中科院生物物理研究所脑与认知科学国家重点实验室介绍
脑与认知科学国家重点实验室依托于中国科学院生物物理研究所,于2005年3月获得科技部正式批准进入建设期。2006年,实验室首次参加全国生命科学领域重点实验室的评估,被评为“优秀”。2007年9月通过建设期验收。
实验室立足于脑与认知科学的基础研究,同时开展相关领域的多学科交叉研究,以“围绕研究方向形成共同的研究计划、建设共同的实验环境平台、创立新的原则并着力将研究成果服务于相关应用领域”为主要目标;以视知觉和注意的基本表达、感知觉信息加工的脑机制、高级认知过程及其脑机制、脑与认知功能异常及其机制为主要研究方向。
实验室主任:陈霖院士
实验室副主任:赫荣乔研究员、傅小兰研究员、卓彦研究员
学术委员会主任:郭爱克院士
学术委员会副主任:刘力研究员
实验室秘书:周馨
欢迎访问脑与认知科学国家重点实验网站:
http://bcslab.ibp.ac.cn/shiyansh/index.asp
研究组及其研究方向(Group Leaders)
研究组长 | 研究方向 | |
院士(MCAS) 研究组长 | ||
Prof. Aike Guo 郭爱克院士 | Leaning/ memory and high level cognition in Drosophila | |
Prof. Lin Chen 陈 霖院士 (脑成像团队首席科学家) | Cognitive Sciences and Brain Function Imaging | |
研究员研究组长 (按姓氏拼音字母顺序排序) | ||
C | ||
Prof. Peng Cao 曹鹏研究员 | Visual system has been widely used as a good model to study the mechanisms underlying brain functions. In this laboratory, we are studying how the visual information is processed in both image-forming and non-image-forming visual systems in mammals. The approaches include molecular genetics, electrophysiology, optical imaging and behavioral analysis. | |
H | ||
Prof. Rongqiao He 赫荣乔研究员 | Structure-function relationship of neuronal tau | |
Prof. Shigang He 何士刚研究员 | Mechanism of signal processing and circuitry formation in the brain, using mammalian retina as a model system; regulation and developmental changes in the dendritic structure of retinal ganglion cells; mechanism of processing of visual signals for motion direction. | |
J | ||
Renjie Jiao, Professor 焦仁杰研究员 | Epigenetic regulation of chromatin plasticity and genome stability | |
L | ||
Prof. Li Liu 刘 力研究员 | Structure and function of the brain in relation to the production of specific behavior in Drosophila. | |
S | ||
Prof.Jianyuan Sun 孙坚原研究员 | 1). The molecular mechanism that determines the coupling between calcium channels and synaptic vesicles and how this spatial organization governs vesicle release probability, vesicle release kinetics and synaptic plasticity. 2). The signaling mechanisms that link different modes of synaptic transmitter release to neuronal coding. | |
W | ||
Prof. Jinhui Wang 王晋辉研究员 | Molecular and cellular mechanisms underlying the precise analysis and computation of the neural signals at the levels of neurons, synapses and network;, the functional development of inhibitory interneurons;, the genetics and /neurobiology of functional disorders as well as ischemic stroke in the brain. | |
Prof. Xiaoqun Wang 王晓群研究员 | ||
Prof. Yi Wang 王毅研究员 | Neural mechanisms underlying visual perception and recognition for objects, particularly interested in investigating the cortical representation of object features. The ongoing projects are on the neural coding for luminance, contrast, form, and motion, and also on the functional organization in the visual cortex. | |
J ane Ying Wu, Professor 吴瑛教授 | Wu Laboratory seeks to understand the molecular mechanisms of gene regulation, particularly those involved in neural development and neural degeneration. We are focusing on two areas, RNA regulation and mechanisms underlying cell migration. | |
X | ||
Prof.Rong Xue 薛 蓉研究员 (脑成像团队研究组) | High-field magnetic resonance imaging, MR molecular imaging, diffusion tensor imaging (DTI) & brain fiber mapping, functional MRI studies for cognitive science, application of MR technologies to various human and small animal neural anatomical and functional models with different diseases. | |
Y | ||
Prof. Zengqiang Yuan 袁增强研究员 | The signaling transduction in the neuro degenerative diseases, such as the signal cascades and the regulation of Parkinson\'s diseases related genes -DJ-1 and PINK1. The role and regulation of FOXO in neurodegenerative diseases is under investigation in our laboratory. We are also interested in the characterization of molecular mechanisms of oncogene Muc1 in tumorigenesis and the possibility of Muc1 as a therapeutic target. | |
Z | ||
Prof. Yan Zhu 朱岩研究员 | (1) the formation of neural circuitry, by investigating the molecular mechanisms that direct the development of complex and previously inaccessible higher-order regions of the Drosophila visual system; (2) the molecular and cellular basis of how neural circuits mediate complex animal behavior, by systematically mapping neural circuits underlying vision and other sensory perceptions; (3) how diseases and genetic mutations affect the development and function of the nervous system. | |
Prof. Yan Zhuo 卓 彦研究员 (脑成像团队研究组) | Relationship between form perception and motion perception; methods of functional magnetic resonance imaging. |
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