Neurosci Bull, 29: 541-552. 9. Tang J#, Fu ZY#, Jen PHS Chen QC*. 2011. Recovery cycles of single-on and double-on neurons in the inferior colliculus of the leaf-nosed bat, Hipposideros armiger. Brain Res, 1385: 114-126. 10. Fu ZY#, Tang J#, Jen PHS, Chen QC*. 2010 The auditory response properties of single-on and double-on responders in the inferior colliculus of the leaf-nosed bat, Hipposideros armiger. Brain Res, 1306: 39-52. 11. Tang J, Wu FJ, Wang D, Jen PHS, Chen QC*. 2007. The amplitude sensitivity of mouse inferior collicular neurons in the presence of weak noise. Chin J Physiol, 50: 187-198. 12. Fu ZY#, Tang J#, Li Y, Zeng H, Chen QC*. 2011. FM component of the mimic echolocation sound can increase the sensitivity of inferior collicular neurons to sound amplitude in leaf-nosed bat, Hipposideros armiger. Zool Stud, 50: 537-545. 13. Mei HX#, Cheng L#, Tang J#, Fu ZY, Wang X, Jen PHS, Chen QC*. 2012. Bilateral collicular interaction: modulation of auditory signal processing in amplitude domain. Plos one, 7(7): e43111. 14. Cheng L#, Mei HX#, Tang J#, Fu ZY, Jen PHS, Chen QC*. 2013. Bilateral collicular interaction: modulation of auditory signal processing in frequency domain. Neuroscience, 235: 27-39. 15. Mei HX#, Cheng L#, Tang J#, Fu ZY, Jen PHS, Chen QC*. 2012. Modulation of amplitude sensitivity by bilateral collicular interaction among different frequency laminae. Neuroscience Letters, 517: 13-17. 16. Tang J, Pi JH, Wang D, Wu FJ, Chen QC*: 2004 Effect of weak Noise on the frequency tuning of inferior collicular neurons. Zool Res, 25: 191-97. 17. Wang D, Pi JH, Tang J, Wu FJ, and Chen QC*. 2005. Dynamic modulations on intensity sensitivity evoked by weak noise in the inferior collicular neurons. Act Physiol Sin, 57: 59-65.

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