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何生

(中國科學院生物物理研究所副所長)

鎖定
何生,男,1964年出生,博士研究生學歷,現任中科院生物物理所學術副所長,腦與認知科學國家重點實驗室主任,研究組長,研究員。
主要從事人類視覺的神經基礎,包括視覺注意及視覺意識等領域的研究。 [1-2] 
中文名
何生
國    籍
中國
出生日期
1964年
畢業院校
中國科學技術大學

目錄

  1. 1 人物簡介
  2. 2 所獲榮譽
  1. 3 社會兼職
  2. 4 研究方向
  1. 5 科研項目
  2. 6 代表論著

何生人物簡介

1981 - 1986 中國科學技術大學生物系,理學學士
1990 - 1994 加州大學聖地亞哥分校,心理學博士學位
1995 - 1997 哈佛大學,博士後
2012 - 至今 中國科學院生物物理研究所,研究員,博士生導師 [2] 

何生所獲榮譽

1999 - 2002 斯隆基金會研究獎
1999 - 2002 Alfred P. Sloan Research Fellowship [2] 

何生社會兼職

2006 - 至今 Academic Editor, PLoS One
2006 - 至今 Associate Editor, Frontiers in Perception Science
Edit orial board member, ActaPsychologica
Journal of the Royal Society Interface Focus, editorial board member
2013 - 2017 Scince China, editorial board member [2] 

何生研究方向

主要研究人類視覺的神經基礎,視覺注意,及視覺意識。使用的方法包括心理物理學和認知功能成像(fMRI,EEG等)。 [2] 

何生科研項目

1. 國家自然科學基金委重點項目:無意識條件下的視覺信息處理(81123002,2012-2015),課題負責人。  
2. 中國科學院戰略性先導科技專項B:宏觀多模態成像及其在視覺聯結圖譜等研究中的應用(XDB02050001, 2012-2016),項目負責人。  
3. 北京市科技計劃重大專項:基於視覺認知功能損害的精神分裂症生物指標研究(Z171100000117003,2017-2019),項目負責人。
4.北京市科技計劃,2018年"北京腦科學專項":意識上與意識下信息加工的整合、相互作用及個體差異研究(Z181100001518002,2018-2021),項目負責人。
5. 北京市高精尖學科建設項目,"智能科學與技術"交叉課題:意識上與意識下信息的加工及其相互作用(2020-2021),項目負責人。
6. 中國科學院戰略性先導科技專項,項目子課題:知覺意識的神經基礎(XDB32020206,2020),課題負責人。
7. 中國科學院基礎前沿科學研究計劃從 0 到 1 原始創新項目:意識上與意識下信息的加工及其相互作用(KJZD-SW-L08),項目負責人。
8. 科技創新2030 -“腦科學與類腦研究”重大項目:意識的認知神經機制(2021ZD0204200),項目及課題1負責人。 [2] 

何生代表論著

1. Jiedong Zhang*, Yong Jiang, Yunjie Song, Peng Zhang, Sheng He*. (2021). Spatial tuning of face part representations within face-selective areas revealed by high-field fMRI. Elife, Dec 29,10
2. Shiwen Ren, Hanyu Shao, Sheng He*. (2021). Interaction Between Conscious and Unconscious Information-Processing of Faces and Words. Neurosci Bull. Nov;37(11):1583-1594
3. Yijun Ge, Zhouyuan Sun, Chencan Qian, Sheng He*. (2021). Spatiotopic updating across saccades in the absence of awareness. J Vis. May 3;21(5):7
4. Runnan Cao, Chencan Qian, Shiwen Ren, Zhifen He, Sheng He*, Peng Zhang*. (2021). Visual adaptation and 7T fMRI reveal facial identity processing in the human brain under shallow interocular suppression. Neuroimage, Dec 1;244
5. Adaptation to feedback representation of illusory orientation produced from flash grab effect. Yijun Ge,Hao Zhou,Chencan Qian,Peng Zhang,Lan Wang*, Sheng He*. Nature Communications. 2020, 11, Article number: 3925
6. The bottom-up and top-down processing of faces in the human occipitotemporal cortex. Xiaoxu Fan, Fan Wang, Hanyu Shao, Peng Zhang, Sheng He. Elife, 2020 Jan 14;9
7. Layer-dependent multiplicative effects of spatial attention on contrast responses in human early visual cortex. Chengwen Liu, Fanhua Guo, Chencan Qian, Zihao Zhang, Kaibao Sun, Danny Jj Wang, Sheng He, Peng Zhang* . Progress in Neurobiology, 2020, Aug 17
8. Natural-scene-based Steady-state Visual Evoked Potentials Reveal Effects of Short-term Monocular Deprivation. Lyu L, He S, Jiang Y, Engel SA, Bao M*. Neuroscience, 2020, May 21;435:10-21
9. Integrative analysis of in vivo recording with single-cell RNA-seq data reveals molecular properties of light-sensitive neurons in mouse V1. Jianwei Liu, Mengdi Wang, Le Sun, Na Clara Pan, Changjiang Zhang, Junjing Zhang, Zhentao Zuo, Sheng He, Qian Wu*, Xiaoqun Wang*. Protein Cell, 2020, Jun;11(6):417-432
10. Single-Cell Analysis of Human Retina Identifies Evolutionarily Conserved and Species-Specific Mechanisms Controlling Development. Yufeng Lu, Fion Shiau, Wenyang Yi, Suying Lu, Qian Wu, Joel D Pearson, Alyssa Kallman, Suijuan Zhong, Thanh Hoang, Zhentao Zuo, Fangqi Zhao, Mei Zhang, Nicole Tsai, Yan Zhuo, Sheng He, Jun Zhang, Genevieve L Stein-O'Brien, Thomas D Sherman, Xin Duan, Elana J Fertig, Loyal A Goff, Donald J Zack, James T Handa, Tian Xue*, Rod Bremner*, Seth Blackshaw*, Xiaoqun Wang*, Brian S Clark*. Dev Cell, 2020, May 18;53(4):473-491
11. Size-invariant but location-specific object-viewpoint adaptation in the absence of awareness. Cho S, He S*. Cognition. 2019. Nov;192:104035
12. Development of neural specialization for print: Evidence for predictive coding in visual word recognition. Zhao J, Maurer U, He S, Weng X*. PLoS Biol. 2019. Oct 10;17(10)
13. Slower and Less Variable Binocular Rivalry Rates in Patients With Bipolar Disorder, OCD, Major Depression, and Schizophrenia. Xing Ye, Sheng He, Ying Hu, Yong Qiang Yu*, Kai Wang*. Front. Neurosci, 2019. May 21;13:514
14. Vernier but Not Grating Acuity Contributes to an Early Stage of Visual Word Processing. Tan Y, Tong X, Chen W, Weng X, He S, Zhao J*. Neurosci Bull, 2018, Jun; 34 (3): 517-526.
15. Stimulus rivalry and binocular rivalry share a common neural substrate. Petruk V, He B, Engel S, He S*. J Vis, 2018, Sep4;18 (9): 18.
16. A Novel Dichoptic Optokinetic Nystagmus Paradigm to Quantify Interocular Suppression in Monocular Amblyopia. Wen W, Wu S, Wang S, Zou L, Liu Y, Liu R, Zhang P, He S*, Liu H*. Invest Ophthalmol Vis Sci. 2018, Oct1;59(12):4775-4782.
17. Extracting the orientation of rotating objects without object identification: Object orientation induction. Shioiri S*, Hashimoto K, Matsumiya K, Kuriki I, He S. J Vis. 2018, Sep4;18(9):17.
18. Localization and Functional Characterization of an Occipital Visual Word form Sensitive Area. Zhang B, He S*, Weng X*. Sci Rep. 2018, Apr30;8(1):6723.
19. Conflict-sensitive neurons gate interocular suppression in human visual cortex. Katyal S, Vergeer M, He S, He B, Engel SA. Sci Rep, 2018, Jan19;8(1):1239.
20. The Independent and Shared Mechanisms of Intrinsic Brain Dynamics: Insights From Bistable Perception Cao T, Wang L, Sun ZY, Engel S.A and He S. Front. Psychol. 2018; 9: 589.
21. Functional organization of the face-sensitive areas in human occipital-temporal cortex. Shao H, Weng X, He S. Neuroimage. 2017; 157:129-143.
22. Monocular deprivation of Fourier phase information boosts the deprived eye's dominance during interocular competition but not interocular phase combination. Bai J, Dong X, He S, Bao M. Neuroscience.2017; 352:122-130.
23. Integrated SSFP for functional brain mapping at 7T with reduced susceptibility artifact. Sun K, Xue R, Zhang P, Zuo Z, Chen Z, Wang B, Martin T, Wang Y, Chen L, He S, Wang DJ. J Magn Reson.2017; 276:22-30.
24. Multi-phase passband balanced SSFP fMRI with 50ms sampling rate at 7Tesla enables high precision in resolving 100ms neuronal events. Chen Z, Xue R, Zhang P, Sun K, Zuo Z, An J, Chen J, He S, Chen L, Wang DJ. Magn Reson Imaging. 2017;35:20-28.
25. Interplay between Heightened Temporal Variability of Spontaneous Brain Activity and Task-Evoked Hyperactivation in the Blind. Dai R, Huang Z, Tu H, Wang L, Tanabe S, Weng X, He S*, Li D. Front Hum Neurosci. 2016; 10:632.
26. Temporally flexible feedback signal to foveal cortex for peripheral object recognition. Fan X, Wang L, Shao H, Kersten D, He S. PNAS. 2016; 113(41):11627-32.
27. Binocular rivalry from invisible patterns. Zou J, He S, Zhang P. PNAS. 2016; 113(30), 8408-8413
28. Multi-phase passband balanced SSFP fMRI with 50 ms sampling rate at 7 Tesla enables high precision in resolving 100 ms neuronal events. Chen Z, Xue R, Zhang P, Sun K, Zuo Z; et al.. He S, Chen L, Wang DJ. Magn Reson Imaging. 2017; 35:20-28
29. Selective Reduction of fMRI Responses to Transient Achromatic Stimuli in the Magnocellular Layers of the LGN and the Superficial Layer of the SC Of Early Glaucoma Patients. Zhang P, Wen W, Sun X, He S. Human Brain Mapping. 2016; 37(2), 558-569
30. A Novel Motion-on-Color Paradigm for Isolating Magnocellular Pathway Function in Preperimetric Glaucoma. Wen W, Zhang P, Liu T, Zhang T, Gao J, Sun X, He S. Investigative Ophthalmology & Visual Science. 2016; 56(8), 4439-4446
31. Interference between Conscious and Unconscious Facial Expression Information. Ye X, He S, Hu Y, Yu Y*, Wang K*. PLOS ONE. 2014;9(8)
32. Layer-specific response properties of the human lateral geniculate nucleus and superior colliculus. Zhang P, Zhou Ha, Wen W, He S. Annual Meeting of the Association- for- Research- in- Vision- and- Ophthalmology (ARVO). 2016; 56(7): 2227
33. Voluntary attention modulates processing of eye-specific visual information. Zhang P, Jiang Y, He S. Psychol Sci. 2012; Mar; 23(3):254-60.
34. Dispositional fear, negative affectivity, and neuroimaging response to visually suppressed emotional faces. Vizueta N, Patrick CJ, Jiang Y, Thomas KM, He S. Neuroimage. 2012; Jan 2; 59(1):761-71.
35. Binocular rivalry requires visual attention. Zhang P, Jamison K, Engel S, He B, He S. Neuron.2011; 71(2) 362-9.
36. Human visual cortex responds to invisible chromatic flicker. He S, Jiang Y, Zhou K. Nature Neuroscience.2007; 10(5) 657-62, 2007.
37. A gender and sexual orientation-dependent spatial attentional effect of invisible images. He S, Jiang Y, Costello P, Fang F, Huang M. PNAS. 2006; 103(45) 17048-52.
38. Cortical responses to invisible objects in the human dorsal and ventral pathways. He S, Fang F. Nature Neuroscience. 2005; 8(10) 1380-5.
39. Viewer-Centered Object Representation in the Human Visual System Revealed By Viewpoint Aftereffect. He S, Fang F. Neuron. 2005; 45 793-800.
40. Competing global representations fail to initiate binocular rivalry. He S, Carlson T. Neuron.2004; 43 907-14.
41. Orientation-Selective Adaptation and Tilt Aftereffect from invisible patterns. He S, MacLeod D. Nature. 2001; 411 473-476.
42. Attentional resolution and the locus of visual awareness. He S, Cavanagh P &Intriligator J. Nature. 1996; 383 334-337. [2] 
參考資料