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机构专排综排地理位置研究人员PI画像【导师】【学生】【合作者】【经费】被引职称
NYU015028New York, NY, USAMichael Smith

NYU
【研究方向】Spine(3+0); Tumor(1+2); Disease(2+0); Psychiatry(2+0); Dopamine(1+0); Receptor(1+0); D2 receptor(1+0); Membrane(1+0); Trafficking(1+0); Therapy(1+0); Psychiatric disorder(1+0); Deformity(0+1); Stroke(1+0); Depression(1+0); Pain(1+0); Motor Neuron(1+0); Consolidation(1+0); Social(1+0); Sleep(1+0); Stress(1+0); Engineering(1+0); Imaging(1+0);
【模式生物】
【方法技术】Gene(2+0); Behavior(2+0); Protein(1+0); In vivo(1+0);
【简述】Spinal tumors and deformity
【研究论文】Nature(1); Science(4); Neuron(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
042579Assist Prof.
WUSTL009032Saint Louis, MO, USAIan G. Dobbins

WUSTL
【研究方向】Memory(2+2); Imaging(1+2); Learning(2+0); Decision making(1+1); PFC(1+1); Cognition(0+1); Retrieval(0+1); Episodic memory(0+1); Motivation(1+0);
【模式生物】
【方法技术】fMRI(1+3); MRI(1+1); Behavior(0+2); Model(1+1); Theory(1+0);
【简述】Interaction of Episodic Memory and Decision-Making Using fMRI and behavioral methods
【研究论文】Nature(1); Cerebral Cortex(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
UW021010Seattle, WA, USAWilliam Spain

UW
【研究方向】Consciousness(0+6); Contrast(0+4); Form(0+4); Auditory(0+4); Membrane(0+2); Disease(0+2); Frequency(0+2); Motor(0+2); Learning(0+2); Timing(0+2); Art(0+2); Connection(0+2);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAJames G. Tidball

UCLA
【研究方向】Muscle(0+5); Regeneration(0+2); Disease(0+2); Transgenic(0+1); Pathology(0+1); Aging(0+1);
【模式生物】Mouse(0+1);
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
MIT005002Boston, MA, USAFuyun Wu

MIT
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
NIH-NIDA??Bethesda, MD, USAElliot A Stein

NIH-NIDA
【研究方向】Cognition(2+3); Psychiatry(4+0); Nicotine(3+1); Imaging(1+3); Neuroimaging(3+1); Cocaine(2+1); Addiction(1+1); Reward(1+1); Dopamine(0+1); 5-HT(0+1); Receptor(1+0); Neuroplasticity(0+1); Rhythm(1+0); Anesthesia(1+0); Environment(0+1); Disorder(1+0); Aging(1+0); Alcohol(1+0); Schizophrenia(1+0); Human imaging(0+1); Attention(0+1); Decision making(0+1); Executive control(1+0); Resting state(1+0); BOLD signal(1+0); Retrosplenial cortex(1+0); Amygdala(1+0);
【模式生物】Human(0+4); Rat(2+0); Rodent(1+1); Non-human primate(0+1); Primate(0+1);
【方法技术】fMRI(2+2); Model(0+3); Gene(1+1); Anatomy(1+0); MRI(0+1); Behavior(0+1); PET(0+1); Pharmacology(0+1); Theory(1+0);
【简述】Neuroimaging Research Branch
【研究论文】JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
James OldsCatherine H. Demers, Dan Kelley, Annabelle Marie Belcher, Zheng-Xiong Xi, Hugh Garavan, Agnes J. Jasinska, Vani Pariyadath, Matthew T. SutherlandShai PoratYears: 2013 — 2018; Recipients: Stein, Elliot A; Code: ZIA; Title/Keywords: Translational Addiction Neurobiology@ National Institute On Drug Abuse; Matching Score: 1
WUSTL009032Saint Louis, MO, USAQin Liu

WUSTL
【研究方向】Itch(4+5); Environment(5+0); Sense(2+2); Receptor(2+1); Pain(1+0); Touch(1+0); Retrieval(1+0); Stress(1+0); Engineering(1+0);
【模式生物】Mouse(1+0);
【方法技术】Computation(2+0); Gene(1+0);
【简述】The biology of itch
【研究论文】Science(2); Cell(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Xinzhong DongYears: 2018 — 2019; Recipients: Liu, QinShowe, Louise C. [⬀] ; Code: U01; Title/Keywords: Integration of Biomarker Signatures From Peripheral Blood For Diagnosis, Prognosis, Remission and Recurrence of Lung Cancer@ Wistar Institute; Matching Score: 0.912003530Assist Prof.
UCLA011013Los Angeles, CA, USADario L. Ringach

UCLA
【研究方向】Vision(0+4); Perception(0+1); Dynamics(0+1); Imaging(0+1); Visual cortex(0+1);
【模式生物】
【方法技术】Multi-electrode(0+1); Model(0+1); Mathematics(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAAnthony Ricci

Stanford
【研究方向】Hair cell(11+2); Auditory(3+4); Development(2+3); Synapse(3+2); Imaging(2+2); Ion Channel(2+1); Synaptic Transmission(0+3); Vesicle(2+0); Sense(0+2); Adaptation(2+0); Frequency(0+2); Regulation(1+0); Modulation(1+0); Membrane(0+1); Differentiation(0+1); Timing(0+1); Temperature(1+0); Hormone(1+0); Engineering(0+1);
【模式生物】Mouse(3+0); Stem Cell(0+1);
【方法技术】Channel(2+4);
【简述】
【研究论文】Cell(6); JNS(3); Nature Communications(1); PNAS(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Robert FettiplaceWisam Reid, Connie Tsai, Hamilton E. Farris, Mamiko Niwa, Anthony W. Peng, Manuel Castellano-Munoz, Thomas EffertzShelley A. BattsYears: 2016 — 2018; Recipients: Ricci, Anthony J; Code: T32; Title/Keywords: Neuroscience Research Training@ Stanford University; Matching Score: 1Prof.
NYU015028New York, NY, USAJessica Treisman

NYU
【研究方向】Vision(0+1);
【模式生物】Drosophila(0+1);
【方法技术】
【简述】Pattern formation in the Drosophila visual system
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gerald M. RubinProf.
Yale014011New Haven, CT, USAAvram Holmes

Yale
【研究方向】
【模式生物】
【方法技术】
【简述】.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USABrad A. Racette

WUSTL
【研究方向】Disease(3+3); Neurology(3+0); Environment(0+2); Imaging(1+1); Cognition(0+1); Motor(0+1);
【模式生物】
【方法技术】Gene(1+0); Ex vivo(1+0); MRI(1+0); PET(1+0);
【简述】Environmental risk factors for Parkinson disease and pathophysiology of Mn induced neurotoxicity
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Joel S. PerlmutterYears: 2017 — 2018; Recipients: Racette, Brad A; Code: R01; Title/Keywords: Manganese-Induced Neurotoxic Effects Research in South Africa (Miners)@ Washington University; Matching Score: 1Prof.
NIH-NICHD??Bethesda, MD, USAMark A. Stopfer

NIH-NICHD
【研究方向】Olfaction(7+1); Sense(2+4); Neural Circuit(3+1); Synapse(2+0); Antennal lobe(2+0); Gap junction(1+0); Development(1+0); Environment(0+1); Decision making(1+0); Neural encoding(1+0); Mushroom body(1+0); Olfactory tract(1+0);
【模式生物】Drosophila(4+0);
【方法技术】Channel(1+0); Anatomy(0+1); Behavior(0+1); Electrophysiology(0+1); Optogenetics(0+1); Computation(0+1);
【简述】Section on Sensory Coding and Neural Ensembles
【研究论文】Neuron(2); JNS(3); Nature Communications(1); Curr Biol.(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Tom Carew, Gilles LaurentAlejandra Boronat Garcia, Rose Ong, Baraniharad Raman, Kazumichi Shimizu, Alejandra Boronat Garcia, Felice A. Dunn, Yu-Shan Hung, Iori Ito Namekawa, Nobuaki Tanaka, Nitin Gupta, Takaaki Miyazaki, Zane N. Aldworth, Subhasis Ray, Joby JosephYears: 2005 — 2018; Recipients: Stopfer, Mark A; Code: Z01ZIA; Title/Keywords: Sensory Coding by Ensembles of Neurons.@ Child Health and Human Development; Matching Score: 0.912
WUSTL009032Saint Louis, MO, USASimon Haroutounian

WUSTL
【研究方向】Pain(27+6); Neuropathic pain(5+2); Therapy(2+1); Development(2+0); Disease(0+2); Headache(2+0); Anesthesia(1+0); Neurology(1+0); Therapeutics(1+0); Parkinson's disease(1+0); Stroke(0+1); Sclerosis(0+1); Sense(1+0); Musculoskeletal pain(1+0); Art(0+1);
【模式生物】Human(1+0);
【方法技术】Ex vivo(1+0); Pharmacology(1+0); Model(1+0);
【简述】Dr. Haroutounian studies neuropathic pain with a focus on determining individual predictors of treatment response to analgesic pharmacotherapy.
【研究论文】
【综述】Review(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002814Assist Prof.
Columbia006008New York, NY, USAJoachim Scholz

Columbia
【研究方向】Pain(8+9); Injury(3+3); Neuropathic pain(2+3); Glial cell(0+3); Glia(1+1); Regulation(0+1); Glutamate(1+0); Synaptic Transmission(0+1); Environment(0+1); Pluripotent stem cells(0+1); Disease(0+1); Inflammation(0+1); Object(1+0); Somatosensory(0+1); Inflammatory pain(0+1); Social(1+0); Exploration(0+1);
【模式生物】Stem Cell(0+5); Rat(2+0); Human(0+1);
【方法技术】Behavior(2+0); Model(0+2);
【简述】Cellular and Molecular Mechanisms of Chronic Pain;
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000119Assist Prof.
NYU015028New York, NY, USALai-Sang Young

NYU
【研究方向】
【模式生物】
【方法技术】Computation(0+1); Theory(0+1);
【简述】Dynamical systems theory and applications, computational neuroscience
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USARobert M. Prins

UCLA
【研究方向】Tumor(0+4); Therapy(0+1);
【模式生物】
【方法技术】Anatomy(0+1); Pharmacology(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USAEvan Macosko

Harvard
【研究方向】Disease(0+4); Context(0+3); Neuropeptide(2+0); 5-HT(2+0); Microglia(2+0); Bipolar(2+0); Sense(2+0); Social behavior(2+0); Dynamics(2+0); Basal ganglia(2+0); Hypothalamus(2+0); Median eminence(2+0); Translation(1+0); Development(0+1); Environment(0+1); Pathogenesis(0+1);
【模式生物】C. elegans(8+0); Mouse(4+2); Human(2+1);
【方法技术】Behavior(10+1); Gene(0+3); Pharmacology(0+1); Computation(0+1); Model(0+1);
【简述】Genomic analyses of brain cell function and dysfunction
【研究论文】Cell(1); Nature Neuroscience(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
004329Assist Prof.
UCLA011013Los Angeles, CA, USAZhefeng Guo

UCLA
【研究方向】Structure(0+2); Disease(0+2); Disorder(0+1); Therapeutics(0+1); Alzheimer's(0+1); Parkinson's(0+1); Prion diseases(0+1); Dynamics(0+1); Engineering(0+1);
【模式生物】Human(0+1);
【方法技术】Protein(0+2); Biochemistry(0+2);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAShiming Chen

WUSTL
【研究方向】Photoreceptor(7+10); Transcription(8+2); Regulation(2+5); Development(1+4); Disease(0+5); Degeneration(2+1); Knockin(2+0); Differentiation(1+1); Mutant(1+0); Receptor(1+0); Short-term plasticity(1+0); Neurogenesis(1+0); Trafficking(1+0); Therapy(0+1); Tumor(1+0); Vision(1+0); Retina(0+1); Metabolism(1+0);
【模式生物】Mouse(6+3); Human(4+1);
【方法技术】Gene(5+7); Model(4+3); Protein(2+0); Virus(1+0); Cell culture(1+0); Electrophysiology(0+1); Bioinformatics(0+1);
【简述】Molecular mechanisms regulating photoreceptor gene expression in healthy and diseased retinas
【研究论文】Nature(1); Cell(2); Neuron(5);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Donald J. ZackYears: 2017 — 2019; Recipients: Chen, ShimingCohen, Barak A [⬀] ; Code: R01; Title/Keywords: Cis-Regulatory Mechanisms Underlying Retinopathy@ Washington University; Matching Score: 1005651Prof.
WUSTL009032Saint Louis, MO, USAPaul H. Taghert

WUSTL
【研究方向】Circadian(9+9); Neuropeptide(4+0); Timing(0+4); Rhythm(2+1); Receptor(1+1); Neural Circuit(2+0); Circadian clock(2+0); Imaging(1+1); Modulation(1+0); Dopamine(1+0); Oscillation(0+1); Sense(0+1); Motor(0+1); Decoding(0+1); CA2(1+0);
【模式生物】Drosophila(9+2);
【方法技术】Behavior(1+2); Gene(2+0); In vivo(1+1); Model(0+1);
【简述】Circadian physiology and behavior
【研究论文】Science(1); Cell(1); Neuron(5); JNS(1); PLoS Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stephen Arch, James W. Truman, Corey S. GoodmanNicole Gong, Jingfeng Lin, Chen Ran, Mehmet Dokucu, Tarik Hadzic, Yiing Lin, Martha O'Brien, Lynn Schneider, Qi Xiao, Xitong Liang, Susan C.P. Renn, Ron J. Benveniste, Seol Hee H. Im, Laura B. Duvall, Erik C. Johnson, Orie T. Shafer, Philip F. Copenhaver, Randall S. HewesYears: 2018; Recipients: Taghert, Paul H; Code: R01; Title/Keywords: Rhythmic Circadian Network Analysis@ Washington University; Matching Score: 1Prof.
UCLA011013Los Angeles, CA, USAChristopher S. Colwell

UCLA
【研究方向】Rhythm(0+3); Circadian(0+3); Timing(0+2); Dysfunction(0+1); Therapy(0+1); Psychiatry(0+1); Psychiatric disorder(0+1); Motor control(0+1); Imaging(0+1);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAJane Dodd

Columbia
【研究方向】Development(4+2); Axon(1+4); Differentiation(1+2); Signaling molecule(0+2); Receptor(1+0); Transcription(1+0); Neuronal differentiation(0+1); Environment(0+1); Axon guidance(1+0); Synaptogenesis(0+1); Disease(1+0); Sense(0+1); Navigation(0+1); Connection(1+0);
【模式生物】
【方法技术】Protein(1+0); In vitro(0+1); Behavior(1+0);
【简述】Synapses and Circuits; Cell Specification and Differentiation; Axon Pathfinding and Synaptogenesis; Cellular/Molecular/Developmental Neuroscience;
【研究论文】Science(1); Cell(1); Neuron(3);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Thomas M. Jessell, Stephen KufflerAlison L. Dell, Paola Bovolenta, Marysia Placzek, Cliff Hume, Samantha ButlerYears: 2015 — 2016; Recipients: Dodd, Jane; Code: R21; Title/Keywords: Trans-Synaptic Tracing of Developing Somatosensory Circuits@ Columbia University Health Sciences; Matching Score: 1Prof.
Stanford002003Palo Alto, CA, USASubhasish Mitra

Stanford
【研究方向】Engineering(13+0); Pediatric(3+0); Neuro-oncology(2+0); Modulation(1+0); Structure(1+0); Tumor(1+0); Modality(1+0); Exploration(1+0); Dynamics(1+0); Methodology(1+0); Robot(1+0);
【模式生物】
【方法技术】Behavior(3+0); Model(2+0); Computation(1+0); Theory(1+0); Simulation(1+0);
【简述】
【研究论文】Nature(1); Cell(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2016 — 2019; Recipients: Wong, H.-S. PhilipMitra, Subhasish; Code: N/A; Title/Keywords: E2cda: Type I: Collaborative Research: Energy Efficient Learning Machines (Enigma)@ Stanford University; Matching Score: 1000238Prof.
UW021010Seattle, WA, USATom Reh 

UW
【研究方向】Development(0+6); Retina(0+4); Photoreceptor(0+4); Glia(0+2); Transplantation(0+2); Regeneration(0+2); Embryo(0+2);
【模式生物】Human(0+6); Stem Cell(0+4); Mouse(0+2); Bird(0+2);
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USARussell Van Gelder

UW
【研究方向】Rhythm(0+4); Circadian(0+4); Entrainment(0+4); Embryo(0+2); Disease(0+2); Inflammation(0+2); Retina(0+2); Sense(0+1);
【模式生物】Mouse(0+2); Bird(0+2);
【方法技术】Biochemistry(0+2); Cell culture(0+2); Model(0+2);
【简述】Sensory Systems
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USAStephen Liberles

Harvard
【研究方向】Sense(5+5); Receptor(4+5); Olfaction(3+0); Somatosensory(2+0); Imaging(0+2); Regulation(0+1); Peptide(1+0); Ion Channel(0+1); Glia(0+1); Disease(0+1); Disorder(0+1); Neural Circuit(1+0); Perception(1+0); Body(0+1); Neuropathic pain(1+0); Taste(1+0); Reflex(1+0); Body Weight(1+0); Metabolism(0+1); Cardiovascular(0+1); Autonomic(0+1); Respiratory(0+1); Hypothalamus(1+0); Paraventricular nucleus(1+0);
【模式生物】Mouse(1+0);
【方法技术】Gene(0+4); In vivo(0+1); Cell culture(0+1); Anatomy(0+1); Behavior(0+1); Electrophysiology(0+1);
【简述】Internal and External Sensory Systems
【研究论文】Cell(4); Neuron(4); Nature Communications(1); Curr Biol.(1); eLife(1);
【综述】Current Opinion In Neurobiology(2); Trends In Neurosciences(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stuart L. Schreiber, Linda B. BuckDheeraj S. Roy, David E. Strochlic, Erika Williams, Zecai Liang, David  M. Ferrero, Benjamin D Umans, Rui B. Chang, Qian Li, GaYoung Lee, Chen RanSandeep Robert Datta, Marc Spehr, Markus FendtYears: 2016 — 2018; Recipients: Liberles, Stephen Daniel ; Code: DP1; Title/Keywords: Sensory Receptors of the Vagus Nerve@ Harvard Medical School; Matching Score: 1Prof.
UCSD011017San Diego, CA, USAAndrea A. Chiba

UCSD
【研究方向】Attention(0+3); Cognition(0+2); Modulation(0+1); Spatial attention(0+1); Memory(0+1); Learning(0+1); Learning and memory(0+1); Associative learning(0+1); Knowledge(0+1); Amygdala(0+1); Basal forebrain(0+1);
【模式生物】
【方法技术】Behavior(0+3); Model(0+1);
【简述】 Systems; Cognitive, Behavioral & Psychopharmacology; Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USALudo Max 

UW
【研究方向】Speech(0+20); Motor control(0+11); Adaptation(0+2); Form(0+2); Auditory(0+2); Voluntary Movement(0+2); Brain-Computer Interface(0+2);
【模式生物】Human(0+2);
【方法技术】Pharmacology(0+2);
【简述】Brain-Computer Interfaces; Cell and Molecular Neuroscience; Computational Neuroscience; Developmental Neuroscience
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIDDK??Bethesda, MD, USAMichael Krashes

NIH-NIDDK
【研究方向】Hypothalamus(4+4); Memory(3+2); Food Intake(2+2); Modulation(3+0); Reward(3+0); Sleep(3+0); Metabolism(2+1); Receptor(2+0); Energy homeostasis(1+1); Cognition(0+2); Appetitive(1+1); Homeostatic(0+2); Neural network(0+2); Mushroom body(2+0); Dopamine(1+0); GABA(1+0); Synapse(0+1); Disorder(0+1); Neural Circuit(1+0); Pain(1+0); Olfaction(1+0); Taste(1+0); Learning(0+1); Learning and memory(0+1); Long-term memory(1+0); Acquisition(0+1); Consolidation(1+0); Memory Consolidation(1+0); Body temperature(1+0); Water balance(1+0); Neuroendocrinology(1+0); Hormone(1+0); PFC(1+0); mPFC(1+0); Amygdala(1+0); Nucleus accumbens(1+0); Paraventricular nucleus(1+0); Arcuate nucleus(1+0);
【模式生物】Drosophila(6+0); Human(0+3); Mouse(2+0); Rodent(0+1);
【方法技术】Behavior(5+6); Gene(2+3); Protein(1+0); In vivo(1+0); In vitro(1+0); Optogenetics(1+0);
【简述】Diabetes, Endocrinology, and Obesity Branch
【研究论文】Cell(2); Nature Neuroscience(2); Neuron(6); JNS(2); Curr Biol.(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003982
WUSTL009032Saint Louis, MO, USAThomas Papouin

WUSTL
【研究方向】NMDA receptor(10+0); Synapse(3+3); Neuromodulation(2+2); Receptor(2+1); LTP(3+0); Cognition(1+2); Glial cell(0+2); Environment(1+1); Disorder(0+2); Fragile X(2+0); Memory(2+0); Knockout(1+0); Signaling molecule(0+1); Glutamate(1+0); GABA(1+0); Synaptic integration(0+1); Plasticity(1+0); Neuroplasticity(1+0); Synaptic Plasticity(0+1); Astrocyte(1+0); Development(0+1); CNS(1+0); Trafficking(1+0); Therapeutics(0+1); Psychiatric disorder(0+1); Depression(0+1); Schizophrenia(0+1); Learning(1+0); Learning and memory(0+1); Attention(0+1); Comprehension(0+1); Sleep(0+1); Mushroom body(1+0);
【模式生物】Mouse(4+0);
【方法技术】Model(2+2); Protein(1+0); Behavior(0+1); Computation(0+1);
【简述】Mechanisms or neuron-glia interactions in health and disease
【研究论文】Nature(1); Cell(1); Neuron(2); JNS(1); eLife(1); Cerebral Cortex(2);
【综述】Review(2); Trends In Neurosciences(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stéphane H. Oliet, Philip Haydon001839Assist Prof.
NYU015028New York, NY, USADavid Poeppel

NYU
【研究方向】Speech(13+1); Perception(4+1); Language(4+0); Cognition(3+0); Structure(2+0); Vision(2+0); Auditory(2+0); Oscillation(1+0); Rhythm(1+0); Object(1+0); Engineering(1+0); Auditory cortex(1+0);
【模式生物】Human(2+0);
【方法技术】Anatomy(2+0); PET(1+0); MEG(1+0); Computation(1+0);
【简述】Neural and cognivitive basis of speech perception
【研究论文】Nature Neuroscience(3); Neuron(3); Cerebral Cortex(1);
【综述】Review(3); Nature Reviews Neuroscience(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Alec Marantz, Ken Wexler, Timothy Roberts, Howard RowleyElika Bergelson, Anthony Boemio, Maria Chait, Veronica Figueroa, Ana Gouvea, Ellen F. Lau, Ariane Rhone, Xiangbin Teng, Yue Zhang, Keith B. Doelling, Aniela Improta França, Kala Lakshminarayanan, Virginie van Wassenhove, Rob D. Fiorentino, Huan Luo, Diogo Alvares de Azevedo Almeida, Philip J. Monahan, Joshua Aaron Riley, Julian Jenkins III, Gregory B. Cogan, Gwyneth A. Lewis, Laura Elizabeth Gwilliams, Anita R. Bowles, Silvia Gennari, Mary Howard, Minna Lehtonen, Tobias Overath, Lisa D. Sanders, Alessandro Tavano, Yadong Wang, Jean Mary Zarate, Xing Tian, Amy M. Belfi, Johanna M. Rimmele, Nai Ding, Giorgos MichalareasJonathan Z. Simon, Gregory HickokYears: 2017 — 2020; Recipients: Poeppel, DavidMilne, Catherine; Code: N/A; Title/Keywords: Brain-to-Brain Synchrony in Stem Learning@ New York University; Matching Score: 1024131Prof.
Stanford002003Palo Alto, CA, USADavid Clark

Stanford
【研究方向】Cognition(15+0); Pain(15+0); Therapy(14+0); Social(9+0); Anxiety(7+0); Disorder(5+0); Development(3+0); Brain injury(3+0); Stress(3+0); Neuropeptide(2+0); Anesthesia(2+0); Differentiation(2+0); Alcohol(2+0); Memory(2+0); Regulation(1+0); Modulation(1+0); Cytokine(1+0); Peptide(1+0); Neurogenesis(1+0); Psychiatry(1+0); Neuroinflammation(1+0); Trauma(1+0); Addiction(1+0); Depression(1+0); Post-traumatic stress disorder(1+0); Exercise(1+0);
【模式生物】Human(2+0); Rat(2+0); Mouse(1+0);
【方法技术】Behavior(9+0); Model(8+0); In vitro(1+0);
【简述】
【研究论文】Science(1); Cell(2); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Lee LimbirdMaral Tajerian052656Prof.
Stanford002003Palo Alto, CA, USADouglas Noordsy

Stanford
【研究方向】Schizophrenia(13+0); Disorder(4+0); Psychiatry(3+0); Exercise(2+0); Therapy(1+0); Addiction(1+0); Alcohol(1+0); Learning(1+0); Context(1+0);
【模式生物】
【方法技术】Gene(2+0);
【简述】
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USAYvette Taché

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAMark S. Cohen

UCLA
【研究方向】Development(0+2); Imaging(0+2); Temperature(0+1); Engineering(0+1); Neuroimaging(0+1);
【模式生物】
【方法技术】MRI(0+3);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NINDS??Bethesda, MD, USARichard J. Youle

NIH-NINDS
【研究方向】Mitochondria(7+6); Development(3+1); Regulation(2+0); Receptor(2+0); Membrane(1+1); Neurodegenerative disease(0+2); Form(1+1); Stress(2+0); Dynamics(2+0); Structure(1+0); Transcription(1+0); Neurodegenerative disorder(0+1); Aging(1+0); Inflammation(1+0); Cardiovascular(1+0); Imaging(0+1);
【模式生物】Human(0+2); Drosophila(1+0);
【方法技术】Protein(5+1); Biochemistry(0+1); Microscopy(0+1);
【简述】Biochemistry Section
【研究论文】Nature(3); Cell(4); Curr Biol.(2); eLife(2);
【综述】Review(4); Nature Reviews Molecular Cell Biology(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
062934
NYU015028New York, NY, USAJohn Simpson

NYU
【研究方向】Eye Movement(0+5); Vision(0+3); Vestibular(0+3); Sensorimotor Integration(0+2); Climbing fiber(0+2); Signal processing(0+2); Cerebellum(2+0); Modulation(1+0); Structure(1+0); Oscillation(1+0); Environment(1+0); Sense(0+1); Context(0+1); Stress(1+0); Encoding(0+1);
【模式生物】
【方法技术】Channel(1+0); Anatomy(0+1); Behavior(1+0); Model(1+0);
【简述】Sensorimotor integration, eye movements, and the cerebellum
【研究论文】Nature(1); Science(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jerome Y. Lettvin, Masao Ito, Rodolfo R. LlinásChristopher S. Leonard, John S. Stahl, Chris I. de Zeeuw, Jun Maruta, Douglas R. Wylie, Robert A. HensbroekBernard CohenYears: 2007 — 2009; Recipients: Simpson, John I; Code: P01; Title/Keywords: The Cerebellar Flocculus and Eye Movement Control@ New York University School of Medicine; Matching Score: 1010539Emeritus
JHU010012Baltimore, MD, USAMary Ann Wilson

JHU
【研究方向】Glutamate receptor(0+3); Development(0+3); Amino acid(0+2); Plasticity(0+2); Environment(0+2); Injury(0+2); Toxic injury(0+2); Neurotransmitter(0+1); Neurodegenerative disease(0+1); Vulnerability(0+1); Parkinson's disease(0+1); Trauma(0+1); Sense(0+1); Somatosensory(0+1); S1(0+1);
【模式生物】Rodent(0+2);
【方法技术】Model(0+2);
【简述】.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAJennifer Stone

UW
【研究方向】Hair cell(0+10); Receptor(0+1); Development(0+1); Regeneration(0+1); Degeneration(0+1); Sense(0+1); Form(0+1); Auditory(0+1); Vestibular(0+1);
【模式生物】Human(0+1); Mouse(0+1);
【方法技术】
【简述】Developmental Neuroscience; Disorders of the Nervous System; Sensory Systems
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAAjay Dhaka

UW
【研究方向】Sense(0+7); Perception(0+3); Receptor(0+2); Development(0+2); Touch(0+2); Temperature(0+2); Transporter(0+1); Ion Channel(0+1); Non-selective cation channel(0+1); TRP channel(0+1); Environment(0+1); Neural Circuit(0+1); Body(0+1); Somatosensory(0+1); Pain(0+1); Nociception(0+1); Imaging(0+1);
【模式生物】Mouse(0+1);
【方法技术】Biochemistry(0+1); Electrophysiology(0+1);
【简述】Behavioral Neuroscience;
Cell and Molecular Neuroscience
Developmental Neuroscience
Disorders of the Nervous System
Neural Circuits
Neurotransmitters; Modulators; Transporters and Receptors
Sensory Systems
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIMH??Bethesda, MD, USADaniel Samuel Pine

NIH-NIMH
【研究方向】Anxiety(10+6); Emotion(4+7); Development(3+7); Disorder(4+5); Psychiatry(8+0); Regulation(0+5); Structure(2+1); Environment(2+0); Bipolar(2+0); Inhibitory control(2+0); Social(2+0); Fear(2+0); Reward(2+0); Modulation(1+0); Therapy(1+0); Pediatric(1+0); Cognition(0+1); Face(1+0); Planning(1+0); Memory(0+1); Attention(1+0); Music(1+0); Cingulate cortex(1+0); ACC(1+0);
【模式生物】
【方法技术】Gene(4+0); Behavior(3+1); fMRI(0+4); Model(1+0); Theory(1+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAXing Tian

NYU
【研究方向】Speech(7+1); Imagery(5+1); Cognition(5+0); Language(2+1); Dynamics(3+0); Cognitive neuroscience(2+0); Motor(1+1); Entrainment(2+0); Structure(1+0); Oscillation(1+0); Sense(0+1); Perception(1+0); Vision(1+0); Face(1+0); Auditory(1+0); Auditory processing(1+0); Semantic(1+0); Intelligence(1+0); Neural network(1+0);
【模式生物】Human(4+0);
【方法技术】Behavior(3+0); MEG(3+0); EEG(1+0); Computation(1+0); Model(1+0); Simulation(1+0);
【简述】Motor sensory interaction, Mental imagery, Speech and language
【研究论文】Science(1); Nature Neuroscience(1); JNS(1); Curr Biol.(1); PLoS Biol.(1); Nature Human Behaviour(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David E. Huber, David Poeppel000927Assist Prof.
JHU010012Baltimore, MD, USARejji Kuruvilla

JHU
【研究方向】Development(0+4); Axon(0+2); Form(0+2); Signal transduction(0+1); Trafficking(0+1); Dendritic growth(0+1); Dendrite(0+1); Synapse formation(0+1); Morphology(0+1); Imaging(0+1);
【模式生物】Mouse(0+1);
【方法技术】
【简述】Developmental Neuroscience; Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAKelly Tremblay

UW
【研究方向】Aging(0+6); Age-related(0+2); Auditory(0+2); Speech(0+2);
【模式生物】Human(0+2);
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAElena Gracheva

Yale
【研究方向】Thermoregulation(0+2); Environment(0+1); Transplantation(0+1); Somatosensory(0+1); Body temperature(0+1); Imaging(0+1); Evolutionary(0+1);
【模式生物】Human(0+1);
【方法技术】Gene(0+2); Behavior(0+2); Biochemistry(0+1); Anatomy(0+1); Electrophysiology(0+1); Model(0+1); Bioinformatics(0+1);
【简述】Physiology, Comparative.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USAKerry Ressler

Harvard
【研究方向】Fear(10+5); Psychiatry(14+0); Disorder(11+2); Trauma(4+5); Memory(2+6); Anxiety(7+0); Extinction(6+1); Stress(5+1); Depression(5+0); Emotion(2+3); Receptor(4+0); Cognition(3+1); Olfaction(4+0); Post-traumatic stress disorder(3+0); Amygdala(3+0); Modulation(1+1); Development(1+1); Learning(1+1); Social(2+0); Neuroimaging(1+1); Knockout(0+1); Regulation(1+0); Structure(1+0); Plasticity(0+1); Synaptic Plasticity(1+0); Translation(1+0); Synapse(0+1); Disease(0+1); Dysfunction(1+0); Biomarker(1+0); Pediatric(1+0); Neural Circuit(1+0); Systems Neuroscience(0+1); Contrast(0+1); Face perception(1+0); Consolidation(0+1); Memory Consolidation(0+1); Social cognition(1+0); Aversive(1+0); Hormone(1+0); Autonomic(1+0); Encoding(1+0); S1(1+0); Olfactory bulb(1+0);
【模式生物】Mouse(2+3); Human(0+3); Rat(1+0);
【方法技术】Gene(4+2); Behavior(2+2); Virus(0+1); Optogenetics(0+1); Pharmacology(1+0); Model(0+1);
【简述】Molecular Biology, Genetics, and Neural Circuitry of Fear in Animals and Human Fear-Related Disorders
【研究论文】
【综述】Trends In Neurosciences(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard J. Wurtman, Linda B. Buck, Michael DavisAlex O. Rothbaum, Thomas Crow, Orion Paul Keifer, Jr., Mallory E. Bowers, Filomene G. Morrison, Lisa M. Stanek-Rattiner, Jasmeer P. Chhatwal, Seth V. Jones, Kimberly A. Maguschak, Amy L. Mahan, Charles F. Gillespie, Aaron M. Jasnow, Dennis C. Choi, Georgette M. Gafford, Sunayana B. Banerjee, Stephanie A. Maddox, Raül Andero Gali, Rachel A. Ross, Nikolaos P. DaskalakisRetsina M. Meyer, Seth Davin Norrholm, Nikolaos P. DaskalakisYears: 2019; Recipients: Ressler, Kerry J.Suh, Junghyup; Code: R21; Title/Keywords: Neural Circuit Mechanisms of Stress-Induced Alcohol Seeking Behavior@ McLean Hospital; Matching Score: 0.907031964Prof.
NIH-NIMH??Bethesda, MD, USAVictor W. Pike

NIH-NIMH
【研究方向】Imaging(10+3); Receptor(9+1); Metabolism(3+1); Transporter(2+1); Blood flow(3+0); Dopamine(2+0); Development(1+1); Disease(2+0); Psychiatry(2+0); Biomarker(2+0); Neurotransmitter(0+1); Embryo(1+0); Inflammation(1+0); Methodology(0+1);
【模式生物】Human(7+3); Monkey(7+0); Stem Cell(4+0); Mouse(3+0); Rodent(3+0); Rat(1+0);
【方法技术】PET(13+6); Protein(5+0); In vivo(3+1); Pharmacology(3+0); Model(2+0); Gene(1+0); In vitro(1+0);
【简述】
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
016182
NIH-NINDS??Bethesda, MD, USAZu-Hang Sheng

NIH-NINDS
【研究方向】Axon(0+5); Mitochondria(0+4); Receptor(3+0); Structure(1+2); Disease(3+0); Regulation(1+1); Axonal transport(0+2); Neurodegenerative disease(0+2); Dysfunction(0+2); Injury(1+1); Stress(1+1); Imaging(1+1); Modulation(1+0); Membrane(0+1); Energy homeostasis(0+1); Trafficking(0+1); Disorder(0+1); Pathology(0+1); Pathogenesis(0+1); Biomarker(1+0); Sense(0+1); Object(1+0); Body(0+1); Motor(0+1); Learning(1+0); Working memory(1+0); Concept(1+0); Knowledge(0+1); Encoding(1+0); PFC(1+0);
【模式生物】Human(3+1); Rat(1+0); Mouse(0+1);
【方法技术】Gene(0+1); Model(0+1);
【简述】Synaptic Function Section
【研究论文】Nature(3); Cell(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Zhou bingYears: 2012 — 2018; Recipients: Sheng, Zu-Hang; Code: ZIA; Title/Keywords: Axonal Transport Regulates Synaptic Function and Axonal Homeostasis@ Neurological Disorders and Stroke; Matching Score: 1
Yale014011New Haven, CT, USAErdem Karatekin

Yale
【研究方向】Vesicle(0+6); Membrane(0+4); Dynamics(0+2); Regulation(0+1); Calcium channel(0+1); Vesicle recycling(0+1); Trafficking(0+1); Form(0+1); Hormone(0+1);
【模式生物】
【方法技术】Microscopy(0+2); In vitro(0+1); Electrophysiology(0+1);
【简述】Exocytosis; Liposomes; Membrane Fusion; Microscopy, Fluorescence; Molecular Biology; Physiology; Secretory Vesicles; Microfluidics.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
CAS-ION??Shanghai, ChinaZhi-Yong Liu

CAS-ION
【研究方向】Development(4+9); Auditory(2+7); Hair cell(8+1); Regeneration(2+2); Regulation(2+0); Proliferation(2+0); Cell cycle(2+0); Sense(2+0); Transgenic(0+1); Knockin(1+0); Receptor(0+1); Disease(0+1); Social communication(0+1); Auditory cortex(0+1);
【模式生物】Mouse(9+6); Human(0+4); Stem Cell(1+2); Drosophila(1+1);
【方法技术】Gene(2+6); In vivo(6+0); Model(0+3); Electrophysiology(0+2); Pharmacology(0+2); Protein(1+0); Biochemistry(0+1); Bioinformatics(0+1);
【简述】Auditory System Development and Regeneration
【研究论文】Science(1); Cell(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Investigator
UCSF003015San Francisco, CA, USAChristoph Schreiner

UCSF
【研究方向】Auditory(0+6); Speech(0+4); Perception(0+2); Modulation(0+1); Plasticity(0+1); Environment(0+1); Object(0+1); Frequency(0+1); Spectral(0+1); Language(0+1); Music(0+1); Exploration(0+1); Encoding(0+1); Thalamus(0+1);
【模式生物】Human(0+1); Primate(0+1);
【方法技术】Behavior(0+2); Psychophysics(0+2); Electrophysiology(0+1); Computation(0+1); Model(0+1);
【简述】Representation of Complex Signals in the Central Auditory System
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USADavid G. Cook

UW
【研究方向】Brain injury(0+5); Glutamate(0+4); Disease(0+4); Injury(0+4); Astrocyte(0+2); Disorder(0+2); Neurodegenerative disorder(0+2); Pathogenesis(0+2); Dysfunction(0+2); Aging(0+2); Parkinson's disease(0+2); Cognition(0+2); Metabolism(0+2); Neuroimaging(0+2);
【模式生物】Human(0+2);
【方法技术】In vivo(0+3); Behavior(0+3); Model(0+2);
【简述】Cell and Molecular Neuroscience; Disorders of the Nervous System; Behavioral Neuroscience
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USAMark H. Ellisman

UCSD
【研究方向】Structure(0+6); Synapse(0+6); Development(0+4); Imaging(0+3); Membrane(0+2); Neurotransmitter(0+1); Receptor(0+1); Ion Channel(0+1); Glia(0+1); Differentiation(0+1); Regeneration(0+1); Aging(0+1); Methodology(0+1);
【模式生物】
【方法技术】Microscopy(0+4); Computation(0+2); Biochemistry(0+1); Electrophysiology(0+1); Electron Microscope(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular; Systems; Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USARoy Pea

Stanford
【研究方向】Learning(43+2); Social(6+1); Cognition(6+0); Development(3+0); Environment(2+0); Perception(1+0); Vision(1+0); Planning(1+0); Attention(1+0); Language(1+0); Art(1+0); Intelligence(1+0); Concept(1+0); Knowledge(1+0);
【模式生物】Human(1+0);
【方法技术】Theory(2+1); Computation(2+0); Mathematics(2+0); Model(1+0);
【简述】
【研究论文】Science(3);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Nancy S. FoldiYears: 2013 — 2015; Recipients: Pea, RoyCooper, Stephen (co-PI) [⬀] ; Code: N/A; Title/Keywords: Eager: Foundations For Advancing Computational Thinking (Fact): Learning and Assessment Through An Online Middle School Curriculum@ Stanford University; Matching Score: 0.915027519Prof.
Stanford002003Palo Alto, CA, USAJames K Chen

Stanford
【研究方向】Development(5+3); Regeneration(1+2); Signal transduction(1+1); Adhesion(2+0); Modulation(1+0); Receptor(1+0); Structure(0+1); Embryo(0+1); Inflammation(1+0); Motor(1+0); Finger(1+0); Imaging(0+1); Optical(0+1); Optical imaging(1+0);
【模式生物】Zebrafish(2+2); Human(1+0);
【方法技术】Gene(4+5); Model(1+2); Protein(1+0); In vivo(1+0); Microscopy(0+1);
【简述】
【研究论文】Nature(3); Nature Communications(1); eLife(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
George M. Whitesides, Stuart L. Schreiber, Philip A. BeachyShawn Xiaohu Ouyang, Alexander Payumo, John Kenneth Mich, Ari J. Firestone, Lukasz Kowalik, Alison Ondrus, Sankha Pattanayak, Surajit Sinha, Karen MrukYears: 2018 — 2019; Recipients: Chen, James K [⬀] Chen, James K [⬀] ; Code: R35; Title/Keywords: Chemical Tools For Developmental Biology@ Stanford University; Matching Score: 1010663Prof.
UW021010Seattle, WA, USAJeffrey Ojemann

UW
【研究方向】Epilepsy(0+4); Neurology(0+2); Cognition(0+2); Touch(0+2); Brain-Computer Interface(0+2); Learning(0+2); Language(0+2); Dynamics(0+2); Engineering(0+2); Temporal lobe(0+2);
【模式生物】Human(0+2);
【方法技术】ECoG(0+8); Behavior(0+2); fMRI(0+2);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAJoseph A. Gogos

Columbia
【研究方向】Schizophrenia(7+5); Psychiatric disorder(0+4); Disease(0+2); Neural Circuit(0+2); Structure(0+1); Synaptic Plasticity(1+0); Synchrony(1+0); Development(1+0); Axon(1+0); Synapse(0+1); Dysfunction(1+0); Therapeutics(0+1); Social memory(1+0); PFC(1+0); Hippocampus(1+0); CA2(1+0);
【模式生物】Mouse(10+1); Human(0+2);
【方法技术】Model(9+5); Gene(4+7); Behavior(2+1);
【简述】Neurogenetics; Models of Psychiatric Disorders; Synapses and Circuits; Neurobiology of Disease;
【研究论文】Cell(1); Nature Neuroscience(2); Neuron(5); JNS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UW021010Seattle, WA, USARachel Wong

UW
【研究方向】Development(0+4); Retina(0+4); Transgenic(0+2); Connection(0+2);
【模式生物】
【方法技术】In vivo(0+2); In vitro(0+2); Electrophysiology(0+2); Microscopy(0+2); Model(0+2);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USABarnett A. Schlinger

UCLA
【研究方向】Steroid(0+6); Hormone(0+2); Neurotransmitter(0+1); Modulation(0+1); Receptor(0+1); Ion Channel(0+1); Plasticity(0+1); Transcription(0+1); CNS(0+1); Neural Circuit(0+1);
【模式生物】Bird(0+1); Songbird(0+1);
【方法技术】Behavior(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAAttila Losonczy

Columbia
【研究方向】Dendrite(3+3); Plasticity(1+4); Memory(2+1); Learning(2+0); Encoding(1+1); CA1(2+0); Regulation(1+0); GABA(1+0); GABAB receptor(1+0); Neurogenesis(1+0); Synapse(0+1); Form(0+1); Learning and memory(0+1); Retrieval(0+1); Context(1+0); Timing(1+0); Spatial navigation(1+0); Place cell(1+0); Fear(1+0); Dynamics(1+0); Imaging(1+0); Entorhinal cortex(1+0); Hippocampus(1+0);
【模式生物】Mouse(1+0);
【方法技术】Computation(0+2); Virus(1+0); Behavior(0+1); Electrophysiology(0+1); Neuroinformatics(1+0);
【简述】Neurobiology of Learning and Memory; Synapses and Circuits; Systems and Circuits;
【研究论文】Science(2); Nature Neuroscience(5); Neuron(6); JNS(1); Neuroinformatics(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Zoltan Nusser, Gero Miesenbock, Jeffrey C. MageeThomas R. Reardon, Patrick Kaifosh, Nathan Danielson, Joseph Tsai, James B. Priestley, Matthew Lovett-Barron, Jeffrey D. Zaremba, Tristan Geiller, Gergely Turi, Andres D. Grosmark, Fraser T. Sparks, Satoshi Terada, Stephanie HerrlingerYears: 2017 — 2019; Recipients: Buzsaki, GyorgyLisman, John E (co-PI) [⬀] Losonczy, AttilaSchnitzer, Mark J (co-PI) [⬀] Soltesz, Ivan [⬀] ; Code: U19; Title/Keywords: Towards a Complete Description of the Circuitry Underlying Sharp Wave-Mediated Memory Replay@ Stanford University; Matching Score: 0.954Assoc Prof.
NIH-NICHD??Bethesda, MD, USAMary Lilly

NIH-NICHD
【研究方向】Development(6+4); Differentiation(1+3); Cell cycle(3+0); Neurotransmitter(1+0); Environment(0+1); Embryo(1+0); Contrast(0+1); Face(0+1); Music(1+0); Concept(1+0); Metabolism(1+0); Stress(1+0); Imaging(1+0);
【模式生物】Drosophila(12+3); Human(0+1);
【方法技术】Gene(0+2); Model(0+2); Protein(1+0); Simulation(1+0);
【简述】Section on Gamete Development
【研究论文】Cell(8);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000007
Stanford002003Palo Alto, CA, USAYang Sun

Stanford
【研究方向】Vision(7+0); Disease(2+2); Development(1+1); Proliferation(2+0); Cell cycle(2+0); Regeneration(2+0); CNS(2+0); Axon(2+0); Inflammation(2+0); Regulation(1+0); Nicotinic acetylcholine receptor(1+0); Acetylcholine receptor(1+0); Differentiation(1+0); Pathogenesis(1+0); Therapeutics(1+0); Retina(1+0);
【模式生物】Human(6+1); Mouse(4+0); Rat(1+0); Zebrafish(1+0);
【方法技术】Pharmacology(5+0); Model(2+1); Protein(2+0); Optogenetics(2+0);
【简述】
【研究论文】Cell(2); Nature Communications(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jie Sui009159Assoc Prof.
UCSD011017San Diego, CA, USABrenda Bloodgood

UCSD
【研究方向】Neurotransmitter(0+1); Synaptic integration(0+1); Environment(0+1); Disease(0+1); Cognition(0+1); Execution(0+1); Learning and memory(0+1); Spatial learning(0+1); Hippocampus(0+1);
【模式生物】Mouse(0+1);
【方法技术】Gene(0+3); Behavior(0+3); Biochemistry(0+1); Tracing(0+1); Optogenetics(0+1); Computation(0+1);
【简述】 Biochemistry & Molecular; Cognitive, Behavioral & Psychopharmacology
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAOlav Solgaard

Stanford
【研究方向】Imaging(7+0); Optical(6+0); Structure(1+0); Depth(1+0);
【模式生物】
【方法技术】Microscopy(6+0);
【简述】
【研究论文】Cell(1);
【综述】Physical Review(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
012081Prof.
WUSTL009032Saint Louis, MO, USAHaina Shin

WUSTL
【研究方向】Infection(1+6); Memory(3+0); Development(1+1); Disease(0+2); PNS(0+1); Therapy(0+1);
【模式生物】Mouse(0+2);
【方法技术】Virus(0+4); Model(0+2);
【简述】Examining immune responses against viruses that establish persistent infections in their hosts
【研究论文】Nature(1); Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
CalTech072006Pasadena, CA, USAMatt Thompson

CalTech
【研究方向】Stroke(5+0); Disease(4+0); Development(0+2); Engineering(0+2); Glutamate(1+0); Structure(1+0); Therapy(1+0); Neuroprotective(1+0); Neuroprotection(1+0); Ischemia(1+0); Morphology(1+0); Vessel(1+0); Optical(1+0); CA1(1+0);
【模式生物】
【方法技术】Computation(0+2); Mathematics(0+2); Statistics(2+0); Pharmacology(1+0);
【简述】Biological Engineering; Computational Mathematics; Developmental Biology and Genetics; Synthetic Biology; Systems Biology
【研究论文】Nature(2);
【综述】Review(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
047305Assist Prof.
Stanford002003Palo Alto, CA, USAStuart Thompson

Stanford
【研究方向】Muscarinic(5+0); CA2(5+0); Receptor(3+0); Membrane(2+0); Cell line(2+0); Signal transduction(0+1); Modulation(1+0); Potassium channel(1+0); Sense(1+0); Vision(1+0); Spectral(1+0); Temperature(1+0);
【模式生物】
【方法技术】Channel(1+0); Behavior(1+0);
【简述】
【研究论文】Nature(1); Cell(4); Neuron(2); JNS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Wolfhard Almers, Charles F. Stevens, A.O. Dennis Willows, Peter GettingGary Aston-Jones, Michael Barish, Richard W. Aldrich, Samuel S.-H. Wang, Melissa M. Coates, Christian R L Reilly, Jay S. Coggan, Peter C. RubenStephen J. SmithYears: 2000 — 2001; Recipients: Thompson, Stuart; Code: N/A; Title/Keywords: A Confocal Microscope For the Hopkins Marine Station@ Stanford University; Matching Score: 0.915Prof.
NYU015028New York, NY, USAMichael Landy

NYU
【研究方向】Vision(16+2); Perception(3+1); Decision making(2+0); Environment(1+0); Cognition(1+0); Sense(1+0); Adaptation(1+0); Depth(1+0); Depth perception(1+0); Motor(1+0); Motor control(1+0); Planning(1+0); Knowledge(1+0); Emotion(1+0); Bayesian(1+0); Visual cortex(1+0);
【模式生物】Human(1+0);
【方法技术】Model(4+0); Theory(3+0); Computation(2+0); Statistics(1+0);
【简述】Visual perception and the visual control of action
【研究论文】Science(1); Nature Neuroscience(1); JNS(2);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
George SperlingLanya T. Cai, Jerad Fields, Gizem Kucukoglu, Hörmet T. Yiltiz, Sophie Wuerger, Richard F. Murray, S. Sabina Wolfson, Ipek Oruc, Sarah M. Shuwairi, John F. Ackermann, Todd E. Hudson, Julia Trommershäuser, Ahna C. Girshick, Luke E. Hallum, Pascal Mamassian, Paul A. Warren, Toni P. Saarela, Peng SunMartin Banks, Barbara Anne Dosher, Eero P. Simoncelli, Sergei GepshteinYears: 2015 — 2018; Recipients: Landy, Michael S; Code: P30; Title/Keywords: Core Grant: Visual Displays Module@ New York University; Matching Score: 1010227Prof.
UCLA011013Los Angeles, CA, USAAndrew F. Leuchter

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAShaul Yogev

Yale
【研究方向】Synapse(0+2); Body(0+2); Axonal transport(0+1); Dendrite(0+1); Disease(0+1); Dysfunction(0+1); Aging(0+1); Motor Neuron(0+1);
【模式生物】C. elegans(0+1);
【方法技术】Protein(0+1); Model(0+1);
【简述】Axonal Transport; Cell Biology; Cytoskeleton; Neurons; Synapses; Motor Neuron Disease.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USASteven Chu

Stanford
【研究方向】Optical(4+0); Dynamics(2+0);
【模式生物】
【方法技术】Microscopy(1+0); Theory(1+0);
【简述】
【研究论文】Nature(5); Science(5);
【综述】Physical Review(5); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
055112Prof.
Harvard001001Boston, MA, USARichard Born

Harvard
【研究方向】Vision(10+4); V1(3+3); Visual cortex(1+2); Structure(2+0); Striate cortex(2+0); Eye Movement(2+0); Imaging(1+1); V2(0+2); Genetically modify(0+1); Modulation(0+1); Sense(1+0); Depth(1+0); Contrast(1+0); Contour(1+0); Object(1+0); Frequency(1+0); Context(0+1); Inference(0+1); Bayesian(0+1); Dynamics(1+0); V3(0+1);
【模式生物】Macaque(9+0); Monkey(2+1); Primate(2+0); Human(1+0);
【方法技术】Multi-electrode(0+6); Microstimulation(2+1); Virus(0+2); Tracing(0+1); MRI(1+0); Psychophysics(0+1); Model(0+1);
【简述】Neural Circuitry of Primate Visual Cortex
【研究论文】Nature(3); Nature Neuroscience(1); Neuron(3); JNS(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David Hubel, Margaret Livingstone, William T. NewsomeMari Sosa, Alex Trott, John Nicholas Hunter, Carlos Ramon Ponce, Douglas Ruff, Alexandra Smolyanskaya, Camille Gomez-Laberge, Ralf Haefner, Yang Jiang, Christopher C. Pack, Nicholas S. Price, Jonathan (JoJo) J. Nassi, Till S. HartmannGabriel Kreiman, Margaret Livingstone, Stephen G. LomberYears: 2014 — 2018; Recipients: Born, Richard T ; Code: T32; Title/Keywords: Research Training in Visual Neuroscience@ Harvard Medical School; Matching Score: 1006014Prof.
Harvard001001Boston, MA, USAJeffrey Macklis

Harvard
【研究方向】Development(2+6); Disease(1+3); Motor Neuron(2+2); Differentiation(1+2); Regeneration(0+2); Axon(1+1); Sense(2+0); Somatosensory(2+0); Acquisition(2+0); Regulation(1+0); Plasticity(0+1); Glia(0+1); Neurogenesis(0+1); Pluripotent stem cells(1+0); Transplantation(1+0); Axon guidance(0+1); Dendrite(1+0); Degeneration(1+0); Vulnerability(0+1); Autism(0+1); Rett Syndrome(1+0); Aging(1+0); Neuromuscular(1+0); Injury(0+1); Spinal Cord Injury(0+1); Sclerosis(1+0); Motor(0+1); Stress(1+0); Encoding(1+0);
【模式生物】Stem Cell(2+1); Human(1+1); Mouse(2+0); Macaque(1+0);
【方法技术】Gene(1+2); In vivo(1+0); In vitro(0+1); Cell culture(0+1); Computation(0+1); Model(1+0);
【简述】Mammalian cerebral cortex– fundamental molecular development, neuronal diversity, development-maintenance of specific circuitry, degenerative diseases, regeneration
【研究论文】Nature Neuroscience(2); Neuron(4); JNS(2); Nature Communications(2); Cerebral Cortex(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard L. Sidman, Richard L. SidmanBrian A. Baldo, Kevin X. Liu, Ryan Richardson, Sara Shnider, Cameron Sadegh, Luciano Custo Greig, Alexander J. Murphy, Volney Sheen, Lisa A. Catapano, Sanjay Magavi, Bradley J. Molyneaux, Eiman Azim, Ryann Fame, Mollie Woodworth, Alexandros Poulopoulos, Noriyuki Kishi, U. Shivraj Sohur, Maria J. Galazo, Suzanne Tharin, Jessica MacDonald, Hari Padmanabhan, Thomas Wuttke, Seth L. Shipman, Omer Durak, Cynthia Hernit-Grant, Youzhen Wang, Blair Leavitt, Monte Gates, Rose Fricker-Gates, Jinhui Chen, Bartley Mitchell, Paola Arlotta, Jason G. Emsley, P. Hande Ozdinler, Denis Jabaudon, Kadir OzkanYears: 2018 — 2019; Recipients: Macklis, Jeffrey D; Code: R21; Title/Keywords: Novel Beam and R26-Beacon Recombinase-Based Systems For Mosaic Analysis of Gene Function@ Harvard University; Matching Score: 0.934Prof.
UW021010Seattle, WA, USARichard Palmiter 

UW
【研究方向】Taste(0+3); Encoding(0+2); Peptide(0+1); Neural Circuit(0+1); Itch(0+1); Pain(0+1); Fear(0+1); Innate behavior(0+1); Temperature(0+1); Water balance(0+1);
【模式生物】Mouse(0+2);
【方法技术】Gene(0+2); Protein(0+1); Virus(0+1); Model(0+1);
【简述】Behavioral Neuroscience
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSF003015San Francisco, CA, USASusan Voglmaier

UCSF
【研究方向】Vesicle(0+16); Neurotransmitter(0+6); Transporter(0+4); Neurotransmitter release(0+4); Development(0+4); Trafficking(0+4); Glutamate(0+3); Vesicle recycling(0+3); Synapse(0+3); Imaging(0+3); Optical(0+3); Regulation(0+2); Receptor(0+2); Membrane(0+2); Synaptic Transmission(0+2); Schizophrenia(0+2); Dynamics(0+2); Transgenic(0+1); Signaling molecule(0+1); Modulation(0+1); GABA(0+1); Synaptic Plasticity(0+1); Epilepsy(0+1); Disease(0+1); Disorder(0+1); Therapeutics(0+1); Psychiatric disorder(0+1); Autism(0+1); Anxiety(0+1); Bipolar(0+1); Cognition(0+1); Frequency(0+1); Emotion(0+1); PFC(0+1); Hippocampus(0+1);
【模式生物】Mouse(0+2);
【方法技术】Protein(0+8); Behavior(0+2); Biochemistry(0+1); Model(0+1);
【简述】Vesicle Trafficking and Neurotransmitter Release
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USASupriya Srinivasan

UCSD
【研究方向】Metabolism(0+4); Energy balance(0+2); Regulation(0+1); Development(0+1); Environment(0+1); Disease(0+1); Cognition(0+1); Sense(0+1); Homeostatic(0+1);
【模式生物】C. elegans(0+2); Human(0+1);
【方法技术】Behavior(0+2); Model(0+2); Gene(0+1); Protein(0+1); Biochemistry(0+1); Pharmacology(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular; Cognitive, Behavioral & Psychopharmacology
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USABartly J. Mondino

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USACindy Yee-Bradbury

UCLA
【研究方向】Depression(0+1); Schizophrenia(0+1); Emotion(0+1); Stress(0+1);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NEI??Bethesda, MD, USABruce Cumming

NIH-NEI
【研究方向】Vision(5+2); V1(7+0); Sense(3+0); Perception(2+1); Eye Movement(3+0); Visual cortex(3+0); V2(2+0); Modulation(1+0); Structure(1+0); Adaptation(1+0); Striate cortex(1+0); Depth(1+0); Contrast(1+0); Context(1+0); Neural network(1+0); Connection(0+1); FEF(1+0);
【模式生物】Monkey(2+1); Human(1+1); Macaque(1+0); Primate(1+0);
【方法技术】Model(1+2); Psychophysics(0+2); Computation(0+2); Behavior(1+0); Single-unit recording(0+1); Awake(0+1); Computational Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stuart John Judge, Andrew ParkerHolly Bridge, Adrian Gopnik Bondy, Ralf Haefner, Hendrikje Nienborg, Ali Moeeny, Jenny C.A. Read, Christine Bredfeldt, Seiji TanabeYears: 2014; Recipients: Cumming, Bruce G; Code: ZIA; Title/Keywords: Internal Monitoring of Eye Movement in Schizophrenia@ National Eye Institute; Matching Score: 0.925006002
CAS-ION??Shanghai, ChinaZhi-Feng Liang

CAS-ION
【研究方向】Imaging(0+4); Resting state(2+1); Neuroplasticity(2+0); Disorder(0+2); Stress(2+0); PFC(2+0); mPFC(2+0); Claustrum(2+0); Structure(1+0); Development(0+1); Sense(0+1); Acquisition(0+1); Neural network(1+0); Engineering(0+1); Methodology(0+1); Neuroimaging(1+0); Optical(0+1); Optical imaging(0+1);
【模式生物】Rat(16+0); Rodent(2+1); Non-human primate(0+2); Human(2+0); Mouse(2+0); Primate(0+1);
【方法技术】fMRI(8+4); MRI(1+3); Optogenetics(2+1); Gene(2+0); Behavior(0+2); Electrophysiology(0+1); Model(0+1);
【简述】Comparative Neuroimaging
【研究论文】JNS(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000697Investigator
UW021010Seattle, WA, USAHannele Ruohola-Baker

UW
【研究方向】Cell cycle(0+3); Photoreceptor(0+2); Muscle(0+2); Mutant(0+1); Signaling molecule(0+1); Regulation(0+1); Glial cell(0+1); Environment(0+1); Axon(0+1); Degeneration(0+1); Injury(0+1); Evolutionary(0+1);
【模式生物】Stem Cell(0+16); Drosophila(0+2); Human(0+1);
【方法技术】Gene(0+3); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USAPatricia Janak

JHU
【研究方向】Learning(0+6); Environment(0+4); Associative learning(0+4); Amygdala(0+3); VTA(0+3); Dopamine(0+2); Dopamine neuron(0+2); Addiction(0+2); Reward(0+2); Disease(0+1); Alcohol(0+1); Neural Circuit(0+1); Cognition(0+1); Motor(0+1); Acquisition(0+1); Context(0+1); Decision making(0+1); Emotion(0+1); Encoding(0+1); Nucleus accumbens(0+1);
【模式生物】Rodent(0+1);
【方法技术】Behavior(0+8); Optogenetics(0+2); Model(0+2); In vivo(0+1); Electrophysiology(0+1); Computation(0+1);
【简述】Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USASean Mackey

Stanford
【研究方向】Pain(32+3); Engineering(6+0); Neuropathic pain(3+1); Development(1+1); Cognition(1+1); Frequency(2+0); Social(2+0); Imaging(1+1); Neuroimaging(1+1); Neuromodulation(1+0); Modulation(1+0); Dopamine(1+0); Structure(1+0); Membrane(0+1); Plasticity(0+1); Disease(1+0); Therapy(1+0); Psychiatry(1+0); Opioids(1+0); Anxiety(1+0); Depression(1+0); Cognitive neuroscience(1+0); Headache(1+0); Analgesics(1+0); Learning(1+0); Emotion(1+0); Fear(1+0); Reward(1+0); Resting state(1+0); limbic system(1+0);
【模式生物】Human(3+0);
【方法技术】fMRI(5+0); MRI(2+0); Behavior(2+0); Pharmacology(1+0); Simulation(1+0);
【简述】
【研究论文】
【综述】Review(3); Brain Research Reviews(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jane M. Lawrence-Dewar (Lawrence)Years: 2018; Recipients: Mackey, Sean C; Code: T32; Title/Keywords: Interdisciplinary Research Training in Pain and/or Substance Use Disorders@ Stanford University; Matching Score: 1010479Prof.
WUSTL009032Saint Louis, MO, USAHongyu An

WUSTL
【研究方向】Imaging(1+13); Stroke(4+7); Metabolism(2+5); Disease(0+5); Structure(3+0); Temperature(3+0); Blood flow(0+3); Tumor(0+2); Contrast(0+2); Respiratory(0+2); Diffusion tensor imaging(0+2); Membrane(1+0); Epilepsy(0+1); Disorder(0+1); Therapy(0+1); Parkinson's disease(0+1); Trauma(0+1); Stress(0+1); Neural network(1+0); Engineering(1+0);
【模式生物】
【方法技术】PET(0+3); MRI(1+1); Anatomy(0+1);
【简述】Develop novel imaging methods to deepen our understanding on pathophysiology and improve clinical diagnosis and patient management
【研究论文】Science(2); Nature Communications(1);
【综述】Physical Review(7);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000142Assoc Prof.
NYU015028New York, NY, USALenard Adler

NYU
【研究方向】Disorder(2+1); ADHD(3+0); Attention(1+0);
【模式生物】
【方法技术】
【简述】Diagnosis, treatment, and outcomes of adult attention-deficit hyperactivity disorder
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
NYU015028New York, NY, USARobert Cancro

NYU
【研究方向】Development(0+1); Disease(0+1); Pathogenesis(0+1); Psychiatry(0+1); Imaging(0+1);
【模式生物】
【方法技术】MRI(0+3); In vivo(0+1); Electrophysiology(0+1); PET(0+1);
【简述】Biologic classification of psychiatric disease
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Emeritus
UCLA011013Los Angeles, CA, USADiane M. Papazian

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIMH??Bethesda, MD, USAKaren Faith Berman

NIH-NIMH
【研究方向】Schizophrenia(7+1); Psychiatry(5+0); Cognition(1+3); Dopamine(2+0); Dysfunction(0+2); Hormone(1+1); Imaging(2+0); Neuroimaging(1+1); Connection(2+0); GABA(1+0); Structure(1+0); Disorder(1+0); Aging(0+1); Alzheimer's disease(1+0); Frequency(1+0); Spectral(1+0); Learning(1+0); Working memory(1+0); Steroid(0+1); Blood flow(1+0); Neural network(1+0); Putamen(1+0);
【模式生物】Human(1+0); Stem Cell(1+0);
【方法技术】Gene(4+1); MRI(2+1); fMRI(2+0); PET(0+1); Model(1+0);
【简述】
【研究论文】Nature Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USATimothy E. Holy

WUSTL
【研究方向】Imaging(4+6); Olfaction(4+2); Plasticity(1+2); Sense(2+1); Language(1+2); Circadian(3+0); Rhythm(2+0); Development(1+1); Disorder(0+2); Motor(1+1); Vocal communication(0+2); Steroid(2+0); Dynamics(2+0); Olfactory bulb(2+0); Dysfunction(1+0); Neural Circuit(1+0); Perception(0+1); Retina(1+0); Chemical sense(1+0); Social communication(0+1); Speech(1+0); Aggression(1+0); Optical(0+1); CA2(1+0);
【模式生物】Mouse(13+3); Drosophila(3+0); Human(1+0); Primate(0+1); Songbird(1+0);
【方法技术】Microscopy(2+2); Ultrasonic(4+0); Computation(0+3); Model(2+1); In vivo(2+0); Behavior(0+1); Theory(1+0);
【简述】Sensory processing and plasticity (olfaction), large-population calcium imaging, computation, social communication
【研究论文】Science(3); Nature Neuroscience(1); Neuron(3); JNS(5); Curr Biol.(1); PLoS Biol.(1);
【综述】Physical Review(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Markus MeisterGary Hammen, Maiko Kume, Donghoon Lee, Francesco Nodari, Terrence F. Holekamp, Rebecca C. Hendrickson, Diwakar Turaga, Hannah A. Arnson, Illya Tolokh, Pei Sabrina Xu, Ningdong (Cam) Kang, Masaru Kuwabara, Rich Roberts, Terra D. Barnes, Jae-Eun Kang Miller, Julian P. Meeks, Amber N. TylerCamillo Padoa-SchioppaYears: 2016 — 2018; Recipients: Holy, Timothy; Code: R01; Title/Keywords: Identity and Neural Encoding of Social Odors@ Washington University; Matching Score: 0.915004005Prof.
NIH-NIMH??Bethesda, MD, USAArmin Raznahan

NIH-NIMH
【研究方向】Development(0+6); Psychiatry(5+0); Autism(4+0); Neuroimaging(1+3); Structure(3+0); Disorder(2+1); ADHD(2+0); Schizophrenia(2+0); Cognition(1+1); Intelligence(2+0); Imaging(2+0); Disease(0+1); Psychiatric disorder(0+1); Pediatric(1+0); Inhibitory control(1+0); Semantic(1+0); Morphology(1+0); Knowledge(0+1); ACC(1+0);
【模式生物】Human(5+1);
【方法技术】Gene(3+2); Behavior(0+2); Model(0+1);
【简述】Developmental Neurogenomics Unit (DNU)
【研究论文】Science(1); Cell(1); Neuron(1); JNS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Patrick Bolton, Declan Murphy, Judith Rapoport, Jay GieddJakob Seidlitz
Yale014011New Haven, CT, USASteve Chang

Yale
【研究方向】Social(0+10); Social behavior(0+5); PFC(0+3); Psychiatry(0+1); Psychiatric disorder(0+1); Social cognition(0+1); Reward(0+1); Dynamics(0+1); Neuroimaging(0+1); Amygdala(0+1);
【模式生物】Human(0+1);
【方法技术】Behavior(0+2); Single-unit recording(0+1);
【简述】Amygdala; Neuropharmacology; Neurophysiology; Social Behavior; Prefrontal Cortex; Psychiatry and Psychology.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAAnca M Pasca

Stanford
【研究方向】Pluripotent stem cells(2+0); Brain injury(0+2); LTD(1+0); Development(0+1); Therapeutics(0+1); Developmental Disorder(0+1); Neuroendocrine(1+0); Hormone(1+0);
【模式生物】Human(3+1); Stem Cell(4+0);
【方法技术】Model(0+1);
【简述】
【研究论文】Nature(2); Nature Methods(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
NYU015028New York, NY, USAPeter Kim Nelson

NYU
【研究方向】Infection(1+0); Stroke(1+0);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCSF003015San Francisco, CA, USAStephen Hauser

UCSF
【研究方向】Demyelinating(0+3); Neuroimmunology(0+2); Membrane(0+1); Development(0+1); Disease(0+1); Neurodegenerative disease(0+1); Pathogenesis(0+1); Therapy(0+1); Sclerosis(0+1); Imaging(0+1);
【模式生物】Human(0+1);
【方法技术】Gene(0+2); Model(0+2); Protein(0+1); MRI(0+1);
【简述】Neurogenetics and Neuroimmunology of Demyelinating Diseases
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USAByungkook Lim

UCSD
【研究方向】Disorder(0+4); Basal ganglia(0+3); Addiction(0+2); Neural Circuit(0+2); Disease(0+1); Dysfunction(0+1); Psychiatric disorder(0+1); Autism(0+1); Movement disorder(0+1); Anxiety(0+1); Cognition(0+1); Motor learning(0+1); Learning(0+1);
【模式生物】
【方法技术】Behavior(0+3); Model(0+1);
【简述】 Systems; Cognitive, Behavioral & Psychopharmacology; Clinical
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USAChristopher Ross MD,

JHU
【研究方向】LRRK2(0+5); Psychiatric disorder(0+4); Schizophrenia(0+3); Transgenic(0+2); Mutant(0+2); Development(0+2); Parkinson's disease(0+2); Alpha-synuclein(0+2); Transcription(0+1); Disease(0+1); Neurodegenerative disease(0+1); Neurodegenerative disorder(0+1); Degeneration(0+1); Pathogenesis(0+1); Therapeutics(0+1); Perception(0+1); Emotion(0+1); Basal ganglia(0+1); Striatum(0+1);
【模式生物】Mouse(0+3); Human(0+2);
【方法技术】Protein(0+5); Model(0+5); Gene(0+2); In vivo(0+1);
【简述】Cellular + Molecular Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAKaren G Hirsch

Stanford
【研究方向】Disease(2+2); Stroke(2+2); Brain injury(2+1); Pediatric(3+0); Cerebrovascular(1+2); Imaging(1+2); Hemorrhage(2+0); Injury(0+2); Blood flow(1+1); Cardiovascular(2+0); Neuroimaging(2+0); Development(1+0); Disorder(0+1); Therapy(1+0); Neuromuscular(1+0);
【模式生物】
【方法技术】MRI(6+0); EEG(1+0); Model(1+0);
【简述】
【研究论文】Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
Columbia006008New York, NY, USAJay Gingrich

Columbia
【研究方向】5-HT(16+2); Receptor(7+0); Transporter(6+0); Development(5+1); Psychiatry(6+0); Dopamine receptor(5+0); Dopamine(3+0); Disorder(2+1); Psychiatric disorder(1+2); Depression(1+2); Emotion(3+0); Stress(3+0); Regulation(2+0); Glutamate receptor(2+0); Environment(0+2); Anxiety(0+2); Schizophrenia(0+2); Somatosensory(2+0); PFC(2+0); Dorsal raphe nucleus(2+0); Knockout(1+0); Structure(1+0); Disease(0+1); Dysfunction(1+0); Therapeutics(1+0); Autism(0+1); Age-related(1+0); Brain injury(1+0); Systems Neuroscience(0+1); Cognition(1+0); Pain(1+0); Neuropathic pain(1+0); Context(1+0); Inhibitory control(1+0); Causality(0+1); Neuroendocrine(1+0); Encoding(1+0); mPFC(1+0); Basal ganglia(1+0); VTA(1+0); Evolutionary(1+0);
【模式生物】Mouse(19+2); Rat(3+0); Human(1+0);
【方法技术】Behavior(5+3); Gene(5+2); Pharmacology(3+0); Optogenetics(1+0); Model(0+1);
【简述】Models of Psychiatric Disorders; Neurogenetics; Cognitive/Systems Neuroscience; Neurobiology of Disease; Treatment of Psychiatric Disorders in Pregnancy; Depression, Anxiety, Schizophrenia; Treatment Resistance;
【研究论文】Science(2); Cell(2); Neuron(1); JNS(5);
【综述】Annual Review Of Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Rebecca Elise Balter, Kevin K. Kumar, Neil Gray, Tahilia J. Rebello, Qinghui Yu, Heather El-AmamyYears: 1999 — 2003; Recipients: Gingrich, Jay A; Code: K08; Title/Keywords: Serotonergic Mechanisms in Stress and Anxiety@ Columbia University Health Sciences; Matching Score: 0.958010876Prof.
Stanford002003Palo Alto, CA, USALisa Giocomo

Stanford
【研究方向】Grid cell(10+0); Entorhinal cortex(7+2); Hippocampus(6+0); Navigation(4+1); Oscillation(4+0); Frequency(4+0); Modulation(3+0); Environment(3+0); Memory(1+2); Head direction cell(2+1); Neural codes(3+0); Dynamics(2+1); Ion Channel(0+2); Membrane(2+0); Self-motion(2+0); Neuromodulation(1+0); Glutamate(1+0); Acetylcholine(1+0); Receptor(1+0); GABAB receptor(1+0); Muscarinic(1+0); Synaptic Transmission(1+0); Sense(1+0); Vision(1+0); Learning and memory(1+0); Episodic memory(1+0); Spatial navigation(0+1); Reward(1+0); Encoding(1+0); Neural network(1+0); CA1(1+0); CA3(1+0);
【模式生物】Mouse(2+0); Rat(1+0);
【方法技术】In vivo(2+2); Computation(4+0); Model(4+0); Biophysics(2+0); Behavior(0+2); Gene(0+1); Channel(0+1); In vitro(0+1); Anatomy(1+0); Electrophysiology(0+1); Theory(1+0);
【简述】
【研究论文】Science(1); Cell(4); Neuron(3); JNS(4); Curr Biol.(1); PLOS Computational Biology(1);
【综述】Current Opinion In Neurobiology(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael E. Hasselmo, Edvard I. MoserLindsay C Willmore, Malcolm G. Campbell, Kiah Hardcastle, Isabel Low, Francis Kei Masuda, Mark Houston Plitt, Robert G K Munn, Jason S. BantYears: 2017 — 2018; Recipients: Giocomo, Lisa; Code: P50; Title/Keywords: Project 2@ Stanford University; Matching Score: 0.915002294Assist Prof.
NYU015028New York, NY, USAHoward Riina

NYU
【研究方向】Mutant(1+0); Disorder(0+1); Infection(1+0); Stroke(1+0); Cerebrovascular(0+1);
【模式生物】
【方法技术】
【简述】Surgical and endovascular treatment of cerebrovascular disorders of the brain and spinal cord
【研究论文】Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
WUSTL009032Saint Louis, MO, USAKevin J. Black

WUSTL
【研究方向】Imaging(1+3); Disease(2+1); Psychiatry(1+1); Pediatric(2+0); Neuroimaging(1+1); Subthalamic nucleus(2+0); Structure(1+0); Disorder(1+0); Neurology(1+0); Movement disorder(0+1); Depression(0+1); Motivation(1+0); Bayesian(1+0);
【模式生物】
【方法技术】Anatomy(1+0); MRI(1+0); DBS(0+1); Pharmacology(0+1);
【简述】(1) Tourette syndrome neuroimaging; (2) Parkinson disease pharmacological imaging; (3) mapping effects of deep brain stimulation (DBS)
【研究论文】JNS(1);
【综述】Annals Of Neurology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USATimothy Fong

UCLA
【研究方向】Psychiatry(0+3); Addiction(0+2); Impulse Control Disorder(0+1);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAPaul J. Shaw

WUSTL
【研究方向】Sleep(24+12); Plasticity(3+2); Cognition(0+4); Learning(3+0); Memory Consolidation(2+1); D1 receptor(2+0); Structure(1+1); Disease(1+1); Mushroom body(2+0); Vesicle(1+0); Glia(1+0); Degeneration(1+0); Biomarker(1+0); Parkinson's disease(1+0); Infection(1+0); Pediatric(1+0); Form(0+1); Memory(0+1); Short-term memory(1+0); Metabolism(1+0); Stress(1+0); Respiratory(1+0);
【模式生物】Drosophila(15+1); Human(1+2); Rat(1+0); Rodent(0+1);
【方法技术】Model(2+2); Gene(1+2); Behavior(2+0); Protein(1+0); Biochemistry(1+0);
【简述】Molecular/genetic analysis of sleep function
【研究论文】Nature(1); Science(4); Cell(1); JNS(1); Curr Biol.(1); PLoS Biol.(1);
【综述】Trends In Neurosciences(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
005167Assoc Prof.
Stanford002003Palo Alto, CA, USAVictor Carrion

Stanford
【研究方向】Stress(11+3); Pediatric(7+0); Development(4+2); Trauma(4+0); Disorder(3+0); Cognition(3+0); Structure(2+0); Psychiatry(2+0); Depression(2+0); Sleep(2+0); Neuroimaging(1+1); Amygdala(2+0); Vulnerability(0+1); Therapy(1+0); Anxiety(1+0); Learning(1+0); Social(1+0); Emotion(1+0); Neuroendocrinology(0+1);
【模式生物】
【方法技术】Behavior(2+0); Model(1+0);
【简述】
【研究论文】Science(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2001 — 2005; Recipients: Carrion, Victor G; Code: K23; Title/Keywords: Brain Function in Pediatric Ptsd@ Stanford University; Matching Score: 0.958Prof.
Stanford002003Palo Alto, CA, USAShaul Druckmann

Stanford
【研究方向】Dynamics(2+2); Neural Circuit(0+2); Neural dynamics(1+1); Motor cortex(2+0); Premotor cortex(2+0); Structure(1+0); Dendrite(1+0); Sense(1+0); Planning(1+0); Interneuron(1+0); Heading(1+0); CA1(1+0);
【模式生物】
【方法技术】Behavior(2+1); Computation(1+2); Model(2+0);
【简述】
【研究论文】Nature(2); Science(1); Nature Neuroscience(1); Neuron(3); JNS(1); Nature Communications(1); Curr Biol.(1); eLife(2); Cerebral Cortex(1); PLOS Computational Biology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Dmitri "Mitya" ChklovskiiEizaburo DoiSung Soo S. KimYears: 2017 — 2018; Recipients: Clandinin, Thomas RobertDickinson, Michael H [⬀] Druckmann, ShaulMann, Richard S (co-PI) [⬀] Murray, Richard M (co-PI) [⬀] Tuthill, John Comber (co-PI) [⬀] Wilson, Rachel; Code: U19; Title/Keywords: A Brain Circuit Program For Understanding the Sensorimotor Basis of Behavior@ California Institute of Technology; Matching Score: 0.904Assist Prof.
Harvard001001Boston, MA, USACatherine Dulac

Harvard
【研究方向】Social(4+2); Social behavior(1+2); Amygdala(3+0); Parental behavior(2+0); Knockout(1+0); Receptor(1+0); Plasticity(1+0); Neural Circuit(1+0); Sense(1+0); Olfaction(1+0); Multisensory(1+0); Aggression(1+0); Imaging(1+0); Hypothalamus(1+0);
【模式生物】Mouse(5+0);
【方法技术】Gene(2+0); Behavior(1+1); Microscopy(1+0); Optogenetics(0+1);
【简述】Olfactory and Vomeronasal Systems Molecular and Developmental Neurobiology
【研究论文】Nature Communications(2);
【综述】Current Opinion In Neurobiology(3); Annual Review Of Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard AxelEric R Vaughn, Ernie C. Chang, Jennifer A. Loconto, Erica L. Pantages, Ian W. Tietjen, A. T. Torello, Jason M. Rihel, Lisa Zakhary, Amy L. Gresser, Ross V. Perak, Hayan Yoon, Philip S. Choi, Lorena Pont-Lezica, Tali Kimchi, Johannes Kohl, Ding Liu, Lisa Stowers, Shlomo Wagner, Yoram Ben-Shaul, Joseph F. Bergan, Dhananjay Bambah-Mukku, Ying Li, Jessica A. Osterhout, Zhengzheng Sophia Liang, Mohammed Mostafizur Rahman, Mustafa Talay, Fabio Papes, Yoh Isogai, Anita E. Autry, Leigh A. Needleman, Fiona DoetschYears: 2016 — 2018; Recipients: Dulac, Catherine GZhuang, Xiaowei [⬀] ; Code: R01; Title/Keywords: In Situ Transcriptome Imaging in Single Cells@ Harvard University; Matching Score: 0.958013433Prof.
JHU010012Baltimore, MD, USAElisabeth Glowatzki

JHU
【研究方向】Hair cell(0+23); Auditory(0+16); Synaptic Transmission(0+7); Glutamate(0+5); Synapse(0+5); Vestibular(0+3); Transporter(0+2); Modulation(0+2); Vesicle(0+2); Development(0+2); Knowledge(0+2); AMPA receptor(0+1); Ion Channel(0+1); Regeneration(0+1); Dendrite(0+1); Perception(0+1); Form(0+1); Morphology(0+1);
【模式生物】Mouse(0+2); Stem Cell(0+2); Rat(0+1);
【方法技术】Electrophysiology(0+3); Model(0+2); In vivo(0+1);
【简述】Developmental Neuroscience; Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USAMichael Caterina MD,

JHU
【研究方向】Pain(0+4); Knockout(0+1); Receptor(0+1); Ion Channel(0+1); Disease(0+1); Nociception(0+1); Neuropathic pain(0+1); Pain perception(0+1);
【模式生物】Human(0+2); Mouse(0+1);
【方法技术】Channel(0+2); Behavior(0+2); Model(0+2); Gene(0+1);
【简述】Developmental Neuroscience; Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIA??Bethesda, MD, USAMark P. Mattson

NIH-NIA
【研究方向】Alzheimer's disease(7+0); Aging(6+0); Metabolism(4+0); Neurodegenerative disorder(3+0); Brain injury(3+0); Cognition(3+0); Stress(3+0); Mutant(2+0); Receptor(2+0); Plasticity(2+0); Neurogenesis(2+0); Disease(2+0); Stroke(2+0); Transgenic(1+0); Peptide(1+0); Structure(1+0); Vesicle(1+0); Synaptic Plasticity(1+0); LTD(1+0); Embryo(1+0); Synapse(1+0); Pathology(1+0); Dysfunction(1+0); Therapy(1+0); Alzheimer's(1+0); APP(1+0); Tau(1+0); Huntington's disease(1+0); Neurotoxicity(1+0); Ischemia(1+0); Injury(1+0); Sclerosis(1+0); Muscle(1+0); Memory(1+0); Hippocampus(1+0); Evolutionary(1+0);
【模式生物】Mouse(6+0); Human(2+0); Primate(1+0); Rat(1+0);
【方法技术】Model(6+0); Protein(3+0); Gene(1+0); Cell culture(1+0); Behavior(1+0);
【简述】
【研究论文】Cell(2); Nature Neuroscience(2); Nature Communications(1);
【综述】Review(2); Trends In Neurosciences(1); Nature Reviews Molecular Cell Biology(1); Physiological Reviews(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Eugene Spaziani, Stanley B. KaterCatherine M. Schwartz, Emmette R. Hutchison, Alexis M. Stranahan, Thiruma V Arumugam, Steven W. Barger, Benedict C Albensi, Aiwu ChengYears: 2018; Recipients: Mattson, Mark [⬀] ; Code: ZIA; Title/Keywords: Synaptic Plasticity in Aging and Alzheimer's Disease@ Aging; Matching Score: 0.915154023
WUSTL009032Saint Louis, MO, USADidier Hodzic

WUSTL
【研究方向】Development(2+2); Transgenic(1+1); Cell migration(2+0); CNS(0+2); Disease(1+1); Photoreceptor(2+0); Connection(2+0); Regulation(1+0); Pathology(0+1); Retina(1+0); Form(0+1); Face(1+0);
【模式生物】Mouse(4+2); Human(0+2);
【方法技术】Model(1+1); Electrophysiology(0+1); Microscopy(0+1);
【简述】Role of LINC complexes (Linkers of the Nucleoskeleton to the Cytoskeleton) in nucleokinesis and neuronal migration
【研究论文】Cell(5); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
Stanford002003Palo Alto, CA, USADavid Prince

Stanford
【研究方向】Epilepsy(6+2); Disease(7+0); Injury(1+3); Membrane(0+3); Trauma(3+0); Regulation(0+2); Calcium channel(2+0); Development(0+2); Knockout(1+0); Neurotransmitter(0+1); Modulation(0+1); GABA(1+0); Receptor(1+0); Structure(0+1); Axon(0+1); Dendrite(1+0); Spine(1+0); Thalamus(0+1);
【模式生物】Rat(1+0); Mouse(1+0); Rodent(1+0);
【方法技术】Model(7+0); Gene(2+0); Channel(2+0); In vivo(0+1); In vitro(0+1); Anatomy(0+1); Behavior(1+0); Electrophysiology(0+1);
【简述】
【研究论文】PLoS Biol.(1); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yunxiang Chu, Michael J. Gutnick, Jeffrey L. Noebels, Scott M. Thompson, Alberto Bacci, Tom Brown, Douglas A. Coulter, Robert Fisher, Kevin D. Graber, John R. Huguenard, Xiaoming Jin, Arnold R. Kriegstein, David A. McCormick, Timothy A. Pedley, Qian-Quan Sun, Robert KS Wong, D. Koji Takahashi, Feng Gu, Phillip A. Schwartzkroin, Barry W. Connors, Heiko J. Luhmann, Charles L. Cox, Kimberle M. Jacobs, Viktor N. Kharazia, Anita E. Bandrowski, Sonal GoswamiIrving WagmanYears: 2018; Recipients: Prince, David Allan; Code: R01; Title/Keywords: Effects of Trkb Activation On Abnormalities in Neocortical Fs Interneuron@ Stanford University; Matching Score: 1Prof.
Columbia006008New York, NY, USALiam Paninski

Columbia
【研究方向】Imaging(3+1); Cognition(2+0); Inference(2+0); Neural encoding(2+0); Decoding(2+0); Cognitive neuroscience(1+0); Sense(0+1); Vision(1+0); Retina(1+0); Photoreceptor(1+0); Motor(1+0); Brain-Machine Interface(1+0); Encoding(1+0); Neural dynamics(1+0); Methodology(0+1); Motor cortex(1+0); Primary motor cortex (M1)(1+0);
【模式生物】
【方法技术】Model(7+0); Computation(3+0); Theory(1+2); Statistics(0+2);
【简述】Brain Imaging; Theoretical Neuroscience; Sensory Physiology ;
【研究论文】Nature(3); Neuron(1); JNS(2); Neural Computation(1); NIPS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John P. Donoghue, Eero P. Simoncelli, Eero P. SimoncelliTim Machado, Sean Escola, Gary S. Escola, Kamiar RahnamaRad, Alexandro D. Ramirez, Carl Smith, Maxim Nikitchenko, David B. Pfau, Gonzalo E. Mena, Yashar Ahmadian, Quentin Huys, Pengcheng Zhou, Eizaburo DoiE. J. Chichilnisky, Kianoush Nazarpour, Dawen CaiYears: 2018; Recipients: Paninski, Liam M; Code: U19; Title/Keywords: Data Science Resource Core@ Columbia University Health Sciences; Matching Score: 0.958012157Prof.
UCSD011017San Diego, CA, USALawrence S.B. Goldstein

UCSD
【研究方向】Disease(0+4); Development(0+2); Structure(0+1); Neurodegenerative disease(0+1); Dysfunction(0+1);
【模式生物】Stem Cell(0+1);
【方法技术】Biochemistry(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAYi Cui

Stanford
【研究方向】Imaging(5+0); Development(2+0); Environment(2+0); Structure(1+0); Tumor(1+0); Body(1+0); Temperature(1+0);
【模式生物】
【方法技术】MRI(3+0); Model(3+0); Virus(1+0);
【简述】
【研究论文】Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001144Prof.
UCLA011013Los Angeles, CA, USAStephen Young

UCLA
【研究方向】Disease(0+2); Metabolism(0+2); Genetically modify(0+1);
【模式生物】Mouse(0+1);
【方法技术】Gene(0+1); Protein(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAAndres Bendesky

Columbia
【研究方向】Receptor(5+0); Social behavior(2+1); GABA(2+0); Decision making(2+0); Neurotransmitter(1+0); Environment(1+0); Synapse(1+0); Grasp(1+0); Emotion(1+0);
【模式生物】Mouse(4+6); C. elegans(4+0); Rat(0+2); Human(1+0);
【方法技术】Behavior(4+11); Gene(5+4); Biochemistry(1+0); Model(0+1); Theory(0+1);
【简述】Synapses and Circuits ; Behavioral Genetics ; Social Behavior; Mechanisms of Behavioral Diversity; Neuroethology ; Evolution of Brain and Behavior ;
【研究论文】Nature(3); Cell(1); Neuron(1);
【综述】Nature Reviews Genetics(2); Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001451Assist Prof.
UCLA011013Los Angeles, CA, USAHong M. Wu

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USADaniel Salzman

Columbia
【研究方向】Amygdala(8+7); Emotion(0+13); Learning(1+6); Sense(0+5); Vision(2+1); OFC(1+2); Aversive(2+0); Reward(2+0); Modulation(0+1); Structure(0+1); Psychiatric disorder(0+1); Systems Neuroscience(0+1); Spatial attention(1+0); Learning and memory(0+1); Context(1+0); Decision making(0+1); PFC(1+0); V4(1+0);
【模式生物】Primate(4+1); Monkey(0+3);
【方法技术】Behavior(1+5); Pharmacology(0+1);
【简述】Models of Psychiatric Disorders; Cognitive/Systems Neuroscience; Neurobiology of Learning and Memory; Systems and Circuits;
【研究论文】Nature(1); Cell(1); Nature Neuroscience(2); Neuron(3); JNS(1); eLife(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCSF003015San Francisco, CA, USAJonathan Horton

UCSF
【研究方向】Vision(0+29); Visual cortex(0+12); V1(0+6); Development(0+3); Environment(0+2); Perception(0+2); Striate cortex(0+2); Lateral geniculate body(0+2); Axon(0+1); Disease(0+1); Retina(0+1); Extrastriate cortex(0+1); Form(0+1); Color(0+1); Thalamus(0+1);
【模式生物】Human(0+6); Primate(0+2); Monkey(0+1);
【方法技术】Gene(0+1); Anatomy(0+1); Histochemistry(0+1); Tracing(0+1); Behavior(0+1); Electrophysiology(0+1); Theory(0+1);
【简述】Structural Basis of Amblyopia and Strabismus
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USASherrel Howard

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAMehrdad Shamloo

Stanford
【研究方向】Receptor(5+0); Modulation(2+2); Disorder(1+3); Alzheimer's disease(4+0); Huntington's disease(3+0); Cognition(1+2); CNS(1+1); Neuroinflammation(2+0); Inflammation(0+2); Stroke(1+1); Peptide(1+0); Synaptic Plasticity(1+0); Branching(1+0); Synapse(1+0); Neurology(1+0); Pathology(1+0); Vulnerability(0+1); Psychiatry(1+0); Autism(0+1); Parkinson's disease(0+1); Memory(1+0); Learning and memory(1+0); Social(1+0); Stress(1+0); Dynamics(1+0);
【模式生物】Mouse(5+0); Human(2+0); Rat(2+0);
【方法技术】Model(6+0); Protein(4+0); Gene(2+0); In vivo(2+0); Pharmacology(2+0);
【简述】
【研究论文】Cell(3); Neuron(1); JNS(1); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2017 — 2018; Recipients: Shamloo, Mehrdad; Code: R01; Title/Keywords: Role of Beta-Adrenergic Receptors in Modulation of Cognition and Central and Peripheral Immune Systems in Alzheimer's Disease@ Stanford University; Matching Score: 1Prof.
JHU010012Baltimore, MD, USAPankaj Jay Pasricha MD

JHU
【研究方向】Visceral pain(0+3); Disease(0+2); Disorder(0+2); Inflammation(0+2); Neurotransmitter(0+1); Ion Channel(0+1); Translation(0+1); Therapy(0+1); Sense(0+1); Knowledge(0+1); Gastrointestinal(0+1);
【模式生物】Stem Cell(0+2);
【方法技术】
【简述】Developmental Neuroscience; Cellular + Molecular Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USAMaksim Bazhenov

UCSD
【研究方向】Sleep(0+4); Oscillation(0+2); Rhythm(0+2); Neural Circuit(0+2); Sense(0+2); Olfaction(0+2); Learning(0+2); Encoding(0+2); Synchrony(0+1); Epilepsy(0+1); Development(0+1); Memory(0+1); Memory Consolidation(0+1); Dynamics(0+1);
【模式生物】Human(0+2);
【方法技术】Model(0+3); Mathematics(0+2); Computation(0+1);
【简述】 Systems; Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USADenise Head

WUSTL
【研究方向】Aging(14+4); Cognition(5+5); Neurology(8+0); Exercise(5+2); Age-related(3+2); Imaging(3+0); Temporal lobe(3+0); Medial Temporal Lobe(3+0); Vulnerability(2+0); Striatum(2+0); Peptide(1+0); Structure(1+0); Disease(1+0); Psychiatry(1+0); Alzheimer's disease(1+0); ApoE(1+0); Cognitive neuroscience(0+1); Learning(1+0); Episodic memory(1+0); Spatial navigation(0+1); Exploration(0+1); Stress(0+1); Cardiovascular(0+1); Resting state(1+0); Diffusion tensor imaging(1+0); White matter(1+0); Pons(1+0); Cerebellum(1+0);
【模式生物】Human(3+0);
【方法技术】In vivo(1+0); MRI(1+0); Data analysis(1+0);
【简述】Cognitive neuroscience of aging
【研究论文】Neuron(1); Cerebral Cortex(5);
【综述】Annals Of Neurology(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Naftali RazStephanie Langella, Veronica L. Shead, Brian A GordonYears: 2017 — 2018; Recipients: Head, Denise P; Code: R21; Title/Keywords: Understanding the Return Journey: Route Reversal in Younger and Older Adults@ Washington University; Matching Score: 0.958012339Assoc Prof.
JHU010012Baltimore, MD, USAVeit Stuphorn

JHU
【研究方向】ACC(0+8); Motor(0+5); Eye Movement(0+5); Reward(0+4); FEF(0+4); Decision making(0+3); Cognition(0+2); Executive control(0+2); Structure(0+1); Environment(0+1); Addiction(0+1); Neural Circuit(0+1); Social(0+1); PFC(0+1); OFC(0+1); Cingulate cortex(0+1); Basal ganglia(0+1);
【模式生物】Human(0+3); Non-human primate(0+2); Monkey(0+1); Primate(0+1);
【方法技术】Behavior(0+4); Computation(0+2); fMRI(0+1); Microstimulation(0+1); Model(0+1); Theory(0+1);
【简述】Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAAndrew Rosenberg

NYU
【研究方向】Speech(11+0); Language(4+0); Perception(2+0); Signal processing(2+0); Disease(1+0); Therapy(1+0); Injury(1+0); Cognition(1+0); Knowledge(1+0); Sleep(1+0); Cardiovascular(1+0); Dynamics(1+0); Machine learning(1+0);
【模式生物】Human(2+0);
【方法技术】Model(1+0);
【简述】Post-surgery anesthetic interventions
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002142Prof.
Columbia006008New York, NY, USAKenneth Miller

Columbia
【研究方向】Vision(9+1); Sense(2+5); Development(4+2); Visual cortex(5+1); Learning(3+1); Structure(0+3); LIP(2+1); Synaptic Plasticity(2+0); Attention(2+0); Decision making(2+0); Dynamics(2+0); Receptor(1+0); Plasticity(1+0); Homeostatic plasticity(1+0); Synapse(0+1); Systems Neuroscience(0+1); Somatosensory(1+0); Barrel cortex(0+1); Motor(0+1); V1(0+1);
【模式生物】Monkey(0+1); Mouse(1+0); Rodent(0+1);
【方法技术】Computation(3+5); Model(4+0); Theory(2+2); Simulation(1+0);
【简述】Theoretical Neuroscience; Sensory Physiology; Synapses and Circuits; Cognitive/Systems Neuroscience;
【研究论文】Nature(1); Science(1); Cell(2); Nature Neuroscience(1); Neuron(5); JNS(3); Neural Computation(2);
【综述】Annual Review Of Neuroscience(1); Current Opinion In Neurobiology(1); Physical Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael P. StrykerAndrew Kayser, Anton Edward Krukowski, Thomas Z. Lauritzen, Brendan K. Murphy, Daniel B. Rubin, Avi Ziskind, Wujie Zhang, Aylin Cimenser, Tatyana Sharpee, Hiroki Sugihara, Taro Toyoizumi, Todd W. Troyer, Stephanie E. Palmer, Xaq Pitkow, Yashar AhmadianDavid Ferster, Stephanie E. PalmerYears: 2018; Recipients: Miller, Kenneth DScanziani, Massimo (co-PI) [⬀] ; Code: U19; Title/Keywords: Understanding V1 Circuit Dynamics and Computations@ Columbia University Health Sciences; Matching Score: 1009377Prof.
Stanford002003Palo Alto, CA, USAEdward Bertaccini

Stanford
【研究方向】Receptor(5+0); Anesthesia(4+1); Ion Channel(4+0); Ligand gated ion channel(3+0); Structure(1+1); Chemical neuroscience(2+0); Alcohol(2+0); Modulation(1+0); GABA(1+0); Glycine receptor(1+0); Potassium channel(1+0); Dynamics(1+0); Engineering(1+0);
【模式生物】
【方法技术】Model(5+1); Protein(3+0); Channel(2+0); In vitro(1+0); Pharmacology(1+0); Computation(1+0);
【简述】
【研究论文】Nature(1); Cell(1); PNAS(1); PLOS Computational Biology(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Harvard001001Boston, MA, USARudolph Tanzi

Harvard
【研究方向】Alzheimer's disease(14+1); Disease(6+2); Cognition(3+1); Aging(2+1); Alzheimer's(3+0); Infection(2+1); Peptide(1+1); Glia(0+2); Neurogenesis(1+1); Environment(2+0); Pathology(1+1); Autism(2+0); APP(1+1); Tau(1+1); Neuroinflammation(1+1); Exercise(1+1); Transgenic(1+0); Cytokine(1+0); Proliferation(1+0); Neuronal differentiation(1+0); Dendrite(1+0); Synapse(0+1); Neurology(0+1); Huntington's disease(1+0); Inflammation(1+0); Sclerosis(1+0); Schizophrenia(1+0); Metabolism(1+0); Neural network(1+0); Convolutional Neural Network(1+0); Imaging(0+1); Optical(1+0); Hippocampus(1+0); Evolutionary(1+0);
【模式生物】Mouse(4+1); Human(1+1); Bird(2+0); Drosophila(2+0); Stem Cell(0+1);
【方法技术】Gene(15+3); Protein(3+3); Model(3+1); In vivo(2+0); Cell culture(0+2); Biochemistry(1+0); Virus(0+1); Electrophysiology(0+1); Microscopy(1+0); Computation(0+1);
【简述】Genetic, molecular and biochemical studies of Alzheimer's disease from gene discovery to model systems to novel therapeutics
【研究论文】Nature Neuroscience(1); Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
James (Jim) F. GusellaJulien Muffat, Dora Kovacs, Wilma Wasco, Ashley I. BushYears: 2014 — 2016; Recipients: Tanzi, Rudolph Emile; Code: R01; Title/Keywords: Acat Inhibitors Regulate Palmitoylated App and Abeta Production@ Massachusetts General Hospital; Matching Score: 0.907094179Prof.
NIH-NICHD??Bethesda, MD, USAClaire Le Pichon

NIH-NICHD
【研究方向】Olfaction(5+0); LRRK2(4+0); Disease(1+2); Development(0+2); Neurodegenerative disease(1+1); Knockout(1+0); Synaptic Transmission(1+0); Neurogenesis(1+0); Axon(1+0); Therapy(0+1); Tau(1+0); Injury(1+0); Somatosensory(1+0); Motor(1+0); Interneuron(1+0); Stress(0+1);
【模式生物】Mouse(6+1); Human(1+0); Rat(1+0);
【方法技术】Model(3+0); Protein(2+0); Behavior(2+0); Gene(1+0); Anatomy(1+0);
【简述】Unit on the Development of Neurodegeneration
【研究论文】Nature Neuroscience(1); Neuron(1); JNS(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stuart FiresteinLi Chen, Jorge Gomez-Deza
UCSD011017San Diego, CA, USAEran Mukamel

UCSD
【研究方向】Development(0+3); Dynamics(0+2); Machine learning(0+2); Regulation(0+1); Structure(0+1); Anesthesia(0+1); Form(0+1); Spectral(0+1); Signal processing(0+1);
【模式生物】Human(0+2); Mouse(0+1);
【方法技术】Computation(0+5); Gene(0+2); Model(0+2); Electrophysiology(0+1);
【简述】 Cellular & Developmental; Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USALori Zeltser

Columbia
【研究方向】Development(4+4); Body Weight(0+4); Metabolism(1+2); Hypothalamus(3+0); Regulation(0+2); Environment(0+2); Disorder(0+2); Disease(0+1); Psychiatry(1+0); Psychiatric disorder(0+1); Timing(0+1); Emotion(1+0); Food Intake(0+1); Neuroendocrine(0+1); Stress(1+0); Arcuate nucleus(1+0);
【模式生物】Mouse(3+2);
【方法技术】Behavior(3+1); Gene(0+3); Model(0+2); Pharmacology(0+1);
【简述】Cellular/Molecular/Developmental Neuroscience; Sympathetic Innervation of Brown Adipose Tissue; Maternal Programming of Metabolic Disease; Models of Psychiatric Disorders (Anorexia); Circuits Regulating Food Intake and Body Weight;
【研究论文】Nature(1); JNS(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stephanie L. Padilla, Chi N. ChongYears: 2018 — 2019; Recipients: Zeltser, Lori M; Code: R01; Title/Keywords: Functional Mapping of Arginine Vasopressin Receptor 1a Circuits That Promote Anorexic Behavior@ Columbia University Health Sciences; Matching Score: 0.958Assoc Prof.
UCSD011017San Diego, CA, USABruce A. Hamilton

UCSD
【研究方向】Development(0+4); Disease(0+3); Differentiation(0+2); Disorder(0+2); Amino acid(0+1); Structure(0+1); Vesicle(0+1); Transcription(0+1); Proliferation(0+1); Cell cycle(0+1); Degeneration(0+1); Cerebellum(0+1);
【模式生物】Human(0+4); Mouse(0+3);
【方法技术】Gene(0+6); Biochemistry(0+1); Virus(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAEric Shooter

Stanford
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Paley Johnson, John Warren WilliamsMarco Canossa, Karl Herrup, Mike Ignatius , William C. Mobley, J. Regino Perez-Polo, Robert A. Nichols, Francesca Cirulli, Gene Burton, Jonah R. Chan, Margaret Fahnestock , Earl Godfrey, Ronald J. Lukas , Piotr Masiakowski , Robert Stickgold , Andrew A. Welcher, Charles F. Louis, J. Regino Perez-Polo, Felice Tirone, Marino De Leon, Ueli Suter, Phil Barker, Lucia Notterpek, Silvio VaronYears: 2000 — 2003; Recipients: Shooter, Eric M; Code: R01; Title/Keywords: The Trafficking of Myelin Proteins and Neurotrophins@ Stanford University; Matching Score: 1Prof.
Harvard001001Boston, MA, USAJesse Gray

Harvard
【研究方向】Transcription(1+3); Olfaction(2+0); Learning(1+1); Fear(2+0); Plasticity(0+1); Glia(0+1); Development(0+1); CNS(1+0); Axon(0+1); Synapse(0+1); Motor learning(0+1); Navigation(1+0); Inference(0+1); Temperature(0+1); Dynamics(1+0); Imaging(0+1);
【模式生物】C. elegans(3+0); Mouse(1+1);
【方法技术】Gene(3+6); Behavior(2+0); In vivo(1+0); Cell culture(0+1); Pharmacology(1+0); Computation(0+1);
【简述】Genomic mechanisms of neuronal activity-regulated transcription and its regulation of neuronal plasticity
【研究论文】Nature(2); JNS(1);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2018 — 2019; Recipients: Gray, Jesse Michael; Code: R01; Title/Keywords: Genomic Mechanisms of Firing Rate Homeostasis@ Harvard Medical School; Matching Score: 0.958Assist Prof.
Columbia006008New York, NY, USAMichael L. Shelanski

Columbia
【研究方向】Alzheimer's disease(4+1); Development(1+2); Dendrite(2+0); Spine(2+0); Tau(1+1); Transgenic(1+0); Regulation(1+0); Peptide(1+0); Synaptic Plasticity(1+0); Transcription(1+0); Astrocyte(0+1); Neurogenesis(1+0); Axon(0+1); Trafficking(1+0); Degeneration(0+1); APP(1+0); Form(0+1); Memory(1+0); Timing(1+0); Morphology(1+0); Optical imaging(0+1);
【模式生物】Human(1+0); Mouse(1+0);
【方法技术】Protein(1+2); Gene(1+0); Biochemistry(0+1); Model(0+1);
【简述】Cytoskeleton and Neural Development; Neural Degeneration and Repair;
【研究论文】Cell(1); Neuron(2); JNS(1); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
William W. Chambers, James M. Sprague, Solomon David Erulkar, Julian Tobias, Edwin W. Taylor, Robert D. Terry, Marshall NirenbergHoward Feit, Stephen Salton, John F. Crary, Rajiv Ratan, Roger Lefort, John F. Crary, Khalid Iqbal, Virginia Man-Yee Lee, Dennis J. Selkoe, Ronald K. H. Liem, Carol M. TroyCaghan Kizil, Richard Mayeux, Henryk M. Wisniewski, Cedric Stuart Raine, Charles R. CantorYears: 2014 — 2015; Recipients: Shelanski, Michael L ; Code: R01; Title/Keywords: Prospective Purification of Adult Stem Cell Astrocytes@ Columbia University Health Sciences; Matching Score: 1Prof.
Yale014011New Haven, CT, USAZ. Jimmy Zhou

Yale
【研究方向】Retina(0+6); Vision(0+4); Development(0+3); Neurotransmitter(0+2); Synaptic Transmission(0+1); Dendrite(0+1); Synapse(0+1); Disease(0+1); Neural Circuit(0+1); Signal processing(0+1); Imaging(0+1);
【模式生物】
【方法技术】Computation(0+2); Gene(0+1); In vivo(0+1); Optogenetics(0+1); Model(0+1);
【简述】Neurobiology; Ophthalmology; Physiology; Retina; Retinal Diseases.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NICHD??Bethesda, MD, USAMihaela Serpe

NIH-NICHD
【研究方向】Neuromuscular(7+1); Glutamate receptor(6+1); Synapse(1+6); Development(4+2); Structure(0+2); Synapse maturation(2+0); Ion Channel(0+1); Vesicle(1+0); CNS(1+0); Embryo(1+0); Axon guidance(1+0); Vision(1+0); Form(0+1); Optical(0+1);
【模式生物】Drosophila(14+5); Zebrafish(1+0);
【方法技术】Protein(2+2); Gene(0+2); Electrophysiology(0+1); Model(0+1);
【简述】Unit of Cellular Communication
【研究论文】Nature(1); Cell(3); Neuron(2); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Tae Hee HanYears: 2012 — 2018; Recipients: Serpe, Mihaela; Code: ZIA; Title/Keywords: Modulation of Tgf-Beta Signaling@ Child Health and Human Development; Matching Score: 0.913
Columbia006008New York, NY, USAJohn Patrick Cunningham

Columbia
【研究方向】Machine learning(0+2); Systems Neuroscience(0+1); Motor(0+1); Learning(0+1); Inference(0+1); Engineering(0+1);
【模式生物】
【方法技术】Computation(0+3); Theory(0+3); Statistics(0+3);
【简述】Computation and Theory; Theoretical Neuroscience; Cognitive/Systems Neuroscience; statistical Machine Learning; Motor Systems;
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Krishna V. Shenoy, Krishna V. ShenoyFarzaneh NajafiYears: 2017 — 2019; Recipients: Paninski, Liam (co-PI) [⬀] Cunningham, JohnMiller, Kenneth (co-PI) [⬀] Abbott, Laurence [⬀] Fusi, Stefano (co-PI) [⬀] ; Code: N/A; Title/Keywords: Neuronex Theory Team: Columbia University Theoretical Neuroscience Center@ Columbia University; Matching Score: 0.915Assist Prof.
UCLA011013Los Angeles, CA, USADavid S. Williams

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
CalTech072006Pasadena, CA, USAShinsuke Shimojo

CalTech
【研究方向】Vision(0+6); Cognition(0+2); Perception(0+2); Emotion(0+2); Development(0+1); Color(0+1); Face(0+1); Frequency(0+1); Eye Movement(0+1); Context(0+1); Decision making(0+1);
【模式生物】Human(0+1);
【方法技术】Psychophysics(0+2); TMS(0+2); Behavior(0+1); fMRI(0+1);
【简述】Psychophysics
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard M. Held, Ken NakayamaJonathan M. Malmaud, Alma Gharib, Neil S. Halelamien, Ikuya Murakami, Noelle R. B. Stiles, Takeo Watanabe, Tamara A. Knutsen, Ching E. Ho, Yukiyasu Kamitani, Katsumi Watanabe, Claudiu Simion, Ryota Kanai, Patricia A. Neil, Daw-An Wu, Dylan Nieman, Shao-Min Hung, Romi Nijhawan, Erik J. Schlicht, Ladan Shams, Bhavin Sheth, Kyongsik Yun, Junghyun Park, Michael Campos, Daw-An Wu, Virginie van Wassenhove, Shih-Wei Wu, Vikram S. Chib, Sang Wan Lee, Fumiko HoeftYears: 2018; Recipients: Ortiz, Michael (co-PI) [⬀] Shapiro, MikhailShimojo, ShinsukeTsao, Doris Ying (co-PI) [⬀] ; Code: RF1; Title/Keywords: Ultrasonic Neuromodulation: Establishing Mechanisms and Parameters to Optimize Targeted Neuromodulation and Control Sensory Side-Effects@ California Institute of Technology; Matching Score: 1Prof.
Columbia006008New York, NY, USAAniruddha Das

Columbia
【研究方向】Vision(3+12); V1(3+8); Sexual behavior(9+0); Social(8+0); Imaging(0+7); Optical imaging(1+4); Visual cortex(2+3); Modulation(2+0); Therapy(2+0); Aging(2+0); Inflammation(2+0); Form(0+2); Connection(1+1); Dysfunction(1+0); Trauma(1+0); Systems Neuroscience(0+1); Cognition(1+0); Sense(1+0); Causality(1+0); Emotion(1+0); Metabolism(1+0); Hormone(1+0); Neuroimaging(1+0); Optical(1+0);
【模式生物】Monkey(2+6); Human(0+3); Macaque(2+0); Primate(1+0); Rat(0+1); Rodent(0+1);
【方法技术】Behavior(9+0); fMRI(0+4); Electrophysiology(0+2); Model(1+0);
【简述】Sensory Physiology; Brain Imaging; Cognitive/Systems Neuroscience;
【研究论文】Science(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles D. GilbertYevgeniy B. Sirotin, Yevgeniy Borisovich SirotinYears: 2016 — 2019; Recipients: Das, Aniruddha; Code: R01; Title/Keywords: Endogenous Neural Activity: Neurophysiology, Optical Imaging, Fmri, and Behavior.@ Columbia University Health Sciences; Matching Score: 1000917Assoc Prof.
NYU015028New York, NY, USATracy Butler

NYU
【研究方向】Epilepsy(5+0); Neuroimaging(4+1); Cognition(3+0); Receptor(2+0); Disorder(2+0); Psychiatry(2+0); A1(2+0); Neurology(1+0); Dysfunction(1+0); Psychiatric disorder(0+1); Alzheimer's disease(1+0); Dystonia(1+0); Movement disorder(1+0); Neurotoxicity(1+0); Inflammation(1+0); Alcohol(1+0); Anxiety(1+0); Depression(1+0); Schizophrenia(1+0); Motor(1+0); Memory(1+0); Emotion(1+0); Imaging(1+0); Temporal lobe(1+0); Cingulate cortex(1+0); ACC(1+0); vACC(1+0); Hippocampus(1+0);
【模式生物】Human(3+0);
【方法技术】Behavior(4+0);
【简述】Neuroimaging of neuropsychiatric disorders
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2013; Recipients: Butler, Tracy Renee; Code: F32; Title/Keywords: Early Life Stress and Corticosterone Signaling: Relation to Ethanol Drinking@ Wake Forest University Health Sciences; Matching Score: 0.96001490Assist Prof.
Stanford002003Palo Alto, CA, USAYang Hu

Stanford
【研究方向】Axon(10+3); Regeneration(9+3); Therapy(3+6); Neuroprotection(2+4); CNS(4+1); Stress(3+2); Injury(3+1); Environment(3+0); Disease(2+1); Dendrite(2+0); Neurology(2+0); Degeneration(0+2); Neuroprotective(0+2); Hemorrhage(2+0); Signal transduction(0+1); Regulation(1+0); Modulation(1+0); Cytokine(1+0); Receptor(1+0); Structure(1+0); Development(1+0); Transplantation(1+0); Neurodegenerative disease(0+1); Vision(0+1); Learning(0+1); Temperature(1+0); Engineering(1+0); Machine(0+1);
【模式生物】Human(2+2); Mouse(0+3); Stem Cell(2+0);
【方法技术】Gene(1+4); In vivo(0+2); Model(0+2); Protein(1+0);
【简述】
【研究论文】
【综述】Annals Of Neurology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Zhigang HeYears: 2019; Recipients: Hu, Yang; Code: R01; Title/Keywords: Neuroprotection by Modulating Er Stress in Glaucoma@ Stanford University; Matching Score: 1000843Assist Prof.
UCSD011017San Diego, CA, USASamuel Pfaff

UCSD
【研究方向】Motor Neuron(0+3); Development(0+2); Disease(0+2); Body(0+2); Connection(0+2); Degeneration(0+1); Muscle(0+1);
【模式生物】
【方法技术】Gene(0+1); Biochemistry(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAMichael Higley

Yale
【研究方向】Dendrite(0+2); Imaging(0+2); Structure(0+1); Synaptic integration(0+1); Synapse(0+1); Disorder(0+1); Neurodegenerative disease(0+1); Systems Neuroscience(0+1);
【模式生物】
【方法技术】Electrophysiology(0+3); Tracing(0+1); Behavior(0+1); Microscopy(0+1); Optogenetics(0+1);
【简述】Autistic Disorder; Behavior; Dendrites; Electrophysiology; Neurobiology; Neurodegenerative Diseases; Microscopy, Fluorescence, Multiphoton.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USANancy Sicotte

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
MIT005002Boston, MA, USAEdward Adelson

MIT
【研究方向】Vision(6+12); Perception(5+2); Color(0+3); Object(0+3); Machine(2+1); Intelligence(2+0); Contrast(0+1); Form(0+1); Bayesian(1+0); Engineering(1+0); Optical(1+0);
【模式生物】Human(0+2);
【方法技术】Statistics(3+1); Psychophysics(0+2); Computation(0+2); Model(2+0);
【简述】Visual Psychophysics and Computational Vision; Checker Shadow Illusion
【研究论文】Nature(2); Science(1); Nature Neuroscience(1); NIPS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Matthew Alpern, J Anthony MovshonJanice Chen, Ron Dror, Pawan Sinha, Alvin Raj, Nathaniel Twarog, William T. Freeman, Eero P. Simoncelli, John Y. Wang, Yair Weiss, Roland W. Fleming, Marshall Tappen, Josh H. McDermott, Yuanzhen Li, Ce Liu, Lavanya Sharan, Micah Kimo Johnson, Bei Xiao, David J. Heeger, Hany Farid, Raymond van Ee, David C. SomersJeffrey B. ColombeYears: 2012 — 2017; Recipients: Adelson, Edward; Code: N/A; Title/Keywords: Cgv: Medium: Collaborative Research: Understanding Translucency: Physics, Perception, and Computation@ Massachusetts Institute of Technology; Matching Score: 0.915045946Prof.
Columbia006008New York, NY, USAInbal Israely

Columbia
【研究方向】Spine(15+6); Dendrite(15+0); Cognition(4+1); Synapse(2+2); Imaging(3+1); Structural plasticity(2+1); Dysfunction(2+1); Learning(1+2); Structure(0+2); Synaptic Plasticity(1+1); LTP(2+0); Development(2+0); Depression(2+0); Glutamate(0+1); Plasticity(1+0); Homeostatic plasticity(1+0); Adhesion(1+0); Disease(0+1); Disorder(0+1); Developmental Disorder(0+1); Autism(0+1); Neural Circuit(0+1); Vision(1+0); Learning and memory(1+0); Encoding(0+1); Signal processing(1+0); Methodology(0+1); Connection(0+1);
【模式生物】
【方法技术】Protein(7+0); Electrophysiology(0+2); Microscopy(1+1); Model(1+1); Gene(0+1); Theory(1+0);
【简述】
【研究论文】Cell(1); Neuron(2); JNS(3); Curr Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Xin Liu000643Assist Prof.
NIH-NINDS??Bethesda, MD, USAQuan Yuan

NIH-NINDS
【研究方向】Plasticity(4+2); Dendrite(2+4); Structural plasticity(1+4); Vision(2+3); Homeostatic(0+5); Regulation(1+2); Development(2+1); 5-HT(2+0); Receptor(2+0); Differentiation(2+0); Transplantation(2+0); Imaging(1+1); Optical(0+2); Acetylcholine receptor(1+0); Muscarinic(1+0); Structure(1+0); Membrane(1+0); Proliferation(1+0); Branching(1+0); Synaptogenesis(1+0); Pathogenesis(1+0); Therapy(1+0); Aging(1+0); Ischemia(1+0); Hypoxia(1+0); Injury(1+0); Tumor(1+0); Photoreceptor(1+0); Adaptation(1+0); Contrast(0+1); Body(1+0); Frequency(1+0); Aggression(1+0); Circadian(1+0); Entrainment(1+0); Stress(1+0); Engineering(1+0);
【模式生物】Drosophila(6+3); Mouse(5+0); Human(1+0); C. elegans(1+0); Stem Cell(1+0);
【方法技术】Gene(1+5); In vivo(2+1); Model(2+0); Protein(1+0); In vitro(1+0); Anatomy(0+1); Behavior(0+1);
【简述】Dendrite Morphogenesis and Plasticity Unit
【研究论文】Cell(4);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000987
Stanford002003Palo Alto, CA, USAJose Humberto Blanchet Mancilla

Stanford
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
NIH-NICHD??Bethesda, MD, USAJuan S Bonifacino

NIH-NICHD
【研究方向】Axon(3+2); Receptor(0+3); Disorder(0+3); Retrieval(2+0); Amino acid(1+0); Membrane(0+1); Vesicle(0+1); Axonal transport(0+1); Disease(0+1); Developmental Disorder(1+0); Body(0+1); Knowledge(0+1); Imaging(1+0);
【模式生物】Mouse(1+0);
【方法技术】Protein(1+3); Model(1+0);
【简述】Section on Intracellular Protein Trafficking
【研究论文】Cell(6);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USADavid Harter

NYU
【研究方向】Tumor(4+0); Pediatric(2+1); Neuro-oncology(2+0); Structure(1+0); Plasticity(1+0); Neurology(1+0); Knowledge(1+0); Evolutionary(1+0);
【模式生物】
【方法技术】Gene(3+0);
【简述】Pediatric neurosurgery
【研究论文】Nature(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000299Assist Prof.
UCLA011013Los Angeles, CA, USAAndrew M. Wikenheiser

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAJiangbing Zhou

Yale
【研究方向】Therapy(0+2); Disorder(0+1); Cell therapy(0+1); Stroke(0+1); Engineering(0+1);
【模式生物】Stem Cell(0+1);
【方法技术】Gene(0+2);
【简述】Biocompatible Materials; Biomedical Engineering; Brain Injuries; Brain Neoplasms; Genetic Therapy; Drug Delivery Systems; Stroke; Nanomedicine; Cell- and Tissue-Based Therapy.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAJennifer Lee

Stanford
【研究方向】Membrane(3+0); Structure(2+0); Disease(2+0); Regulation(1+0); Ion Channel(1+0); Parkinson's disease(1+0); Depth(1+0); Metabolism(1+0); Dynamics(1+0);
【模式生物】
【方法技术】Protein(4+0); Channel(1+0); Biophysics(1+0); Computation(1+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2018; Recipients: Lee, Jennifer; Code: ZIA; Title/Keywords: Raman Spectroscopic Studies of Amyloids@ Heart, Lung, and Blood Institute; Matching Score: 0.912002206Assoc Prof.
WUSTL009032Saint Louis, MO, USAJoseph Ippolito

WUSTL
【研究方向】Metabolism(4+11); Neuroendocrine(7+0); Imaging(4+3); Tumor(3+3); Transgenic(2+0); GABA(2+0); Nicotinic acetylcholine receptor(2+0); Acetylcholine receptor(2+0); Therapeutics(0+2); Cocaine(2+0); Modulation(1+0); Transcription(1+0); Development(0+1); Proliferation(1+0); Biomarker(1+0); Body(0+1); Concept(1+0);
【模式生物】Mouse(3+1); Human(1+0);
【方法技术】MRI(3+2); PET(0+3); In vivo(2+0); In vitro(2+0); Model(1+1); Gene(1+0);
【简述】Sex differences in cancer metabolism
【研究论文】Cell(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000846Assist Prof.
Yale014011New Haven, CT, USAJoseph Santos-Sacchi

Yale
【研究方向】Hair cell(0+4); Receptor(0+3); Frequency(0+2); Membrane(0+1); Auditory(0+1); Motor(0+1);
【模式生物】
【方法技术】Protein(0+1); Electrophysiology(0+1);
【简述】Hair Cells, Auditory; Ear, Inner; Neurosciences; Otolaryngology; Physiology.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAAlex S. Evers

WUSTL
【研究方向】GABAA receptor(3+4); Ion Channel(2+1); Steroid(3+0); Regulation(0+1); Modulation(1+0); Amino acid(1+0); Anesthesia(1+0);
【模式生物】Rat(1+0);
【方法技术】Protein(1+7); In vivo(0+1);
【简述】Molecular mechanisms of anesthetic action - Proteomics of GABAA receptors
【研究论文】Nature(1); Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
CalTech072006Pasadena, CA, USADavid Anderson

CalTech
【研究方向】Inference(6+0); Development(2+0); Neural Circuit(0+2); Emotion(0+2); Fear(0+2); Knockout(1+0); Receptor(1+0); Differentiation(1+0); Embryo(1+0); Olfaction(1+0); Auditory(1+0); Autonomic(1+0);
【模式生物】Monkey(1+0); Mouse(1+0); Stem Cell(1+0);
【方法技术】Model(5+0); Behavior(2+0); Gene(1+0);
【简述】Neural circuits underlying fear and other emotional processing
【研究论文】Nature(1); Science(2); Cell(5);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jerzy E. RoseStephen D. Van Hooser, Daryl Kipke, James D. Weiland, Steven M. Bierer, Karim G. Oweiss, Hubert H. Lim, Francisco M. Martinez Santiesteban, Andre E. SnellingsDavid C. MartinYears: 2000 — 2002; Recipients: Anderson, David James; Code: P41; Title/Keywords: Multichannel Silicon Electrodes in Neural Prostheses: Visual, Auditory &Motor@ University of Michigan At Ann Arbor; Matching Score: 1175893Prof.
UW021010Seattle, WA, USAEric Shea-Brown

UW
【研究方向】Dynamics(0+5); Neural network(0+3); Cognition(0+2); Decision making(0+2); Neural dynamics(0+2); Connectomics(0+2); Neural Circuit(0+1); Sense(0+1);
【模式生物】
【方法技术】Behavior(0+2); Model(0+2); Mathematics(0+2);
【简述】Research
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAFred Rieke

UW
【研究方向】Vision(0+6); Photoreceptor(0+5); Sense(0+2); Retina(0+2); Adaptation(0+2); Signal processing(0+2); Synaptic Transmission(0+1); Perception(0+1);
【模式生物】
【方法技术】Theory(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAJennifer Dionne

Stanford
【研究方向】Optical(8+0); Dynamics(2+0); Vision(1+0); Color(1+0); Object(1+0);
【模式生物】
【方法技术】Model(1+0);
【简述】
【研究论文】Nature(2); Nature Communications(2);
【综述】Physical Review(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
007165Assoc Prof.
Columbia006008New York, NY, USANima Mesgarani

Columbia
【研究方向】Speech(46+2); Auditory cortex(14+0); Modulation(10+0); A1(10+0); Signal processing(5+1); Auditory(5+0); Language(5+0); Neural network(3+0); Engineering(0+3); Environment(2+0); Depression(2+0); Form(2+0); Context(2+0); Category(2+0); Music(2+0); Encoding(2+0); Motor cortex(2+0); Superior temporal gyrus(2+0); Plasticity(1+0); Perception(1+0); Brain-Machine Interface(0+1);
【模式生物】Human(9+1); Rat(4+0);
【方法技术】Computation(5+1); Model(3+0); Behavior(2+0); EEG(2+0);
【简述】Neural Processing of Speech and Sound; Neuro-Inspired Computation; Neural Engineering ;
【研究论文】Nature(2); Science(1); JNS(1); PNAS(1); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Shihab A. Shamma, Hynek Hermansky, Edward ChangMenoua Keshishian, Bahar Khalighinejad, Laura Long, Yi Luo, Tasha Nagamine, James O'Sullivan, Prachi Patel, Vinay S Raghavan, Zhuo ChenYears: 2016 — 2021; Recipients: Mesgarani, Nima; Code: N/A; Title/Keywords: Career: Biologically Inspired Neural Network Models For Robust Speech Processing@ Columbia University; Matching Score: 1003611Assist Prof.
CAS-ION??Shanghai, ChinaShi-Qing Cai

CAS-ION
【研究方向】Potassium channel(1+9); Regulation(2+0); Ion Channel(1+1); Aging(1+1); Face(2+0); Muscle(1+1); Membrane(0+1); Development(0+1); Trafficking(0+1); Sense(1+0); Taste(1+0); Learning and memory(0+1); Context(0+1); Associative learning(1+0); Non-associative learning(1+0); Mating(1+0);
【模式生物】C. elegans(5+5); Human(0+1); Rat(1+0);
【方法技术】Channel(6+6); Biophysics(2+1); Behavior(2+1); Electrophysiology(0+3); Model(1+2); Gene(2+0); Protein(1+0); Biochemistry(0+1); In vivo(0+1); In vitro(0+1);
【简述】Ion Channel Regulation
【研究论文】Nature(1); Nature Neuroscience(2); JNS(2); Nature Communications(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000440Senior Investigator
Stanford002003Palo Alto, CA, USARobert Malenka

Stanford
【研究方向】LTP(6+0); Synaptic Plasticity(5+0); LTD(4+0); Addiction(3+0); Dopamine neuron(2+0); Depression(2+0); Hippocampus(2+0); Modulation(1+0); 5-HT(1+0); AMPA receptor(1+0); GABAB receptor(1+0); Trafficking(1+0); Synapse(1+0); Disease(1+0); Drugs of Abuse(1+0); Cocaine(1+0); Neural Circuit(1+0); Adaptation(1+0); Learning and memory(1+0); Stress(1+0); CA1(1+0); Striatum(1+0); Nucleus accumbens(1+0);
【模式生物】Mouse(1+0);
【方法技术】Protein(2+0); In vivo(1+0); Model(1+0);
【简述】
【研究论文】Nature(4); Science(3); Neuron(4);
【综述】Annual Review Of Neuroscience(2); Nature Reviews Neuroscience(2); Review(2); Trends In Neurosciences(1); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stephen G. Waxman, Roger A. NicollRudolf Peter Faust, Kee Wui Huang, Gregory O. Hjelmstad, Saleem M. Nicola, Jennifer Tsui, Sheela Singla, Mohiuddin Ahmad, Alison Barth, Antonello Bonci, Michael C. Crair, Karl Deisseroth, Gul Dolen, Yan Dong, Dan Feldman, Marc V. Fuccillo, Sandra Jurado, Byungkook Lim, Jai santosh Polepalli, Joel C. Selcher, Mark J. Thomas, Jason Tucciarone, Thanos Tzounopoulos, Jessica Jillian Walsh, Weifeng Xu, Anatol C. Kreitzer, Samarjit Bhattacharyya, Brad A. Grueter, Gilberto Jose Soler-llavina, Patrick E. Rothwell, Neil Schwartz, Dick Wu, Scott J. Hayton, Paul Temkin, Daniel  Jospeh Christoffel, Boris D. Heifets, Lin W. Hung, Nicholas R. Wall, Paul Hoerbelt, Sarah M. Bhagat, Monique L. Smith, Sam Kombian, Rosel Mulkey, John T. Isaac, Reed C. Carroll, Houhui Hugh Xia, Xiang Yu, Nicole Calakos, David D. Stellwagen, Ami Citri, Debanjan Goswami, Stephan Lammel, Mehdi Bhouri, Wade MorishitaMan JiangYears: 2019; Recipients: Halpern, Casey Harrison [⬀] Lock, James D (co-PI) [⬀] Malenka, Robert CSkarpaas, Tara L; Code: UH3; Title/Keywords: Responsive Neurostimulation For Loss of Control Eating@ Stanford University; Matching Score: 1082714Prof.
Princeton061009Princeton, NJ, USAIlana Witten

Princeton
【研究方向】Dopamine neuron(5+0); Reward(1+2); Striatum(2+1); Auditory(2+0); Learning(2+0); Social(1+1); Encoding(2+0); Nucleus accumbens(2+0); Dopamine(1+0); D2 receptor(1+0); Disease(0+1); Psychiatry(1+0); Cocaine(1+0); Vision(1+0); Motor(1+0); Decision making(1+0); Working memory(1+0); Neural encoding(1+0); Dynamics(1+0); Imaging(0+1); PFC(1+0);
【模式生物】Rat(1+0); Mouse(1+0); Rodent(0+1);
【方法技术】Optogenetics(4+0); Behavior(1+1); Electrophysiology(0+1); Computation(0+1); Model(0+1); Theory(0+1);
【简述】Systems and Circuits
【研究论文】Nature(1); Science(1); Cell(2); Nature Neuroscience(6); Neuron(2); JNS(2); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Lee Silver, Michael J. Berry, Eric I. Knudsen, Karl DeisserothHee Jae Jang, Jung Yoon Choi, Lindsay C Willmore, Anna Zhukovskaya, Alejandro Pan Vazquez, Malavika Murugan, Junuk LeeEsteban A. EngelYears: 2017 — 2018; Recipients: Witten, Ilana; Code: U19; Title/Keywords: Subcortical Neural Coding and Dynamics@ Princeton University; Matching Score: 0.915003059Assoc Prof.
Stanford002003Palo Alto, CA, USABianxiao Cui

Stanford
【研究方向】Axon(8+1); Axonal transport(7+1); Intracellular signaling(2+1); Imaging(3+0); Optical(1+2); Neurotrophin(2+0); Stress(2+0); Membrane(1+0); Chemical neuroscience(1+0); Tau(1+0); Ischemia(1+0); Tumor(1+0); Timing(1+0); Dynamics(1+0);
【模式生物】Human(3+0); Mouse(1+0);
【方法技术】Optogenetics(4+0); Protein(2+0); Gene(1+0); Channel(1+0); Microscopy(1+0);
【简述】
【研究论文】Nature(2); Science(1); Nature Communications(1); Nature Methods(2); PNAS(1);
【综述】Physical Review(3); Current Opinion In Neurobiology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stuart A. RiceYears: 2017 — 2018; Recipients: Cui, Bianxiao; Code: R01; Title/Keywords: Developing Oscale Electrophysiology Sensors For Robust Intracellular Recording@ Stanford University; Matching Score: 1004456Assoc Prof.
MIT005002Boston, MA, USAShimon Ullman

MIT
【研究方向】Vision(0+17); Object(0+4); Development(0+1); Environment(1+0); Perception(0+1); Object recognition(0+1); Face(0+1); Learning(1+0); Context(1+0); Machine(0+1); Visual cortex(0+1);
【模式生物】Human(0+5);
【方法技术】Model(2+2); Computation(0+2); Theory(0+1);
【简述】
【研究论文】NIPS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David MarrSharon Gilad, Amir Shmuel, Doron Shoham, Demetri Terzopoulos, Avidan Akerib, Moshe Bar, Dror Zur, Eran Borenstein, Evgeniy Bart, Sharon Gilaie-Dotan, Dan LeviTomaso A. PoggioYears: 1989 — 1996; Recipients: Richards, Whitman (co-PI) [⬀] Grimson, EricUllman, Shimon; Code: N/A; Title/Keywords: Image Partitioning and Selection in Man and Machine Vision@ Massachusetts Institute of Technology; Matching Score: 0.939Prof.
JHU010012Baltimore, MD, USASolomon Snyder MD, DSc, DPhil (Hon Causa)

JHU
【研究方向】Disease(0+4); Neurotransmitter(0+3); Cocaine(0+3); Disorder(0+2); Parkinson's disease(0+2); Mutant(0+1); Receptor(0+1); NMDA receptor(0+1); Addiction(0+1); Encoding(0+1); Striatum(0+1);
【模式生物】Mouse(0+1);
【方法技术】Protein(0+4); Gene(0+2); Model(0+1);
【简述】Cellular + Molecular Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USAAdam Cohen

Harvard
【研究方向】Membrane(1+8); Imaging(6+2); Optical(3+2); Ion Channel(1+1); Structure(1+1); Neural Circuit(2+0); Engineering(0+2); Transgenic(1+0); Receptor(0+1); NMDA receptor(1+0); Epilepsy(0+1); Glia(0+1); Disease(0+1); Object(1+0); Pain(0+1); Motor Neuron(1+0); Free-energy(0+1);
【模式生物】Human(1+1); Mouse(1+1); Stem Cell(1+0);
【方法技术】Electrophysiology(5+2); Protein(4+2); Optogenetics(5+0); Microscopy(1+1); Pharmacology(2+0); In vitro(0+1); Computation(0+1); Model(1+0);
【简述】Optical electrophysiology and neuronal biophysics
【研究论文】Nature Neuroscience(1); Neuron(1); JNS(4);
【综述】Physical Review(2); Curr Opin Chem Biol. (1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
006036Prof.
Columbia006008New York, NY, USAJeremy Veenstra-Vanderweele

Columbia
【研究方向】Disorder(18+5); Autism(20+2); 5-HT(13+0); Psychiatry(7+0); Receptor(4+0); Biomarker(3+0); Transporter(2+0); Development(2+0); Therapy(2+0); Social(2+0); Developmental Disorder(1+0); Pediatric(1+0); Context(1+0);
【模式生物】Mouse(2+1);
【方法技术】Gene(9+1); Model(5+2); Behavior(1+1); Pharmacology(1+0);
【简述】Autism Spectrum Disorder (ASD); Obsessive Compulsive Disorder (OCD);
【研究论文】
【综述】Review(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Edwin H. Cook, Jr., Randy D. BlakelyLauren C Shuffrey, Kally C. O'Reilly SparksYears: 2017 — 2018; Recipients: Marsh, Rachel (co-PI) [⬀] Veenstra-Vanderweele, Jeremy; Code: T32; Title/Keywords: Translational Research Training in Child Psychiatry@ Columbia University Health Sciences; Matching Score: 0.948006737Prof.
UW021010Seattle, WA, USAJohn Scott

UW
【研究方向】Signal transduction(0+4); Regulation(0+2);
【模式生物】
【方法技术】Protein(0+2); Model(0+2);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAJanet Metcalfe

Columbia
【研究方向】Memory(12+4); Learning(11+0); Cognition(8+1); Episodic memory(1+2); Frontal lobe(1+1); Development(0+1); Cocaine(1+0); Systems Neuroscience(0+1); Face(1+0); Planning(0+1); Language(1+0); Consciousness(1+0); Emotion(1+0); Stress(0+1); Dynamics(1+0); Imaging(0+1); Temporal lobe(0+1); Amygdala(0+1);
【模式生物】Human(2+2);
【方法技术】Model(5+7); Computation(1+2); fMRI(0+2); MRI(0+1);
【简述】Theoretical Neuroscience; Cognitive/Systems Neuroscience; Systems and Circuits;
【研究论文】Science(1); NIPS(1);
【综述】Psychological Review(3); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Bennet B. Murdock, Endel TulvingBennett L. Schwartz, Lisa K. Son, Brady A. Butterfield, Nate Kornell, Bridgid Finn, Karen J. KellyYears: 2018 — 2021; Recipients: Metcalfe, Janet; Code: N/A; Title/Keywords: Using Metacognitive Biases to Induce Curiosity and Improve Learning@ Columbia University; Matching Score: 1019006Prof.
Stanford002003Palo Alto, CA, USAMichael Bassik

Stanford
【研究方向】CRISPR/Cas9(2+2); Disease(0+2); Mutant(0+1); Receptor(1+0); Translation(1+0); Development(0+1); Trafficking(0+1); Therapeutics(1+0); HIV(1+0); Muscle(1+0); Stress(0+1); CA2(1+0);
【模式生物】Human(2+0);
【方法技术】Gene(7+7); Protein(1+2); Virus(1+1); Model(0+1);
【简述】
【研究论文】Nature(10); Cell(1); Nature Communications(1); Nature Methods(1); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
008300Assist Prof.
UCSF003015San Francisco, CA, USADavid Copenhagen

UCSF
【研究方向】Retina(0+7); Transporter(0+3); Regulation(0+3); Synaptic Transmission(0+3); Development(0+3); Transgenic(0+2); Glutamate(0+2); Vision(0+2); Signaling molecule(0+1); NMDA receptor(0+1); Chloride(0+1); Plasticity(0+1); Environment(0+1); Sense(0+1); Contrast(0+1); Color(0+1); Imaging(0+1); Optical imaging(0+1);
【模式生物】Mouse(0+1); Rodent(0+1);
【方法技术】Multi-electrode(0+2); Anatomy(0+1); Microscopy(0+1);
【简述】Synaptic Interactions in the Retina: Pathways and Mechanisms
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAShaul Hestrin

Stanford
【研究方向】Electrical synapse(5+0); Modulation(3+0); Synapse(3+0); Vision(3+0); NMDA receptor(2+0); Axon(2+0); Neural Circuit(2+0); Perception(0+2); Imaging(0+2); Visual cortex(2+0); Regulation(1+0); Glutamate(1+0); Dopamine receptor(1+0); Glutamate receptor(1+0); Synchrony(1+0); Development(1+0); Synaptogenesis(1+0); Microcircuit(0+1); Depression(1+0); Cognition(0+1); Sense(0+1); Form(0+1); Motor(0+1); Memory(0+1); Morphology(1+0); Connection(0+1);
【模式生物】Mouse(2+1); Human(0+1); Rat(1+0);
【方法技术】Behavior(0+4); In vivo(0+2); Optogenetics(0+2); In vitro(0+1); Two-photon calcium imaging(0+1);
【简述】
【研究论文】Nature(3); Science(2); Nature Neuroscience(1); Neuron(3); JNS(3); Cerebral Cortex(1);
【综述】Nature Reviews Neuroscience(5); Review(5); Trends In Neurosciences(2); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Susumu Hagiwara, Juan KorenbrotAnthony D. Lien, Malcolm G. Campbell, Solange P. BrownRoger A. NicollYears: 2017 — 2018; Recipients: Hestrin, Shaul; Code: R01; Title/Keywords: Processing of Thalamocortical Inputs by Intracortical Circuits@ Stanford University; Matching Score: 1009900Prof.
UCLA011013Los Angeles, CA, USABeate Ritz

UCLA
【研究方向】Environment(0+6); Parkinson's disease(0+4); Disorder(0+1); Neurology(0+1); Neurodegenerative disorder(0+1);
【模式生物】
【方法技术】Gene(0+1); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAChaolin Zhang

Columbia
【研究方向】Development(5+2); Regulation(1+5); Autism(4+0); Disease(1+2); Transcription(2+0); Differentiation(0+2); Embryo(1+1); Motor Neuron(0+2); Glutamate(1+0); Glia(1+0); Cell line(1+0); Synaptogenesis(0+1); Degeneration(0+1); Tumor(1+0); Machine learning(0+1); Engineering(0+1);
【模式生物】Stem Cell(0+3); Human(2+0); Mouse(1+0);
【方法技术】Model(4+2); Protein(4+0); In vivo(2+1); In vitro(0+1); Bioinformatics(1+0);
【简述】Axon pathfinding and synaptogenesis; Cell specification and differentiation ; Neural degeneration and repair ; Stem cell biology;
【研究论文】Nature(3); Science(1); Cell(3); Neuron(2); JNS(1); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Huijuan Feng, Yocelyn RecinosYears: 2018 — 2019; Recipients: Zhang, Chaolin; Code: R01; Title/Keywords: Single-Nucleotide Resolution Mapping of Allelic Protein-Rna Interactions and Splicing-Regulatory Variants@ Columbia University Health Sciences; Matching Score: 1006740Assist Prof.
Stanford002003Palo Alto, CA, USARobert West

Stanford
【研究方向】Tumor(4+2); Addiction(6+0); Disease(2+0); Therapy(2+0); Nicotine(2+0); Morphology(2+0); Neuroendocrine(2+0); Respiratory(2+0); Psychiatric disorder(1+0); Exercise(1+0); Inference(1+0);
【模式生物】Human(2+0);
【方法技术】Behavior(4+0); Gene(3+0); Protein(1+0); Microarray(1+0); Model(1+0); Theory(1+0);
【简述】
【研究论文】Nature(1); Cell(2);
【综述】Review(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Karlene Ball, Gordon C. Baylis, Fergus I.M. CraikHillary Schwarb, Moses M. Langley, Ashley Jean Scolaro, Kira Bailey, Brandy Nicole JohnsonYears: 2018; Recipients: Van De Rijn, Jan MattWest, Robert B; Code: R01; Title/Keywords: Macrophage Phenotype Polarization in Clinical Neoplasia@ Stanford University; Matching Score: 0.913038913Prof.
Columbia006008New York, NY, USAJian Yang

Columbia
【研究方向】CA2(11+0); Disease(0+8); TRP channel(0+5); Regulation(2+1); Ion Channel(1+2); Calcium channel(2+1); Potassium channel(3+0); Membrane(0+3); Receptor(1+1); Structure(1+1); Muscle(0+2); Temperature(0+2); Cardiovascular(0+2); Modulation(1+0); Epilepsy(0+1); Trafficking(0+1); Autism(0+1); Channelopathies(1+0); Pain(0+1); Migraine(0+1); Touch(0+1); Olfaction(0+1); Taste(0+1); Optical imaging(0+1); Machine(0+1);
【模式生物】Human(0+1); Rat(1+0);
【方法技术】Channel(10+1); Protein(2+0); Gene(0+1); Biochemistry(0+1);
【简述】Biophysics/Ion Channels; Cellular/Molecular/Developmental Neuroscience;
【研究论文】Nature(3); Nature Neuroscience(2); Neuron(6); JNS(1);
【综述】Current Opinion In Neurobiology(1); Physiological Reviews(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Bertil Hille, Richard W. Tsien, Stephen D. Roper, Lily Y. JanJoel D. Mainland, Carl Edward Schoonover, Li Wu, Cheng Xie, MingMing Fan, Christina A. Doyle, Kathryn A. Henckels, Yong YuYears: 2017 — 2019; Recipients: Yang, Jian ; Code: R01; Title/Keywords: Molecular Physiology of Cyclic Nucleotide-Gated Channels@ Columbia Univ New York Morningside; Matching Score: 0.554005100Prof.
NYU015028New York, NY, USADayu Lin

NYU
【研究方向】Hypothalamus(9+0); Aggression(6+0); Social behavior(2+1); Neural Circuit(1+1); Systems Neuroscience(2+0); Vision(2+0); Olfaction(2+0); Olfactory bulb(2+0); Modulation(1+0); Dopamine(1+0); Disease(1+0); Alzheimer's disease(1+0); Parkinson's disease(1+0); Social(1+0); Mating(1+0); Encoding(1+0); Decoding(1+0);
【模式生物】Mouse(5+0); Rodent(1+0);
【方法技术】Gene(3+0); Behavior(3+0); In vivo(1+0);
【简述】Neural circuits that underlie social behaviors
【研究论文】Nature(2); Cell(1); Nature Neuroscience(2); Neuron(4); JNS(2); Curr Biol.(1);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Lawrence C. Katz, David J. AndersonAnnegret Lea FalknerYears: 2018 — 2019; Recipients: Lin, Dayu; Code: R21; Title/Keywords: Investigating the Neural Mechanism of Maternal Motivation@ New York University School of Medicine; Matching Score: 1001595Assist Prof.
NYU015028New York, NY, USALuis Marcos

NYU
【研究方向】Psychiatry(6+0); Language(2+0);
【模式生物】
【方法技术】
【简述】Special needs of the homeless mentally ill population
【研究论文】Nature(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
NYU015028New York, NY, USADaniel Turnbull

NYU
【研究方向】Transgenic(0+1);
【模式生物】Mouse(0+1);
【方法技术】
【简述】Ultrasound and Magnetic Resonance Microimaging of transgenic mice
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Abby E. Deans, Xin Yu, Cesar A. Berrios-Otero, Benjamin B. BartelleYears: 2018 — 2019; Recipients: Turnbull, Daniel HZhang, Jiangyang [⬀] ; Code: R01; Title/Keywords: Quantitative Imaging of Mouse Brain Development@ New York University School of Medicine; Matching Score: 1Prof.
JHU010012Baltimore, MD, USAAlfredo Kirkwood

JHU
【研究方向】Vision(0+8); LTD(0+7); LTP(0+6); Plasticity(0+4); Development(0+4); Visual cortex(0+4); Synaptic Plasticity(0+2); Connection(0+2); Sensory experience(0+1); Depression(0+1); Neural Circuit(0+1); Cognition(0+1); Sense(0+1); Form(0+1); Learning(0+1); Learning and memory(0+1);
【模式生物】Human(0+1);
【方法技术】Computation(0+1); Model(0+1);
【简述】Developmental Neuroscience; Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAPaul George

Stanford
【研究方向】Stroke(10+6); Engineering(8+1); Environment(1+2); Regeneration(2+1); Modulation(0+1); Structure(1+0); Translation(0+1); Disease(1+0); Neurology(1+0); Therapeutics(1+0); Therapy(0+1); Biomarker(0+1); Adaptation(1+0); Color(1+0); Cerebrovascular(1+0);
【模式生物】Stem Cell(7+9);
【方法技术】Protein(1+2); Electrical stimulation(1+2); In vivo(1+0); Computation(1+0); Model(1+0);
【简述】
【研究论文】Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
006395Assist Prof.
MIT005002Boston, MA, USAKwanghun Chung

MIT
【研究方向】Imaging(6+0); Development(5+0); Regulation(2+0); Cognition(2+0); Dynamics(2+0); Connection(2+0); Differentiation(1+0); Disease(1+0); Dysfunction(0+1); Vision(1+0); Temperature(1+0);
【模式生物】C. elegans(2+0); Human(1+0); Mouse(1+0);
【方法技术】Gene(3+0); Microscopy(3+0); Computation(2+0); Statistics(2+0); Protein(1+0); Behavior(0+1); Model(1+0);
【简述】
【研究论文】Nature(2); Science(1); Cell(2); Nature Methods(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Hang LuSung-Yon Kim003200Assist Prof.
NYU015028New York, NY, USAJ. Thomas Roland, Jr.

NYU
【研究方向】Auditory(1+2); Disease(0+2); Knowledge(2+0); Tumor(0+1); Vestibular(1+0);
【模式生物】
【方法技术】Anatomy(0+1);
【简述】Cochlear and auditory brainstem implants
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USAChristopher C. Giza

UCLA
【研究方向】Pediatric(0+4); Neurology(0+2); Brain injury(0+2); Neuroplasticity(0+1); Epilepsy(0+1); Development(0+1); Disease(0+1); Injury(0+1);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USACarlos Portera-Cailliau

UCLA
【研究方向】Neurology(0+2); Development(0+1); Dysfunction(0+1); Autism(0+1); Fragile X(0+1); Sense(0+1); Learning(0+1); Learning and memory(0+1); Imaging(0+1);
【模式生物】
【方法技术】Biochemistry(0+1); In vivo(0+1); Electrophysiology(0+1); Two-photon calcium imaging(0+1); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSF003015San Francisco, CA, USAYuriy Kirichok

UCSF
【研究方向】Ion Channel(0+8); CA2(0+6); Membrane(0+5); Regulation(0+4); Mitochondria(0+4); Neurodegenerative disease(0+2); Aging(0+2); Receptor(0+1); Chloride(0+1); Development(0+1); Disease(0+1); Disorder(0+1);
【模式生物】
【方法技术】Channel(0+2); Electrophysiology(0+1);
【简述】Electrical Signaling at the Mitochondrion in Health and Disease
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAChristopher D. Smyser

WUSTL
【研究方向】Development(1+6); Psychiatry(2+1); Resting state(2+1); Environment(0+2); Brain injury(0+2); Pediatric(0+2); Neuroimaging(0+2); Neurology(0+1); Injury(1+0); Cognition(0+1); Exploration(1+0); Neural network(1+0); Diffusion MRI(0+1); Imaging(1+0); Optical(1+0); Amygdala(1+0); White matter(1+0);
【模式生物】Human(1+1);
【方法技术】MRI(1+2); Behavior(1+0); fMRI(1+0);
【简述】Investigating the effects of prematurity and other modifiable clinical and environmental risk factors on neurodevelopmental outcomes in high-risk pediatric populations
【研究论文】Cerebral Cortex(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
Stanford002003Palo Alto, CA, USATiffany Ho

Stanford
【研究方向】Disorder(19+0); Depression(18+0); Psychiatry(8+0); Cognition(5+0); Stress(5+0); Vision(4+0); Emotion(4+0); Social(3+0); Amygdala(3+0); Regulation(2+0); Development(2+0); Face(2+0); Decision making(2+0); PFC(2+0); Cingulate cortex(2+0); ACC(2+0); Caudate(2+0); Ion Channel(1+0); Dysfunction(1+0); Anxiety(1+0); Cognitive neuroscience(1+0); Sense(1+0); Feature-based attention(1+0); Motor(1+0); Muscle(1+0); Working memory(1+0); Cognitive Control(1+0); Reward(1+0); Neuroimaging(1+0); mPFC(1+0); Visual cortex(1+0); Fusiform gyrus(1+0); dACC(1+0); Basal ganglia(1+0); Putamen(1+0); White matter(1+0);
【模式生物】Human(3+0); Mouse(1+0);
【方法技术】
【简述】
【研究论文】Nature(2); Science(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jeffry B. Lansman, Ilana S. Hairston, Allison G. Harvey, Selena E. Bartlett, John Serences, Ian H. Gotlib, Tony YangAlan N. SimmonsYears: 2018; Recipients: Ho, Tiffany Cheing; Code: K01; Title/Keywords: The Roles of Inflammatory and Glutamatergic Processes in the Neurodevelopmental Mechanisms Underlying Adolescent Depression@ Stanford University; Matching Score: 1.009001201Other
Stanford002003Palo Alto, CA, USASusan K McConnell

Stanford
【研究方向】Development(12+2); Neurogenesis(3+0); Differentiation(3+0); Connection(1+2); Receptor(2+0); Axon(2+0); Sense(2+0); Neurotrophin(1+0); Structure(1+0); Plasticity(1+0); Proliferation(1+0); Cell cycle(1+0); Transplantation(1+0); Embryo(1+0); Axon guidance(1+0); Adhesion(1+0); Dendrite(1+0); Microcircuit(1+0); Neurology(1+0); Degeneration(1+0); Autism(1+0); Cognition(0+1); Vision(1+0); Olfaction(1+0); Auditory(1+0); Motor Neuron(1+0); Learning and memory(1+0); Spatial learning(1+0); Striatum(1+0); Cerebellum(1+0);
【模式生物】Human(1+0); Mouse(1+0); Stem Cell(1+0);
【方法技术】Gene(2+0); Protein(2+0);
【简述】
【研究论文】Nature(1); Neuron(6); PNAS(2); Cerebral Cortex(7);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Simon LeVay, Carla J. ShatzAnjen Chenn, George Vidal, Anthony D. Hill, Monica Hayhurst, Laura Rose Schaevitz, Sandra Lauren Wilson, Bin Chen, Jean HébertYears: 2004; Recipients: Mcconnell, Susan K; Code: R01; Title/Keywords: Identifying Brain Wiring Mechanisms by Gene Trapping@ Stanford University; Matching Score: 1015309Prof.
JHU010012Baltimore, MD, USADaniel Weinberger MD

JHU
【研究方向】Development(0+5); Cognition(0+5); Disorder(0+4); Psychiatric disorder(0+3); Schizophrenia(0+3); Neuroimaging(0+2); Regulation(0+1); Cell line(0+1); Metabolism(0+1);
【模式生物】Human(0+4);
【方法技术】Gene(0+8); Model(0+1);
【简述】.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NINDS??Bethesda, MD, USADavid R. Sibley

NIH-NINDS
【研究方向】Receptor(2+5); Dopamine receptor(2+2); Dopamine(3+0); Neurotransmitter(0+2); Regulation(0+2); Signal transduction(0+1); Ion Channel(0+1); Membrane(0+1); Development(0+1); Trafficking(0+1); Therapy(0+1); Psychiatry(1+0); Psychiatric disorder(0+1); Infection(1+0); Tumor(1+0);
【模式生物】Mouse(2+0);
【方法技术】Protein(1+1); In vitro(2+0); Gene(1+0); Behavior(1+0); Pharmacology(0+1); Model(0+1); Theory(1+0);
【简述】Molecular Neuropharmacology Section
【研究论文】Nature(1); Science(1); Cell(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ian Creese, Robert J. LefkowitzAmy E. Moritz, Kathryn D. Luderman, Emmanuel O. Akano, Marta Sanchez Soto, Ana Lucia  Marques Ventura, Lisa A. Hazelwood, R Benjamin Free, David M. Cabrera, Marilyn M. Day, Blair K. A., Caroline A Cuoco, Kayla A. SchardienYears: 2011; Recipients: Sibley, David R.; Code: P41; Title/Keywords: Phosphorylation of Immunity-Related Gtpases@ Washington University; Matching Score: 0.904
Stanford002003Palo Alto, CA, USABeth L Pruitt

Stanford
【研究方向】Pluripotent stem cells(3+0); Ion Channel(1+0); TRP channel(1+0); Cell cycle(1+0); Pathology(1+0); Planning(1+0); Stress(1+0); Engineering(1+0);
【模式生物】Stem Cell(7+0); Human(1+0); C. elegans(1+0);
【方法技术】Behavior(1+0);
【简述】
【研究论文】Science(1); Neuron(1);
【综述】Annual Review Of Materials Research(1); Physical Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
005119Prof.
Yale014011New Haven, CT, USAWeimin Zhong

Yale
【研究方向】Self-renewal(0+2); Differentiation(0+2); Disease(0+1); Injury(0+1);
【模式生物】Stem Cell(0+8); Mouse(0+2);
【方法技术】Gene(0+1); Behavior(0+1);
【简述】.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAJerome Engel

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USASerge Przedborski

Columbia
【研究方向】Mitochondria(2+3); Disease(0+4); Parkinson's disease(2+2); Sclerosis(1+2); Microglia(0+2); Neuroinflammation(0+2); Motor Neuron(1+1); Mutant(1+0); Membrane(1+0); Pluripotent stem cells(1+0); Neurodegenerative disease(1+0); Neurodegenerative disorder(0+1); Degeneration(0+1); Dysfunction(1+0); Motor(0+1); Attention(0+1); Respiratory(0+1);
【模式生物】Stem Cell(4+1); Mouse(2+0); Human(1+0);
【方法技术】Model(2+4); In vitro(1+2); In vivo(1+1); Protein(1+0);
【简述】Neurodegeneration; Neurobiology of Disease; Molecular and Cellular Biology of Neurodegeneration ; Parkinson's Disease; Motor Neuron Biology and Diseases; Amyotrophic Lateral Sclerosis; Mitochondria Biology and Disease; Mitophagy; Neuroinflammation; Microglia; Astrocytes; Apoptosis; Necroptosis; Bioinfomatics; High-throughput Screening; Stem Cell Biology; Neural Degeneration and Repair; Motor Systems;
【研究论文】Nature Neuroscience(1); Neuron(1); JNS(2);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Mathieu Bourdenx, Burcin Ikiz, Takaaki KuwajimaYears: 2019; Recipients: Przedborski, Serge E; Code: R21; Title/Keywords: Focused Ultrasound and Synucleinopathy@ Columbia University Health Sciences; Matching Score: 0.958Prof.
UCSF003015San Francisco, CA, USASusanna Rosi

UCSF
【研究方向】Neuroinflammation(0+9); Injury(0+7); Cognition(0+7); Brain injury(0+3); Synaptic Plasticity(0+2); Transcription(0+1); CNS(0+1); Disease(0+1); Pathogenesis(0+1); Dysfunction(0+1); Aging(0+1); Memory(0+1); Stress(0+1);
【模式生物】
【方法技术】Model(0+4);
【简述】Brain Injury, Neuroinflammation and Cognitive Function
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
CAS-ION??Shanghai, ChinaChun Xu

CAS-ION
【研究方向】Context(1+17); Extinction(0+6); Regulation(0+5); Anxiety(1+4); Cognition(0+5); Sense(0+5); Neural Circuit(1+3); Perception(0+4); Associative learning(1+3); Fear(1+3); Encoding(0+4); Imaging(0+4); Hippocampus(0+4); Plasticity(2+0); Sensory experience(0+2); Disorder(0+2); Therapy(0+2); Memory(1+1); Learning(0+2); GABAB receptor(1+0); Membrane(1+0); Environment(0+1); Synapse(1+0); Post-traumatic stress disorder(0+1); Vision(0+1); Form(0+1); Olfaction(0+1); Auditory(0+1); Learning and memory(0+1); Retrieval(1+0); Spatial navigation(0+1); Place cell(0+1); Language(0+1); Aversive(0+1); PFC(0+1); mPFC(0+1); CA2(0+1); Amygdala(0+1); Bed nucleus(1+0);
【模式生物】Primate(0+4); Non-human primate(0+2); Human(0+2); Rodent(0+2); Mouse(0+1);
【方法技术】Behavior(0+5); Optogenetics(0+3); Tracing(0+2); Gene(1+0); Anatomy(0+1); Electrophysiology(0+1); fMRI(0+1); Model(0+1); Mathematics(0+1);
【简述】Neurobiology of Context and Behavior
【研究论文】Nature(1); Cell(1); Nature Neuroscience(2); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000318Investigator
Stanford002003Palo Alto, CA, USASara Gandy

Stanford
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Other
UCLA011013Los Angeles, CA, USAWarren S. Grundfest

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USARui M. Costa

Columbia
【研究方向】Learning(11+0); Plasticity(4+0); Dysfunction(4+0); Skill learning(4+0); Motor learning(3+0); Learning and memory(3+0); Optical(2+1); Basal ganglia(3+0); Mutant(2+0); Regulation(2+0); Modulation(2+0); Dopamine(2+0); GABA(2+0); Receptor(2+0); Synaptic Plasticity(2+0); LTP(2+0); Synchrony(2+0); Development(2+0); Disorder(0+2); Tumor(2+0); Cognition(2+0); Motor(2+0); Memory(2+0); Acquisition(2+0); Consolidation(2+0); Sequence learning(2+0); Decision making(2+0); Speech(2+0); Stress(2+0); Motor cortex(2+0); Structure(1+0); Differentiation(1+0); Psychiatry(1+0); Autism(0+1); Infection(1+0); Neural Circuit(0+1); Chemical sense(1+0); Execution(1+0); Aversive(1+0); Dynamics(1+0); Imaging(1+0); Premotor cortex(1+0); Supplementary motor cortex(1+0); Dorsal striatum(1+0);
【模式生物】Mouse(12+0); Human(2+0); Rodent(1+0);
【方法技术】Behavior(6+2); Gene(1+1); Protein(2+0); In vivo(2+0); Electrophysiology(0+2); Model(2+0); Computation(1+0);
【简述】Behavioral Genetics; Electrophysiology;
【研究论文】Nature(5); Science(1); Cell(1); Nature Neuroscience(4); Neuron(3); JNS(5); Nature Communications(2); Curr Biol.(4); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
008253Prof.
NYU015028New York, NY, USAAlec Marantz

NYU
【研究方向】Morphology(5+1); Cognition(3+0); Grammar(2+1); Cognitive neuroscience(2+0); Syntax(1+1); Structure(1+0); Object(1+0); Face(1+0); Language(1+0); Language acquisition(0+1); Neurolinguistics(0+1); Category(1+0); Concept(1+0); Engineering(1+0); Broca's area(1+0); Auditory cortex(1+0);
【模式生物】
【方法技术】Theory(4+0); MEG(3+0);
【简述】Universal grammar, syntax, morphology, language acquisition, and neurolinguistics
【研究论文】Nature(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Noam ChomskyGwyneth A. Lewis, Liina Pylkkanen, Carson Schutze, David Poeppel, Heidi B. Harley, Colin Phillips, Martha McGinnis-Archibald, Patricia L. Irwin, Laura D. Rimell, Jim Wood, Laura Elizabeth Gwilliams, Chun-Hsien HsuYears: 2018 — 2020; Recipients: Small, StevenEmmorey, Karen (co-PI) [⬀] Peelle, JonathanPylkkanen, Liina (co-PI) [⬀] Marantz, Alec; Code: N/A; Title/Keywords: An Open Science Platform For the Neurobiology of Language Community@ University of California-Irvine; Matching Score: 0.954021659Prof.
UCLA011013Los Angeles, CA, USAMayumi L. Prins

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USAMark R. Mayford

UCSD
【研究方向】Memory(0+10); Synapse(0+8); Learning(0+5); Trafficking(0+2); Spine(0+2); Extinction(0+2); Connection(0+2); Glutamate receptor(0+1); Synaptic Plasticity(0+1); Development(0+1); Environment(0+1); Dendrite(0+1); Disease(0+1); Cognition(0+1); Learning and memory(0+1); Fear(0+1); Entorhinal cortex(0+1);
【模式生物】Mouse(0+4);
【方法技术】Gene(0+7); Behavior(0+4); Protein(0+3); Anatomy(0+3); Biochemistry(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular; Systems; Cognitive, Behavioral & Psychopharmacology
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
MIT005002Boston, MA, USANancy Kanwisher

MIT
【研究方向】Vision(7+5); Face(5+2); Cognition(4+2); Object(3+3); Face perception(4+0); Perception(1+2); Neuroimaging(2+1); Development(1+1); Degeneration(1+1); Cognitive neuroscience(2+0); Striate cortex(2+0); Extrastriate cortex(2+0); Body(1+1); Language(1+1); Environment(1+0); Autism(0+1); Age-related(1+0); Pediatric(0+1); Object recognition(1+0); Navigation(1+0); Attention(1+0); Category(1+0); Consciousness(0+1); Imagery(1+0); Encoding(1+0); BOLD signal(1+0); Imaging(1+0); Amygdala(1+0);
【模式生物】Human(7+1);
【方法技术】Behavior(0+1); fMRI(1+0); MEG(1+0);
【简述】
【研究论文】Nature(2); Science(2); Nature Neuroscience(3); Neuron(2); JNS(2);
【综述】Nature Reviews Neuroscience(1); Current Opinion In Neurobiology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Mary C. Potter, Anne TreismanBenjamin J. Balas, Jaron  T. Colas, Jonas Kubilius, Robb Rutledge, Josh H. McDermott, Damian A. Stanley, Damian Alexander Stanley, Alison M. Harris, Alex J E Kell, Hilary Barth, Trevor T-J Chong, Evelina (Ev) Fedorenko, Rosa Lafer-Sousa, Jia Liu, Rebecca Saxe, Frank Tong, Ewa Wojciulik, Ed Vul, Sarah Schwettmann, Jody C. Culham, Alexander O. Holcombe, Johannes A. Haushofer, Rebecca F. Schwarzlose, Ben Deen, Sam Victor Norman-Haignere, Marvin M. Chun, Daniel D. Dilks, Paul Edward Downing, Karla K. Evans, Evelina (Ev) Fedorenko, Isabel Gauthier, Kalanit Grill-Spector, Leyla Isik, Yuhong Jiang, Zoe Kourtzi, Michael C. Mangini, Hans Op de Beeck, Po-Jang (Brown) Hsieh, Kami Koldewyn, Sarah Weigelt, Jason T. Fischer, Zeynep M. Saygin, Caroline E. Robertson, Michael A. Cohen, Matthew F. Peterson, Katharina Dobs, N Apurva Ratan Murty, Raghavendrarao Taranath Pramod, Russell Epstein, Winrich A. Freiwald, Galit Yovel, Chris I. Baker, Mark A. Williams, Won Mok Shim, David Pitcher, Julie D. GolombHaline E. SchendanYears: 2016 — 2018; Recipients: Kanwisher, Nancy; Code: DP1; Title/Keywords: How Does the Functional Organization of the Human Brain Arise in Development?@ Massachusetts Institute of Technology; Matching Score: 1049592Prof.
Stanford002003Palo Alto, CA, USAManish Saggar

Stanford
【研究方向】Creativity(12+0); Disorder(4+0); Psychiatry(1+3); Fragile X(3+1); Bipolar(4+0); Neural network(4+0); Attention(3+0); Social(3+0); Dynamics(0+3); Neuroimaging(2+1); Development(0+2); Learning(1+1); Connectomics(2+0); Psychiatric disorder(0+1); Cognition(1+0); Artificial Neural network(1+0); Imaging(1+0); Robot(1+0);
【模式生物】Human(4+0);
【方法技术】Behavior(7+1); Model(3+4); Computation(2+4); fMRI(5+0); EEG(4+0); fNIRS(2+0); Data analysis(2+0); Gene(1+0); Mathematics(0+1);
【简述】
【研究论文】Nature Communications(1); Cerebral Cortex(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Risto Miikkulainen, Clifford Saron, David Schnyer, Allan ReissYears: 2018; Recipients: Saggar, Manish; Code: DP2; Title/Keywords: Only Time Will Tell: a Computational Psychiatry Approach to Model Temporal Transitions in Brain Activity as a Lens Towards Developing Better Diagnostic Nosology For Psychiatric Illness@ Stanford University; Matching Score: 1000587Assist Prof.
Stanford002003Palo Alto, CA, USAEdgar Engleman

Stanford
【研究方向】Disease(2+6); Dendrite(5+1); Tumor(1+2); Metabolism(1+2); Environment(1+1); Transplantation(1+1); Signal transduction(1+0); Modulation(1+0); Receptor(1+0); Structure(1+0); Microglia(0+1); Development(0+1); Differentiation(1+0); Disorder(0+1); Neurodegenerative disorder(0+1); Pathogenesis(0+1); Parkinson's disease(0+1); HIV(1+0); Infection(1+0); Sclerosis(0+1); Depth(0+1); Knowledge(1+0);
【模式生物】Human(1+3); Mouse(0+3);
【方法技术】Model(1+2); Gene(0+1); Virus(1+0); In vivo(0+1);
【简述】
【研究论文】Nature(5); Science(2); Cell(4);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Angela L. ZhangYears: 2019; Recipients: Engleman, Edgar G.; Code: R21; Title/Keywords: Effects of Maternal Obesity On Offspring Immune System@ Stanford University; Matching Score: 0.958Prof.
UCLA011013Los Angeles, CA, USAPaul M. Macey

UCLA
【研究方向】Engineering(0+2); Sleep(0+1);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAThomas Grabowski

UW
【研究方向】Imaging(0+2); Structure(0+1); Development(0+1); Degeneration(0+1); Aging(0+1); Cognition(0+1); Retrieval(0+1); Context(0+1); Language(0+1); Semantic(0+1); Dynamics(0+1); Temporal lobe(0+1);
【模式生物】Human(0+1);
【方法技术】MRI(0+2); fMRI(0+1);
【简述】Research
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USADavid C Yeomans

Stanford
【研究方向】Pain(10+22); Therapy(3+5); Brain injury(5+0); Headache(4+0); Sodium channel(2+1); Anesthesia(1+1); Neural Circuit(2+0); Imaging(1+1); Modulation(1+0); Cytokine(0+1); Neuropeptide(0+1); Receptor(1+0); Peptide(0+1); Development(0+1); Environment(0+1); Disorder(1+0); Biomarker(0+1); Vision(1+0); Body(0+1); Migraine(1+0); Neuropathic pain(1+0); Concept(1+0); Metabolism(1+0); Encoding(0+1); Signal processing(1+0); Methodology(0+1); Optical(1+0);
【模式生物】Rat(6+0); Human(0+4); Rodent(0+3); Monkey(0+2); Mouse(1+0);
【方法技术】Gene(2+3); Model(4+0); fMRI(0+2); Channel(1+0); Virus(0+1); MRI(0+1); Electrophysiology(0+1); Pharmacology(1+0); Theory(1+0);
【简述】
【研究论文】Nature(1); Science(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles J. Vierck, Jr., Herbert K. ProudfitYears: 2007 — 2009; Recipients: Yeomans, David Clifford; Code: R01; Title/Keywords: Chronic Compression of the Trigeminal Ganglia@ Stanford University; Matching Score: 1Assoc Prof.
NYU015028New York, NY, USADimitris Placantonakis

NYU
【研究方向】Embryo(2+3); Tumor(3+2); 5-HT(2+0); Pathogenesis(1+1); Imaging(1+1); Mutant(1+0); NMDA receptor(1+0); Oscillation(1+0); Epilepsy(1+0); Development(1+0); Neurogenesis(0+1); Self-renewal(1+0); Neural lineage(1+0); Differentiation(1+0); Spine(1+0); Neurology(1+0); Therapeutics(0+1); Therapy(0+1); Psychiatric disorder(0+1); Autism(1+0); Biomarker(0+1); Ischemia(1+0); Vision(1+0); Muscle(1+0); Context(0+1);
【模式生物】Stem Cell(15+11); Human(3+3); Rat(2+0);
【方法技术】Gene(0+2); Model(0+2); In vitro(1+0); MRI(1+0);
【简述】Neural stem cell function in neurogenesis, gliomagenesis and neuropsychiatric disorders
【研究论文】JNS(1); Nature Communications(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John P. Welsh, Lorenz Studer, Viviane TabarN. Sumru Bayin, Aram S. ModrekYears: 2018; Recipients: Placantonakis, Dimitris G.; Code: R01; Title/Keywords: The Role of Gpr133 in Glioblastoma@ New York University School of Medicine; Matching Score: 1001853Assist Prof.
MIT005002Boston, MA, USAJohn Gabrieli

MIT
【研究方向】Cognition(6+1); Memory(5+0); Imaging(1+4); Cognitive neuroscience(3+1); Emotion(4+0); Semantic(3+0); PFC(3+0); Schizophrenia(2+0); Frontal lobe(2+0); Regulation(1+0); Translation(0+1); Development(1+0); Disorder(1+0); Dyslexia(1+0); Sense(1+0); Perception(1+0); Vision(1+0); Pain(1+0); Olfaction(1+0); Learning(1+0); Retrieval(1+0); Attention(1+0); Working memory(1+0); Executive control(1+0); Cognitive Control(1+0); Language(1+0); Encoding(1+0); Temporal lobe(1+0); Medial Temporal Lobe(1+0); Amygdala(1+0); White matter(1+0);
【模式生物】Human(3+0);
【方法技术】MRI(4+1); fMRI(2+2); Behavior(1+1);
【简述】
【研究论文】Science(2); Nature Neuroscience(2); Neuron(3); JNS(2);
【综述】Nature Reviews Neuroscience(1); Annual Review Of Psychology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Suzanne Corkin, Stephen KosslynWei-li Chang, Joan Y. Chiao, Catherine Hartley, J. Benjamin Hutchinson, Heesoo Kim, Mara Mather, Nandakumar S. Narayanan, Desmond J. Oathes, Jonathon J. Walters, Joshua A. Weiner, Kenneth A. Norman, Brittany E. Burrows, Peter Sokol-Hessner, Nick Garber Hollon, Elizabeth Lorenc, Debbie M. Yee, Rebecca E. Martin, Michael L. Waskom, Christine Paula Lewis-de los Angeles, Keri-Lee A. Garel, Sara D. Beach, Yoel Sanchez Araujo, Camila Caballero, Joanna A. Christodoulou, Priya B. Kalra, Julia A Leonard, Noam Sobel, Sharon L. Thompson-Schill, Anthony D. Wagner, Todd W. Thompson, Sara D. Beach, Sean Dae Houlihan, James B. Brewer, Kalina Christoff, Vivek Prabhakaran, Katherine Carolyn Turner, Silvia A. Bunge, Elise Temple, Alison R. Preston, Dara Ghahremani, Moriah Elizabeth Thomason, Yun-Ching Kao, Tyler K. Perrachione, Zeynep M. Saygin, Melissa Troyer, David E. Osher, Joseph B. Keller, R. Alison Adcock, Jasmin Cloutier, Eveline Geiser, Sasha E. Gibbs, Golijeh Golarai, Fumiko Hoeft, Nicholas A. Hubbard, Kevin Nicholas Ochsner, Frida E. Polli, Zhenghan Qi, Bart Rypma, Amy Lynne Shelton, Veronica Whitford, Xiaoqian Jenny Chai, Tracy M. Centanni, Carol A. Seger, Eunjoo Kang, Russell A. Poldrack, Matthew W. Prull, Wendy S. Francis, Chandan J. Vaidya, Eliot Hazeltine, Adam Anderson, Jared M. Novick, Nadine Gaab, Ioulia Kovelman, Joe M. Moran, Elizabeth G. Redcay, Noa Ofen, Elizabeth S. Norton, John E. Desmond, R. Christopher deCharmsLisa Feldman Barrett, R. Christopher deCharmsYears: 2016; Recipients: Gabrieli, John; Code: S10; Title/Keywords: Upgrade to 3 Tesla Mri Scanner For Brain Imaging At Mit@ Massachusetts Institute of Technology; Matching Score: 0.915071084Prof.
UCSD011017San Diego, CA, USATakaki Komiyama

UCSD
【研究方向】Imaging(0+3); Sense(0+2); Transgenic(0+1); Development(0+1); Environment(0+1); Sensory experience(0+1); Microcircuit(0+1); Systems Neuroscience(0+1); Cognition(0+1); Motor(0+1); Learning(0+1);
【模式生物】Mouse(0+3);
【方法技术】Behavior(0+6); In vivo(0+2); Gene(0+1); Electrophysiology(0+1); Two-photon calcium imaging(0+1);
【简述】 Cellular & Developmental; Systems; Cognitive, Behavioral & Psychopharmacology; Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAPamela J. Kennedy

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
CAS-ION??Shanghai, ChinaYan-Gang Sun

CAS-ION
【研究方向】Itch(12+8); Pain(14+0); Sense(2+9); Hypothalamus(9+0); Arcuate nucleus(9+0); Neural Circuit(2+4); Synaptic Transmission(5+0); Thalamus(2+3); Thalamic reticular nucleus(5+0); Modulation(2+2); Inflammation(4+0); Opioids(4+0); Regulation(3+0); Receptor(3+0); Inflammatory pain(3+0); Peptide receptor(2+0); Calcium channel(2+0); Plasticity(1+1); Synaptic Plasticity(2+0); Development(2+0); Synapse(2+0); Disorder(0+2); Descending control(2+0); Reward(2+0); Signal processing(0+2); Periaqueductal gray(2+0); Dorsal raphe nucleus(2+0); Peptide(1+0); Dysfunction(0+1); Autism(0+1); Schizophrenia(0+1); Perception(0+1); Reaching(0+1); Memory(1+0); Learning(0+1); Social(0+1); Fear(1+0); Dynamics(1+0); Connection(1+0); Tuberomammillary nucleus(1+0); VTA(1+0);
【模式生物】Rat(12+0); Mouse(4+0);
【方法技术】Behavior(0+2); Gene(0+1); Electrophysiology(0+1); Optogenetics(0+1); Pharmacology(0+1);
【简述】Neural Circuit and Sensory Processing
【研究论文】Science(2); Cell(1); Nature Neuroscience(1); Neuron(2); JNS(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael BeierleinLi Zhou, Li Zhou001832Investigator
Columbia006008New York, NY, USAYaakov Stern

Columbia
【研究方向】Cognition(12+7); Disease(9+2); Alzheimer's disease(9+2); Neurology(9+0); Aging(2+5); Pathology(0+2); Psychiatry(2+0); Age-related(1+1); Alzheimer's(2+0); Stroke(2+0); Concept(2+0); Imaging(0+2); Disorder(1+0); Depression(1+0); Object(1+0); Frequency(1+0); Exercise(0+1); Working memory(1+0); Executive control(1+0); Neural network(1+0); Neuroimaging(0+1);
【模式生物】
【方法技术】Behavior(1+1); Theory(2+0); Algorithm(1+1);
【简述】Cognitive Experimental and Neuroimaging Studies in Aging and Dementia; Brain Imaging; Neuropsychology;
【研究论文】
【综述】Annals Of Neurology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Arjun Kumar, Angeliki Tsapanou, Teal Eich, Eleanna Varangis, David PredovanJason BrandtYears: 2016 — 2018; Recipients: Habeck, Christian GeorgStern, Yaakov; Code: RF1; Title/Keywords: Exploring Cognitive Aging Using Refernce Ability Neural Networks@ Columbia University Health Sciences; Matching Score: 1089863Prof.
Stanford002003Palo Alto, CA, USAJenna Davis

Stanford
【研究方向】Development(6+0); Environment(5+0); Planning(2+0); Sense(1+0); Engineering(1+0);
【模式生物】
【方法技术】Model(1+0);
【简述】
【研究论文】Science(5);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002598Assoc Prof.
Stanford002003Palo Alto, CA, USARoger Howe

Stanford
【研究方向】Structure(4+0); Adhesion(1+0); Stress(1+0); Signal processing(1+0); Engineering(1+0); Imaging(1+0);
【模式生物】
【方法技术】
【简述】
【研究论文】Cell(1); PNAS(1);
【综述】Physical Review(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
029284Prof.
Stanford002003Palo Alto, CA, USADaniel Fisher

Stanford
【研究方向】Evolutionary(5+1); Dynamics(4+1); Structure(3+0); Adaptation(3+0); Oscillation(1+0); Development(1+0); Disorder(1+0);
【模式生物】Human(2+0); Zebrafish(2+0);
【方法技术】Theory(4+0); Behavior(2+0); Gene(1+0); Bioinformatics(1+0);
【简述】
【研究论文】Nature(1); Science(3); Cell(1); PNAS(3); Curr Biol.(1);
【综述】Physical Review(19);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Shuxin Li, Andrew Holmes, Dane M. ChetkovichYears: 2015 — 2017; Recipients: Fisher, Daniel W.; Code: F30; Title/Keywords: Role of Hcn Channels in Major Depressive Disorder Etiology and Treatment@ Northwestern University At Chicago; Matching Score: 1032562Prof.
NYU015028New York, NY, USAF. Xavier Castellanos

NYU
【研究方向】Disorder(9+1); Psychiatry(6+0); ADHD(3+2); Cognition(3+2); Imaging(3+1); Development(3+0); Dysfunction(2+0); Autism(2+0); Attention(2+0); Neuroimaging(0+2); Neurology(1+0); Pediatric(1+0); Cognitive neuroscience(1+0); Causality(1+0); Resting state(1+0); Connectomics(1+0); Precuneus(1+0); Striatum(1+0); Cerebellum(1+0);
【模式生物】Human(4+0); Monkey(1+0);
【方法技术】MRI(4+1); Behavior(1+1); fMRI(1+0); Computation(0+1);
【简述】Neuroimaging, neuroscience, psychopharmacology, and the genetics of Attention-Deficit Hyperactivity Disorder
【研究论文】Nature(1); Science(1); Nature Neuroscience(1); Cerebral Cortex(2);
【综述】Nature Reviews Neuroscience(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Dylan Gee, Zarrar Shehzad, David Ernest Stark, Jonathan Seth Adelstein, Xi-Nian ZuoBrandon Ashinoff, Felipe Almeida Picon058934Prof.
Yale014011New Haven, CT, USAJane Taylor

Yale
【研究方向】Learning(0+3); Motivation(0+3); Cocaine(0+2); Depression(0+2); Transgenic(0+1); Neurotrophin(0+1); Intracellular signaling(0+1); Disorder(0+1); Dysfunction(0+1); Addiction(0+1); Alcohol(0+1); Amphetamine(0+1); Nicotine(0+1); Schizophrenia(0+1); Cognition(0+1); Memory(0+1); Memory Reconsolidation(0+1); Attention(0+1); Inhibitory control(0+1); Cognitive Control(0+1); PFC(0+1); Amygdala(0+1);
【模式生物】Monkey(0+2); Mouse(0+2); Rat(0+1); Rodent(0+1);
【方法技术】Model(0+3); Behavior(0+1);
【简述】Behavior; Mental Disorders; Motivation; Neurobehavioral Manifestations.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USAJames Knierim

JHU
【研究方向】Cognition(0+4); Environment(0+3); Hippocampus(0+3); Place cell(0+2); Structure(0+1); Neural Circuit(0+1); Sense(0+1); Form(0+1); Episodic memory(0+1); Temporal lobe(0+1); Entorhinal cortex(0+1); Medial Temporal Lobe(0+1);
【模式生物】Rat(0+2);
【方法技术】Multi-electrode(0+2); Computation(0+2);
【简述】Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USAEd Connor

JHU
【研究方向】Vision(0+7); Structure(0+2); Environment(0+1); Neural Circuit(0+1); Cognition(0+1); Body(0+1); Aesthetic(0+1); Knowledge(0+1);
【模式生物】Human(0+1);
【方法技术】Tracing(0+1); Computation(0+1);
【简述】Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAMichael Koelle

Yale
【研究方向】Neurotransmitter(0+6); 5-HT(0+3); GABA(0+1); Receptor(0+1); Depression(0+1);
【模式生物】C. elegans(0+3);
【方法技术】Protein(0+3); Biophysics(0+1); Behavior(0+1);
【简述】Biochemistry; Biophysics; Molecular Biology; Neurobiology; Serotonin; Caenorhabditis elegans; Neurotransmitter Agents; RGS Proteins.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USA Ole Isacson

Harvard
【研究方向】Parkinson's disease(9+9); Glia(0+5); Dopamine neuron(2+3); Disease(1+4); Therapy(3+2); Degeneration(0+4); Aging(3+0); Dementias(0+2); LRRK2(2+0); Inflammation(0+2); Dopamine(1+0); Receptor(1+0); Membrane(1+0); Plasticity(0+1); Microglia(1+0); Development(0+1); Pluripotent stem cells(1+0); Transplantation(0+1); Axon(1+0); Trafficking(1+0); Synapse(0+1); Disorder(0+1); Dysfunction(1+0); Psychiatric disorder(1+0); Age-related(0+1); Tau(1+0); Alpha-synuclein(1+0); Huntington's disease(1+0); Neuroprotection(1+0); Motor(1+0); Motor Neuron(1+0); Stress(1+0); Imaging(0+1); Connection(0+1); CA2(1+0); Substantia nigra(1+0);
【模式生物】Mouse(3+0); Stem Cell(3+0); Human(2+0); Monkey(1+0);
【方法技术】Gene(3+3); Model(3+0); Protein(1+0); In vivo(1+0); Cell culture(0+1); Computation(0+1); Theory(1+0);
【简述】 Neuron and glia disease mechanisms of age-dependent degeneration and repair
【研究论文】Nature Neuroscience(1); Neuron(1);
【综述】Trends In Neurosciences(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Anders Björklund Ryan Richardson, Chee Yeun Chung, Gaynor A SmithYears: 2018; Recipients: Hallett, Penelope JaneHastings, Michelle LIsacson, Ole; Code: R01; Title/Keywords: Prevention of Complement and Immune-Mediated Lewy Body Dementia@ McLean Hospital; Matching Score: 0.907Prof.
Columbia006008New York, NY, USATae-Wan Kim

Columbia
【研究方向】Disease(4+3); Receptor(4+0); Trafficking(2+1); Neurology(3+0); Alzheimer's disease(3+0); Metabolism(3+0); Mutant(2+0); Regulation(1+1); Modulation(2+0); Neurotrophin(2+0); Peptide(2+0); LTP(0+2); Dysfunction(0+2); APP(0+2); Transporter(1+0); Ion Channel(0+1); Membrane(1+0); Vesicle(1+0); Synaptic Plasticity(0+1); Transcription(1+0); Development(0+1); Embryo(0+1); Dendrite(0+1); Spine(0+1); Degeneration(0+1); Pathogenesis(0+1); Therapeutics(0+1); Therapy(0+1); Down Syndrome(1+0); Tumor(1+0); Cognition(0+1); Form(0+1); Encoding(0+1);
【模式生物】Mouse(1+4); Human(1+0); Rat(1+0);
【方法技术】Model(1+3); Gene(1+2); Protein(1+2); Microarray(2+0);
【简述】Neurogenetics; Neural Degeneration and Repair; Disease;
【研究论文】Science(2); Cell(1); Nature Neuroscience(2); Neuron(1); JNS(1);
【综述】Nature Reviews Neuroscience(1); Annals Of Neurology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Natalie Landman, Hirokazu Okada, Jeremy C. HwangKyongman ANYears: 2018; Recipients: Cirrito, John R (co-PI) [⬀] Kim, Tae-Wan; Code: R21; Title/Keywords: Effects of Apoe-Enhancing Compounds On Alzheimers Disease Phenotypes in Vivo@ Columbia University Health Sciences; Matching Score: 1007607Assoc Prof.
UW021010Seattle, WA, USALibin Xu

UW
【研究方向】Disorder(0+6); Metabolism(0+5); Development(0+4); Environment(0+4); Neurodegenerative disease(0+2); Autism(0+2);
【模式生物】Human(0+1);
【方法技术】Behavior(0+2);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAThomas Dee

Stanford
【研究方向】Social(1+0);
【模式生物】Human(1+0);
【方法技术】
【简述】
【研究论文】
【综述】Review(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
NYU015028New York, NY, USAAnn Marie Schmidt

NYU
【研究方向】Receptor(4+0); Disease(2+0); Imaging(2+0); Knockout(1+0); Disorder(1+0); Dysfunction(1+0); Aging(1+0); Age-related(1+0); Alzheimer's disease(0+1); Ischemia(1+0); Cardiovascular(1+0);
【模式生物】Mouse(1+0);
【方法技术】Protein(1+0); Model(1+0);
【简述】RAGE involvement in diabetes and Alzheimer's disease
【研究论文】Cell(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USAStephanie Correa

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USATore Eid

Yale
【研究方向】Epilepsy(0+6); Glutamate(0+4); Temporal lobe(0+2); Amino acid(0+1); Disease(0+1); Disorder(0+1); Therapeutics(0+1); Art(0+1);
【模式生物】Human(0+1);
【方法技术】Microscopy(0+2); EEG(0+1);
【简述】Epilepsy; Immunohistochemistry; Neurosurgery; Mass Spectrometry; Medical Laboratory Science; Toxicology; Clinical Chemistry Tests.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAJianmin Cui

WUSTL
【研究方向】Ion Channel(0+4); Potassium channel(1+3); Modulation(2+1); Structure(2+0); Epilepsy(1+1); Disease(0+2); Mutant(1+0); Membrane(0+1); Neurotransmitter release(0+1); Sense(0+1); Cardiovascular(0+1); S2(1+0); CA2(1+0);
【模式生物】Human(0+1);
【方法技术】Channel(4+4); Protein(0+2); Biochemistry(0+1); Model(0+1);
【简述】Molecular basis of bioelectricity and related diseases in nervous and cardiovascular systems; ion channel function and modulation; discovery of drugs that target ion channels
【研究论文】Nature(3); Neuron(2); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard W. AldrichHua Pan, Lei Hu, Huanghe Yang, Urvi S. Lee, Dick Wu, Junqiu YangYears: 2018; Recipients: Cui, Jianmin; Code: R01; Title/Keywords: Mechanism of Bk Channel Gating@ Washington University; Matching Score: 1Assoc Prof.
UCLA011013Los Angeles, CA, USAElyse J. Singer

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAOrrin Devinsky

NYU
【研究方向】Epilepsy(1+5); Seizure(0+3); Disorder(0+2); Neurology(1+0); Therapy(1+0); Sense(0+1); Depth(0+1); Motor(0+1); Language(0+1); Category(0+1);
【模式生物】
【方法技术】ECoG(0+1); EEG(0+1); Pharmacology(1+0);
【简述】Epilepsy and seizure disorders
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
NIH-NEI??Bethesda, MD, USARich Krauzlis

NIH-NEI
【研究方向】Vision(11+6); Eye Movement(10+4); Attention(3+1); Cognition(2+1); Perception(2+1); Visual motion(1+1); Motor control(0+2); Modulation(1+0); Structure(0+1); Oscillation(1+0); Sense(0+1); Object(0+1); Spatial attention(1+0); Motor(1+0); Cerebellum(0+1);
【模式生物】Monkey(4+0); Primate(3+0); Human(2+0);
【方法技术】Computation(2+1); Model(2+0); Behavior(1+0); Psychophysics(0+1); Computational Model(0+1);
【简述】
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stephen G. Lisberger, Frederick A. Miles, Robert H. WurtzChristopher D. Carello, Dorion Liston, Lee P. Lovejoy, Shaun Patrick Mahaffy, Samuel Uno Nummela, Leanne Chukoskie, Laurent Madelain, Ziad M. Hafed, Kristina J. Nielsen, James P. Herman, Lupeng Wang, Leor Katz, Gongchen Yu, Garth A. Fowler, Anushree KarkhanisLaurent GoffartYears: 2011 — 2012; Recipients: Callaway, Edward M (co-PI) [⬀] Krauzlis, Richard JReynolds, John H [⬀] ; Code: R21; Title/Keywords: Optogenetic Tools to Selectively Activate Projection Neurons in Awake Primate@ Salk Institute For Biological Studies; Matching Score: 0.922006157
Princeton061009Princeton, NJ, USAElizabeth Gavis

Princeton
【研究方向】Development(8+2); Translation(3+6); Regulation(3+2); Dendrite(3+2); Embryo(1+2); Sense(2+0); Trafficking(1+0); Body(0+1); Dynamics(1+0); Imaging(1+0);
【模式生物】Drosophila(13+1);
【方法技术】Protein(0+4); Gene(0+1); In vivo(0+1); Model(0+1);
【简述】Systems and Circuits
【研究论文】Cell(6); Neuron(1); JNS(1); Curr Biol.(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USAItzhak Fried

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAJanice L. Robertson

WUSTL
【研究方向】Membrane(4+10); Structure(5+1); Transporter(2+1); Potassium channel(2+1); Imaging(2+1); Form(0+2); Encoding(2+0); Receptor(1+0); Ion Channel(1+0); Sodium channel(0+1);
【模式生物】
【方法技术】Protein(4+4); Biochemistry(1+4); Model(1+4); Theory(0+4); Microscopy(1+2); Channel(1+1); Biophysics(0+2); Electrophysiology(0+2); Mathematics(0+2); Computation(0+1);
【简述】To understand how and why membrane proteins fold, form stable complexes, and achieve conformational stability inside of the oil-filled cell membrane.
【研究论文】Nature(1); Science(1); eLife(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Lawrence G. Palmer000372Assist Prof.
JHU010012Baltimore, MD, USACharlotte Sumner MD

JHU
【研究方向】Disease(0+9); Motor Neuron(0+7); Motor(0+3); Disorder(0+2); Degeneration(0+2); Pathogenesis(0+2); Therapy(0+2); Sense(0+2); Receptor(0+1); Ion Channel(0+1); Development(0+1); Axon(0+1); Axonal transport(0+1); Synapse(0+1); Neurodegenerative disorder(0+1); Dysfunction(0+1); Therapeutics(0+1); Neuromuscular(0+1); Form(0+1); Muscle(0+1);
【模式生物】Human(0+2); Mouse(0+2); Drosophila(0+1);
【方法技术】Gene(0+6); Protein(0+4); Channel(0+2); In vivo(0+2); In vitro(0+2); Model(0+1);
【简述】Developmental Neuroscience; Cellular + Molecular Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USARichard J Reimer

Stanford
【研究方向】Transporter(4+7); Disease(3+8); Neurotransmitter(0+6); Glutamate(4+1); Disorder(0+5); Membrane(1+3); Imaging(3+1); Vesicle(1+1); Epilepsy(1+1); Development(2+0); Metabolism(1+1); Modulation(1+0); Amino acid(1+0); GABA(0+1); GABAA receptor(1+0); Glia(0+1); CNS(1+0); Trafficking(1+0); Degeneration(0+1); Pathology(0+1); Psychiatric disorder(0+1); Pediatric(1+0); Encoding(0+1);
【模式生物】Drosophila(1+0);
【方法技术】Model(3+1); Pharmacology(1+2); Gene(0+2); Protein(1+0); Biochemistry(1+0);
【简述】
【研究论文】Neuron(3); JNS(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Robert H. EdwardsHiroaki TaniYears: 2007 — 2010; Recipients: Reimer, Richard J; Code: R01; Title/Keywords: Pathophysiology of Lysosomal Free Sialic Acid Storage Disorders@ Stanford University; Matching Score: 1Assoc Prof.
UCLA011013Los Angeles, CA, USAGregory A. Miller

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USACarol A. Mason

Columbia
【研究方向】Axon(1+5); Optic chiasm(2+4); Vision(1+2); Development(2+0); Axon growth(1+1); Receptor(0+1); Transcription(0+1); Differentiation(0+1); CNS(0+1); Axon guidance(0+1); Synaptogenesis(0+1); Retina(1+0); Context(1+0); Navigation(0+1); Connection(0+1);
【模式生物】Mouse(2+0); Human(0+1); Rodent(0+1);
【方法技术】Gene(0+2); Model(0+2);
【简述】Synapses and Circuits; Axon Pathfinding and Synaptogenesis; Cell Specification and Differentiation; Cellular/Molecular/Developmental Neuroscience;
【研究论文】Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ray W. GuilleryGul Dolen, Yo-El S. Ju, Glennis A. Matthews, Qin Zhang, Rivka A. Rachel Samanta Roy, Marion S. Ward, Scott E. Williams, Maria Chiara Manzini, Timothy J. Petros, Punita Bhansali, Brikha R. Shrestha, Anna Dunaevsky, Eloisa Herrera, Florencia Marcucci, Takaaki KuwajimaYears: 2014 — 2015; Recipients: Mason, Carol A.; Code: R21; Title/Keywords: Rpe-Neural Retina Interactions in the Developing Albino Eye@ Columbia University Health Sciences; Matching Score: 1Prof.
UCLA011013Los Angeles, CA, USAMarvin Bergsneider

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Princeton061009Princeton, NJ, USANathaniel Daw

Princeton
【研究方向】Dopamine(4+0); Learning(4+0); Reinforcement learning(4+0); Striatum(4+0); Cognition(3+0); Decision making(2+1); 5-HT(2+0); Associative learning(2+0); Neural network(2+0); Disorder(1+0); Psychiatry(1+0); Psychiatric disorder(0+1); Parkinson's(1+0); Depression(1+0); Perception(1+0); Planning(1+0); Spatial navigation(0+1); Attention(1+0); Reward(1+0); Stress(1+0); Encoding(1+0); Bayesian(1+0); Machine learning(0+1);
【模式生物】Human(6+1);
【方法技术】Computation(3+2); Behavior(3+1); Theory(2+0); Model(1+0); Data analysis(1+0);
【简述】Human Neuroscience
【研究论文】Nature(2); Nature Neuroscience(1); Neuron(2); JNS(2); Cerebral Cortex(1);
【综述】Trends In Neurosciences(1); Current Opinion In Neurobiology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Mark Gluck, David Touretzky, Peter DayanYoel Sanchez Araujo, Sarah A. Hutter, Oliver M Vikbladh, Dylan Alexander Simon, Nicholas J Gustafson, Aaron M. Bornstein, Hanneke EM den Ouden, Steve Fleming, Jian Li, Ross Otto, Hang Zhang, Ida Momennejad, Marcelo Gomes Mattar, Sam J. GershmanNina Galbraith Curley, Song Qi, G. Elliott WimmerYears: 2018 — 2021; Recipients: Daw, Nathaniel; Code: N/A; Title/Keywords: Crcns Research Proposal: Collaborative Research: Prioritization of Memory Reactivation For Decision-Making@ Princeton University; Matching Score: 0.915016526Prof.
UCLA011013Los Angeles, CA, USAJeffrey Donlea

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAGregory J. Zipfel

WUSTL
【研究方向】Stroke(8+1); Hemorrhage(4+1); Cerebrovascular(3+1); Peptide(2+1); Disease(1+2); Ischemia(2+1); Transgenic(2+0); Dysfunction(2+0); Therapeutics(0+2); Brain injury(2+0); Dynamics(2+0); Regulation(1+0); Glutamate(1+0); Potassium channel(1+0); CNS(1+0); Neurology(1+0); Alzheimer's(1+0); Alzheimer's disease(1+0); Tau(1+0); Injury(1+0); Cognition(1+0); Imaging(1+0);
【模式生物】Human(2+0); Mouse(2+0);
【方法技术】Protein(2+0); Channel(1+0); In vivo(1+0); In vitro(1+0);
【简述】Mechanisms and novel therapeutics for cerebral amyloid angiopathy and cerebral vasospasm
【研究论文】Nature(1); Science(1); Cell(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ananth K. VellimanaYears: 2015 — 2018; Recipients: Zipfel, Gregory J; Code: R25; Title/Keywords: Washington University Neurosurgery Resident Research Education Program@ Washington University; Matching Score: 1008385Assoc Prof.
UCLA011013Los Angeles, CA, USADejan Markovic

UCLA
【研究方向】Engineering(0+2); Learning(0+1);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USAEdward H. Koo

UCSD
【研究方向】APP(0+21); Trafficking(0+5); Disease(0+5); Development(0+4); Vesicle(0+3); Axon(0+2); Alzheimer's disease(0+2); Transgenic(0+1); Regulation(0+1); Receptor(0+1); Cell fate(0+1); Adhesion(0+1); Neurodegenerative disease(0+1); Pathogenesis(0+1); Body(0+1);
【模式生物】Mouse(0+1); C. elegans(0+1);
【方法技术】Protein(0+4); Gene(0+1); Biochemistry(0+1); In vivo(0+1); Behavior(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular; Clinical
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USASusan Holmes

Stanford
【研究方向】Dynamics(1+3); Structure(1+2); Disease(2+0); Inference(2+0); Imaging(1+1); Modulation(1+0); Chloride(1+0); Plasticity(1+0); HIV(0+1); Cognition(1+0); Body(0+1); Bayesian(1+0);
【模式生物】Human(7+2); Drosophila(1+0);
【方法技术】Computation(3+1); Gene(2+1); Model(3+0); Statistics(3+0); Virus(2+0); Mathematics(2+0); Data analysis(2+0); Anatomy(0+1); Bioinformatics(1+0); Neuroinformatics(1+0);
【简述】
【研究论文】Science(1); Cell(1); Nature Communications(1); Nature Methods(1); PLoS Biol.(1); PLOS Computational Biology(1); Neuroinformatics(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Daniel J. Ford, Elizabeth PurdomYears: 2015 — 2017; Recipients: Pooth, Albert [⬀] Kiser, StaceyHolmes, SusanRuscher, Paul; Code: N/A; Title/Keywords: Tipping the Scale: Engaging Community College Science Faculty and Students in Course-Based Research Experiences (Cbre)@ Lane Community College; Matching Score: 0.901013027Prof.
WUSTL009032Saint Louis, MO, USAJeffrey Milbrandt

WUSTL
【研究方向】Axon(0+5); Degeneration(0+3); Glial cell(0+2); Development(0+2); Neurodegenerative disease(0+2); Metabolism(0+2); Regulation(0+1); Neurodegenerative disorder(0+1); Pathology(0+1); Psychiatric disorder(0+1); Autism(0+1); Parkinson's disease(0+1); Addiction(0+1); Engineering(0+1); Methodology(0+1);
【模式生物】Mouse(0+1);
【方法技术】Gene(0+1); In vivo(0+1); Model(0+1);
【简述】Axonal degeneration, regulation of myelination, neuronal energetics and mitochondrial function in neuropathy and neurodegenerative disease
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Robert H. Baloh, Rakesh Nagarajan, Nam H. Le, Jeffrey A. Magee, Eric L. Snyder, Bin Zhang, Craig A. Press, Andreu Viader, Sungsu Kim, William James BuchserYears: 2018; Recipients: Milbrandt, Jeffrey D; Code: R01; Title/Keywords: Jun O-Glcnacylation Regulates Schwann Cell Injury Response@ Washington University; Matching Score: 0.958Prof.
UW021010Seattle, WA, USASandra Bajjalieh

UW
【研究方向】Vesicle(0+3); Membrane(0+2); Neurotransmitter(0+1); Synaptic Transmission(0+1); Environment(0+1); Trafficking(0+1); Form(0+1);
【模式生物】
【方法技术】Protein(0+2); Gene(0+1);
【简述】Cell and Molecular Neuroscience;  Excitable Membranes and Synaptic Transmission
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USASanjay Malhotra

Stanford
【研究方向】Receptor(2+0); Structure(2+0); Development(1+1); Imaging(1+1); Signal transduction(0+1); Modulation(0+1); Disease(1+0); Demyelinating(1+0); Neuropathic pain(1+0);
【模式生物】Mouse(1+0);
【方法技术】Protein(1+0); Model(0+1);
【简述】
【研究论文】Cell(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
Stanford002003Palo Alto, CA, USAAhmad Salehi Najaf Abadi

Stanford
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
WUSTL009032Saint Louis, MO, USAJohn R. Pruett

WUSTL
【研究方向】Autism(7+2); Development(3+2); Vision(2+1); Attention(2+1); Social(2+1); Disorder(2+0); Developmental Disorder(2+0); Face perception(1+1); Cognition(0+1); Adaptation(1+0); Face(0+1); Spatial attention(1+0); Motor(1+0); Social cognition(0+1); Reasoning(1+0); Imaging(1+0); Neuroimaging(1+0);
【模式生物】
【方法技术】Theory(2+1); MRI(1+0);
【简述】The neuroscience of ASD, social cognition and comparative cognition
【研究论文】Science(1); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harold BurtonEric FeczkoYears: 2019; Recipients: Piven, Joseph (co-PI) [⬀] Pruett, John R; Code: R01; Title/Keywords: Mri Based Presymptomatic Prediction of Asd@ Washington University; Matching Score: 1Assoc Prof.
UW021010Seattle, WA, USAHoward Chizeck

UW
【研究方向】Development(0+8); Adaptation(0+4); Touch(0+4); Finger(0+4); Brain-Computer Interface(0+4); Engineering(0+4);
【模式生物】
【方法技术】Channel(0+4); Electrical stimulation(0+4); DBS(0+4); Theory(0+2);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAFrank M Longo

Stanford
【研究方向】Receptor(10+6); Disease(2+7); Neurotrophin(5+3); Development(0+4); Huntington's disease(4+0); CNS(2+1); Disorder(1+2); Neurogenesis(0+2); Alzheimer's disease(2+0); HIV(1+1); Alcohol(2+0); Imaging(2+0); Mutant(0+1); Modulation(1+0); Microglia(1+0); Proliferation(0+1); Regeneration(1+0); PNS(0+1); Axon(1+0); Neurology(1+0); Degeneration(1+0); Therapeutics(0+1); Therapy(1+0); Psychiatry(1+0); Age-related(1+0); Alzheimer's(1+0); Tau(1+0); Biomarker(1+0); Stroke(1+0); Injury(1+0); Spinal Cord Injury(0+1); Sclerosis(0+1); Cognition(1+0); Homeostatic(1+0); Stress(1+0); Striatum(1+0); Basal forebrain(1+0);
【模式生物】Mouse(6+1); Human(3+0); Stem Cell(0+3); Rat(1+0);
【方法技术】Model(3+1); Protein(1+2); PET(2+0);
【简述】
【研究论文】Neuron(1); JNS(2); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Columbia006008New York, NY, USARobert S. Kass

Columbia
【研究方向】Ion Channel(0+7); Potassium channel(4+0); Disease(0+4); Structure(0+3); Regulation(2+0); Development(0+2); Disorder(0+2); Transgenic(1+0); Calcium channel(0+1); Pluripotent stem cells(0+1); Context(0+1); CA2(1+0);
【模式生物】Stem Cell(0+2); Mouse(1+0);
【方法技术】Channel(4+4); Gene(0+3); Electrophysiology(1+1); Pharmacology(1+1); Model(1+1); Protein(1+0); Computation(1+0);
【简述】Biophysics/Ion Channels; Cellular/Molecular/Developmental Neuroscience;
【研究论文】Cell(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard W. TsienThai V. Pham, Joseph W. Cormier, John R. Bankston, Ian W. Glaaser, Priscilla J. Chan, Jeremiah D. Osteen, Wai-Meng Kwok, Hugues AbrielYears: 2014 — 2019; Recipients: Kass, Robert SLarsson, Hans Peter; Code: R01; Title/Keywords: Modulation of Kcnq1 Channel Activity@ University of Miami School of Medicine; Matching Score: 0.954Prof.
Stanford002003Palo Alto, CA, USAGuosong Hong

Stanford
【研究方向】Imaging(12+0); Brain injury(2+0); Receptor(1+0); Therapy(1+0); Retina(1+0); Hormone(1+0); Engineering(1+0);
【模式生物】Mouse(1+0);
【方法技术】In vivo(4+0); Biochemistry(1+0); Electrophysiology(1+0);
【简述】
【研究论文】Nature(2); Science(2); Nature Communications(1); Nature Methods(1); PNAS(3);
【综述】Current Opinion In Neurobiology(1); Chemical Reviews(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Paul Chong, Xingjun ZhuYears: 2017 — 2018; Recipients: Hong, Guosong; Code: K99; Title/Keywords: Brain Aging Studies With Single-Neuron Resolution Using Syringe-Injectable Electronics@ Harvard University; Matching Score: 0.964Assist Prof.
UCSF003015San Francisco, CA, USAArturo Alvarez-Buylla

UCSF
【研究方向】Olfaction(0+4); Olfactory bulb(0+4); Neurogenesis(0+3); Development(0+2); Embryo(0+2); Plasticity(0+1); Environment(0+1); Axon(0+1); Vision(0+1); Pain(0+1); Visual cortex(0+1);
【模式生物】Stem Cell(0+4); Human(0+2); Mouse(0+1);
【方法技术】In vivo(0+1); Behavior(0+1);
【简述】Birth and Migration of New Neurons
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USAJennifer Erwin

JHU
【研究方向】Environment(0+2); Disease(0+2); Disorder(0+2); Regulation(0+1); Development(0+1); Autism(0+1); PFC(0+1); Striatum(0+1);
【模式生物】Human(0+3); Stem Cell(0+1);
【方法技术】Gene(0+2); Computation(0+1); Model(0+1);
【简述】Developmental Neuroscience; Cellular + Molecular Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USARoi Ann Wallis

UCLA
【研究方向】Injury(0+1);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSF003015San Francisco, CA, USASamuel Barondes

UCSF
【研究方向】Psychiatry(0+1); Sense(0+1); Language(0+1);
【模式生物】
【方法技术】
【简述】Biological Psychiatry
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Princeton061009Princeton, NJ, USADiana Tamir

Princeton
【研究方向】Social(13+0); Cognition(5+0); Cognitive neuroscience(2+0); Psychiatry(1+0); Schizophrenia(1+0); Memory(1+0); Decision making(1+0); Social cognition(1+0); Inference(1+0); Emotion(1+0); Social behavior(1+0); Imaging(1+0);
【模式生物】Human(0+1);
【方法技术】Behavior(2+0); Model(2+0); Simulation(2+0); MRI(1+0); fMRI(1+0);
【简述】Human Neuroscience
【研究论文】Science(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Cameron S. Carter, Jason Mitchell001065Assist Prof.
NIH-NINDS??Bethesda, MD, USALeonardo Belluscio

NIH-NINDS
【研究方向】Olfaction(16+9); Olfactory bulb(4+3); Plasticity(1+5); Receptor(3+1); Sense(3+1); Development(1+2); Alzheimer's disease(2+1); Neural Circuit(1+2); APP(2+0); Brain injury(2+0); Imaging(1+1); Transgenic(0+1); Neurogenesis(1+0); Regeneration(0+1); Axon guidance(1+0); Dendrite(0+1); Disease(0+1); Neurology(1+0); Neurodegenerative disease(1+0); Dysfunction(0+1); Parkinson's disease(0+1); Timing(1+0); Connection(0+1);
【模式生物】Mouse(4+2); Human(1+0);
【方法技术】Model(4+1); In vivo(2+1); Gene(1+0); Biochemistry(0+1); MRI(1+0); Behavior(0+1); Electrophysiology(0+1); Optogenetics(0+1);
【简述】Developmental Neural Plasticity Section
【研究论文】Science(1); Cell(2); JNS(6); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard Axel, Lawrence C. KatzCaroline Rauffenbart, Alynda Noel Wood, Bryce D GrierYears: 2010 — 2016; Recipients: Belluscio, Leonardo; Code: ZIA; Title/Keywords: Restoration of Olfactory Neural Circuitry Following Disruption.@ Neurological Disorders and Stroke; Matching Score: 0.913
Yale014011New Haven, CT, USATimothy R. Newhouse

Yale
【研究方向】Development(0+3); Receptor(0+1); Structure(0+1); Methodology(0+1); Imaging(0+1);
【模式生物】
【方法技术】Protein(0+1);
【简述】.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAJames Zou

Stanford
【研究方向】HIV(2+0); Learning(2+0); Regulation(1+0); Amino acid(1+0); Structure(1+0); Membrane(1+0); Transcription(1+0); Oscillation(1+0); Development(1+0); Environment(1+0); Branching(1+0); Therapy(1+0); Infection(1+0); Spectral(1+0); Artificial intelligence(1+0); Neural network(1+0);
【模式生物】Human(6+0); Mouse(1+0);
【方法技术】Gene(4+0); Virus(3+0); Protein(2+0); Model(2+0); Theory(1+0); Data analysis(1+0); Statistics(1+0);
【简述】
【研究论文】Nature(3); Cell(1); Nature Communications(2); Nature Methods(1); PNAS(1); PLoS Biol.(1);
【综述】Physical Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
006649Assist Prof.
JHU010012Baltimore, MD, USAMarilyn Albert

JHU
【研究方向】Cognition(0+6); Neurodegenerative disorder(0+3); Aging(0+3); Disease(0+2); Episodic memory(0+2); Structure(0+1); Memory(0+1); Learning(0+1); Temporal lobe(0+1); Entorhinal cortex(0+1); Hippocampus(0+1); Medial Temporal Lobe(0+1);
【模式生物】
【方法技术】MRI(0+2); Gene(0+1);
【简述】Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USAHarvey J. Karten

UCSD
【研究方向】Vision(0+4); Retina(0+3); Receptor(0+2); Structure(0+2); Development(0+2); Sense(0+2); Body(0+1); Morphology(0+1); Comparative anatomy(0+1);
【模式生物】
【方法技术】Anatomy(0+2); Psychophysics(0+2); Biochemistry(0+1); Tracing(0+1);
【简述】 Cellular & Developmental; Systems; Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAJames Priest

Stanford
【研究方向】Disease(8+3); Development(1+1); Cardiovascular(2+0); Rhythm(1+0); Embryo(1+0); Disorder(0+1); Pathogenesis(0+1); Pediatric(0+1); Finger(1+0); Knowledge(1+0); Inference(1+0);
【模式生物】Human(3+0);
【方法技术】Gene(3+3); Model(0+2); Protein(1+0); Channel(1+0); Algorithm(1+0);
【简述】
【研究论文】Science(1); Cell(1); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
Stanford002003Palo Alto, CA, USASteven D Chang

Stanford
【研究方向】Tumor(3+12); Vessel(0+7); Disease(3+2); Therapy(1+3); Development(0+2); Neuro-oncology(2+0); Vestibular(2+0); Imaging(2+0); Spine(1+0); Neurology(1+0); Dysfunction(0+1); Biomarker(0+1); Stroke(0+1); Injury(0+1); Planning(1+0); Category(0+1); Knowledge(0+1);
【模式生物】Stem Cell(0+16);
【方法技术】Gene(0+2); MRI(1+0);
【简述】
【研究论文】
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Stanford002003Palo Alto, CA, USAEllen Kuhl

Stanford
【研究方向】Engineering(10+1); Development(4+1); Structure(2+1); Axon(3+0); Disease(1+1); Form(0+2); Biomechanics(2+0); White matter(2+0); Environment(0+1); Alzheimer's disease(1+0); Parkinson's disease(1+0); Brain injury(1+0); Spinal Cord Injury(1+0); Sclerosis(1+0); Adaptation(0+1); Stress(0+1); Cardiovascular(1+0); Machine learning(1+0);
【模式生物】Human(4+0); Stem Cell(0+1);
【方法技术】Model(13+3); Computation(10+1); Biophysics(2+1); Behavior(3+0); Theory(1+2); Electrophysiology(0+1); Mathematics(1+0);
【简述】
【研究论文】Nature(1); Cell(1);
【综述】Physical Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2017 — 2020; Recipients: Kuhl, Ellen; Code: N/A; Title/Keywords: Understanding Neurodegeneration Across the Scales@ Stanford University; Matching Score: 1008615Prof.
NYU015028New York, NY, USAMichael J. Hawken

NYU
【研究方向】Perception(0+1); Vision(0+1);
【模式生物】
【方法技术】
【简述】Neuronal mechanisms of visual perception
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
JHU010012Baltimore, MD, USAPaul Worley MD

JHU
【研究方向】Plasticity(0+2); Glutamate receptor(0+1); Transcription(0+1); Translation(0+1); Trafficking(0+1); Synapse formation(0+1); Synapse(0+1); Neural Circuit(0+1); Cognition(0+1); Memory(0+1); Learning and memory(0+1); Neural network(0+1); Machine(0+1);
【模式生物】
【方法技术】Protein(0+1); Behavior(0+1); Computation(0+1);
【简述】Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAViet Nguyen

Stanford
【研究方向】Motor(4+0); Disease(3+0); Development(2+0); Spine(2+0); Imaging(2+0); Regeneration(1+0); Therapy(1+0); HIV(1+0); Infection(1+0); Tumor(1+0); Encoding(1+0); Dynamics(1+0); Evolutionary(1+0);
【模式生物】Human(2+0); Mouse(2+0);
【方法技术】In vivo(1+0);
【简述】
【研究论文】Science(1); Cell(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002148Assoc Prof.
UW021010Seattle, WA, USAJay Rubinstein

UW
【研究方向】Vestibular(0+6); Perception(0+2); Speech(0+2); Music(0+2); Signal processing(0+2);
【模式生物】Human(0+10); Non-human primate(0+4); Primate(0+2);
【方法技术】Psychophysics(0+2); Computation(0+2); Model(0+2);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USAVictor Navarro

Harvard
【研究方向】Learning(7+0); Hypothalamus(1+5); Injury(5+0); Reproduction(2+2); Metabolism(1+3); Cognition(3+0); Vision(3+0); Neurotransmitter(0+2); Cytokine(2+0); Pathology(2+0); Acquisition(2+0); Extinction(2+0); Attention(1+1); Concept(2+0); Fear(2+0); Neuroendocrine(1+1); Hormone(0+2); Imaging(1+1); Receptor(0+1); Plasticity(0+1); Development(0+1); Differentiation(0+1); Therapy(1+0); Perinatal(0+1); Perception(1+0); Category(1+0); Categorization(1+0); Circadian(1+0); Sleep(1+0); Steroid(0+1); Amygdala(1+0); Arcuate nucleus(0+1);
【模式生物】Mouse(6+1); Human(3+1); Rat(2+0);
【方法技术】Gene(0+3); Behavior(3+0); In vivo(1+0); Model(1+0);
【简述】Neuroendocrine control of reproductive function and metabolism
【研究论文】JNS(1); Curr Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000073Assist Prof.
UCLA011013Los Angeles, CA, USALars Dreier

UCLA
【研究方向】Regulation(0+1); Glutamate receptor(0+1); Membrane(0+1);
【模式生物】C. elegans(0+1);
【方法技术】In vitro(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
MIT005002Boston, MA, USATed Gibson

MIT
【研究方向】Cognition(3+1); Language(2+2); Comprehension(1+0); Music(1+0);
【模式生物】Human(0+1);
【方法技术】MRI(0+1); Behavior(0+1); Model(0+1);
【简述】The major lines of research pursued in the lab:
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USAS. Lawrence Zipursky

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USAAnton Maximov

UCSD
【研究方向】Development(0+2); Synapse(0+2); Disorder(0+2); Sense(0+2); Imaging(0+2); Neurotransmitter(0+1); Structure(0+1); Membrane(0+1); Vesicle(0+1); Transcription(0+1); Trafficking(0+1); Dendrite(0+1); Synapse formation(0+1); Spine(0+1); Disease(0+1); Psychiatric disorder(0+1); Autism(0+1); Parkinson's disease(0+1); Bipolar(0+1); Cognition(0+1); Learning and memory(0+1); Encoding(0+1); Connection(0+1);
【模式生物】Mouse(0+2); Human(0+1);
【方法技术】Gene(0+2); Behavior(0+2); In vitro(0+1); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAWilliam Grisham

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAJames Jeanne

Yale
【研究方向】Sense(0+2); Perception(0+1); Memory(0+1); Decision making(0+1); Imaging(0+1);
【模式生物】Drosophila(0+1);
【方法技术】Computation(0+3); Electrophysiology(0+2); In vivo(0+1); Behavior(0+1); Optogenetics(0+1);
【简述】Behavior; Drosophila melanogaster; Electrophysiology; Insecta; Neurons; Synapses.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAJonathan A. Javitch

Columbia
【研究方向】Dopamine(13+4); Receptor(11+3); Transporter(5+4); D2 receptor(5+2); Psychiatry(5+0); Neurotransmitter(2+2); Membrane(4+0); Dynamics(3+0); Regulation(0+2); Amphetamine(0+2); Cocaine(1+1); Schizophrenia(0+2); Nucleus accumbens(2+0); Signal transduction(1+0); G-Protein Coupled Receptor(0+1); Dopamine receptor(1+0); Ion Channel(0+1); Chloride(1+0); Structure(1+0); Dopamine neuron(1+0); Trafficking(0+1); Disease(0+1); Psychiatric disorder(0+1); Neurotoxicity(1+0); HIV(1+0); Alcohol(1+0); Sense(1+0); Motivation(1+0); S2(1+0); Striatum(1+0); Dorsal striatum(1+0);
【模式生物】Human(2+0); Mouse(1+1); Drosophila(1+0);
【方法技术】Model(1+3); Protein(2+1); Biochemistry(1+1); Behavior(2+0); Pharmacology(1+1); Biophysics(0+1); Ex vivo(1+0); In vitro(1+0);
【简述】G-protein Coupled Receptors: Structural Bases for Pharmacological Specificity and Function; Neurotransmitter Transporters: Biophysics, Biochemistry and Regulation; Neurobiology of Disease; Biophysics/ion Channels; Models of Psychiatric Disorders;
【研究论文】Nature Neuroscience(2);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Solomon H. Snyder, Arthur KarlinFernanda Carvalho Poyraz, Jasmine V. Ferrer, Naomi R. Goldberg, Hideaki Yano, Eduardo F. Gallo, Steven G Grinnell, Zachary Z. FreybergJuan C. MobarecYears: 2017 — 2019; Recipients: Javitch, Jonathan A; Code: R01; Title/Keywords: Probing Mechanisms of Amphetamine Action At Plasma Membrane and Vesicular Transporters in Vitro and in Vivo@ Columbia University Health Sciences; Matching Score: 1Prof.
UCLA011013Los Angeles, CA, USAUtpal Banerjee

UCLA
【研究方向】Development(0+5); Signal transduction(0+2); Transcription(0+1); Social(0+1);
【模式生物】Drosophila(0+5); Stem Cell(0+1);
【方法技术】Gene(0+3); Model(0+1);
【简述】
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAPaul Phillips

UW
【研究方向】Transporter(0+1); Receptor(0+1);
【模式生物】
【方法技术】
【简述】Behavioral Neuroscience; Disorders of the Nervous System; Neurotransmitters; Modulators; Transporters and Receptors
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAMarion S Buckwalter

Stanford
【研究方向】Stroke(15+7); Neuroinflammation(7+0); Inflammation(5+1); Cognition(5+0); Microglia(4+0); Disease(4+0); Glia(3+0); Receptor(2+0); Glycine receptor(2+0); Epilepsy(2+0); Synaptogenesis(2+0); Pathology(2+0); Dysfunction(2+0); Aging(2+0); Alzheimer's(2+0); Infection(2+0); Neuroimmunology(2+0); Structure(1+0); Neurogenesis(1+0); CNS(1+0); Neurology(1+0); Degeneration(1+0); Ischemia(1+0); Sclerosis(1+0); Depression(1+0); Learning(1+0); Encoding(1+0); Imaging(1+0); Hippocampus(1+0);
【模式生物】Mouse(13+1); Human(1+0);
【方法技术】Model(6+0); Gene(3+0); Protein(2+0); In vivo(1+0); Behavior(1+0);
【简述】
【研究论文】Nature(1); JNS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Tony Wyss-CorayEgle Cekanaviciute, Kereshmeh Taravosh-Lahn, Todd C. Peterson, Alexis R. HowertonYears: 2016 — 2017; Recipients: Buckwalter, Marion S; Code: R21; Title/Keywords: Spleen Glia in Autonomic Regulation of Immunity@ Stanford University; Matching Score: 1002750Assoc Prof.
NIH-NIMH??Bethesda, MD, USALee E. Eiden

NIH-NIMH
【研究方向】Stress(5+0); Hypothalamus(3+0); Brain injury(2+0); Morphology(2+0); Neuroendocrine(2+0); Energy metabolism(2+0); Modulation(1+0); Dopamine receptor(1+0); Vesicle(1+0); Synaptic Transmission(1+0); Plasticity(1+0); Synapse(1+0); Disease(1+0); Therapy(1+0); Psychiatry(1+0); ApoE(1+0); Neuroinflammation(1+0); Anxiety(1+0); Depression(1+0); Neural Circuit(1+0); Contrast(1+0); Emotion(1+0); Motivation(1+0); Homeostatic(1+0); HPA axis(1+0); Steroid(1+0); Dynamics(1+0); CA1(1+0); Amygdala(1+0); Locus coeruleus(1+0);
【模式生物】Mouse(3+0); Rat(1+0);
【方法技术】Protein(4+0); In vivo(2+0); Behavior(2+0); Gene(1+0);
【简述】
【研究论文】Cell(10);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAErik S. Musiek

WUSTL
【研究方向】Circadian clock(4+3); Disease(5+1); Stress(3+3); Neurology(3+0); Aging(1+2); Biomarker(3+0); Regulation(1+1); Alzheimer's disease(2+0); Tau(2+0); Circadian(1+1); Sleep(2+0); Bmal1(1+0); Rhythm(1+0); Synapse(0+1); Neurodegenerative disease(1+0); Pathology(1+0); Pathogenesis(1+0); Alzheimer's(1+0); Neurotoxicity(1+0); Injury(0+1); Timing(1+0); Metabolism(0+1); Imaging(1+0); Connection(0+1);
【模式生物】Mouse(0+2); Human(1+0);
【方法技术】In vivo(3+0); MRI(3+0); Model(0+2); Gene(1+0); Protein(0+1); Biochemistry(1+0); In vitro(1+0); Pharmacology(1+0);
【简述】Molecular mechanisms of neurodegeneration, with interest in circadian clock genes and oxidative stress
【研究论文】Nature(1); Science(2); Nature Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003365Assist Prof.
Stanford002003Palo Alto, CA, USACraig Levin

Stanford
【研究方向】Imaging(8+5); Disease(0+2); Optical(2+0); Modulation(1+0); Development(0+1); Form(0+1); Spectral(0+1); Acquisition(0+1); Timing(1+0); Engineering(1+0);
【模式生物】Human(0+1);
【方法技术】PET(13+0); In vivo(0+1); MRI(1+0); Model(0+1); Algorithm(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2017 — 2018; Recipients: Levin, Craig S; Code: R01; Title/Keywords: Technologies to Drastically Boost Photon Sensitivity For Brain-Dedicated Pet@ Stanford University; Matching Score: 0.958Prof.
UCLA011013Los Angeles, CA, USAS. Thomas Carmichael

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAMartin S Angst

Stanford
【研究方向】Anesthesia(2+1); Pain(3+0); Headache(3+0); Modulation(0+1); Receptor(1+0); Disease(1+0); Disorder(1+0); Neurology(1+0); Neurotoxicity(1+0); Infection(0+1); Perinatal(1+0); Stroke(1+0); Trauma(1+0); Migraine(1+0); Context(0+1); Knowledge(0+1); Exploration(0+1); Aversive(0+1);
【模式生物】Human(6+0); Mouse(1+0);
【方法技术】Bioinformatics(2+0); Protein(0+1); Model(1+0);
【简述】
【研究论文】Nature(1); Science(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Stanford002003Palo Alto, CA, USAGregory Kovacs

Stanford
【研究方向】Engineering(5+1); Biomechanics(1+0); Cardiovascular(1+0); Respiratory(1+0);
【模式生物】Drosophila(1+0);
【方法技术】Electrical stimulation(2+0); Behavior(1+0); Electrophysiology(1+0); Microscopy(1+0);
【简述】
【研究论文】JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Stanford002003Palo Alto, CA, USAGordon Li

Stanford
【研究方向】Tumor(5+3); Receptor(3+0); Neuro-oncology(3+0); Development(2+0); Self-renewal(2+0); Disease(2+0); Therapy(2+0); Peptide(1+0); Microglia(1+0); CNS(1+0); Spine(1+0); Therapeutics(0+1); Pediatric(1+0); Vestibular(1+0); Respiratory(1+0); Imaging(1+0);
【模式生物】Human(4+0); Mouse(3+0);
【方法技术】Protein(1+0); Virus(1+0); MRI(1+0);
【简述】
【研究论文】Science(1); Cell(2); Nature Communications(2);
【综述】Review(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003365Assoc Prof.
Stanford002003Palo Alto, CA, USATrevor Hastie

Stanford
【研究方向】Learning(7+3); Regularization(5+0); Machine learning(3+0); Biomechanics(2+0); Inference(1+1); Methodology(2+0); Structure(1+0); Membrane(1+0); Environment(0+1); Tumor(1+0); Language(0+1); Bayesian(1+0); Machine(1+0);
【模式生物】Human(1+0);
【方法技术】Model(10+5); Statistics(13+0); Gene(2+1); Computation(3+0); Bioinformatics(1+0);
【简述】
【研究论文】Science(1); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Werner StuetzleMu Zhu, Saharon Rosset, Hui Zou, Mee Y. Park, Gillian WardYears: 2018 — 2022; Recipients: Owen, Art [⬀] Hastie, Trevor; Code: N/A; Title/Keywords: Bigdata: F: Computationally Efficient Algorithms For Large-Scale Crossed Random Effects Models@ Stanford University; Matching Score: 1197282Prof.
WUSTL009032Saint Louis, MO, USAGregory F. Wu

WUSTL
【研究方向】CNS(0+9); Sclerosis(4+1); Receptor(1+2); Dendrite(2+1); Disease(1+2); Inflammation(0+3); Cell migration(0+2); Regulation(0+1); Cytokine(0+1); Structure(0+1); Differentiation(1+0); Adhesion(0+1); Trafficking(0+1); Pathogenesis(0+1); Demyelinating(1+0);
【模式生物】Mouse(0+3);
【方法技术】Model(6+1); In vivo(0+4); Microscopy(0+2); Gene(0+1); Protein(0+1); Ex vivo(0+1);
【简述】Inflammation and autoimmunity of the central nervous system
【研究论文】Cell(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
Stanford002003Palo Alto, CA, USAGarry Gold

Stanford
【研究方向】Imaging(19+7); Biomechanics(3+1); Muscle(3+1); Disease(2+0); Metabolism(2+0); Disorder(1+0); Degeneration(1+0); Pathology(0+1); Therapy(1+0); Contrast(1+0); Pain(1+0); Exercise(1+0); Learning(1+0); Acquisition(1+0); Stress(1+0); Encoding(1+0); Regularization(1+0); Engineering(1+0);
【模式生物】Human(1+0);
【方法技术】MRI(20+2); Model(2+1); In vivo(2+0); PET(1+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2015 — 2018; Recipients: Gold, Garry E; Code: R01; Title/Keywords: Weight-Bearing Imaging of the Knee Using C-Arm Ct@ Stanford University; Matching Score: 0.958014140Prof.
CAS-ION??Shanghai, ChinaXiao-Hong Xu

CAS-ION
【研究方向】Innate behavior(2+12); Hypothalamus(2+3); Neural Circuit(0+3); Preoptic area(2+0); Regulation(1+0); Modulation(0+1); Receptor(1+0); Plasticity(0+1); Mating(0+1); Body temperature(1+0); Encoding(1+0); Connection(0+1); Periaqueductal gray(1+0);
【模式生物】Mouse(2+0);
【方法技术】Gene(3+3); Behavior(0+4); In vivo(0+1);
【简述】Neural Basis of Innate Behaviors
【研究论文】Cell(1); Nature Neuroscience(1); Neuron(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000299Investigator
Columbia006008New York, NY, USAElizabeth Hillman

Columbia
【研究方向】Optical(9+1); Imaging(8+1); Optical imaging(2+3); Somatosensory(3+1); Blood flow(3+1); Dynamics(3+0); Contrast(2+0); Spectral(2+0); BOLD signal(2+0); Oscillation(1+0); Disease(0+1); Systems Neuroscience(0+1); Morphology(1+0); Exploration(0+1); Encoding(1+0); Methodology(0+1);
【模式生物】Human(2+0); Rodent(1+0);
【方法技术】Microscopy(5+1); Anatomy(2+0); MRI(1+1); In vivo(1+0); Behavior(0+1); fMRI(1+0); Pharmacology(0+1);
【简述】Cognitive/Systems Neuroscience; Brain Imaging; Systems and Circuits;
【研究论文】Nature(2); Cell(2); JNS(3);
【综述】Review(3); Annual Review Of Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
006811Assoc Prof.
Harvard001001Boston, MA, USAMatthew Pecot

Harvard
【研究方向】Vision(7+5); Synapse(2+4); Development(2+2); Synapse formation(1+3); Receptor(2+1); Environment(0+2); Ion Channel(0+1); Membrane(1+0); Plasticity(0+1); Glia(0+1); Neural Circuit(0+1); Retina(0+1); Photoreceptor(0+1); Form(0+1); Color(0+1); Dynamics(1+0); Connection(0+1);
【模式生物】Drosophila(11+1);
【方法技术】Gene(0+4); In vivo(2+2); Protein(1+0); Cell culture(0+1);
【简述】Molecular mechanisms underlying the assembly of neural circuits.
【研究论文】Cell(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Vivek Malhotra, S. Lawrence ZipurskyIvan J. SantiagoYears: 2019; Recipients: Pecot, Matthew Yasuo; Code: R01; Title/Keywords: Circuit-Specific Transcriptional Mechanisms Underlying the Precision of Synaptic Connectivity@ Harvard Medical School; Matching Score: 1000193Assist Prof.
Stanford002003Palo Alto, CA, USARuwan Silva

Stanford
【研究方向】Retina(3+0); Depression(1+0); Respiratory(1+0); Imaging(1+0);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
Stanford002003Palo Alto, CA, USAHuy M Do

Stanford
【研究方向】Stroke(5+0); Pain(2+0); Disease(1+0); Therapy(1+0); Ischemia(1+0); Hemorrhage(1+0); Pediatric(1+0); Reflex(1+0); Cerebrovascular(1+0); Imaging(1+0); Basal ganglia(1+0); Thalamus(1+0);
【模式生物】
【方法技术】Algorithm(1+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
WUSTL009032Saint Louis, MO, USAAndrew Yoo

WUSTL
【研究方向】Development(9+1); Reprogramming(3+3); Disease(4+2); Cell fate(2+3); Transcription(2+1); Neurogenesis(0+2); Environment(2+0); Neurodegenerative disorder(0+2); APP(2+0); Modulation(1+0); Neurodegenerative disease(1+0);
【模式生物】Human(13+4); C. elegans(4+0); Stem Cell(2+0);
【方法技术】Gene(2+2); Model(0+2); Bioinformatics(2+0); Biochemistry(0+1);
【简述】Generation of human neurons by direct cell fate reprogramming and modeling late-onset neurodegenerative disorders
【研究论文】Nature(3); Science(2); Cell(4); Nature Neuroscience(1); Neuron(2); JNS(1); eLife(1);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gerald CrabtreeYears: 2018; Recipients: Yoo, Andrew; Code: R01; Title/Keywords: Mechanistic Insights Into Neurodegeneration in Huntington's Disease Using Patient-Derived Neurons Through Direct Conversion of Fibroblasts@ Washington University; Matching Score: 0.915002718Assoc Prof.
WUSTL009032Saint Louis, MO, USACarlos Ponce

WUSTL
【研究方向】Vision(1+6); Environment(2+0); Machine learning(0+2); Neural network(0+2); V1(0+2); V2(0+2); Perception(0+1); Depth(1+0); Language(0+1); Mating(1+0); Imaging(0+1); V3(0+1); V4(0+1); V5/MT(1+0);
【模式生物】Bird(8+0); Macaque(1+1); Non-human primate(0+1); Human(1+0); Primate(0+1); Rodent(1+0);
【方法技术】Model(1+1); Behavior(0+1); Optogenetics(0+1); Computation(0+1); Mathematics(0+1);
【简述】My long-term goal is to outline how early cortical regions of the non-human primate brain, like V1, V2 and V3 prepare information that later visual areas (e.g. inferotemporal cortex) shape into the basis of our perception.
【研究论文】Nature(1); Science(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard T. Born, Margaret LivingstoneTill S. HartmannYears: 2005 — 2007; Recipients: Ponce, Carlos R; Code: F31; Title/Keywords: Minority Predoctoral Fellowship Program@ Harvard University (Medical School); Matching Score: 0.936000437Assist Prof.
NIH-NIMH??Bethesda, MD, USAHugo Tejeda

NIH-NIMH
【研究方向】Receptor(7+1); Nicotine(7+0); Neuromodulation(0+3); Dopamine(3+0); Synaptic integration(0+3); Amygdala(3+0); Modulation(2+0); Development(2+0); Psychiatric disorder(1+1); PFC(2+0); Nucleus accumbens(2+0); VTA(2+0); Transgenic(0+1); Synapse(1+0); Microcircuit(0+1); Vulnerability(1+0); Therapy(0+1); Schizophrenia(1+0); Neural Circuit(0+1); Emotion(0+1); Aversive(1+0); Hormone(1+0); Dynamics(1+0); Imaging(0+1); mPFC(1+0);
【模式生物】Rat(4+0);
【方法技术】Behavior(2+2); Model(1+1); Electrophysiology(0+1); Optogenetics(0+1);
【简述】Unit on Neuromodulation and Synaptic Integration
【研究论文】Cell(1); Nature Neuroscience(3); Neuron(3); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Laura E. O'Dell, Toni Shippenberg, Patricio O'Donnell, Antonello Bonci
Stanford002003Palo Alto, CA, USAMerritt Maduke

Stanford
【研究方向】Membrane(6+3); Transporter(4+1); Dynamics(0+5); Ion Channel(2+2); Chloride(4+0); Structure(0+3); Modulation(0+1); Potassium channel(1+0); Disease(0+1); Cardiovascular(0+1); Engineering(0+1);
【模式生物】
【方法技术】Protein(2+2); Channel(4+0); Ultrasonic(2+1); Electrophysiology(0+2); Model(2+0); Biochemistry(1+0);
【简述】
【研究论文】Cell(1); Neuron(1); Nature structural & molecular biology(1); PNAS(2); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Anita M. Engh, Gilbert MartinezYears: 2017; Recipients: Baccus, Stephen A (co-PI) [⬀] Butts-Pauly, Kim ButtsKhuri-Yakub, Butrus T (co-PI) [⬀] Maduke, Merritt C; Code: R01; Title/Keywords: Broadband Pvdf Membrane Hydrophone Equipment Supplement to R01 Eb019005@ Stanford University; Matching Score: 0.958Assoc Prof.
UW021010Seattle, WA, USAMichael Manookin

UW
【研究方向】Neural Circuit(0+1); Sense(0+1);
【模式生物】
【方法技术】
【简述】Computational Neuroscience; Neural Circuits; Sensory Systems
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USADirk Trauner

NYU
【研究方向】Glutamate receptor(4+0); Chemical neuroscience(1+2); Ion Channel(2+0); Optical(2+0); Metabotropic glutamate receptor(1+0); Potassium channel(1+0); Development(1+0); Vision(1+0);
【模式生物】Mouse(1+0);
【方法技术】Optogenetics(1+0); Chemical genetics(1+0);
【简述】Chemical neuroscience and photopharmacology
【研究论文】Nature(2); Nature Neuroscience(2); Neuron(2); Nature Methods(1);
【综述】Current Opinion In Neurobiology(1); Physical Review(1); Chemical Reviews(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Johann H. Mulzer, Samuel J. DanishefskyThomas J. Maimone, Marc J. Adler, Ian B. Seiple, Vilius Franckevičius, James Frank, David B. Konrad, Laura Laprell, Laura Laprell, Chambers Connor Hughes, Christopher Micah Beaudry, Stefan Nikolaus Gradl, Jeremiah Peter Malerich, Aubry K. Miller, Jennifer Elizabeth Barbarow, Guangxin Liang, Jessica Hitchcock Harvey, Paul Andrew Roethle, Matthew Volgraf, Matthew R. Banghart, Jean-Philip Lumb, Laura Ellen Beaulieu, Alfred Lloyd Bowie, Erica May Lauterwasser, Michael A. Kienzler, Vladimir Sofiyev, Yue Xu, Thomas James Kimbrough, Hong-Dong HaoJatin Nagpal, James J. ChambersYears: 2018; Recipients: Trauner, Dirk; Code: R01; Title/Keywords: Merocytochalasans, Photocytochalasans and the Optical Control of the Actin Cytoskeleton@ New York University; Matching Score: 0.954014496Prof.
Yale014011New Haven, CT, USASabrina Diano

Yale
【研究方向】Hypothalamus(0+3); Regulation(0+2); Metabolism(0+2); CNS(0+1); Disorder(0+1); Pathogenesis(0+1);
【模式生物】
【方法技术】
【简述】Endocrine System; Nervous System; Diseases.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAEben Rosenthal

Stanford
【研究方向】Imaging(5+0); Tumor(4+0); Optical(4+0); Receptor(2+0); Purine(1+0); Translation(1+0); Disease(1+0); Pathology(1+0); Therapeutics(1+0); Therapy(1+0); Neuro-oncology(1+0); Navigation(1+0); Social(1+0); Optical imaging(1+0);
【模式生物】Human(1+0);
【方法技术】Gene(1+0); In vivo(1+0); In vitro(1+0); Model(1+0);
【简述】
【研究论文】Nature(1); Cell(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
007227Prof.
NYU015028New York, NY, USAAthena Vouloumanos

NYU
【研究方向】Speech(12+0); Development(8+0); Cognition(5+1); Language(4+0); Learning(3+0); Autism(2+0); Structure(1+0); Environment(1+0); Disorder(1+0); Developmental Disorder(1+0); Schizophrenia(1+0); Cognitive neuroscience(1+0); Perception(1+0); Vision(1+0); Auditory(1+0); Intention(1+0); Syntax(1+0);
【模式生物】Human(1+0);
【方法技术】Behavior(1+0); Psychophysics(1+0); fMRI(1+0);
【简述】Infant cognition and communication
【研究论文】Science(5); Nature Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Janet F. WerkerAlia Martin, Ramanjot Kang, Elena Luchkina, Amanda PogueJennifer Marie Davie YoonYears: 2012 — 2016; Recipients: Vouloumanos, Athena; Code: R01; Title/Keywords: Divergent Biases For Conspecifics as Early Markers For Autism Spectum Disorders@ New York University; Matching Score: 1002632Assoc Prof.
Stanford002003Palo Alto, CA, USATheodore Leng

Stanford
【研究方向】Retina(17+2); Imaging(15+3); Vision(9+1); Optical(7+1); Degeneration(3+2); Therapy(3+1); Learning(3+1); Membrane(3+0); Age-related(3+0); Face(3+0); Synapse(2+0); Neurotransmitter(1+0); Transplantation(1+0); Disease(0+1); Pathogenesis(1+0); Spectral(1+0);
【模式生物】Stem Cell(1+2); Human(1+0);
【方法技术】Model(2+0); Simulation(1+0);
【简述】
【研究论文】Science(2);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001787Assist Prof.
Stanford002003Palo Alto, CA, USALorrin Koran

Stanford
【研究方向】Disorder(13+1); Psychiatry(10+0); Impulse Control Disorder(2+1); Depression(2+0); Schizophrenia(2+0); 5-HT(1+0); CNS(1+0); Anxiety(1+0); Body(1+0);
【模式生物】
【方法技术】
【简述】
【研究论文】
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USALarry F. Hoffman

UCLA
【研究方向】Vestibular(0+7); Receptor(0+3); CNS(0+3); Regeneration(0+2); Disorder(0+1); Sense(0+1);
【模式生物】
【方法技术】Anatomy(0+1); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAHolly Moore

Columbia
【研究方向】Schizophrenia(5+2); Cognition(3+3); Development(0+3); Dopamine(1+1); Disorder(1+1); Psychiatry(2+0); Hippocampus(1+1); Basal ganglia(1+1); Glutamate(1+0); D2 receptor(1+0); Environment(0+1); Disease(0+1); Neurology(1+0); Dysfunction(1+0); Psychiatric disorder(0+1); Cognitive neuroscience(1+0); Interneuron(1+0); Motivation(0+1); Stress(0+1); Imaging(1+0); CA1(1+0); Amygdala(1+0); Basal forebrain(0+1);
【模式生物】Rat(2+0); Mouse(2+0); Rodent(1+1);
【方法技术】Behavior(0+5); Model(4+1); Anatomy(1+0);
【简述】Models of Psychiatric Disorders; Neurobiology of Disease; Preclinical Models of Psychotic and Mood Disorders; Rodent Behavioral Assessment and Psychopharmacology; Neurophysiology and Neurochemistry of Cortico-Basal Ganglia and Dopamine Circuits;
【研究论文】Neuron(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Martin Sarter, Anthony Albert GraceKelley E. Remole, Ahmed I. GilaniYears: 2013 — 2016; Recipients: Moore, Holly; Code: N/A; Title/Keywords: Collaborative Research: Training Teachers For the "Flipped" Hybrid Classroom@ Salt Lake Community College; Matching Score: 0.915Assoc Prof.
Stanford002003Palo Alto, CA, USAVittorio Sebastiano

Stanford
【研究方向】Development(8+2); Pluripotent stem cells(8+2); Reprogramming(4+0); Embryo(2+1); Self-renewal(2+0); Differentiation(1+1); Reproduction(2+0); CRISPR/Cas9(1+0); Knockout(1+0); Transporter(1+0); Membrane(1+0); Plasticity(0+1); Transcription(1+0); Cell line(1+0); Disease(1+0); Therapy(1+0); Infection(1+0); Finger(1+0); Muscle(1+0); Acquisition(0+1); Timing(1+0); Cardiovascular(1+0);
【模式生物】Stem Cell(39+6); Human(18+1); Mouse(4+0);
【方法技术】Gene(3+0); In vitro(2+0); Model(2+0); Virus(1+0); Cell culture(1+0);
【简述】
【研究论文】Nature(3); Science(3); Nature Communications(2); Nature Methods(1); Nature structural & molecular biology(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
005706Assist Prof.
UCSF003015San Francisco, CA, USAEvan Feinberg

UCSF
【研究方向】Sense(0+4); Structure(0+1); Motor Neuron(0+1); Context(0+1); Imaging(0+1);
【模式生物】Mouse(0+1);
【方法技术】Behavior(0+2); Computation(0+1);
【简述】Cortical-subcortical networks for sensory processing and behavior
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAChris Chafe

Stanford
【研究方向】Music(10+0); Perception(1+0); Speech(1+0); Neural dynamics(1+0); Signal processing(1+0); Machine(1+0);
【模式生物】
【方法技术】Model(2+0);
【简述】
【研究论文】Neuron(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Robert J. Fleck, Maura S. O'Modhrain, Ching-Wen Chao, Lonny L. Chu, Leigh VanHandel, Parag Chordia, Patricio de la Cuadra, Rodrigo Segnini Sequera, Scott A. Van DuyneProf.
UCLA011013Los Angeles, CA, USAAkihiro Nishi

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIMH??Bethesda, MD, USADavid A. Leopold

NIH-NIMH
【研究方向】Vision(11+11); Visual cortex(8+2); Perception(2+6); Imaging(4+4); Face(4+1); Social(0+4); Development(1+2); Cognition(2+1); Sense(1+1); Retina(0+2); Encoding(2+0); Connection(2+0); V1(2+0); White matter(2+0); Plasticity(0+1); Rhythm(1+0); Disease(1+0); Psychiatric disorder(0+1); Neural Circuit(0+1); Adaptation(1+0); Object(1+0); Face perception(1+0); Visual learning(0+1); Spatial attention(1+0); Auditory(1+0); Learning(0+1); Long-term memory(1+0); Attention(1+0); Knowledge(0+1); Sleep(1+0); Entrainment(1+0); Dynamics(1+0); Diffusion MRI(1+0); Optical(0+1); Basal forebrain(1+0); Thalamus(0+1);
【模式生物】Monkey(8+0); Macaque(5+0); Human(4+0); Marmoset(3+0); Primate(2+0); Non-human primate(1+0);
【方法技术】fMRI(8+3); MRI(5+1); Behavior(1+2); Anatomy(2+0); LFP(1+0); Pharmacology(0+1);
【简述】
【研究论文】Neuron(4); Nature Communications(2); Curr Biol.(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Nikos K. LogothetisGeoffrey K. Adams, Adam  P. Jones, Kai-Markus Mueller, Aidan P. Murphy, David B T McMahon, Alexander Maier, Brian E. Russ, Chia-Chun (Alden) Hung, Kenji W. Koyano, Aidan P. Murphy, Daniel Zaldivar, Melanie Wilke, Michael C. SchmidMakoto Fukushima, Cecil Chern-Chyi YenYears: 2013 — 2018; Recipients: Leopold, David A; Code: ZIA; Title/Keywords: Social Processing and Neural Plasticity@ National Institute of Mental Health; Matching Score: 1012142
NIH-NINDS??Bethesda, MD, USAKenneth H. Fischbeck

NIH-NINDS
【研究方向】Disease(6+8); Muscle(3+0); Receptor(2+0); Disorder(0+2); Motor Neuron(1+1); Imaging(2+0); Transcription(1+0); Neurology(1+0); Degeneration(1+0); Pathology(1+0); Biomarker(1+0); Huntington's disease(0+1); Neuromuscular(1+0); Sense(1+0); Exercise(1+0); Respiratory(1+0);
【模式生物】Mouse(1+0); Rodent(1+0);
【方法技术】Gene(1+1); MRI(2+0); Virus(1+0); Cell culture(0+1); Model(0+1);
【简述】Neurogenetics Branch
【研究论文】Cell(1); Neuron(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
U. J. McMahan, Donald L. SchotlandTrangKimberly Thu Nguyen, Al La Spada, Alexander R. McCampbell, Andrew P. Lieberman, Barrington G. Burnett, Henry Paulson, J. Paul TaylorYears: 2007 — 2018; Recipients: Fischbeck, Kenneth; Code: Z01ZIA; Title/Keywords: Studies of Hereditary Neurological Disease: Disease Mechanisms@ Neurological Disorders and Stroke; Matching Score: 0.915
UCLA011013Los Angeles, CA, USAAdriana Galván

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USALaurie Santos

Yale
【研究方向】Cognition(0+3); Development(0+1); Psychiatry(0+1); Language(0+1); Knowledge(0+1); Methodology(0+1); Evolutionary(0+1);
【模式生物】Non-human primate(0+5); Human(0+4); Primate(0+4);
【方法技术】
【简述】Primates; Psychiatry and Psychology.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAHakwan Lau

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAHeng Zhao

Stanford
【研究方向】Stroke(13+6); Ischemia(8+0); Imaging(7+0); Injury(2+1); Brain injury(3+0); Muscle(3+0); Therapy(2+0); Neuroprotection(1+1); Frequency(2+0); Blood flow(1+1); Translation(1+0); Development(0+1); Disease(1+0); Aging(1+0); Biomarker(1+0); Hypoxia(1+0); Pediatric(1+0); Color(1+0); Concept(1+0); Metabolism(1+0); Stress(1+0); Engineering(1+0);
【模式生物】Rat(11+0); Mouse(1+0);
【方法技术】In vivo(3+0); Model(2+0); Gene(1+0); Protein(1+0); In vitro(1+0); Ultrasonic(1+0); Pharmacology(1+0); Theory(1+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Robert M. SapolskyYears: 2010 — 2019; Recipients: Zhao, Heng; Code: R01R56Activity Code Description:To provide limited interim research support based on the merit of a pending R01 application while applicant gathers additional data to revise a new or competing renewal application. This grant will underwrite highly meritorious applications that if given the opportunity to revise their application could meet IC recommended standards and would be missed opportunities if not funded. Interim funded ends when the applicant succeeds in obtaining an R01 or other competing award built on the R56 grant. These awards are not renewable.; Title/Keywords: Protective Mechanisms of Ischemic Postconditioning@ Stanford University; Matching Score: 0.939001438Prof.
Yale014011New Haven, CT, USAGordon Shepherd

Yale
【研究方向】Dendrite(0+5); Microcircuit(0+3); Spine(0+2); Olfaction(0+2); Membrane(0+1); Branching(0+1); Synapse(0+1); Sense(0+1);
【模式生物】
【方法技术】Neuroinformatics(0+2); Computation(0+1); Model(0+1);
【简述】Anatomy; Dendrites; Information Science; Interneurons; Nervous System; Neurons; Synapses; Pyramidal Cells; Dendritic Spines; Organisms; Phenomena and Processes.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USAAlex Kolodkin

JHU
【研究方向】Receptor(0+2); Neural Circuit(0+2); Morphology(0+2); Regulation(0+1); Axon(0+1); Dendrite(0+1); Synapse formation(0+1); Retina(0+1);
【模式生物】Mouse(0+3);
【方法技术】Gene(0+1); Model(0+1);
【简述】Developmental Neuroscience; Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAD.P. Mohapatra

WUSTL
【研究方向】Pain(2+6); Neuropathic pain(2+2); Peptide(3+0); Inflammatory pain(1+2); Receptor(2+0); Modulation(1+0); Potassium channel(1+0); Trafficking(1+0); Dendrite(1+0); Sense(0+1); Migraine(1+0); Gait(1+0); Dynamics(1+0);
【模式生物】Human(0+4); Mouse(2+0); Rodent(0+1);
【方法技术】Channel(3+0); Model(1+1); Behavior(1+0); Pharmacology(1+0);
【简述】Basic and Translational Pain Biology (Cancer Pain, Neuropathic Pain and Inflammatory Pain)
【研究论文】Neuron(1); JNS(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
UW021010Seattle, WA, USAWyeth Bair

UW
【研究方向】Neural Circuit(0+4); Vision(0+4); V1(0+4); V4(0+3); Development(0+2); Perception(0+2); Microcircuit(0+1); Systems Neuroscience(0+1); Form(0+1); Color(0+1); Brain-Machine Interface(0+1); Spiking Neural Network(0+1); Neural network(0+1); Imaging(0+1); Optical(0+1); Visual cortex(0+1); V5/MT(0+1);
【模式生物】Primate(0+2); Human(0+1);
【方法技术】Model(0+6); Computation(0+5); In vivo(0+2); Theory(0+1);
【简述】Computational Neuroscience; Neural Circuits
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAFrederick T Chin

Stanford
【研究方向】Imaging(7+3); Pathology(2+0); Therapy(1+1); Hypoxia(2+0); Tumor(2+0); Pain(2+0); Blood flow(2+0); Dopamine(1+0); Receptor(1+0); Translation(1+0); Development(0+1); Disease(1+0); Psychiatry(1+0); Autism(1+0); Fragile X(1+0); Neuroinflammation(1+0); Stroke(1+0); Sclerosis(1+0); Depression(1+0); Metabolism(1+0); Methodology(0+1);
【模式生物】Human(1+2); Stem Cell(2+0); Primate(0+1); Mouse(1+0);
【方法技术】MRI(2+0); PET(1+1); Gene(0+1); In vivo(1+0); fMRI(1+0); Microscopy(1+0); Model(1+0);
【简述】
【研究论文】Nature(1); Science(1); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
UCSD011017San Diego, CA, USAStephan Anagnostaras

UCSD
【研究方向】Memory(0+5); Cognition(0+3); Fear(0+3); Anxiety(0+2); Addiction(0+1); Memory Consolidation(0+1); Intelligence(0+1);
【模式生物】Mouse(0+1);
【方法技术】Behavior(0+3); Gene(0+1);
【简述】 Systems; Cognitive, Behavioral & Psychopharmacology
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAJohn Loh

NYU
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
WUSTL009032Saint Louis, MO, USARobyn S. Klein

WUSTL
【研究方向】CNS(4+8); Receptor(2+2); Disease(1+3); Differentiation(2+1); Infection(2+1); Regulation(1+1); Astrocyte(2+0); Trafficking(2+0); Cytokine(1+0); Development(0+1); Proliferation(1+0); Dendrite(1+0); Pathogenesis(0+1); Demyelinating(0+1); Memory(1+0);
【模式生物】Stem Cell(0+2); Mouse(0+1);
【方法技术】Virus(6+1); In vivo(1+1); In vitro(0+1); Model(0+1);
【简述】Cellular and molecular studies of viral and autoimmune encephalitides
【研究论文】Nature(1); Cell(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jose Gabriel Grajales-ReyesAnne Haney CrossYears: 2018; Recipients: Klein, Robyn S; Code: R01; Title/Keywords: Neuropathogenesis of Zika Virus Infections@ Washington University; Matching Score: 1Prof.
NIH-NIMH??Bethesda, MD, USAArgyris Stringaris

NIH-NIMH
【研究方向】Psychiatry(32+0); Disorder(10+0); Depression(7+1); Reward(4+1); Emotion(3+1); ADHD(3+0); Attention(3+0); Neuroimaging(2+1); Development(1+1); Anxiety(2+0); Cognition(1+1); Modulation(1+0); Structure(1+0); CNS(1+0); Disease(1+0); Therapy(0+1); Neurotoxicity(1+0); Injury(1+0); Pediatric(1+0); Bipolar(1+0); Decision making(0+1); Language(1+0); Knowledge(0+1); Encoding(1+0); Cingulate cortex(1+0); ACC(1+0); White matter(1+0);
【模式生物】
【方法技术】Behavior(2+1); Gene(1+0); Protein(1+0); In vivo(1+0); EEG(1+0); fMRI(1+0);
【简述】Mood Brain & Development Unit (MBDU)
【研究论文】Science(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
006052
NIH-NICHD??Bethesda, MD, USAHarold A. Burgess

NIH-NICHD
【研究方向】Development(4+2); Transgenic(3+1); Neural Circuit(3+0); Photoreceptor(3+0); Modulation(1+1); Embryo(1+1); Sense(2+0); Auditory(1+1); Motor(1+1); Navigation(1+1); Raphe(2+0); Mutant(1+0); Structure(1+0); Schizophrenia(0+1); Retina(0+1); Adaptation(1+0); Form(0+1); Spatial orientation(1+0); Circadian(1+0); Metabolism(1+0); Decoding(0+1); Imaging(1+0); Optical(0+1); Pineal gland(1+0);
【模式生物】Zebrafish(26+3); Human(1+0);
【方法技术】Behavior(7+6); Gene(3+3); Model(3+0); Protein(2+0); Anatomy(1+1); Biochemistry(1+0); Computation(0+1);
【简述】
【研究论文】Cell(1); JNS(1); Curr Biol.(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Orly Reiner, Michael GranatoEric Horstick, Sadie A. BergeronYears: 2009 — 2018; Recipients: Burgess, Harold; Code: ZIA; Title/Keywords: Neuronal Circuits Controlling Behavior: Genetic Analysis in Zebrafish@ Child Health and Human Development; Matching Score: 0.915001815
WUSTL009032Saint Louis, MO, USAShiNung Ching

WUSTL
【研究方向】Engineering(2+2); Consciousness(3+0); Rhythm(2+0); Anesthesia(2+0); APP(2+0); Dynamics(1+1); Seizure(1+0); Disease(1+0); Neural Circuit(1+0); Systems Neuroscience(1+0); Metabolism(1+0); Optical imaging(1+0); Machine(1+0);
【模式生物】Rat(1+0); Rodent(1+0);
【方法技术】Model(7+0); EEG(4+0); Theory(1+2); Optogenetics(1+0); Computation(1+0);
【简述】The interface between systems and control engineering, neuroscience and neural medicine
【研究论文】JNS(2);
【综述】Current Opinion In Neurobiology(2); Physical Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001552Assist Prof.
UCSD011017San Diego, CA, USAMichael W. Kalichman

UCSD
【研究方向】Cognition(0+1); Engineering(0+1);
【模式生物】
【方法技术】Behavior(0+1);
【简述】 Cognitive, Behavioral & Psychopharmacology
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAJoshua Landy

Stanford
【研究方向】Art(3+0); Knowledge(3+0); Cognition(2+0); Adaptation(2+0);
【模式生物】Human(1+0);
【方法技术】
【简述】
【研究论文】
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Alexander NehamasHerve G. Picherit, Melanie R. Conroy000655Prof.
CAS-ION??Shanghai, ChinaZheng Wang

CAS-ION
【研究方向】Disorder(1+8); Imaging(4+5); Disease(0+6); Epilepsy(4+0); Neurology(3+0); Metabolism(3+0); Blood flow(3+0); Diffusion MRI(0+3); Therapy(0+2); Schizophrenia(2+0); Contrast(2+0); Somatosensory(2+0); Reward(0+2); Neural network(0+2); Axon(0+1); Pathogenesis(0+1); Psychiatric disorder(0+1); Anxiety(0+1); Post-traumatic stress disorder(0+1); Neural Circuit(0+1); Sense(0+1); Vision(1+0); Frequency(0+1); Planning(0+1); Attention(0+1); Consciousness(1+0); Concept(0+1); Dynamics(1+0); Machine learning(0+1); Resting state(1+0); Neuroimaging(0+1); Optical(1+0); Visual cortex(1+0); V1(1+0); Temporal lobe(1+0); White matter(0+1);
【模式生物】Primate(1+5); Monkey(2+3); Human(0+4); Non-human primate(0+1);
【方法技术】MRI(4+11); fMRI(3+4); Model(2+3); Gene(1+3); In vivo(1+1); LFP(2+0); Theory(2+0); Anatomy(1+0); Electrophysiology(0+1); Computation(0+1); Simulation(0+1);
【简述】Brain Imaging
【研究论文】Neuron(1); JNS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ravi S. Menon, Anna W. RoeWeilong Yi, Wang Zhiwei000564Investigator
NIH-NIA??Bethesda, MD, USASusan M. Resnick

NIH-NIA
【研究方向】Aging(6+2); Cognition(4+3); Imaging(3+1); Memory(1+2); Alzheimer's disease(2+0); ApoE(2+0); Gait(2+0); Blood flow(2+0); Modulation(0+1); Development(1+0); Disease(0+1); Neurodegenerative disease(1+0); Pathology(1+0); Therapy(0+1); Psychiatry(1+0); Age-related(1+0); Parkinson's disease(1+0); Vestibular(1+0); Posture(1+0); Context(1+0); Executive function(1+0); Sleep(1+0); Hormone(0+1); Diffusion MRI(1+0); Neuroimaging(0+1); White matter(1+0);
【模式生物】Human(1+0);
【方法技术】Gene(3+0); PET(2+0); MRI(1+0); Behavior(0+1);
【简述】Laboratory of Behavioral Neuroscience
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAKalanit Grill-Spector

Stanford
【研究方向】Vision(12+2); Development(9+1); Visual cortex(8+0); Face(7+0); Face perception(4+0); Imaging(1+2); Object(2+0); Categorization(2+0); Neural network(2+0); Occipital lobe(2+0); Proliferation(1+0); Autism(1+0); Cognition(1+0); Perception(0+1); Object perception(1+0); Object recognition(1+0); Memory(1+0); Learning(1+0); Temporal processing(1+0); Attention(1+0); Category(1+0); Encoding(1+0); Dynamics(1+0); Inferior temporal gyrus(1+0); Fusiform gyrus(1+0); White matter(1+0);
【模式生物】Human(21+2);
【方法技术】fMRI(2+0); Model(2+0); Anatomy(1+0); Behavior(0+1); Electrical stimulation(1+0); Computation(0+1); Mathematics(1+0);
【简述】
【研究论文】Nature(1); Science(1); Neuron(1); JNS(1); Nature Communications(2); PNAS(1); Curr Biol.(1); Cerebral Cortex(3);
【综述】Review(2); Nature Reviews Neuroscience(1); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Rafael Malach, Nancy KanwisherAlina Liberman, Joakim Vinberg, Kevin S. Weiner, Janelle Weaver, Rory Sayres, Hyejean Suh, Jennifer Marie Davie Yoon, David A. Remus, Moqian Tian, Jesse Gomez, David Andresen, Golijeh Golarai, Mareike Grotheer, Sven P. Heinrich, Nathan Witthoft, Nicolas Davidenko, Vaidehi S. Natu, Rubi Hammer, Sonia PoltoratskiYears: 2014 — 2018; Recipients: Grill-Spector, Kalanit; Code: R01; Title/Keywords: Functional-Neuroanatomy of High-Level Visual Cortex: a Quantitative Multimodal Ap@ Stanford University; Matching Score: 1013991Prof.
JHU010012Baltimore, MD, USAStewart Hendry

JHU
【研究方向】Vision(0+5); Retina(0+2); Plasticity(0+1); Neural Circuit(0+1); Cognition(0+1); Optical imaging(0+1);
【模式生物】Primate(0+2); Human(0+1);
【方法技术】Anatomy(0+1); Electrophysiology(0+1); Computation(0+1);
【简述】Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIDA??Bethesda, MD, USAYeka Aponte

NIH-NIDA
【研究方向】Disorder(0+2); Addiction(0+2); Food Intake(0+2); Imaging(2+0); Drugs of Abuse(0+1); Context(0+1); Connection(0+1); Hypothalamus(1+0);
【模式生物】Mouse(1+2);
【方法技术】Behavior(0+3); In vivo(2+0); Electrophysiology(1+1); Optogenetics(0+1); Model(0+1);
【简述】Neuronal Circuits and Behavior Unit
【研究论文】Science(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Peter Jonas, Scott M. SternsonDiana C. Burk, Julia Slocomb, Justin N. Siemian, Alexandre Kisner, Sarah Sarsfield
CAS-ION??Shanghai, ChinaWei Wang

CAS-ION
【研究方向】Vision(6+26); V1(5+3); Form(0+4); V4(3+1); Perception(0+3); Contour(1+2); V2(2+1); MST(1+2); Object(0+2); Frequency(0+2); Optical imaging(1+1); Visual cortex(1+1); Disease(0+1); Cognition(0+1); Sense(0+1); Adaptation(1+0); Contrast(1+0); Color(1+0); Knowledge(0+1); Encoding(0+1); Bayesian(0+1); Predictive coding(0+1); Imaging(1+0); Thalamus(1+0);
【模式生物】Macaque(3+3); Primate(2+3); Human(1+0);
【方法技术】In vivo(0+2); Optogenetics(0+2); Theory(0+1);
【简述】Visual Perceptual Mechanisms
【研究论文】Nature Neuroscience(1); Neuron(1); PNAS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Tiande Shou, Adam Sillito001229Senior Investigator
Stanford002003Palo Alto, CA, USACarolyn Rodriguez

Stanford
【研究方向】Disorder(23+0); Psychiatry(20+0); Receptor(3+0); NMDA receptor(3+0); Concept(3+0); 5-HT(2+0); Neurotransmitter(1+0); Glutamate(1+0); Amino acid(1+0); GABA(1+0); Oscillation(1+0); CNS(1+0); Disease(1+0); Therapy(1+0); Schizophrenia(1+0); Vision(1+0); Extinction(1+0); Timing(1+0); Neuroimaging(1+0); S2(1+0); LIP(1+0);
【模式生物】Human(1+0); Mouse(1+0);
【方法技术】In vivo(3+0); Gene(1+0);
【简述】
【研究论文】Nature(2); Science(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002251Assoc Prof.
WUSTL009032Saint Louis, MO, USASteven E. Petersen

WUSTL
【研究方向】Development(1+1); Attention(0+2); Cognition(0+1); Vision(0+1); Learning and memory(0+1); Executive control(0+1); Language(0+1); Neuroimaging(0+1);
【模式生物】Human(2+0);
【方法技术】fMRI(1+3); MRI(1+0); Behavior(0+1);
【简述】Behavioral and fMRI studies of attention and cognitive development
【研究论文】JNS(1); PNAS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John M. Allman, David L. RobinsonRandy L. Buckner, Julie A. Fiez, Timothy O. Laumann, Haoxin Sun, Alecia C. Vogel, Jeff G. Ojemann, Hanneke van Mier, William M. Kelley, Erica D. Palmer, Kristina M. Visscher, Hyunseon Christine Kang, Timothy T. Brown, Nico UF Dosenbach, Kristin K. Wenger, Steven M. Nelson, Alexander Li Cohen, Joseph W. Dubis, Jonathan D. Power, Evan M. Gordon, Maital Neta, Howard Rosen, Bradley L. Schlaggar, Gagan S. Wig, Caterina Gratton, Maurizio Corbetta, Adina Roskies, E Darcy Burgund, Mark E. WheelerMark E. Wheeler, Michael S. GaffreyYears: 2015 — 2018; Recipients: Petersen, Steven E.; Code: U54; Title/Keywords: Core D - Developmental Neuroimaging Core@ Washington University; Matching Score: 1Prof.
UCSD011017San Diego, CA, USAAxel Nimmerjahn

UCSD
【研究方向】Glial cell(0+3); Imaging(0+3); Neural Circuit(0+2); Development(0+1); Disease(0+1); Adaptation(0+1); Form(0+1); Dynamics(0+1);
【模式生物】Human(0+2);
【方法技术】Gene(0+1); Biochemistry(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USAChenghua Gu

Harvard
【研究方向】Development(12+1); Receptor(3+1); Vascular network(3+1); Modulation(2+0); GABA(2+0); Structure(1+1); Membrane(2+0); Dopamine neuron(2+0); Body(0+2); Blood brain barrier(0+2); Imaging(0+2); Regulation(0+1); Neurotrophin(1+0); Synaptic Transmission(0+1); Plasticity(0+1); Glial cell(1+0); Glia(0+1); Differentiation(1+0); Environment(0+1); Axon guidance(1+0); Synaptogenesis(1+0); Synapse(1+0); Disease(1+0); Disorder(0+1); Tumor(1+0); Motor(1+0); Cardiovascular(1+0); Cerebrovascular(1+0); Vessel(1+0); Dynamics(0+1);
【模式生物】Human(0+1); Mouse(0+1); Bird(1+0);
【方法技术】Microscopy(3+0); Anatomy(0+2); Gene(0+1); Biochemistry(0+1); Cell culture(0+1); Behavior(1+0);
【简述】Mechanisms of neuro-vascular interactions in the central nervous system
【研究论文】Cell(1); JNS(1); Cerebral Cortex(1);
【综述】Trends In Neurosciences(2); Annual Review Of Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David D. GintyBrian W Chow, Masha V. Gelfand, Baptiste LacosteYears: 2014 — 2018; Recipients: Gu, Chenghua; Code: DP1; Title/Keywords: New Tools For Understanding the Blood Brain Barrier@ Harvard Medical School; Matching Score: 1004272Assoc Prof.
Stanford002003Palo Alto, CA, USAOussama Khatib

Stanford
【研究方向】Robot(17+0); Environment(3+0); Social(2+0); Neuroimaging(2+0); Depth(1+0); Object(1+0); Motor(1+0); Planning(1+0); Kinematics(1+0); Learning(1+0); Navigation(1+0); Dynamics(1+0); Artificial intelligence(1+0); Engineering(1+0); Methodology(1+0); Machine(1+0);
【模式生物】Human(4+0);
【方法技术】fMRI(3+0); Behavior(2+0); Theory(2+0); Computation(1+0); Model(1+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ramin Zabih, Oliver Brock, Kyong-Sok Chang, Robert A. Holmberg, Diego C. Ruspini, Jaeheung Park, Luis Sentis, Vincent De SapioYears: 2014 — 2017; Recipients: Khatib, Oussama; Code: N/A; Title/Keywords: Nri: Collaborative Research: Human-Centered Modeling and Control of Cooperative Manipulation With Bimanual Robots@ Stanford University; Matching Score: 1032549Prof.
NIH-NINDS??Bethesda, MD, USAAmi K. Mankodi

NIH-NINDS
【研究方向】Muscle(6+7); Disease(4+7); Imaging(3+2); Degeneration(0+2); Sodium channel(1+0); Structure(0+1); Disorder(0+1); Neurology(1+0); Biomarker(1+0); Exercise(1+0); Respiratory(1+0);
【模式生物】Mouse(1+3);
【方法技术】MRI(3+0); Model(1+1); Gene(1+0); Protein(1+0); Biochemistry(1+0); Microscopy(0+1);
【简述】Hereditary Muscle Diseases
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Princeton061009Princeton, NJ, USAAlan Gelperin

Princeton
【研究方向】Memory(0+28); Learning(0+24); Olfaction(7+12); Neurogenesis(0+18); Dynamics(0+8); Connection(0+6); Receptor(2+2); Long-term memory(0+4); Imaging(0+4); Olfactory bulb(3+0); Membrane(0+2); Vesicle(0+2); Oscillation(0+2); Neural Circuit(0+2); Sense(0+2); Perception(2+0); Form(0+2); Motor(0+2); Associative learning(0+2); Aversive(0+2); Glutamate(1+0); 5-HT(1+0); Muscarinic(1+0); Synapse(1+0); Optical(1+0);
【模式生物】Mouse(2+2); Human(1+2); Zebrafish(0+2); Rat(1+0);
【方法技术】In vitro(0+14); Gene(0+8); Protein(0+6); Computation(1+2); LFP(0+2); Microscopy(0+2); Model(0+2);
【简述】Systems and Circuits
【研究论文】Cell(1); Neural Computation(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Vincent G. DethierSanford M. Simon, Monte Westerfield, Michael S. King, Barbara S. Beltz, Kerry R. Delaney, Christie Sahley, Terrence J. Sejnowski, Jing W. Wang, Dmitry Rinberg, David W. TankYears: 2002 — 2005; Recipients: Gelperin, AlanTeeter, JohnRawson, Nancy [⬀] ; Code: N/A; Title/Keywords: Acquisition of a Confocal Microscope For Research in the Chemical Senses@ Monell Chemical Senses Center; Matching Score: 1Other
Stanford002003Palo Alto, CA, USAChristopher Lee-Messer

Stanford
【研究方向】Epilepsy(2+2); Development(3+1); Stroke(3+1); Transplantation(3+0); Disorder(2+0); Cognition(2+0); Cognitive neuroscience(2+0); Metabolism(2+0); Machine learning(2+0); Neural network(2+0); Disease(0+1); Pediatric(0+1); Knowledge(0+1); Signal processing(1+0);
【模式生物】Human(2+0); Macaque(1+0); Stem Cell(1+0);
【方法技术】Model(5+0); EEG(4+0); Optogenetics(3+1); Computation(2+0); In vivo(0+1); In vitro(0+1); Electrophysiology(0+1);
【简述】
【研究论文】Nature(1); Cell(2); Cerebral Cortex(2); Neural Computation(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Rachel Wong001184Assist Prof.
Yale014011New Haven, CT, USASlav Bagriantsev

Yale
【研究方向】Sense(0+4); Receptor(0+2); Ion Channel(0+2); Touch(0+2); Potassium channel(0+1); Sodium channel(0+1);
【模式生物】
【方法技术】Electrophysiology(0+3); Biochemistry(0+2); Biophysics(0+2);
【简述】Biochemistry; Biophysics; Ducks; Electrophysiology; Ion Channels; Mechanoreceptors; Neurosciences; Pacinian Corpuscles; Sensory Receptor Cells; Trigeminal Ganglion; Thermoreceptors; Potassium Channels; Anseriformes; Transient Receptor Potential Channels; Voltage-Gated Sodium Channels.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSF003015San Francisco, CA, USANoelle L'Etoile

UCSF
【研究方向】Plasticity(0+2); Sense(0+2); Olfaction(0+2); Dynamics(0+2); Regulation(0+1); Development(0+1); Vision(0+1); Metabolism(0+1); Stress(0+1); Imaging(0+1); Optical(0+1);
【模式生物】C. elegans(0+2);
【方法技术】
【简述】Understand how molecules, cells, circuits and the physiology of an intact organism work together to produce learned behaviors
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USANadine Gaab

Harvard
【研究方向】Development(14+7); Dyslexia(13+1); Language(3+3); Plasticity(3+1); Cognition(2+2); White matter(4+0); Cognitive neuroscience(1+2); Auditory(2+1); Auditory processing(3+0); Memory(3+0); Executive function(3+0); Environment(1+1); Pediatric(1+1); Vision(2+0); Form(2+0); Learning(1+1); Neuroimaging(1+1); Structure(1+0); Neurology(1+0); ADHD(1+0); Perception(1+0); Face(1+0); Motor(1+0); Temporal processing(1+0); Speech(1+0); Emotion(1+0); Sleep(1+0); Neural network(1+0); Auditory cortex(1+0);
【模式生物】Human(4+1);
【方法技术】fMRI(5+1); Behavior(5+0); Gene(0+1); Anatomy(1+0); MRI(0+1); Theory(1+0);
【简述】Developmental cognitive neuroscience and pediatric neuroimaging with a special focus on language-based learning disabilities
【研究论文】Nature Neuroscience(1);
【综述】Trends In Neurosciences(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gottfried Schlaug, Paula Tallal, John D.E. GabrieliElizabeth S. Norton, Christopher BenjaminYears: 2016 — 2018; Recipients: Gaab, NadineGrant, Patricia Ellen; Code: R01; Title/Keywords: Examining Neural Mechanisms of Developmental Dyslexia From Infancy to School-Age@ Children's Hospital Corporation; Matching Score: 0.901004934Assoc Prof.
JHU010012Baltimore, MD, USAAlban Latremoliere

JHU
【研究方向】Pain(0+17); Sleep(0+9); Neuropathic pain(0+4); Transgenic(0+1); Plasticity(0+1); Disease(0+1); Injury(0+1); Trauma(0+1); Neural Circuit(0+1); Analgesics(0+1);
【模式生物】Mouse(0+3); Human(0+1);
【方法技术】Gene(0+3); Behavior(0+3); Pharmacology(0+2); Anatomy(0+1); EEG(0+1); Optogenetics(0+1); Model(0+1);
【简述】Cellular + Molecular Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAPatricia E. Phelps

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAPhilippe Mourrain

Stanford
【研究方向】Regulation(5+0); Synaptic Plasticity(5+0); Synapse(4+0); Neural Circuit(4+0); Sleep(4+0); Receptor(3+0); Development(2+0); Regeneration(2+0); Disease(2+0); Learning(2+0); Circadian(2+0); Homeostatic(2+0); Structure(1+0); Neurogenesis(1+0); Reprogramming(1+0); Embryo(1+0); Axon(1+0); Dendrite(1+0); Neurology(1+0); Fragile X(1+0); Infection(1+0); Sense(1+0); Nociception(1+0); Hormone(1+0); Imaging(1+0); Hypothalamus(1+0); Raphe(1+0); Evolutionary(1+0);
【模式生物】Zebrafish(11+0); Human(1+0); Mouse(1+0); Stem Cell(1+0);
【方法技术】Gene(5+0); Virus(2+0); Protein(1+0); Behavior(1+0);
【简述】
【研究论文】Cell(4); Neuron(1); Curr Biol.(2); PLoS Biol.(1);
【综述】Progress In Neurobiology(2); Trends In Neurosciences(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Louis Leung, Jin Liang, Romain Madelaine, Brian P. GroneYears: 2018 — 2019; Recipients: Mourrain, Philippe; Code: R01; Title/Keywords: Impact of Sleep-Wake Circuits On Cortical Synapse Plasticity During Motor Learning@ Stanford University; Matching Score: 1005359Assoc Prof.
Yale014011New Haven, CT, USABJ Casey

Yale
【研究方向】
【模式生物】
【方法技术】
【简述】.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAJack Rosenbluth

NYU
【研究方向】Disease(0+4); Glial cell(0+2); Neurology(2+0); Trauma(0+2); Sense(0+2); Motor(0+2); Transgenic(0+1); Ion Channel(0+1); Proliferation(0+1); Cell line(0+1); Differentiation(0+1); Axon(0+1); Injury(0+1); Sclerosis(0+1); Schizophrenia(1+0);
【模式生物】Mouse(3+0);
【方法技术】Behavior(0+2); Model(1+1); Gene(0+1); Protein(1+0); Channel(0+1); In vivo(0+1);
【简述】Neuroglial interactions
【研究论文】Cell(1); JNS(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Amanda J. Mierzwa, Florence ChaverneffYears: 2003 — 2013; Recipients: Rosenbluth, Jack; Code: R01; Title/Keywords: Pathology of Dysmyelination and Demyelination@ New York University School of Medicine; Matching Score: 1Emeritus
UCLA011013Los Angeles, CA, USAAlvaro Sagasti

UCLA
【研究方向】Development(0+1); Sense(0+1); Imaging(0+1);
【模式生物】Zebrafish(0+2); C. elegans(0+1);
【方法技术】Gene(0+1); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAAngeliki Louvi

Yale
【研究方向】Development(0+2); Disease(0+2); Microcephaly(0+2); Disorder(0+1); Pathogenesis(0+1); Developmental Disorder(0+1); Cerebrovascular(0+1);
【模式生物】
【方法技术】Gene(0+1);
【简述】Brain; Microcephaly; Morphogenesis; Nervous System Diseases; Neurosurgery; Hemangioma, Cavernous, Central Nervous System; CADASIL; Diseases.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAShirit Einav

Stanford
【研究方向】Infection(1+2); Membrane(1+1); Trafficking(1+1); Disease(2+0); Dynamics(1+1); Receptor(1+0); Development(0+1);
【模式生物】Human(1+1);
【方法技术】Virus(6+5); Protein(3+1); Gene(0+1);
【简述】
【研究论文】Science(2); Cell(2); PNAS(2); PLoS Biol.(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
Stanford002003Palo Alto, CA, USAJennifer R Cochran

Stanford
【研究方向】Engineering(6+1); Therapeutics(3+1); Receptor(3+0); Development(2+0); Imaging(1+1); Peptide(1+0); Structure(1+0); Translation(1+0); Regeneration(0+1); Disease(0+1); Therapy(0+1); Optical imaging(1+0);
【模式生物】
【方法技术】Protein(8+2); Biochemistry(1+0); Biophysics(0+1); In vivo(1+0); Optogenetics(1+0);
【简述】
【研究论文】Nature(2); Cell(2); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Lawrence J. Stern, K. Dane Wittrup, William F. DeGradoPing-Chuan (Christina) TsaiYears: 2018 — 2019; Recipients: Bassik, Michael C (co-PI) [⬀] Cochran, Jennifer RSweet-Cordero, Eric Alejandro; Code: R01; Title/Keywords: Development of Novel Protein-Based Therapeutics For Lung Cancer@ University of California, San Francisco; Matching Score: 0.911Prof.
Stanford002003Palo Alto, CA, USAMonte Winslow

Stanford
【研究方向】Tumor(6+8); Development(6+0); Regulation(2+0); Mutant(1+0); Neurotrophin(1+0); Receptor(1+0); Disease(0+1); Therapy(0+1); Contrast(1+0); Stress(1+0); Vessel(0+1); Optical(1+0);
【模式生物】Mouse(3+1); Human(0+2); Stem Cell(1+0);
【方法技术】In vivo(7+3); Model(3+5); Gene(2+3);
【简述】
【研究论文】Nature(2); Cell(2); Nature Communications(2); Nature Methods(2); PNAS(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gerald CrabtreeChristopher D. McFarlandYears: 2018; Recipients: Winslow, Monte Meier; Code: R01; Title/Keywords: Molecular Dissection of Lkb1-Mediated Tumor Suppression@ Stanford University; Matching Score: 1007336Assoc Prof.
UCSD011017San Diego, CA, USASusan Ackerman

UCSD
【研究方向】Development(0+1);
【模式生物】
【方法技术】Biochemistry(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIDCD??Bethesda, MD, USAKatie Kindt

NIH-NIDCD
【研究方向】Hair cell(11+4); CA2(0+7); Sense(4+2); Vesicle(0+3); Development(0+3); Imaging(1+2); Synapse(1+1); Auditory(1+1); TRP channel(1+0); Vesicle fusion(0+1); Transcription(1+0); Mitochondria(0+1); Disease(1+0); Injury(1+0); Tumor(1+0); Touch(1+0); Vestibular(0+1); Timing(1+0); Optical imaging(0+1);
【模式生物】Zebrafish(11+3); Human(2+0); C. elegans(2+0); Mouse(1+0);
【方法技术】In vivo(2+3); Model(2+1); Gene(1+0); Protein(1+0); Electrophysiology(0+1); Microscopy(0+1); Pharmacology(0+1);
【简述】
【研究论文】Cell(7); Nature Neuroscience(1); JNS(2); Nature Communications(1); eLife(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
William R. Schafer, Teresa NicolsonSuna Li
JHU010012Baltimore, MD, USAMichela Gallagher

JHU
【研究方向】Memory(0+7); Neural Circuit(0+5); Aging(0+3); Cognition(0+3); Encoding(0+2); Signal transduction(0+1); Plasticity(0+1); Disease(0+1); Attention(0+1); PFC(0+1); Amygdala(0+1); Basal forebrain(0+1);
【模式生物】Rat(0+4); Rodent(0+2); Human(0+1);
【方法技术】Behavior(0+3); Computation(0+1); Model(0+1);
【简述】Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; Cellular + Molecular Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USAAdam R Aron

UCSD
【研究方向】Cognition(0+7); Cognitive Control(0+3); Cognitive neuroscience(0+2); Pathology(0+1); Impulse Control Disorder(0+1);
【模式生物】
【方法技术】Behavior(0+1); fMRI(0+1);
【简述】 Cognitive, Behavioral & Psychopharmacology
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USARhonda R. Voskuhl

UCLA
【研究方向】Neurology(0+2);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAGyörgy Buzsaki

NYU
【研究方向】Oscillation(8+0); Hippocampus(7+0); Rhythm(2+1); Memory(1+0); Neural network(0+1); Nucleus basalis(1+0);
【模式生物】Rat(3+0);
【方法技术】Model(2+0); In vivo(1+0); LFP(1+0); ECoG(1+0); EEG(1+0);
【简述】Rhythms in neural networks
【研究论文】Nature(1); Science(3); Nature Neuroscience(1); Neuron(1); JNS(4); Cerebral Cortex(2);
【综述】Review(3); Nature Reviews Neuroscience(2); Annual Review Of Neuroscience(1); Brain Research Reviews(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
085935Prof.
Stanford002003Palo Alto, CA, USAAlfredo Dubra

Stanford
【研究方向】Vision(20+1); Imaging(16+1); Photoreceptor(11+0); Structure(5+1); Retina(1+1); Learning(2+0); Morphology(2+0); Engineering(0+2); Optical(2+0); Disease(1+0); Degeneration(1+0); Therapy(1+0); Contour(1+0); Eye Movement(1+0); Neural network(1+0); Convolutional Neural Network(1+0);
【模式生物】Human(6+0); Macaque(2+0); Primate(2+0); Mouse(2+0);
【方法技术】In vivo(7+0); Gene(1+0); Microscopy(0+1); Model(1+0);
【简述】
【研究论文】Science(3); Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
004583Assoc Prof.
Stanford002003Palo Alto, CA, USACreed Stary

Stanford
【研究方向】Muscle(12+0); Ischemia(7+0); Stroke(6+1); Injury(4+3); Neurotoxicity(3+0); Metabolism(2+0); Blood flow(2+0); Genetically modify(1+0); Membrane(1+0); Glial cell(0+1); Glia(1+0); Astrocyte(1+0); Anesthesia(1+0); Development(1+0); Mitochondria(1+0); Disease(1+0); Neurology(1+0); Pathogenesis(1+0); Therapy(1+0); Neuroinflammation(1+0); Infection(1+0); Neuroprotection(1+0); Hypoxia(1+0); Brain injury(1+0); Vision(1+0); Object recognition(1+0); Frequency(1+0); Exercise(1+0); Fatigue(1+0); Reflex(1+0); Dynamics(1+0); Engineering(1+0); Imaging(1+0); Dentate gyrus(1+0); Cornu ammonis(1+0); CA2(1+0);
【模式生物】Mouse(2+0); Xenopus(1+0);
【方法技术】Behavior(1+0);
【简述】
【研究论文】Cell(2);
【综述】Progress In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Rona GiffardBrian B. Griffiths, Anand N. Rao001531Assist Prof.
Harvard001001Boston, MA, USAPaola Arlotta

Harvard
【研究方向】Development(6+3); Disease(4+4); Dynamics(2+0); Engineering(2+0); Synaptic Transmission(1+0); Plasticity(0+1); Glia(0+1); Reprogramming(1+0); Pluripotent stem cells(0+1); Regeneration(0+1); Dendrite(0+1); Synapse(0+1); Spine(0+1); Neurodegenerative disease(0+1); Dysfunction(0+1); Brain injury(1+0); Sclerosis(1+0); Sense(0+1); Context(0+1); Imaging(0+1);
【模式生物】Human(7+6); Stem Cell(2+2); Mouse(2+0);
【方法技术】Model(4+2); Cell culture(1+1); Gene(0+1); In vivo(1+0); In vitro(0+1); Electrophysiology(0+1);
【简述】Investigation of the molecular mechanisms governing development and reprogramming of neuronal subtypes in the
mammalian cerebral cortex.
【研究论文】Science(2); Cell(3); Nature Neuroscience(1); Neuron(3); JNS(1); Cerebral Cortex(2);
【综述】Trends In Neurosciences(1); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jeffrey D. MacklisMohammed A Mostajo-Radji, Simona Lodato, Randall J Platt, Giorgia Quadrato, Caroline Rouaux, Ashwin S. Shetty, Bradley J. Molyneaux, Xin Jin, Bruna S. PaulsenDaniel R. BergerYears: 2018; Recipients: Arlotta, Paola; Code: P50; Title/Keywords: Project 3 Arlotta@ Harvard University; Matching Score: 0.934Prof.
Stanford002003Palo Alto, CA, USAJulia Salzman

Stanford
【研究方向】Environment(4+0); Development(3+0); Regulation(1+1); Differentiation(1+0); Reprogramming(1+0); Embryo(1+0); Motor(1+0); Dynamics(1+0);
【模式生物】Human(13+0);
【方法技术】Gene(3+0); Virus(3+0); Model(3+0); Computation(0+1); Statistics(1+0);
【简述】
【研究论文】Science(1); Cell(1); PLoS Biol.(1); eLife(2);
【综述】Review(2); Nature Reviews Genetics(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2016 — 2021; Recipients: Salzman, Julia; Code: N/A; Title/Keywords: Career: Dissecting the Biogenesis and Function of Circular Rna in Simple Eukaryotes@ Stanford University; Matching Score: 1003562Assist Prof.
Columbia006008New York, NY, USAAshok Litwin-Kumar

Columbia
【研究方向】Learning and memory(2+1); Structure(2+0); Synaptic Plasticity(2+0); Vision(2+0); Interneuron(2+0); Dynamics(2+0); Connection(2+0); Synapse(1+0); Microcircuit(1+0); Motor Neuron(1+0); Muscle(1+0); Machine learning(0+1); Artificial intelligence(0+1); Convolutional Neural Network(1+0);
【模式生物】Drosophila(1+0);
【方法技术】Computation(5+0); Model(1+0);
【简述】Theoretical neuroscience; Systems and circuits; Neurobiology of learning and memory; Machine learning and artificial intelligence;
【研究论文】Nature(1); Nature Neuroscience(2); Neuron(2); Nature Communications(1); PLOS Computational Biology(4);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000855Assist Prof.
Stanford002003Palo Alto, CA, USAJeffrey Goldberg

Stanford
【研究方向】Vision(6+2); Differentiation(3+0); Development(0+2); Regeneration(1+1); Engineering(1+1); Regulation(1+0); Receptor(1+0); Transplantation(1+0); CNS(1+0); Embryo(1+0); Axon(1+0); Neurodegenerative disease(0+1); Biomarker(0+1); Neuroprotection(0+1); Injury(1+0); Photoreceptor(1+0); Frequency(1+0); Muscle(1+0); Vascular network(1+0); Imaging(0+1); Optical(1+0); V2(1+0);
【模式生物】Stem Cell(6+1); Human(6+0); Rat(2+0);
【方法技术】Behavior(2+0); Model(1+0); Mathematics(1+0);
【简述】
【研究论文】Science(7); Nature Communications(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ben A. BarresAlena Bartakova, Jonathan Hertz, Alexander Kreymerman, Sahil H. Shah, Noelia J. Kunzevitzky, Darcie Leann Moore, Raul G. Corredor, Ephraim F. Trakhtenberg, Praseeda Venugopalan, Yuanli Duan, Evan G. Cameron, Kun-Che Chang, Joana M Galvao, Xin Xia, Satoshi YokotaYears: 2018; Recipients: Goldberg, Jeffrey L; Code: T32; Title/Keywords: Stanford Vision Training Program@ Stanford University; Matching Score: 1000719Prof.
Stanford002003Palo Alto, CA, USARichard E Grewelle

Stanford
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Other
Yale014011New Haven, CT, USAKelly Cosgrove

Yale
【研究方向】Nicotinic acetylcholine receptor(0+2); Acetylcholine receptor(0+2); Alcohol(0+2); Nicotine(0+2); Neuroimaging(0+2); Neurotransmitter(0+1); Dopamine(0+1); Synaptic Plasticity(0+1); Disease(0+1); Psychiatry(0+1); Psychiatric disorder(0+1); Addiction(0+1);
【模式生物】Human(0+1);
【方法技术】PET(0+2); Gene(0+1);
【简述】Alcoholism; Brain; Neurobiology; Nicotine; Radiology; Positron-Emission Tomography; Neuroimaging; alpha7 Nicotinic Acetylcholine Receptor; Diseases; Chemicals and Drugs; Psychiatry and Psychology.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NINDS??Bethesda, MD, USAKevin L Briggman

NIH-NINDS
【研究方向】Retina(5+0); Synapse(2+0); Synaptic Transmission(1+0); Synchrony(1+0); Bipolar(1+0); Neural Circuit(1+0); Auditory(1+0); Dynamics(0+1); CA2(1+0);
【模式生物】Mouse(4+0);
【方法技术】Anatomy(1+0); Microscopy(1+0); Computation(1+0); Model(1+0);
【简述】Circuit Dynamics and Connectivity Unit
【研究论文】Nature(3); Cell(3); Nature Neuroscience(1); Neuron(5); JNS(2); Curr Biol.(2); eLife(2); Neural Computation(1);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAVay Liang W. Go

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAAlexander Eckehart Urban

Stanford
【研究方向】Development(2+2); Cell line(2+0); Receptor(1+0); Structure(0+1); Transcription(1+0); Neurogenesis(1+0); Pluripotent stem cells(1+0); Disease(1+0); Down Syndrome(1+0); Depression(1+0); Olfaction(1+0); Context(0+1); Methodology(1+0); Evolutionary(1+0);
【模式生物】Human(21+2); Stem Cell(2+1);
【方法技术】Gene(8+5); Model(1+3); Cell culture(0+2); Protein(1+0); Microarray(1+0);
【简述】
【研究论文】Nature(1); Science(5); Cell(3); Nature Communications(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
019209Assist Prof.
Stanford002003Palo Alto, CA, USAKarl Deisseroth

Stanford
【研究方向】Neural Circuit(6+0); Optical(5+1); Gamma rhythm(4+0); Anxiety(3+0); Development(2+0); Dysfunction(2+0); Sense(2+0); Social(2+0); Engineering(1+1); Amygdala(2+0); Neurotransmitter(1+0); Regulation(1+0); Dopamine(1+0); Ion Channel(1+0); Calcium channel(1+0); Structure(1+0); Plasticity(1+0); Dopamine neuron(1+0); Psychiatry(0+1); Cocaine(1+0); Motor(1+0); Memory(1+0); Fear(1+0); Reward(1+0); Stress(1+0); Neural encoding(1+0); Neural network(0+1); Imaging(0+1); Motor cortex(1+0); PFC(1+0); Basal ganglia(1+0); Globus pallidus(1+0); Nucleus accumbens(1+0); VTA(1+0);
【模式生物】Human(0+1); Rodent(1+0);
【方法技术】Optogenetics(12+1); Behavior(3+1); In vivo(2+0); Gene(1+0); Channel(1+0); Electrophysiology(0+1); Computation(0+1); Model(0+1);
【简述】
【研究论文】Nature(10); Science(4); Cell(1); Neuron(1); Nature Methods(1); PNAS(1); Curr Biol.(1);
【综述】Annual Review Of Neuroscience(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard W. Tsien, Robert C. MalenkaMatt Brodsky, Minsuk Hyun, Jenelle Liane Wallace, Anna Jaffe, Kathryn E Evans, Viviana Gradinaru, Logan Grosenick, Sam Vesuna, Sung-Yon Kim, William E. Allen, Yoon Seok Kim, Ethan B Richman, Feng Zhang, Daniel J. O'Shea, Raag D. Airan, Hsing-Chen Tsai, Murtaza Mogri, Kelly Anne Zalocusky, Masatoshi Inoue, Conor Liston, Jeanne T Paz, Vikaas Singh Sohal, Raju Tomer, Li Ye, Shih-Chun (David) Lin, Avishek Adhikari, Aaron Samuel Andalman, Talia N. Lerner, James H. Marshel, Emily L. Sylwestrak, Sarah M. Bhagat, Tim Machado, Antonia Drinnenberg, Yiming Chen, Polina Anikeeva, Kay M. Tye, Ilka Diester, Ofer Yizhar, Ilana B. Witten, Melissa R. Warden, Matthew Lovett-Barron, Thomas J. DavidsonYears: 2018; Recipients: Deisseroth, Karl A.; Code: R37; Title/Keywords: Structural and Molecular Identification of Circuitry Underlying Joint Processing of Motivation and Aversion@ Stanford University; Matching Score: 0.958075510Prof.
Stanford002003Palo Alto, CA, USAH-S Philip Wong

Stanford
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USAJerome M. Siegel

UCLA
【研究方向】Sleep(0+6); Disorder(0+2); Monoamine(0+1); Motor control(0+1); Muscle(0+1);
【模式生物】Human(0+2);
【方法技术】Anatomy(0+1); Behavior(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAPamela Flood

Stanford
【研究方向】Pain(18+0); Anesthesia(12+0); Nicotinic acetylcholine receptor(5+0); Acetylcholine receptor(5+0); Sleep(4+0); Inflammation(3+0); Movement disorder(2+0); Exercise(2+0); GABA(1+0); Ligand gated ion channel(1+0); GABAA receptor(1+0); Ion Channel(1+0); Chloride(1+0); Electrical synapse(1+0); Development(1+0); Disorder(1+0); Therapeutics(1+0); Parkinson's disease(1+0); Neuromuscular(1+0); Hemorrhage(1+0); Nicotine(1+0); Body(1+0); Headache(1+0); Neuropathic pain(1+0); Stress(1+0);
【模式生物】Human(2+0); Mouse(2+0); Xenopus(1+0);
【方法技术】Pharmacology(2+0); Model(2+0); Theory(1+0);
【简述】
【研究论文】JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gordon A. Donaldson003729Prof.
UW021010Seattle, WA, USAHoracio de la Iglesia

UW
【研究方向】Structure(0+1); Environment(0+1);
【模式生物】Human(0+1); Mouse(0+1);
【方法技术】Behavior(0+1); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAScott S Hall, PhD

Stanford
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
NYU015028New York, NY, USAMartin Sadowski

NYU
【研究方向】Development(2+1); Cell cycle(3+0); Disease(0+3); Aging(0+3); Finger(3+0); Transcription(2+0); Neurology(0+2); Therapeutics(0+2); Alzheimer's disease(1+1); Prion diseases(0+2); Metabolism(1+1); Amino acid(1+0); Structure(1+0); Pathology(1+0); Therapy(0+1); Psychiatry(0+1); Dementias(0+1); Morphology(1+0); Dynamics(1+0); Imaging(1+0); Neuroimaging(1+0);
【模式生物】Human(1+0); Drosophila(1+0);
【方法技术】Protein(4+0); Biochemistry(0+1); Behavior(1+0); Pharmacology(0+1); Statistics(1+0);
【简述】Pathological mechanisms of Alzheimer's disease and prion diseases
【研究论文】
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001261Assoc Prof.
Stanford002003Palo Alto, CA, USASergiu P Pasca

Stanford
【研究方向】Pluripotent stem cells(2+1); Embryo(2+0); Imaging(0+2); Astrocyte(1+0); Development(0+1); Differentiation(1+0); Disorder(1+0); Dysfunction(0+1); Psychiatric disorder(0+1); Autism(0+1); Brain injury(1+0); Sclerosis(1+0); Schizophrenia(0+1); Neural Circuit(0+1); Engineering(0+1);
【模式生物】Human(13+4); Stem Cell(6+3);
【方法技术】Model(3+0); In vitro(0+1);
【简述】
【研究论文】Nature(6); Science(1); Nature Neuroscience(3); Neuron(2); Nature Methods(2); PNAS(1); Cerebral Cortex(1);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ricardo E. Dolmetsch, Danko NikolicThemasap A. Khan, Junuk LeeYears: 2018; Recipients: Pasca, Sergiu; Code: R01; Title/Keywords: Role of L-Type Calcium Channels in Human Interneuron Migration and Integration@ Stanford University; Matching Score: 0.915Assist Prof.
UCLA011013Los Angeles, CA, USAJoshua A. Hoffs

UCLA
【研究方向】Neuroimaging(0+1);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USADaniel H.S. Silverman

UCLA
【研究方向】Imaging(0+2); Alzheimer's disease(0+1);
【模式生物】
【方法技术】Pharmacology(0+2); Biochemistry(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USABeth Stevens

Harvard
【研究方向】Synapse(4+11); Microglia(8+1); Development(4+3); Disease(3+1); Plasticity(1+2); MeCP2(2+0); Glial cell(1+1); Glia(1+1); CNS(1+1); Schizophrenia(2+0); Neural Circuit(0+2); Imaging(0+2); Structure(1+0); Synaptic Plasticity(1+0); Environment(1+0); Neurodegenerative disease(0+1); Age-related(1+0); Cognition(1+0); Vision(0+1); Memory(1+0); V1(1+0);
【模式生物】Mouse(4+0);
【方法技术】Model(2+0); Gene(1+0); Protein(0+1); Microscopy(1+0);
【简述】Neuron-Glia Interactions During Development and Disease; Synapse Development and Plasticity; Neuro-Immune Interactions
【研究论文】Cell(2); Nature Neuroscience(1); JNS(2);
【综述】Current Opinion In Neurobiology(2); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard Douglas Fields, Ben A. BarresAmanda G. Kautzman, Lauren Stanwicks, Carly Rose Willing, Victoria F Beja-Glasser, Jenelle Liane Wallace, Juliette M. Han, Allison R. Rosen, Ryuta Koyama, Dorothy P. Schafer, Samuel E. Marsh, Kevin J. Mastro, Timothy R HammondYears: 2017 — 2018; Recipients: Carroll, Michael CraigMccarroll, Steven Andrew (co-PI) [⬀] Stevens, Beth Ann; Code: P50; Title/Keywords: Neural-Immune Mechanisms and Synaptic Connectivity in Psychiatric Illness@ Boston Children's Hospital; Matching Score: 0.958Assoc Prof.
NYU015028New York, NY, USAStephen Ginsberg

NYU
【研究方向】Alzheimer's disease(12+0); Neurology(5+0); Cognition(3+2); Transcription(3+1); Disease(3+1); Hippocampus(3+1); CA1(4+0); Dendrite(1+2); Dysfunction(3+0); Down Syndrome(3+0); Nucleus basalis(3+0); Neurotrophin(2+0); Receptor(2+0); Synaptic Plasticity(0+2); Pathology(2+0); Psychiatry(2+0); Basal forebrain(2+0); Transgenic(1+0); Neurotransmitter(1+0); Transporter(1+0); Regulation(1+0); Glutamate(1+0); Dopamine receptor(0+1); Glutamate receptor(0+1); CNS(1+0); Synaptogenesis(0+1); Synapse(1+0); Neurodegenerative disorder(0+1); Degeneration(0+1); Vulnerability(0+1); Psychiatric disorder(1+0); APP(1+0); Tau(1+0); HIV(1+0); Injury(0+1); Schizophrenia(1+0); Learning and memory(0+1); Steroid(1+0); Stress(1+0); Imaging(0+1); PFC(1+0); Entorhinal cortex(1+0); Dentate gyrus(0+1);
【模式生物】Mouse(2+3); Human(1+2);
【方法技术】Gene(7+0); Model(3+2); Protein(2+0); Microarray(1+1); In vivo(0+1);
【简述】Mechanisms underlying selective vulnerability of forebrain neurons to degeneration and their response to therapeutic interventions
【研究论文】Neuron(1); JNS(2);
【综述】Annals Of Neurology(5); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
007659Assoc Prof.
Columbia006008New York, NY, USAAlejandro Chavez

Columbia
【研究方向】Development(4+0); Engineering(2+2); CRISPR/Cas9(2+0); Structure(2+0); Differentiation(1+1); Disease(1+0); Neurodegenerative disease(0+1); Dysfunction(1+0); Aging(1+0); Age-related(1+0); Imaging(0+1);
【模式生物】Mouse(2+0); Human(0+1);
【方法技术】Gene(10+2); Model(2+1); Protein(1+0); Cell culture(0+1);
【简述】Genome Engineering ; Genomics; Synthetic Biology; Neurodegeneration ; Cancer;
【研究论文】Cell(2); Nature Methods(3);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003323Assist Prof.
WUSTL009032Saint Louis, MO, USABeau Ances

WUSTL
【研究方向】Disease(7+3); HIV(7+2); Neurology(8+0); Disorder(3+2); Aging(5+0); Metabolism(4+0); Blood flow(4+0); Imaging(3+1); Resting state(3+0); Therapy(2+0); Alzheimer's disease(2+0); Infection(2+0); Vision(2+0); Neuroimaging(0+2); Connection(2+0); Structure(0+1); Pathogenesis(1+0); Tau(1+0); Biomarker(1+0); Parkinson's disease(1+0); Cognition(1+0); Sense(1+0); Dynamics(1+0); Blood oxygen level dependent(0+1); Striatum(1+0); White matter(1+0);
【模式生物】Human(2+0); Rat(1+0);
【方法技术】MRI(2+2); fMRI(1+3); PET(1+0); Theory(1+0);
【简述】Characterization of Dementia (HIV associated neurocognitive disorders (HAND) and Alzheimer`s Disease (AD) using functional magnetic resonance imaging
【研究论文】Science(1); JNS(1); Nature Communications(1);
【综述】Annals Of Neurology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John A. Detre, Michael P. NusbaumAnika M. GuhaYears: 2018 — 2019; Recipients: Ances, Beau MBenzinger, Tammie Lee Smith; Code: R01; Title/Keywords: Imaging Tauopathy in the Domiatly Inherited Alzheimer Network (Dian)@ Washington University; Matching Score: 1009493Prof.
Stanford002003Palo Alto, CA, USAM Bruce MacIver

Stanford
【研究方向】Anesthesia(6+2); Consciousness(3+0); Glutamate(1+1); Receptor(2+0); Synaptic Transmission(2+0); CNS(0+2); Vision(2+0); Hippocampus(2+0); CA1(2+0); GABA(1+0); Glutamate receptor(0+1); Development(0+1); Synapse(0+1); Systems Neuroscience(1+0); Motor(1+0); Interneuron(1+0); Chaos(1+0); Visual cortex(1+0); Auditory cortex(1+0); A1(1+0); Raphe(1+0);
【模式生物】Rat(4+0); Human(2+0);
【方法技术】EEG(4+0); In vitro(1+0); Electrophysiology(0+1); Pharmacology(0+1);
【简述】
【研究论文】Neuron(1); Curr Biol.(1); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
MIT005002Boston, MA, USAMriganka Sur

MIT
【研究方向】Vision(12+0); Plasticity(4+3); Development(1+3); Visual cortex(4+0); Body(3+0); Dynamics(1+2); Auditory cortex(3+0); Synapse(0+2); Disorder(0+2); Neurology(2+0); Rett Syndrome(2+0); Somatosensory(2+0); Auditory(2+0); MeCP2(1+0); Mutant(1+0); AMPA receptor(1+0); NMDA receptor(1+0); Structure(0+1); Neuroplasticity(1+0); Environment(0+1); Microcircuit(1+0); Motor(1+0); Learning and memory(0+1); Attention(0+1); Homeostatic(1+0); Robot(1+0); S1(1+0); A1(1+0); Thalamus(1+0);
【模式生物】Monkey(3+0); Primate(1+0); Mouse(1+0);
【方法技术】In vivo(3+1); Gene(1+1); In vitro(0+1); Behavior(1+0); Computation(0+1); Model(1+0);
【简述】
【研究论文】Nature(5); Science(6); Neuron(1); JNS(1); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jon H. Kaas, S Murray Sherman, Jon H. KaasDivakar S. Mithal, Alessandra Angelucci, Naiyan Chen, Francisco Clascá Cabré, Scott Gorlin, Christopher I. Moore, Bhavin Sheth, Rodrigo Garcia, Gerald Pho, Rajeev Vijay Rikhye, Karen Guadalupe Cruz, Anna W. Roe, Manuel Esguerra, Louis J. Toth, Caroline A. Runyan, Karina S. Cramer, Rafiq Huda, Dae-Shik Kim, Amanda  F. Mower, Damon Page, Jeremy C. Petravicz, Hiroki Sugihara, Murat Yildirim, Junjie Liu, Nathan R. Wilson, Michael Goard, Sami El Boustani, Ming Hu, Grayson O. Sipe, Sarah L. Pallas, Sacha B. Nelson, David C. Somers, Valentin Dragoi, David C. Lyon, Ania K. Majewska, Daniela Tropea, Rong Mao, Leigh C. Carmody, Abhishek BanerjeeUlf Knoblich, Konrad P. Kording, Klaus Obermayer, Juyang Weng, dipanjan roy, Wasim Q. MalikYears: 2018 — 2019; Recipients: Sur, Mriganka; Code: R01; Title/Keywords: Astrocyte-Neuron Interactions in Visual Cortex Circuits@ Massachusetts Institute of Technology; Matching Score: 1027544Prof.
Stanford002003Palo Alto, CA, USAKevin Wang

Stanford
【研究方向】Brain injury(6+0); Regulation(1+1); Receptor(2+0); Structure(2+0); Regeneration(2+0); Axon(2+0); Signal transduction(1+0); Calcium channel(1+0); Differentiation(1+0); Environment(1+0); Embryo(1+0); Disease(1+0); Biomarker(1+0); Neuroprotective(1+0); Neuroprotection(1+0); Injury(1+0); Trauma(1+0); Knowledge(1+0); Dynamics(0+1);
【模式生物】Human(3+0); Stem Cell(3+0);
【方法技术】Gene(2+2); Protein(3+0); Biochemistry(2+0); Biophysics(2+0); In vitro(1+0); Pharmacology(1+0); Model(1+0);
【简述】
【研究论文】Nature(1); JNS(1);
【综述】Trends In Neurosciences(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Firas H. Kobeissy020998Assist Prof.
NIH-NIMH??Bethesda, MD, USAMario A Penzo

NIH-NIMH
【研究方向】Amygdala(9+0); Fear(7+0); Thalamus(4+0); Receptor(3+0); Synaptic Transmission(2+0); Neuroprotective(2+0); Neuroprotection(2+0); Anxiety(2+0); Extended amygdala(2+0); Basal ganglia(2+0); Locus coeruleus(2+0); LTD(1+0); Dysfunction(1+0); Psychiatry(1+0); Depression(1+0); Interneuron(1+0); Memory(0+1); PFC(1+0);
【模式生物】Mouse(1+0);
【方法技术】Behavior(3+0);
【简述】Unit on the Neurobiology of Affective Memory
【研究论文】Nature(2); Nature Neuroscience(2); JNS(7);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jose Luis Pena000682
Harvard001001Boston, MA, USAJoseph Majzoub

Harvard
【研究方向】Receptor(1+2); Hormone(2+1); Adrenalin(2+0); Psychiatry(1+1); Stress(0+2); Hypothalamus(1+1); Neurotransmitter(0+1); Regulation(1+0); Ion Channel(0+1); Disease(0+1); Therapy(1+0); Inflammation(1+0); Anxiety(1+0); Neuroendocrine(0+1); Energy metabolism(1+0); Imaging(0+1);
【模式生物】Human(4+1); Mouse(4+1);
【方法技术】Gene(0+3); Protein(1+0); Cell culture(0+1); Behavior(0+1); Model(1+0);
【简述】Hypothalamic role in mammalian endocrine and behavioral responses to stress
【研究论文】Science(1); Cell(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
NIH-NIDA??Bethesda, MD, USAYihong Yang

NIH-NIDA
【研究方向】Development(3+1); Psychiatry(4+0); Imaging(3+1); Nicotine(3+0); Blood flow(3+0); 5-HT(2+0); GABA(1+1); Structure(2+0); Addiction(1+1); Cognition(2+0); Vision(2+0); Frequency(2+0); Metabolism(2+0); Diffusion tensor imaging(0+2); White matter(2+0); Neurotransmitter(0+1); Regulation(1+0); Glutamate(0+1); Monoamine(1+0); Receptor(1+0); Oscillation(1+0); Disorder(1+0); ADHD(1+0); Aging(1+0); Cocaine(1+0); Cognitive neuroscience(1+0); Learning(1+0); Acquisition(0+1); Sequence learning(1+0); Context(1+0); Attention(1+0); Inhibitory control(1+0); Stress(1+0); Resting state(0+1); PFC(1+0); Insular cortex(1+0); Cingulate cortex(1+0); Amygdala(1+0);
【模式生物】Human(3+0); Rat(2+1);
【方法技术】fMRI(5+7); MRI(4+4); Electrophysiology(1+1); Channel(1+0); In vivo(1+0); PET(1+0); Model(0+1);
【简述】Section of Magnetic Resonance Imaging and Spectroscopy
【研究论文】JNS(2); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
013053
Stanford002003Palo Alto, CA, USARajat Rohatgi

Stanford
【研究方向】Development(5+2); Signal transduction(0+3); Regulation(1+1); Membrane(2+0); Environment(0+2); Disease(0+2); Body(0+2); Imaging(0+2); Receptor(1+0); G-Protein Coupled Receptor(1+0); Structure(1+0); Cell cycle(1+0); Regeneration(0+1); Trafficking(0+1); Degeneration(0+1); Tumor(0+1); Face(0+1); Stress(0+1); Optical(0+1);
【模式生物】Human(1+3);
【方法技术】Protein(1+3); Gene(1+2); Biochemistry(0+1); Behavior(0+1);
【简述】
【研究论文】Nature(2); Science(1); Cell(4); eLife(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
UW021010Seattle, WA, USAR. Clay Reid

UW
【研究方向】
【模式生物】
【方法技术】
【简述】Research
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USAQiufu Ma

Harvard
【研究方向】Pain(3+3); HIV(3+0); Neural Circuit(0+3); Sense(0+3); Itch(1+2); Plasticity(1+1); Regulation(1+0); Receptor(1+0); Transcription(1+0); Development(0+1); Proliferation(1+0); Differentiation(1+0); Environment(1+0); Regeneration(1+0); Synapse(1+0); Touch(0+1); Timing(1+0); Hormone(1+0); Imaging(1+0); White matter(1+0);
【模式生物】Human(0+1);
【方法技术】Gene(0+3); Protein(1+0);
【简述】The coding of pain versus itch
【研究论文】Nature Neuroscience(1); JNS(1); Nature Communications(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvey R. Herschman, David J. AndersonTaralyn M. Tan, Xiangyu Ren, Kunxun Fish Qian, Shan Lou, Bo Duan, Leping ChengYears: 2009 — 2013; Recipients: Ma, Qiufu; Code: P01; Title/Keywords: Runxl Targets and Modulators in Manifestation of Chronic Pain@ Dana-Farber Cancer Inst; Matching Score: 0.909Prof.
WUSTL009032Saint Louis, MO, USAValeria Cavalli

WUSTL
【研究方向】Axon(7+14); Injury(2+17); Regeneration(6+6); CNS(0+4); Sense(0+3); Regulation(0+2); PNS(0+2); Axon growth(0+2); Motor(0+2); Development(1+0); Contrast(0+1); Body(0+1); Pain(0+1); Dynamics(0+1); Imaging(0+1); Connection(0+1);
【模式生物】Mouse(0+1);
【方法技术】Gene(0+1); Protein(0+1); Behavior(0+1); Model(0+1);
【简述】Cellular, Molecular and Epigenetic control of axon regeneration
【研究论文】Cell(1);
【综述】Current Opinion In Neurobiology(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Lawrence SB Goldstein, Vitaly KlyachkoNamiko AbeYears: 2018; Recipients: Cavalli, Valeria; Code: R21; Title/Keywords: Identifying Epigenetic Modifiers Promoting Optic Nerve Regeneration@ Washington University; Matching Score: 1Assoc Prof.
NYU015028New York, NY, USAAaditya Rangan

NYU
【研究方向】
【模式生物】
【方法技术】Model(0+1);
【简述】Large-scale scientific modeling and efficient numerical methods
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
MIT005002Boston, MA, USAMary Potter

MIT
【研究方向】Perception(3+3); Attention(1+5); Memory(0+5); Vision(2+2); Contrast(0+2); Context(0+2); Comprehension(0+2); Cognition(0+1); Language(0+1); Semantic(0+1);
【模式生物】Human(2+1);
【方法技术】Computation(0+1); Model(0+1); Theory(0+1);
【简述】Cognitive Processes: Attention, Perception, Comprehension and Memory
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jerome Seymour BrunerDaniel H. O'Connor, Nina Strohminger, Rijuta C. Pandav, Daphne Bavelier, Marvin M. Chun, Jodi L. Davenport, Nancy Kanwisher, William D. Marslen-Wilson, Yaoda Xu, Rhonda Friedman, Ansgar Endress, Judith F. Kroll, Ming Meng, Brad Wyble, Mark Nieuwenstein, Helene Intraub, Carl Erick Hagmann, Ekaterina V. PechenkovaYears: 2003 — 2009; Recipients: Potter, Mary C; Code: R01; Title/Keywords: Competition Model of Attention and Memory@ Massachusetts Institute of Technology; Matching Score: 1Prof.
UW021010Seattle, WA, USAChris Diorio

UW
【研究方向】Learning(0+6); Synaptic Plasticity(0+3); Environment(0+3);
【模式生物】
【方法技术】Behavior(0+3);
【简述】Research
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAJames Lock

Stanford
【研究方向】Disorder(17+4); Therapy(6+0); Psychiatry(3+0); Development(0+1); APP(1+0); Cognition(1+0); Frequency(0+1); Attention(1+0); Art(1+0); Motivation(1+0); Food Intake(1+0);
【模式生物】
【方法技术】Behavior(1+0);
【简述】
【研究论文】Science(1);
【综述】European Eating Disorders Review(4); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2019; Recipients: Halpern, Casey Harrison [⬀] Lock, James DMalenka, Robert C (co-PI) [⬀] Skarpaas, Tara L; Code: UH3; Title/Keywords: Responsive Neurostimulation For Loss of Control Eating@ Stanford University; Matching Score: 0.958Prof.
NIH-NIDA??Bethesda, MD, USAAmy Hauck Newman

NIH-NIDA
【研究方向】Dopamine(9+0); Receptor(4+0); Nucleus accumbens(3+0); Disorder(2+0); Pediatric(2+0); Dynamics(2+0); Neurotransmitter(1+0); D2 receptor(1+0); Vesicle recycling(1+0); Therapeutics(1+0); Therapy(1+0); Parkinson's disease(1+0); Cocaine(1+0); Opioids(1+0); Schizophrenia(1+0); Reward(1+0); Evolutionary(1+0);
【模式生物】Rat(2+0); Mouse(2+0); Rodent(1+0); Bird(1+0);
【方法技术】EEG(1+0); Pharmacology(1+0);
【简述】
【研究论文】Neuron(1); JNS(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
CAS-ION??Shanghai, ChinaYi-Feng Zhang

CAS-ION
【研究方向】Retina(2+5); Neural Circuit(0+5); Vision(0+5); Form(0+3); Development(2+0); Transgenic(1+0); Receptor(1+0); Dendrite(1+0); Grasp(0+1);
【模式生物】Mouse(1+1);
【方法技术】Behavior(0+2); Computation(0+2); Electrophysiology(0+1);
【简述】Retinal Neural Circuits
【研究论文】Nature(1); Cell(1); JNS(1); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles S. Zuker, Markus Meister001222Investigator
Stanford002003Palo Alto, CA, USAAllan L Reiss

Stanford
【研究方向】Disorder(2+3); Fragile X(4+1); Creativity(4+1); Development(2+2); Psychiatry(2+2); Cognition(3+1); Environment(1+2); Social(2+1); Neurology(1+1); Attention(2+0); Structure(0+1); Synchrony(1+0); Dysfunction(0+1); Autism(1+0); Executive function(0+1); Concept(0+1); Neuroimaging(0+1); Amygdala(1+0); limbic system(1+0); White matter(1+0);
【模式生物】Human(0+2);
【方法技术】Gene(3+2); Behavior(0+4); fMRI(2+0); fNIRS(1+0); Model(0+1); Data analysis(1+0); Statistics(0+1);
【简述】
【研究论文】Nature(1); Science(1); Nature Neuroscience(1); JNS(1); Nature Communications(1); PNAS(3); Cerebral Cortex(1);
【综述】Review(3); Nature Reviews Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCSD011017San Diego, CA, USADouglas A Nitz

UCSD
【研究方向】Cognition(0+1); Episodic memory(0+1); Decision making(0+1); Working memory(0+1); Motor cortex(0+1); Premotor cortex(0+1); Hippocampus(0+1); Basal forebrain(0+1);
【模式生物】Rat(0+1);
【方法技术】Single-unit recording(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USADr Gerald R Popelka

Stanford
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
CalTech072006Pasadena, CA, USAViviana Gradinaru

CalTech
【研究方向】Optical(6+0); Neural Circuit(3+0); Development(0+2); Engineering(0+2); Structure(1+0); Axon(0+1); Disorder(0+1); Parkinson's disease(1+0); Neuroinflammation(1+0); Cocaine(1+0); Anxiety(1+0); Depression(0+1); Motor(1+0); Retrieval(1+0); Reward(1+0); Dynamics(1+0); Amygdala(1+0);
【模式生物】
【方法技术】Optogenetics(4+2); Protein(0+2); Behavior(0+2); Gene(1+0); In vivo(1+0); In vitro(1+0); fMRI(1+0); Model(1+0);
【简述】Brain circuits, optogenetics, behavior, protein engineering, technology development for neuroscience
【研究论文】Nature(6); Science(2); Cell(5); Nature Neuroscience(1); JNS(1); Nature Methods(1);
【综述】Nature Reviews Drug Discovery(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Paul H. Patterson, Erin M. Schuman, Karl DeisserothRyan Cho, Xiaozhe Ding, Xinhong Chen, Collin Challis, Rosemary C. Challis, Min Jee Jang, J. Elliott Robinson, Lindsay R. BremnerYears: 2018; Recipients: Gradinaru, Viviana; Code: RF1; Title/Keywords: Noninvasive Gene Delivery For Monitoring and Perturbing Cell Types and Circuits in Transgenic and Non-Transgenic Animals@ California Institute of Technology; Matching Score: 1010471Assist Prof.
UCLA011013Los Angeles, CA, USADavid B. Teplow

UCLA
【研究方向】Abeta(0+4); Structure(0+2); Neurology(0+2); Alzheimer's disease(0+2); Receptor(0+1); Development(0+1); Disease(0+1); Neurodegenerative disorder(0+1); Pathogenesis(0+1); Tumor(0+1); Form(0+1);
【模式生物】
【方法技术】Protein(0+4); In vivo(0+2); Biochemistry(0+1); Biophysics(0+1); In vitro(0+1);
【简述】
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术,