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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
UCLA011013Los Angeles, CA, USANatik Piri

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, USADonald Wilson

NYU
【研究方向】Olfaction(11+0); Sense(2+5); Memory(3+4); Learning(4+0); Alzheimer's disease(3+0); Perception(2+1); Regulation(2+0); Dysfunction(2+0); Therapeutics(2+0); Fear(2+0); Piriform cortex(2+0); Olfactory bulb(2+0); Dopamine(1+0); Structure(1+0); Plasticity(1+0); Synchrony(1+0); Development(0+1); Disease(0+1); Pathology(0+1); Psychiatry(1+0); Alzheimer's(1+0); Object(1+0); Chemical sense(1+0); Motor(1+0); Learning and memory(1+0); Perceptual learning(1+0); Associative learning(1+0); Dynamics(1+0); Hippocampus(1+0); Amygdala(1+0); Locus coeruleus(1+0);
【模式生物】Mouse(6+0); Rat(2+1); Human(2+0);
【方法技术】Behavior(5+2); Model(3+2); Electrophysiology(0+1); Pharmacology(0+1);
【简述】Neurobiology of memory and perception, with emphasis on olfaction
【研究论文】Nature(1); Science(2); Nature Neuroscience(1); Neuron(2); JNS(4);
【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
Ronald J. Racine, Gary Lynch, Michael LeonJason V. Thompson, Aaron R. Best, Max L. Fletcher, Chien-Fu F. Chen, Dylan C. Barnes, Benjamin Sadrian, Yaniv Cohen, Wenjin Jimmy Xu, Emmanuelle Courtiol, Miki Kadohisa, Daniel W. Wesson, Julie ChapuisYears: 2017; Recipients: Levy, EfratMathews, Paul M. (co-PI) [⬀] Wilson, Donald A; Code: RF1; Title/Keywords: Neuronal Protective Apolipoprotein E2-Mediated Endocytic and Exocytic Pathways@ New York University School of Medicine; Matching Score: 0.903012913Prof.
NYU015028New York, NY, USAPaul Mathews

NYU
【研究方向】Medial superior olive(3+0); Synaptic integration(2+0); Climbing fiber(2+0); Ion Channel(1+0); Sodium channel(1+0); Development(1+0); Vulnerability(0+1); Alzheimer's disease(0+1); Neural Circuit(1+0); Motor(1+0); Memory(1+0); Timing(1+0); Temporal processing(1+0); Cerebellum(1+0);
【模式生物】
【方法技术】Electrophysiology(1+0); fMRI(1+0); Optogenetics(1+0);
【简述】Mechanisms of neuronal vulnerability in Alzheimer's disease
【研究论文】Nature Neuroscience(1); Neuron(2); JNS(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ralph A. NixonJennifer Choi TudorYears: 2017; Recipients: Levy, EfratMathews, Paul M.Wilson, Donald A (co-PI) [⬀] ; Code: RF1; Title/Keywords: Neuronal Protective Apolipoprotein E2-Mediated Endocytic and Exocytic Pathways@ New York University School of Medicine; Matching Score: 0.936000476Assoc Prof.
NIH-NINDS??Bethesda, MD, USACraig Blackstone

NIH-NINDS
【研究方向】Glutamate receptor(6+0); Morphology(3+1); Regulation(3+0); Disorder(0+3); Neurotransmitter(2+0); Modulation(2+0); GABAA receptor(2+0); Synaptic Plasticity(2+0); Disease(0+2); Motor(1+1); Mutant(1+0); Amino acid(1+0); Receptor(1+0); Ligand gated ion channel(1+0); Metabotropic glutamate receptor(1+0); Ion Channel(1+0); Membrane(1+0); Axon(1+0); Mitochondria(1+0); Pathogenesis(0+1); Parkinson's disease(1+0); Movement disorder(0+1); Neuromuscular(0+1); Sense(1+0); Retina(1+0); Metabolism(1+0); Encoding(0+1); Dynamics(1+0);
【模式生物】Rat(4+0); Mouse(1+0); Drosophila(1+0);
【方法技术】Protein(6+1); Gene(1+2); Model(0+1);
【简述】Cell Biology Section
【研究论文】Science(1); Curr Biol.(1); eLife(1);
【综述】Nature Reviews Neuroscience(1); 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
David G. StandaertNeggy RismanchiYears: 2011 — 2018; Recipients: Blackstone, Craig; Code: ZIA; Title/Keywords: Er Network Shaping Mechanisms in the Hereditary Spastic Paraplegias@ Neurological Disorders and Stroke; Matching Score: 0.903013859
Stanford002003Palo Alto, CA, USAJin Hyung Lee

Stanford
【研究方向】Environment(3+0); Engineering(1+0);
【模式生物】
【方法技术】Protein(2+0); Biochemistry(1+0);
【简述】
【研究论文】Cell(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Wesley Charles SmithYears: 2018 — 2023; Recipients: Chichilnisky, EduardoGanguli, Surya (co-PI) [⬀] Lee, Jin HyungMcclelland, James (co-PI) [⬀] ; Code: N/A; Title/Keywords: Nrt: Neurotech - Bringing Technology to Neuroscience@ Stanford University; Matching Score: 1.009001304Assoc Prof.
NYU015028New York, NY, USAEric Lang

NYU
【研究方向】Cerebellum(3+2); Motor cortex(0+4); Modulation(3+0); Timing(0+3); Synchrony(2+0); Motor(0+2); Motor control(1+1); 5-HT(1+0); Synaptic Transmission(1+0); Gap junction(1+0); LTD(1+0); Oscillation(1+0); Development(1+0); Synapse(1+0); Microcircuit(1+0); Execution(0+1); Memory(1+0); Learning and memory(1+0); Perirhinal cortex(1+0); Hippocampus(1+0);
【模式生物】Rat(5+0);
【方法技术】In vivo(1+0);
【简述】Neuronal basis of motor control
【研究论文】Nature(1); Cell(4); JNS(5);
【综述】Nature Reviews Neuroscience(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David Olton, Apostolos P. Georgopoulos, Rodolfo R. Llinás, Denis PareTianyu Tang, Sarah P. Marshall, Timothy Adam Blenkinsop, Joseph Chen, Jianqiang Xiao, Alejandro SalahFlorence ChaverneffYears: 2015 — 2016; Recipients: Lang, Eric J; Code: R21; Title/Keywords: Role of the Cerebellum in Temporal Processing@ New York University School of Medicine; Matching Score: 1004322Assoc Prof.
UW021010Seattle, WA, USAScott O. Murray

UW
【研究方向】Vision(0+8); Object(0+6); Visual cortex(0+2); Structure(0+1); Environment(0+1); Sense(0+1); Depth(0+1); Form(0+1); Object recognition(0+1); Attention(0+1); Knowledge(0+1); Imaging(0+1);
【模式生物】
【方法技术】Behavior(0+2); fMRI(0+2); MRI(0+1); Computation(0+1); Theory(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
UW021010Seattle, WA, USACecilia Moens

UW
【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, USASharon Sha

Stanford
【研究方向】Neurology(6+0); Disease(4+0); Therapy(4+0); Imaging(4+0); Alzheimer's(3+0); Degeneration(2+0); Psychiatry(2+0); Huntington's disease(2+0); Alzheimer's disease(1+0); Movement disorder(1+0); Cognition(1+0); Body(1+0); Motor Neuron(1+0); Learning(1+0); Working memory(1+0); Executive function(1+0); Semantic(1+0); Caudate(1+0);
【模式生物】
【方法技术】Gene(3+0); Behavior(3+0); MRI(2+0); PET(1+0);
【简述】
【研究论文】Nature(1); Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
Harvard001001Boston, MA, USAMatthew Anderson

Harvard
【研究方向】Chloride(12+0); Autism(5+5); Epilepsy(4+2); Synapse(3+3); Regulation(5+0); Glutamate(3+1); Mutant(3+0); Membrane(3+0); Disease(1+2); VTA(1+2); Receptor(0+2); Ion Channel(0+2); Synaptic Transmission(2+0); Seizure(2+0); Development(1+1); Disorder(0+2); Infection(2+0); Imaging(1+1); Temporal lobe(2+0); Cytokine(1+0); Calcium channel(1+0); Potassium channel(1+0); Plasticity(0+1); Glial cell(1+0); Glia(0+1); Trafficking(1+0); Neurology(1+0); Pathology(1+0); Angelman(1+0); Stroke(1+0); Sense(1+0); Vocalization(0+1); Social(0+1); Motivation(0+1); Social behavior(0+1); Sleep(1+0); Hippocampus(1+0); CA2(1+0); Hypothalamus(1+0);
【模式生物】Mouse(5+2); Human(2+2);
【方法技术】Gene(5+9); Channel(6+1); Protein(3+2); Behavior(0+4); Virus(3+0); Electrophysiology(0+3); Model(1+1); In vivo(0+1); Cell culture(0+1); MRI(1+0); Optogenetics(0+1); Computation(0+1);
【简述】Molecular and Circuit Defects Underlying Human Genetic Forms of Autism and Epilepsy
【研究论文】Cell(2); JNS(1);
【综述】Annals Of Neurology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Umberto De Girolami, Jeffrey A. GoldenYears: 2018 — 2019; Recipients: Anderson, Matthew P; Code: R01; Title/Keywords: Vta Vglut2 Sociability Circuit in Genetic Autism@ Beth Israel Deaconess Medical Center; Matching Score: 0.922007731Assoc Prof.
Stanford002003Palo Alto, CA, USABrian Rutt

Stanford
【研究方向】Imaging(13+2); Disease(2+2); Sclerosis(3+0); Contrast(2+1); Structure(2+0); Alzheimer's disease(2+0); Stroke(2+0); Tumor(1+1); White matter(2+0); Microglia(1+0); Cell fate(1+0); Alcohol(1+0); Muscle(1+0); Memory(1+0); Acquisition(1+0); Blood flow(1+0); Cardiovascular(0+1); Vessel(1+0); Dynamics(1+0); Optical(1+0); Nucleus accumbens(1+0);
【模式生物】Human(4+1); Mouse(3+0);
【方法技术】MRI(18+4); Model(6+0); In vivo(4+0); Computation(2+0); Theory(1+0); Algorithm(1+0);
【简述】
【研究论文】Cell(3); PNAS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard Frayne, Sean DeoniYears: 2017 — 2018; Recipients: Rutt, Brian Keith; Code: R01; Title/Keywords: Accessing the Neuronal Scale: Designing the Next Generation of Compact Ultra High Field Mri Technology For Order-of-Magnitude Sensitivity Increase in Non-Invasive Human Brain Mapping@ Stanford University; Matching Score: 0.958013247Prof.
NIH-NIMH??Bethesda, MD, USAMiles Herkenham

NIH-NIMH
【研究方向】Stress(8+2); Social(4+1); Environment(1+2); Receptor(2+0); Microglia(2+0); Neurogenesis(1+1); Psychiatry(2+0); Neuroinflammation(2+0); Regulation(1+0); Modulation(1+0); Structure(0+1); Glia(0+1); Development(1+0); CNS(1+0); Anxiety(0+1); Depression(0+1); Interneuron(1+0); Learning(1+0); Aversive(1+0); Neuroendocrine(1+0); Hormone(0+1); Decoding(1+0); PFC(1+0); mPFC(1+0);
【模式生物】Mouse(7+0); Stem Cell(0+2); Rat(1+0);
【方法技术】Behavior(3+1); Gene(1+1); Protein(0+1); Ex vivo(0+1); In vitro(0+1); Histochemistry(0+1);
【简述】
【研究论文】JNS(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Helen S. Mahut, Walle J. H. Nauta, Edward Vaughan Evarts, Philip GoldRachel E. Speer, Rebecca A. Brachman, Christopher Higham, Chelsie N Poffenberger, Nicole Wrigley, Devon Rene Oskvig, Michael  L. Lehmann, Rachel (Speisman) Scheinert, Stacey Kigar, Ronald P. Hammer, Linda S. Brady, Yasmin Hurd, Ning Quan, Andrea G. Hohmann, Jane A. Foster, Rebecca A. BrachmanCandace PertYears: 2013; Recipients: Herkenham, Miles A.; Code: ZIA; Title/Keywords: Synaptic Mechanisms of Amygdala-Dependent Behaviors@ National Institute of Mental Health; Matching Score: 0.958
MIT005002Boston, MA, USAAlexander Rakhlin

MIT
【研究方向】Learning(4+0); Neural network(3+0); Convolutional Neural Network(3+0); Machine learning(2+0); Vision(1+0); Imagery(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
Tomaso A. PoggioYears: 2015 — 2018; Recipients: Rakhlin, Alexander; Code: N/A; Title/Keywords: Collaborative Research: Novel Computational and Statistical Approaches to Prediction and Estimation@ University of Pennsylvania; Matching Score: 0.952000104Assoc Prof.
Stanford002003Palo Alto, CA, USAAnthony Oro

Stanford
【研究方向】Development(7+2); Tumor(4+2); Receptor(4+0); Transcription(2+1); Regulation(2+0); Structure(2+0); Proliferation(2+0); Differentiation(0+2); Therapy(2+0); Transgenic(1+0); Knockout(1+0); Pluripotent stem cells(1+0); Regeneration(0+1); Embryo(0+1); Pathogenesis(0+1); Ataxias(1+0); Cocaine(1+0); Dynamics(1+0);
【模式生物】Stem Cell(7+4); Human(5+4); Mouse(2+1); Drosophila(2+0);
【方法技术】Protein(5+0); Gene(3+1); In vitro(0+1); Behavior(1+0); Model(0+1);
【简述】
【研究论文】Nature(3); Science(1); Cell(9); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
013294Prof.
NIH-NHGRI??Bethesda, MD, USAEllen Sidransky

NIH-NHGRI
【研究方向】Disease(16+7); Disorder(3+4); Parkinson's disease(1+1); Translation(0+1); Development(0+1); Pluripotent stem cells(0+1); Pathology(0+1); Therapeutics(1+0); Therapy(0+1); Parkinson's(1+0); Body(0+1); Neuroimaging(0+1);
【模式生物】Stem Cell(1+2); Human(1+0); Mouse(1+0);
【方法技术】Gene(2+4); Model(4+1); Protein(1+1);
【简述】Molecular Neurogenetics Section
【研究论文】Cell(1); Neuron(1); JNS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAUn J. Kang

Columbia
【研究方向】Therapy(1+7); Plasticity(1+3); Basal ganglia(0+4); Parkinson's disease(1+2); Movement disorder(0+3); Neurology(2+0); Pathogenesis(0+2); Dopamine(0+1); Transcription(0+1); Translation(1+0); Dopamine neuron(0+1); Development(0+1); Disease(0+1); Hypoxia(1+0); Gait(1+0); Modality(0+1); Imaging(0+1);
【模式生物】Mouse(1+1); Human(0+1); Rodent(0+1);
【方法技术】Model(0+6); Gene(0+4); Pharmacology(0+2); Protein(1+0);
【简述】Molecular Mechanisms of Neurodegeneration; Models of Parkinson's Disease; Basal Ganglia Circuitry and Plasticity;
【研究论文】Nature(1); Cell(1);
【综述】Nature Review Neurology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Fernanda Carvalho Poyraz, Robert C. KrencikYears: 2018; Recipients: Kang, Un Jung; Code: R21; Title/Keywords: Regulation of L-Dopa Induced Dyskinesia by the Substantia Nigra Pars Reticulata@ Columbia University Health Sciences; Matching Score: 1Prof.
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
WUSTL009032Saint Louis, MO, USAJoel S. Perlmutter

WUSTL
【研究方向】Disease(7+2); Cognition(0+3); Neurology(2+0); Dystonia(0+2); Neuroimaging(0+2); Dopamine(0+1); Degeneration(1+0); Aging(1+0); Alpha-synuclein(1+0); Movement disorder(0+1); Neuroprotection(1+0); Motor(0+1); Gait(1+0); Blood flow(1+0); Resting state(1+0); Imaging(0+1); Basal ganglia(0+1);
【模式生物】Non-human primate(2+0); Primate(2+0);
【方法技术】PET(2+7); Model(2+2); DBS(1+1); Gene(0+1); MRI(0+1); Behavior(0+1); fMRI(1+0);
【简述】Pharmacology, physiology and pathophysiology of basal ganglia and movement disorders
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David C. MarsdenMwiza Ushe, Minna Hong, Tamara Hershey, Jonathan W. Mink, Kevin John Black, Brad A. RacetteYears: 2017 — 2018; Recipients: Perlmutter, Joel SynesTu, Zhude; Code: R01; Title/Keywords: Neuroimaging of Pde10a@ Washington University; Matching Score: 1Prof.
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
WUSTL009032Saint Louis, MO, USAJordan G. McCall

WUSTL
【研究方向】Pain(0+8); Receptor(3+1); Stress(1+3); Locus coeruleus(4+0); Anxiety(3+0); Reward(3+0); Cocaine(2+0); Emotion(0+2); Amygdala(2+0); Nucleus accumbens(2+0); LTP(1+0); APP(1+0); Nicotine(1+0); Sense(1+0); Frequency(1+0); Extinction(1+0); Context(0+1); Engineering(1+0); Imaging(0+1); PFC(1+0); mPFC(1+0);
【模式生物】Human(1+0);
【方法技术】Optogenetics(7+0); In vivo(5+1); Behavior(3+0); Pharmacology(2+1); Gene(2+0); Simulation(2+0); Mathematics(1+0);
【简述】Understanding the neural mechanisms underlying emotional dysregulation in the contexts of stress, chronic pain, and addiction
【研究论文】Nature(2); Science(1); Cell(1); Neuron(4); JNS(2); Nature Communications(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Matthew J. Will, Michael R. Bruchas, Robert W. GereauMakenzie R. NorrisYears: 2013 — 2014; Recipients: Mccall, Jordan G.; Code: F31; Title/Keywords: Dissecting the Role of Locus Coeruleus Circuitry in Anxiety-Like Behaviors@ Washington University; Matching Score: 1002138Assist Prof.
Columbia006008New York, NY, USAJulio Fernandez

Columbia
【研究方向】Muscle(2+2); Engineering(3+1); Ion Channel(0+1); Structure(1+0); Vesicle fusion(1+0); Cell migration(0+1); Adhesion(0+1); Dynamics(0+1);
【模式生物】
【方法技术】Protein(7+7); Microscopy(1+1); Biophysics(1+0); Model(1+0);
【简述】Biophysics/Ion Channels; Cellular/Molecular/Developmental Neuroscience;
【研究论文】Nature(7); Science(3); Cell(1); Nature structural & molecular biology(2);
【综述】Physical Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Francisco Bezanilla, Erwin NeherEdward Eckels, Kirstin A. Walther, Arun P. Wiita, Rodolfo I. Hermans, Pallav Kosuri, Daniel Echelman, Guillermo Alvarez de Toledo, Andres F. Oberhauser, Shubhasis Haldar, Rafael Tapia-Rojo, Alvaro Alonso-Caballero, Sergi Garcia-Manyes, Raul Perez-Jimenez, Jorge Alegre-Cebollada, Ionel Popa, Jessica Valle-OreroYears: 2013 — 2016; Recipients: Fernandez, Julio; Code: N/A; Title/Keywords: Idbr: High Throughput Single Molecule Afm Force-Spectrometer@ Columbia University; Matching Score: 1039134Prof.
UW021010Seattle, WA, USAMartha Bosma

UW
【研究方向】Ion Channel(0+4); Development(0+2); CNS(0+2); Hypothalamus(0+2); Receptor(0+1); Rhythm(0+1); Proliferation(0+1); Differentiation(0+1); Olfaction(0+1); Motor(0+1); Motor Neuron(0+1); Hormone(0+1); Imaging(0+1); Median eminence(0+1);
【模式生物】
【方法技术】Protein(0+1); Electrophysiology(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
CalTech072006Pasadena, CA, USAPietro Perona

CalTech
【研究方向】Vision(8+5); Learning(6+3); Object(7+0); Category(5+0); Machine(4+1); Olfaction(0+4); Intelligence(4+0); Bayesian(2+0); Spectral(1+0); Context(1+0); Attention(1+0); Categorization(1+0); Art(1+0); Knowledge(0+1); Machine learning(0+1); Signal processing(0+1);
【模式生物】Human(0+1);
【方法技术】Computation(0+5); Behavior(0+4); Psychophysics(0+4); Model(3+1); Channel(1+0); Mathematics(0+1);
【简述】Vision, Audition, Olfaction, Learning and Computation, Psychophysics, Decision, Behavior, Artificial Systems, Robotics
【研究论文】Science(1); NIPS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jitendra MalikCharless C. Fowlkes, Stefano Soatto, Luis Goncalves, Mario E. Munich, Markus Weber, Xiaolin Feng, Domitilla Del Vecchio, Li Fei-Fei, Silvio Savarese, Christophe J. Basset, Anelia Angelova, Claudio Fanti, Mohamed A. Aly, Marco Andreetto, Ryan G. Gomes, Merrielle Spain, Jason T. Rolfe, Peter Welinder, Ronnie E. Bryan, Greg GriffinDavid J. Anderson, Rufin VanRullenYears: 2016 — 2020; Recipients: Perona, PietroEberhardt, FrederickYue, Yisong; Code: N/A; Title/Keywords: Ri: Medium: Compcog: Automated Discovery of Macro-Variables From Raw Spatiotemporal Data@ California Institute of Technology; Matching Score: 1073773Prof.
JHU010012Baltimore, MD, USABarbara Slusher, MAS

JHU
【研究方向】Development(0+3); Disease(0+1); Therapy(0+1); Metabolism(0+1);
【模式生物】
【方法技术】
【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
Stanford002003Palo Alto, CA, USAH Craig Heller

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.
Stanford002003Palo Alto, CA, USAScott Lambert

Stanford
【研究方向】Pediatric(6+0); Vision(2+2); Inflammation(2+0); Steroid(2+0); Therapy(1+0); Posture(1+0); Muscle(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.
Stanford002003Palo Alto, CA, USARosa Cao

Stanford
【研究方向】Morphology(1+0); Blood flow(1+0);
【模式生物】Rodent(1+0);
【方法技术】In vivo(1+0); In vitro(1+0);
【简述】
【研究论文】Science(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ned Block, Christopher I. Moore000239Assist Prof.
Yale014011New Haven, CT, USAJaime Grutzendler

Yale
【研究方向】Environment(0+2); Disease(0+2); Plasticity(0+1); Microglia(0+1); Neurodegenerative disease(0+1); Blood flow(0+1); Cerebrovascular(0+1); Dynamics(0+1); Imaging(0+1); Optical(0+1);
【模式生物】
【方法技术】In vivo(0+2); Microscopy(0+1); Optogenetics(0+1);
【简述】Alzheimer Disease; Astrocytes; Axons; Blood-Brain Barrier; Capillaries; Cerebrovascular Circulation; Microscopy; Nerve Fibers, Myelinated; Neuronal Plasticity; Regional Blood Flow; Microglia; Neurodegenerative Diseases; Pericytes.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USASharona Gordon

UW
【研究方向】Sense(0+6); Ion Channel(0+5); Membrane(0+3); Signal transduction(0+2); Environment(0+1); Temperature(0+1);
【模式生物】
【方法技术】Channel(0+3); Biochemistry(0+1); Behavior(0+1); Electrophysiology(0+1);
【简述】Research  Molecular basis of sensory transduction.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAMargaret Rice

NYU
【研究方向】Dopamine(4+4); Regulation(2+0); Chemical neuroscience(2+0); Basal ganglia(1+1); Neurotransmitter(1+0); Modulation(0+1); Acetylcholine(1+0); Dopamine neuron(0+1); Dendrite(1+0); Parkinson's disease(0+1); Alpha-synuclein(0+1); Movement disorder(0+1); Motor(0+1); Exercise(0+1); Reward(0+1); Metabolism(0+1); Hormone(0+1); Striatum(0+1); Substantia nigra(0+1);
【模式生物】Mouse(2+0); Rodent(1+0);
【方法技术】Protein(1+1); Behavior(1+0); Optogenetics(0+1);
【简述】Neurochemistry and neurophysiology of the nigrostriatal dopamine pathway
【研究论文】JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ralph N. AdamsStephanie Cragg, Billy T. Chen, Li Bao, Zsuzsanna Sidlo, Melissa  A. Stouffer, Christian R. LeeYears: 2015 — 2019; Recipients: Rice, Margaret E; Code: R01; Title/Keywords: Dopamine Release Regulation by Co-Released Glutamate and Gaba@ New York University School of Medicine; Matching Score: 1Prof.
Harvard001001Boston, MA, USANaoshige Uchida

Harvard
【研究方向】Dopamine(10+0); Olfaction(7+0); Dopamine neuron(6+0); Reward(6+0); Sense(0+3); Striatum(3+0); Olfactory bulb(3+0); Adhesion(2+0); Neural Circuit(2+0); Learning(0+2); Decision making(1+1); Neural codes(0+2); Dynamics(0+2); Receptor(1+0); Development(1+0); Synapse(1+0); Adaptation(1+0); Form(1+0); Somatosensory(1+0); Chemical sense(1+0); Motor(1+0); Memory(0+1); Inference(1+0); Parental behavior(1+0); PFC(1+0); mPFC(1+0); OFC(1+0); Paraventricular nucleus(1+0); VTA(1+0);
【模式生物】Mouse(3+2); Rat(3+1);
【方法技术】Behavior(3+8); Computation(1+1); Gene(0+1); Virus(1+0); Multi-electrode(0+1);
【简述】Neurobiology of decision-making
【研究论文】Nature Neuroscience(3); Nature Communications(1);
【综述】Annual Review Of Neuroscience(1); Nature Reviews Neuroscience(1); 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
Masatoshi Takeichi, Kensaku Mori, Zachary F. MainenNeir Eshel, JU TIAN, William S. Menegas, Kevin M. Cury, Mackenzie Weygandt Mathis, Clara K Starkweather, Jeremiah Y. Cohen, Sebastian Haesler, Bénédicte M Babayan, HyungGoo R. Kim, Athar N. Malik, Rafi HaddadYears: 2019; Recipients: Murthy, Venkatesh N [⬀] Uchida, Naoshige; Code: R01; Title/Keywords: Emergence of Valence Coding in the Ventral Striatum@ Harvard University; Matching Score: 1007639Prof.
UCLA011013Los Angeles, CA, USADavid J. Miklowitz

UCLA
【研究方向】Bipolar(0+7); Disorder(0+6); Psychiatry(0+3); Schizophrenia(0+2); Environment(0+1); Therapy(0+1); Depression(0+1);
【模式生物】
【方法技术】Behavior(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
UCLA011013Los Angeles, CA, USASophie Sokolow

UCLA
【研究方向】Disease(0+2); Cognition(0+2); Therapeutics(0+1);
【模式生物】
【方法技术】Pharmacology(0+2); Gene(0+1);
【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, 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.
UCSD011017San Diego, CA, USACharles F. Stevens

UCSD
【研究方向】Synaptic Transmission(0+2); Regulation(0+1); Membrane(0+1); Neurotransmitter release(0+1); Development(0+1); Synapse(0+1);
【模式生物】
【方法技术】Cell culture(0+1); Anatomy(0+1); Electrophysiology(0+1); Theory(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, 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.
Stanford002003Palo Alto, CA, USABrian A Wandell

Stanford
【研究方向】Vision(8+7); Neuroimaging(2+4); Development(1+3); Visual cortex(2+2); White matter(4+0); Imaging(1+2); Neural Circuit(2+0); Inference(2+0); Structure(1+0); Degeneration(1+0); Therapy(1+0); Injury(0+1); Depression(1+0); Cognition(1+0); Perception(1+0); Contrast(1+0); Spectral(1+0); Learning(1+0); Acquisition(0+1); Engineering(1+0); Methodology(0+1); Diffusion MRI(1+0); Connectomics(1+0); Connection(0+1); V2(1+0); V3(1+0);
【模式生物】Human(8+3); Macaque(1+0);
【方法技术】MRI(3+3); Computation(2+3); Model(3+2); In vivo(2+0); Anatomy(1+0); Behavior(1+0); Simulation(1+0);
【简述】
【研究论文】Science(2); Neuron(1); Nature Communications(1); Nature Methods(1); PNAS(2); Curr Biol.(1); Cerebral Cortex(1); PLOS Computational Biology(1);
【综述】Annual Review Of Neuroscience(1); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
R Duncan Luce, Edward N. PughJonathan Sage Beier, Rehan Khan, Allen B. Poirson, Andreas M. Rauschecker, Thom Carney, Laurence T. Maloney, David H. Brainard, E. J. Chichilnisky, Peter B. Catrysse, Jeffrey M. DiCarlo, Alyssa A. Brewer, David E. Nadell, Feng Xiao, Junjie Liu, Anthony Sherbondy, Stephen A. Engel, Dora Hermes, Hiroshi Horiguchi, Keith Main, Aviv Mezer, Anthony B. Morland, Lynn A. Olzak, Alex R. Wade, Jonathan Winawer, Kaoru Amano, Ariel Rokem, Heidi A. Baseler, Serge O. Dumoulin, Kendrick Norris Kay, Franco Pestilli, Hiromasa Takemura, Michal Ben-Shahar Chechik, Robert F. Dougherty, Lee Michael PerryJanos Aczel, Nikos K. Logothetis, Stelios M. Smirnakis, Hiromasa TakemuraYears: 2012 — 2016; Recipients: Wandell, Brian; Code: N/A; Title/Keywords: The Human Visual Pathways and Skilled Reading@ Stanford University; Matching Score: 0.915Prof.
NYU015028New York, NY, USAJonathan Brodie

NYU
【研究方向】Neurotransmitter(0+5); Neuroimaging(0+3); Plasticity(0+2); Addiction(2+0); Cocaine(1+1); Modulation(0+1); Dopamine(0+1); GABA(0+1); Therapy(1+0); Drugs of Abuse(0+1); Alcohol(0+1); Nicotine(0+1); Schizophrenia(0+1); Metabolism(1+0);
【模式生物】Non-human primate(0+3); Human(0+2); Primate(0+2);
【方法技术】Pharmacology(0+4); PET(0+3); In vivo(0+1); Behavior(0+1);
【简述】Functional neuroimaging of pharmacological activity
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Emeritus
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.
MIT005002Boston, MA, USADavid Rand

MIT
【研究方向】Social(3+0); Cognition(2+0); Disease(1+0); Emotion(1+0);
【模式生物】Human(5+0);
【方法技术】Behavior(2+0); Model(2+0); Theory(1+0);
【简述】
【研究论文】Nature(3); Science(3); Nature Communications(2);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Martin Nowak, Joshua D. GreeneAdam Bear, Oliver P. Hauser, Jillian J. Jordan, Gordon T. Kraft-Todd, Michael N. Stagnaro, Antonio A. Arechar, Jeremy D. Cone, Gordon Pennycook, Alexander Peysakhovich, Jonathan Schulz, Christina Starmans, Rimma Teper, Jim A.C EverettPaul Bloom, Nicholas Christakis, Jonathan D. Cohen, Yarrow Dunham, Drew Fudenberg, Richard J. Zeckhauser013051Assoc 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.
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.
NYU015028New York, NY, USAEric Sigmund

NYU
【研究方向】Imaging(18+2); Muscle(1+6); Diffusion tensor imaging(5+2); Disease(0+2); Tumor(2+0); Exercise(1+1); Acquisition(0+2); Diffusion MRI(1+1); Structure(1+0); Development(0+1); Disorder(0+1); Sclerosis(1+0); Contrast(0+1); Body(0+1); Temperature(1+0); Blood flow(0+1); Connection(0+1);
【模式生物】Human(0+1);
【方法技术】MRI(14+2); Model(3+0); Gene(2+0); Behavior(0+1); PET(0+1);
【简述】
【研究论文】
【综述】Physical Review(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003423Assoc Prof.
Harvard001001Boston, MA, USAClifford Woolf

Harvard
【研究方向】Pain(16+4); Neuropathic pain(6+0); Disease(1+4); Injury(4+1); Sense(2+3); Motor Neuron(1+4); Regeneration(3+1); Axon(3+1); Plasticity(2+1); Receptor(1+1); Inflammation(1+1); Touch(2+0); Signal transduction(0+1); Ion Channel(0+1); LTP(1+0); Structural plasticity(0+1); Transcription(0+1); Translation(1+0); Glia(1+0); Anesthesia(1+0); Development(1+0); Proliferation(1+0); Differentiation(1+0); CNS(1+0); Embryo(1+0); Axon growth(1+0); Neurodegenerative disease(0+1); Psychiatry(1+0); Biomarker(1+0); LRRK2(1+0); Neuroprotective(0+1); Neuroprotection(0+1); Nociception(1+0); Inflammatory pain(1+0); Analgesics(0+1); Memory(1+0); Stress(1+0); Optical(1+0); CA2(1+0);
【模式生物】Stem Cell(3+2); Mouse(2+0); Human(1+0);
【方法技术】Protein(3+0); Behavior(2+1); Gene(0+2); Model(1+1); Cell culture(0+1); Electrophysiology(0+1); Optogenetics(1+0); Bioinformatics(0+1);
【简述】Adaptive and maladaptive plasticity in sensory and motor systems
【研究论文】Nature Neuroscience(1); Neuron(1); Nature Communications(5);
【综述】Annual Review Of Neuroscience(1); Trends In Neurosciences(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Patrick D. WallRobert S. Griffin, Jared Sprague, Nesibe Z Temiz, Michael Costigan, Nader Ghasemlou, Ru Rong Ji, Istvan Nagy, Stephen Thompson, Isaac Chiu, Yung-Chih Cheng, Seungkyu Lee, Tammy Szu-Yu Ho, Jaehoon Shim, Fletcher A. White, Dong-ho Youn, Binshtok Alexander, Liam E. Browne, Sun Wook HwangMaria Fitzgerald, Pabitra Sahoo, Lucia SivilottiYears: 2008 — 2012; Recipients: Woolf, Clifford J; Code: R01; Title/Keywords: Tetrahydrobiopterin and Pain@ Massachusetts General Hospital; Matching Score: 0.958088098Prof.
Stanford002003Palo Alto, CA, USAHeike Daldrup-Link

Stanford
【研究方向】Imaging(25+4); Tumor(8+0); Pediatric(3+2); Therapy(1+2); Contrast(3+0); Concept(1+1); Translation(1+0); Transplantation(1+0); Disease(1+0); Therapeutics(1+0); Optical imaging(1+0);
【模式生物】Stem Cell(5+0); Human(2+0); Mouse(1+0);
【方法技术】MRI(9+0); In vivo(2+1); In vitro(1+0); PET(1+0); Microscopy(1+0); Model(1+0);
【简述】
【研究论文】Nature(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
008795Prof.
WUSTL009032Saint Louis, MO, USAPhilip V. Bayly

WUSTL
【研究方向】Engineering(1+2); Development(0+1); Embryo(0+1); Brain injury(0+1); Biomechanics(1+0); Context(0+1); Dynamics(0+1); Imaging(0+1); Optical(0+1);
【模式生物】Human(0+1);
【方法技术】Model(0+2); Behavior(0+1); Mathematics(0+1);
【简述】The application of nonlinear dynamics and vibrations to mechanical and biomedical systems
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Stanford002003Palo Alto, CA, USAVinod Menon

Stanford
【研究方向】Cognition(7+4); Autism(5+1); Psychiatry(5+0); Learning(2+3); Development(2+1); Disorder(2+1); Reward(3+0); Dynamics(3+0); Neuroplasticity(2+0); Neural Circuit(2+0); Cognitive neuroscience(2+0); Social(1+1); Social communication(2+0); Neuroimaging(2+0); Network Interaction(1+0); Neurology(1+0); Anxiety(1+0); Schizophrenia(1+0); Perception(1+0); Attention(1+0); Decision making(1+0); Inhibitory control(1+0); Emotion(0+1); Imaging(0+1); PFC(1+0); mPFC(1+0);
【模式生物】Human(0+1);
【方法技术】Computation(0+3); Model(2+1); Mathematics(3+0); Behavior(0+1);
【简述】
【研究论文】Science(1); Nature Neuroscience(1); JNS(3); Nature Communications(3); PNAS(4); PLoS Biol.(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Walter J. FreemanAnjali K. Bhatara, Maria Barth, Maria Elena Barth, Jonathan Nicholas, DS Adnan Majid, Aarthi Padmanabhan, Miriam Rosenberg-Lee, Lang ChenDaniel J. LevitinYears: 2018; Recipients: Menon, Vinod; Code: R37; Title/Keywords: Longitudinal Neurocognitive Studies of Mathematical Disabilities: Trajectories and Outcomes@ Stanford University; Matching Score: 1Prof.
NIH-NEI??Bethesda, MD, USAAnand Swaroop

NIH-NEI
【研究方向】Degeneration(7+0); Disease(6+0); Age-related(5+0); Retina(4+0); Photoreceptor(3+0); Development(2+0); Metabolism(2+0); Mutant(1+0); Regulation(1+0); Differentiation(1+0); Pluripotent stem cells(1+0); Vessel(1+0); Encoding(1+0);
【模式生物】Stem Cell(6+0); Mouse(1+0);
【方法技术】Gene(1+0); In vivo(1+0); Ex vivo(1+0);
【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, USAWah Chiu

Stanford
【研究方向】Structure(15+1); Dynamics(3+0); Membrane(1+1); Mutant(1+0); Signal transduction(0+1); Modulation(1+0); Vesicle(1+0); Contrast(1+0); Methodology(0+1); Machine(0+1); S1(1+0);
【模式生物】
【方法技术】Virus(4+1); Model(4+0); Protein(2+1); Gene(1+0); Channel(1+0); In vitro(1+0); MRI(1+0); Microscopy(1+0); Computation(1+0);
【简述】
【研究论文】Nature(1); Cell(2); Nature Communications(1); PNAS(2); PLoS Biol.(1); eLife(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
027239Prof.
Columbia006008New York, NY, USAMichael Shadlen

Columbia
【研究方向】Vision(7+0); Decision making(2+2); Sense(2+0); Visual motion(2+0); Memory(0+2); Neural codes(2+0); LIP(2+0); Synchrony(1+0); Systems Neuroscience(0+1); Cognition(1+0); Perception(1+0); Reasoning(0+1); Reward(1+0); Decoding(1+0); PFC(1+0); PPC(1+0); Visual cortex(1+0);
【模式生物】Macaque(4+0); Human(1+1); Monkey(1+0);
【方法技术】Computation(3+0); Behavior(2+0); Psychophysics(2+0); fMRI(1+0);
【简述】Synapses and Circuits; Cognitive/Systems Neuroscience;
【研究论文】Nature(3); Science(1); Nature Neuroscience(1); Neuron(3); JNS(4); Cerebral Cortex(1); 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
Ralph D. Freeman, William T. NewsomeRebecca C. Hendrickson, Nicholas Singletary, Yul H R Kang, Jamie Roitman, Mark Mazurek, Timothy D. Hanks, Roozbeh Kiani, Peter B. Meilstrup, Shinichiro Kira, Anne K. Churchland, Jochen Ditterich, Joshua Gold, Peter Janssen, Roozbeh Kiani, S Shushruth, Luke Woloszyn, Danique Jeurissen, Natalie Steinemann, Matthew Leon, Alex C. Huk, Tianming Yang, Victor de Lafuente, Luc PJ Selen, Mehrdad Jazayeri, Christopher R. FetschThom Carney, John Palmer, J Anthony Movshon, Kenneth H. BrittenYears: 2016 — 2018; Recipients: Shadlen, MichaelShohamy, Daphna [⬀] Bakkour, Akram (co-PI) [⬀] ; Code: N/A; Title/Keywords: Episodic Memory Contributions to Value-Based Decision Making@ Columbia University; Matching Score: 0.915029677Prof.
Stanford002003Palo Alto, CA, USAKyle Loh

Stanford
【研究方向】Differentiation(6+2); Pluripotent stem cells(8+0); Development(4+3); Embryo(4+3); Reprogramming(5+0); Regeneration(2+0); Reproduction(2+0); Form(2+0); Aversive(2+0); Cell therapy(0+1);
【模式生物】Stem Cell(36+2); Human(15+3); Mouse(6+0);
【方法技术】
【简述】
【研究论文】Nature(2); Science(2); Nature Communications(1); PNAS(1);
【综述】Physiological Reviews(2); Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Irving L. WeissmanCarolyn E Dundes, Jonas L. Fowler002156Assist 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.
Stanford002003Palo Alto, CA, USAShai Friedland

Stanford
【研究方向】Gastrointestinal(11+1); Imaging(3+0); Disease(2+0); Therapy(2+0); Development(0+1); Pathology(1+0); APP(1+0); Infection(1+0); Learning(1+0);
【模式生物】
【方法技术】In vivo(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
004966Prof.
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
Columbia006008New York, NY, USAElias Issa

Columbia
【研究方向】Vision(0+5); Sense(1+1); Inference(0+2); Connection(0+2); Network Interaction(0+1); Environment(0+1); Systems Neuroscience(0+1); Object(0+1); Object recognition(0+1); Face(1+0); Learning(0+1); Sleep(1+0); Bayesian(0+1); Machine learning(0+1); Neural network(0+1); Imaging(0+1); Visual cortex(0+1); Temporal lobe(1+0); Auditory cortex(1+0); A2(1+0);
【模式生物】Macaque(1+0); Marmoset(0+1); Human(0+1); Primate(1+0);
【方法技术】Computation(0+3); Model(0+2); Anatomy(0+1); fMRI(1+0); Optogenetics(0+1); Theory(0+1);
【简述】Cognitive/Systems Neuroscience ; Sensory Physiology; Theoretical Neuroscience ;
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Xiaoqin Wang, James J. DiCarloPraneeth Namburi, You-Nah Jeon, Alex J E KellYears: 2012 — 2018; Recipients: Issa, Elias B; Code: K99R00Activity Code Description:To support the second phase of a Career/Research Transition award program that provides 1 -3 years of independent research support (R00) contingent on securing an independent research position. Award recipients will be expected to compete successfully for independent R01 support from the NIH during the R00 research transition award period.; Title/Keywords: The Role of Cortical Feedback in Visual Face Processing@ Massachusetts Institute of Technology; Matching Score: 1Assist Prof.
Yale014011New Haven, CT, USATodd Constable

Yale
【研究方向】Imaging(0+3); Development(0+1); Environment(0+1); Depth(0+1); Memory(0+1); Language(0+1); Neuroimaging(0+1);
【模式生物】Human(0+1);
【方法技术】fMRI(0+5); MRI(0+3); In vivo(0+1); Anatomy(0+1); Behavior(0+1);
【简述】Anatomy; Diagnostic Imaging; Magnetic Resonance Imaging; Neurosurgery; Radiology; Neuroimaging.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAStuart J. Firestein

Columbia
【研究方向】Receptor(3+6); Olfaction(4+4); Ion Channel(0+4); Signal transduction(0+2); Membrane(0+2); Neurotransmitter(0+1); Modulation(0+1); Muscarinic(0+1); Development(0+1); Proliferation(0+1); Regeneration(0+1); Adaptation(0+1); Hormone(0+1);
【模式生物】Stem Cell(0+1);
【方法技术】Channel(1+1); In vivo(1+1); Gene(1+0); Pharmacology(0+1); Model(0+1);
【简述】Biophysics/Ion Channels; Stem Cell Biology; Cellular/Molecular/Developmental Neuroscience;
【研究论文】Nature(1); Science(1); Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Yale014011New Haven, CT, USAJanghoo Lim

Yale
【研究方向】Disease(0+11); Neurodegenerative disease(0+5); Development(0+4); Disorder(0+3); Therapeutics(0+2); Neuromuscular(0+2); Mutant(0+1); Pluripotent stem cells(0+1); Degeneration(0+1); Pathology(0+1); Pathogenesis(0+1); Ataxias(0+1); Motor Neuron(0+1); Cerebellum(0+1);
【模式生物】Stem Cell(0+3); Mouse(0+2); Human(0+1);
【方法技术】Protein(0+2); Model(0+2);
【简述】Mental Disorders; Developmental Disabilities; Neuromuscular Diseases; Motor Neuron Disease; Neurodegenerative Diseases; Spinocerebellar Ataxias.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USABrian Clark

WUSTL
【研究方向】Development(15+4); Neurogenesis(2+3); Regulation(2+2); Gliogenesis(3+0); Cell fate(1+2); Retina(1+1); Transgenic(1+0); Structure(1+0); Transcription(1+0); Glia(0+1); Adhesion(1+0); Disease(1+0); Vision(1+0); Learning(1+0); Dynamics(1+0);
【模式生物】Zebrafish(3+0); Mouse(1+1); Human(1+0); Stem Cell(1+0);
【方法技术】In vivo(1+0);
【简述】Analysis of the temporally regulated program of retinal cell type specification.
【研究论文】Science(1); Cell(4); JNS(1); Nature Methods(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jhumku Kohtz, Brian A. Link, Brian A. Link, Seth Blackshaw, Seth BlackshawYears: 2017 — 2018; Recipients: Clark, Brian S ; Code: K99; Title/Keywords: Identification of the Molecular Mechanisms Mediating Intrinsic Control of Retinal Progenitor Competence@ Johns Hopkins University; Matching Score: 1001197Assist Prof.
JHU010012Baltimore, MD, USAKathleen E. Cullen

JHU
【研究方向】Vestibular(0+10); Motor(0+3); Disorder(0+2); Multisensory(0+2); Posture(0+2); Development(0+1); Disease(0+1); Movement disorder(0+1); Injury(0+1); Cognition(0+1); Vision(0+1); Self-motion(0+1); Spatial orientation(0+1); Gait(0+1); Neural encoding(0+1); Thalamus(0+1); Cerebellum(0+1);
【模式生物】Mouse(0+1);
【方法技术】Behavior(0+3); Computation(0+3); Gene(0+1); Model(0+1);
【简述】Systems, Cognitive + Computational Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAJeffrey J Wine

Stanford
【研究方向】Ion Channel(0+2); Peptide(1+0); Sodium channel(1+0); Structure(1+0); Disease(0+1); Respiratory(1+0);
【模式生物】Human(5+1);
【方法技术】Channel(1+1); Behavior(2+0); Gene(0+1); Protein(0+1); In vivo(1+0); Electrophysiology(0+1);
【简述】
【研究论文】Science(1); Cell(1);
【综述】Physiological Reviews(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Franklin B. Krasne, Donald KennedyJohn Y. Kuwada, Mark  R. Plummer, Heinrich Reichert, Karen A. Sigvardt, Masakazu TakahataYears: 2005 — 2010; Recipients: Wine, Jeffrey J; Code: R01; Title/Keywords: Serous Cell Secretion and Cystic Fibrosis Lung Disease@ Stanford University; Matching Score: 1Prof.
UCLA011013Los Angeles, CA, USABruce H. Dobkin

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, USAAngela K Lumba-Brown

Stanford
【研究方向】Pediatric(11+2); Brain injury(7+3); Trauma(4+1); Development(2+1); Disease(2+0); Neurology(2+0); Injury(2+0); Therapy(1+0); Hemorrhage(1+0); Pain(1+0);
【模式生物】
【方法技术】Model(0+1);
【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
Assist Prof.
JHU010012Baltimore, MD, USAMollie Meffert MD,

JHU
【研究方向】Regulation(0+4); Synapse(0+4); Autism(0+3); Cognition(0+3); Development(0+2); CNS(0+2); Disease(0+2); AMPA receptor(0+1); Plasticity(0+1); Transcription(0+1); Neurodegenerative disorder(0+1); Body(0+1); Learning and memory(0+1); Knowledge(0+1); Exploration(0+1); Imaging(0+1);
【模式生物】Mouse(0+3); Human(0+1);
【方法技术】Gene(0+8); Protein(0+7); Model(0+3); Biochemistry(0+1); In vivo(0+1); Behavior(0+1); Electrophysiology(0+1); Computation(0+1); Bioinformatics(0+1);
【简述】Systems, Cognitive + Computational 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
Yale014011New Haven, CT, USASteven Zucker

Yale
【研究方向】Vision(0+7); Sense(0+1); Engineering(0+1);
【模式生物】Primate(0+1);
【方法技术】Computation(0+4); Mathematics(0+2); Model(0+1); Theory(0+1);
【简述】Biomedical Engineering; Computers; Mathematical Computing; Mathematics; Neurophysiology; Neurosciences; Robotics; Biomedical Research.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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.
Stanford002003Palo Alto, CA, USAMahendra Bhati

Stanford
【研究方向】Psychiatry(8+0); Schizophrenia(6+0); Depression(5+0); Disorder(4+0); Neurology(3+0); Alzheimer's disease(2+0); Ventral striatum(2+0); Plasticity(1+0); Therapy(1+0); Addiction(1+0); Cognition(1+0); Retrieval(1+0); Language(1+0); Semantic(1+0); Emotion(1+0);
【模式生物】
【方法技术】DBS(5+0); TMS(2+0); fMRI(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
Assoc Prof.
UW021010Seattle, WA, USAWendy Raskind

UW
【研究方向】Disease(0+2); Disorder(0+2); Dyslexia(0+2); Transgenic(0+1); Mutant(0+1); Neurodegenerative disorder(0+1); Therapy(0+1); Ataxias(0+1); Learning(0+1); Executive function(0+1);
【模式生物】Mouse(0+2); Bird(0+1);
【方法技术】Gene(0+3); Model(0+2); Protein(0+1); 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
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.
NIH-NIA??Bethesda, MD, USABryan Traynor

NIH-NIA
【研究方向】Sclerosis(15+0); Neurology(8+4); Disease(2+3); Psychiatry(3+1); Aging(4+0); Receptor(2+0); Neurodegenerative disease(1+1); Frequency(2+0); Regulation(1+0); Structure(1+0); Microglia(1+0); Disorder(1+0); Pathology(1+0); Age-related(1+0); Alzheimer's disease(1+0); Proteinopathy(1+0); Parkinson's disease(1+0); Cognition(1+0); Motor Neuron(1+0); Muscle(1+0); Sleep(1+0);
【模式生物】Human(7+2);
【方法技术】Gene(11+2); Model(1+0);
【简述】
【研究论文】Cell(1); Neuron(1);
【综述】Review(4); Annals Of Neurology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jennifer C. Schymick023841
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.
UW021010Seattle, WA, USASteve I. Perlmutter

UW
【研究方向】Motor(0+3); Plasticity(0+2); Spinal Cord Injury(0+2); Brain-Computer Interface(0+2); Regeneration(0+1); Therapy(0+1); Stroke(0+1); Neural Circuit(0+1); Sensorimotor Integration(0+1); Motor control(0+1); Optical(0+1);
【模式生物】Non-human primate(0+4); Primate(0+1); Rodent(0+1);
【方法技术】Gene(0+2); Behavior(0+2); Computation(0+2); Cell culture(0+1); Anatomy(0+1);
【简述】Behavioral Neuroscience; Brain-Computer Interfaces; Computational Neuroscience; Disorders of the Nervous System; Motor Systems and Sensorimotor Integration; Neural Circuits
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USAAnirvan Ghosh

UCSD
【研究方向】Synapse(0+8); Development(0+5); AMPA receptor(0+3); Transcription(0+3); Dendrite(0+3); Psychiatric disorder(0+3); Frequency(0+3); Connection(0+3); NMDA receptor(0+2); LTP(0+2); LTD(0+2); Synapse formation(0+2); Neural Circuit(0+2); Hippocampus(0+2); Regulation(0+1); Differentiation(0+1); Axon(0+1); Synaptogenesis(0+1); Disease(0+1); Dysfunction(0+1); Autism(0+1); Depression(0+1);
【模式生物】Human(0+2); Stem Cell(0+2);
【方法技术】Model(0+5); Gene(0+1); Biochemistry(0+1); Electrophysiology(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
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.
Princeton061009Princeton, NJ, USAAlexander Todorov

Princeton
【研究方向】Face(19+1); Social(11+2); Emotion(6+0); Cognition(5+0); Amygdala(4+0); Cognitive neuroscience(3+0); Perception(1+1); Body(2+0); Aggression(2+0); Sense(0+1); Object(0+1); Face perception(1+0); Retrieval(1+0); Social cognition(1+0); Knowledge(1+0);
【模式生物】Human(2+1);
【方法技术】Model(3+1); Behavior(2+1); Computation(1+1); fMRI(0+1); Theory(1+0);
【简述】Human Neuroscience
【研究论文】Science(3);
【综述】Annual Review Of Psychology(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John Bargh, Yaacov Trope, James S. UlemanRichard B. Lopez, Anett Gyurak, Jeremy I. Borjon, Jenny M. Porter, Virginia B. Falvello, Sean G. Baron, Chris P. Said, Peter E. Mende-Siedlecki, Aaron Kurosu, Joel Eduardo Martinez, Crystal C. Hall, Andrew D. Engell, Christopher P. Said, Sara C. Verosky, DongWon Oh, Ron Dotsch, Shuo WangSusan Fiske, Lasana T. Harris, Nikolaas N. Oosterhof, Daniel N. Osherson, Eldar Shafir, Shuo Wang, James HaxbyYears: 2010 — 2011; Recipients: Todorov, Alexander; Code: N/A; Title/Keywords: International Travel Support: Escon@ Princeton University; Matching Score: 0.915015296Prof.
UCLA011013Los Angeles, CA, USAPeter C. Whybrow

UCLA
【研究方向】Psychiatry(0+4); Disorder(0+2); Disease(0+1); Depression(0+1); Language(0+1); Emotion(0+1); Hormone(0+1);
【模式生物】Human(0+2);
【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
Harvard001001Boston, MA, USA Margaret Livingstone

Harvard
【研究方向】Face(3+17); Vision(8+8); Color(4+3); Form(4+2); Development(4+1); Art(3+2); Temporal lobe(1+3); Depth(2+1); Visual cortex(3+0); Dyslexia(2+0); Perception(2+0); Depth perception(0+2); Connection(2+0); V1(1+1); Mutant(1+0); Neurotransmitter(1+0); Modulation(0+1); Monoamine(1+0); 5-HT(1+0); Plasticity(0+1); Therapy(1+0); Face perception(1+0); Face recognition(0+1); Body(0+1); Learning(1+0); Category(0+1); Consciousness(1+0); Sleep(1+0); Encoding(1+0); Imaging(1+0); V2(0+1); Inferotemporal (IT) cortex(1+0);
【模式生物】Monkey(5+8); Primate(6+2); Macaque(3+1); Human(1+2); Drosophila(2+0);
【方法技术】Anatomy(4+2); MRI(2+4); Psychophysics(1+2); Gene(1+0); Behavior(1+0); Electrophysiology(0+1); Single-unit recording(0+1);
【简述】 Visual perception, object recognition, higher cognitive functions, vision and art
【研究论文】Nature Neuroscience(2); JNS(3); Nature Communications(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Edward Kravitz, David HubelThomas J. Davidson, Warren Woodrich Pettine, Brandon Moore, Mehdi Aghdaee, Stephen L. Macknik, Bevil R. Conway, Doris Y. Tsao, Johannes A. Haushofer, Camilo Libedinsky, Richard T. Born, Arash Yazdanbakhsh, Piers DL Howe, Heather Sternshein, Carlos Ramon Ponce, Justin L. Vincent, Michael Arcaro, Winrich A. FreiwaldRichard T. Born, Till S. Hartmann021078Prof.
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
UCSF003015San Francisco, CA, USAEdward Chang

UCSF
【研究方向】Speech(0+6); Disorder(0+2); Sense(0+2); Language(0+2); Environment(0+1); Neural Circuit(0+1); Perception(0+1); Auditory(0+1); Motor control(0+1); Dynamics(0+1); Signal processing(0+1); Motor cortex(0+1); Auditory cortex(0+1);
【模式生物】Human(0+1);
【方法技术】Behavior(0+2); Psychophysics(0+1); LFP(0+1);
【简述】Speech Mechanisms
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
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.
UW021010Seattle, WA, USASteven Carlson

UW
【研究方向】Membrane(0+5); Receptor(0+3); Development(0+2); Neurotransmitter(0+1); Calcium channel(0+1); Vesicle(0+1); Neurotransmitter release(0+1); Synaptic Transmission(0+1); Axon(0+1); Synapse(0+1); Neuromuscular(0+1); Muscle(0+1);
【模式生物】Mouse(0+1);
【方法技术】Channel(0+3); Protein(0+2);
【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, USAJames Harris

Stanford
【研究方向】Receptor(3+0); Disease(2+0); Regulation(1+0); Modulation(1+0); Cytokine(1+0); Dendrite(1+0); Synapse(1+0); Tumor(1+0); Hormone(1+0); Optical(1+0);
【模式生物】Human(1+0); Bird(1+0);
【方法技术】Protein(2+0); Gene(1+0); Theory(1+0); Simulation(1+0);
【简述】
【研究论文】Nature Communications(1);
【综述】Physical Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
011257Prof.
Stanford002003Palo Alto, CA, USAXinnan Wang

Stanford
【研究方向】Mitochondria(3+7); Axon(6+0); Regulation(3+0); Axonal transport(3+0); Imaging(3+0); Structure(2+0); Structural plasticity(2+0); Disease(2+0); Parkinson's disease(2+0); Alpha-synuclein(2+0); Fatigue(2+0); Plasticity(1+0); Development(1+0); Neurodegenerative disorder(0+1); Degeneration(1+0); Metabolism(1+0); Dynamics(0+1);
【模式生物】Drosophila(8+0); Stem Cell(2+0); Human(1+0);
【方法技术】Model(3+0); Protein(2+0); Behavior(1+0);
【简述】
【研究论文】Nature(1); Science(1); Cell(4); Nature Neuroscience(1); Neuron(1); 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
Thomas L. SchwarzYears: 2019; Recipients: Wang, Xinnan; Code: R21; Title/Keywords: A Mitochondrial Membrane-Spanning Ternary Complex Regulates Mitochondrial Motility@ Stanford University; Matching Score: 1002121Assoc Prof.
Columbia006008New York, NY, USANathaniel Sawtell

Columbia
【研究方向】Sense(6+10); Structure(0+5); Cerebellum(0+4); Plasticity(1+1); Motor(1+1); Synapse(0+1); Neural Circuit(0+1); Systems Neuroscience(0+1); Motor control(0+1); Learning and memory(0+1); Context(0+1);
【模式生物】
【方法技术】In vivo(0+1); Model(0+1);
【简述】Synapses and Circuits; Sensory Physiology; Neurobiology of Learning and Memory; Cognitive/Systems Neuroscience; Systems and Circuits;
【研究论文】Nature Neuroscience(1); Neuron(2); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Mark F. Bear, Curtis C. BellArmen Enikolopov, Qianyun Zhang, Timothy William Requarth, Karina Scalise, Shobhit Singla, Karina AlvinaYears: 2017 — 2020; Recipients: Sawtell, Nathaniel; Code: N/A; Title/Keywords: Midbrain Electrosensory Processing in a Mormyrid Fish: Multimodal Integration, Recurrent Feedback, and Cerebellar Influence@ Columbia University; Matching Score: 0.915Assoc Prof.
Columbia006008New York, NY, USAOttavio Arancio

Columbia
【研究方向】Alzheimer's disease(33+1); Synaptic Plasticity(16+3); Memory(16+1); LTP(12+2); Dysfunction(11+0); Receptor(9+0); Cognition(9+0); Neurology(6+0); Abeta(6+0); Transgenic(5+0); Peptide(5+0); Synaptic Transmission(4+1); Muscle(5+0); Learning and memory(3+2); Hippocampus(5+0); Retrograde messenger(4+0); Membrane(4+0); Pathology(4+0); Aging(4+0); Regulation(1+2); Amino acid(3+0); AMPA receptor(3+0); Development(3+0); Dendrite(3+0); Disease(2+1); Degeneration(2+1); Therapeutics(3+0); Alzheimer's(3+0); APP(3+0); Alpha-synuclein(3+0); Plasticity(2+0); Embryo(2+0); Trafficking(2+0); Spine(2+0); Therapy(2+0); Tau(1+1); Neuroprotective(2+0); Neuroprotection(2+0); Depression(2+0); Schizophrenia(2+0); Vision(2+0); Metabolism(2+0); Connection(2+0); Mutant(1+0); Knockout(1+0); Knockin(1+0); Glutamate receptor(1+0); Ion Channel(0+1); Neurotransmitter release(1+0); LTD(1+0); Astrocyte(1+0); Microglia(1+0); Chemical neuroscience(1+0); Neurogenesis(1+0); Reprogramming(1+0); Pluripotent stem cells(1+0); CNS(1+0); Synapse(1+0); Disorder(0+1); Psychiatry(1+0); Rett Syndrome(1+0); Age-related(1+0); Alcohol(1+0); Sense(1+0); Body(1+0); Motor(1+0); Fatigue(1+0); Food Intake(1+0); Stress(1+0); Visual cortex(1+0); Entorhinal cortex(1+0); Hypothalamus(1+0); Cerebellar vermis(1+0);
【模式生物】Mouse(25+0); Rat(9+0); Human(4+0); Stem Cell(2+0); Rodent(1+0);
【方法技术】Model(18+1); Protein(12+0); Behavior(4+0); Pharmacology(4+0); Electrophysiology(3+0); Gene(1+1); Channel(0+1); In vivo(1+0); Cell culture(1+0); EEG(1+0);
【简述】Synapses and Circuits; Biophysics/Ion Channels; Neural Degeneration and Repair; Neurobiology of Learning and Memory; Neurobiology of Disease;
【研究论文】Science(3); Cell(5); Nature Neuroscience(2); Neuron(4); JNS(13); Nature Communications(1); PNAS(9);
【综述】Annals Of Neurology(3); Review(3); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Eric R. KandelIan J. Orozco, Linda H. Lee, Valentina Echeverria MoranYears: 2019; Recipients: Arancio, Ottavio; Code: R01; Title/Keywords: The Role of Sumoylation in Tau-Mediated Pathology@ Columbia University Health Sciences; Matching Score: 1Prof.
NYU015028New York, NY, USAJ. Anthony Movshon

NYU
New York, NY, USA
【研究方向】Vision(0+2); Development(0+1);
【模式生物】
【方法技术】
【简述】Vision and visual development
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USAFrancis F. Steen

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
UW021010Seattle, WA, USAValerie Daggett

UW
【研究方向】Disease(0+5); Structure(0+2); Abeta(0+1); Parkinson's disease(0+1); Form(0+1);
【模式生物】Human(0+1);
【方法技术】Protein(0+3); Simulation(0+1);
【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, ChinaHua-Tai Xu

CAS-ION
【研究方向】Microcircuit(0+10); Disorder(0+5); Development(0+4); Disease(0+4); Neural Circuit(0+3); Blood flow(0+3); Imaging(1+2); Cell line(0+2); Cell lineage(0+2); Autism(0+2); Alzheimer's disease(0+2); Form(0+2); Regulation(1+0); Dendrite(1+0); Synapse formation(0+1); Spine(1+0); Pathogenesis(0+1); Cognition(0+1); Vision(1+0); Motor(0+1); Knowledge(0+1); Hippocampus(1+0); CA2(1+0);
【模式生物】
【方法技术】In vivo(1+1); Gene(0+1); MRI(0+1); Whole-cell recording(0+1); Optogenetics(0+1);
【简述】Neural Circuit Development
【研究论文】Cell(2); Nature Neuroscience(1); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000758Investigator
UCLA011013Los Angeles, CA, USAJohn Colicelli

UCLA
【研究方向】Signal transduction(0+1); Plasticity(0+1);
【模式生物】
【方法技术】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
Stanford002003Palo Alto, CA, USAKathryn Moler

Stanford
【研究方向】Imaging(5+0); Structure(4+0); Depth(2+0); Temperature(1+0);
【模式生物】
【方法技术】Microscopy(4+0); Model(1+0); Theory(1+0);
【简述】
【研究论文】Nature(4); Science(1); PNAS(1);
【综述】Physical Review(17); Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
007726Prof.
Harvard001001Boston, MA, USAJohn Assad

Harvard
【研究方向】Vision(10+2); LIP(7+0); Attention(2+2); OFC(3+1); Adaptation(3+0); Hair cell(3+0); Motor(2+1); Timing(3+0); Ion Channel(1+1); Cognition(2+0); Sense(0+2); Object(0+2); Context(0+2); Category(2+0); Categorization(2+0); Encoding(2+0); Optical(2+0); V5/MT(2+0); Regulation(1+0); Modulation(1+0); Receptor(0+1); Environment(0+1); Parkinson's disease(0+1); Movement disorder(0+1); Depth perception(1+0); Form(0+1); Visual categorization(1+0); Touch(1+0); Decision making(1+0); Motivation(0+1); PPC(1+0); Basal ganglia(0+1);
【模式生物】Macaque(4+0); Primate(3+1); Monkey(1+0); Stem Cell(1+0);
【方法技术】Behavior(3+2); Model(3+0); In vivo(2+0); Optogenetics(2+0); Electrophysiology(0+1); Computation(0+1);
【简述】Cognitive processing in mammalian brain
【研究论文】Cell(1); Nature Neuroscience(4); 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
David P. Corey, John HR MaunsellMehdi Aghdaee, Allison E. Hamilos, John Elfar, Irwin Hubert Lee, Gaby Maimon, Todd Herrington, Jamie K. Fitzgerald, Seyed Mehdi Aghdaee, Emad Eskandar, Camillo Padoa-Schioppa, Daniel Zaksas, Louis J. Toth, Aaron R. Seitz, David J. Freedman, Michela ChiappaloneYears: 2015 — 2017; Recipients: Assad, John (co-PI) Berdondini, LucaDevittorio, MassimoSabatini, Bernardo L [⬀] ; Code: U01; Title/Keywords: Novel Optrodes For Large-Scale Electrophysiology and Site-Specific Stimulation@ Harvard Medical School; Matching Score: 0.915005659Prof.
UCSD011017San Diego, CA, USAVirginia de Sa

UCSD
【研究方向】Learning(0+4); Machine learning(0+3); Cognition(0+1); Perception(0+1);
【模式生物】Human(0+5);
【方法技术】Computation(0+4); Behavior(0+1); EEG(0+1);
【简述】 Cognitive, Behavioral & Psychopharmacology; Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USABrady Maher

JHU
【研究方向】Development(0+3); Disorder(0+2); Transcription(0+1); Disease(0+1); Psychiatric disorder(0+1); Developmental Disorder(0+1); Schizophrenia(0+1); Neural Circuit(0+1); Cognition(0+1); Speech(0+1); Imaging(0+1);
【模式生物】
【方法技术】Gene(0+3); Electrophysiology(0+1); Optogenetics(0+1); Computation(0+1); Model(0+1);
【简述】Developmental Neuroscience; 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
Harvard001001Boston, MA, USARachelle Gaudet

Harvard
【研究方向】Transporter(8+2); Structure(8+0); Ion Channel(3+1); TRP channel(2+1); Regulation(2+0); Receptor(1+1); Membrane(1+1); GABA(1+0); Peptide(1+0); Sodium channel(1+0); Glia(0+1); Adhesion(0+1); Disease(1+0); Infection(1+0); Neuropathic pain(1+0); Temperature(0+1); Dynamics(0+1); Imaging(0+1);
【模式生物】Human(3+0); Mouse(1+0); Bird(1+0);
【方法技术】Protein(3+1); Channel(3+0); Biochemistry(2+0); Computation(0+2); Gene(1+0); In vitro(0+1); Electrophysiology(0+1); Bioinformatics(0+1);
【简述】Structural biology of signaling and transport across cellular membranes
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
005880Prof.
Harvard001001Boston, MA, USAFlorian Engert

Harvard
【研究方向】Vision(5+0); Neural Circuit(2+2); Learning(2+1); Structure(1+1); LTP(2+0); Development(2+0); Dendrite(2+0); Motor(1+1); Imaging(1+1); Modulation(1+0); Plasticity(1+0); Synaptic Plasticity(1+0); Synapse(1+0); Spine(1+0); Systems Neuroscience(1+0); Perception(1+0); Adaptation(1+0); Sensorimotor transformation(1+0); Somatosensory(1+0); Vestibular(1+0); Learning and memory(1+0); Neural dynamics(1+0); Connection(1+0);
【模式生物】Zebrafish(22+1);
【方法技术】Behavior(6+3); Microscopy(2+1); Gene(1+1); In vivo(1+1); Model(2+0); Electrophysiology(0+1); Computation(0+1);
【简述】To build a multi-scale model that describes how a living brain interacts with its environment
【研究论文】JNS(1); Nature Communications(1); 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
H Dieter Lux, Mu-Ming Poo, Tobias BonhoefferJonathan Young, Xiuye Chen, Kristian Herrera, Owen M Randlett, Hanna Zwaka, Rebecca L. Vislay-Meltzer, Adam Raymond Kampff, Pavan Ramdya, Kuo-Hua Huang, Son Esther Yesde, Kristen E. Severi, Abhinav S. Grama, David Grant Colburn Hildebrand, Misha B. Ahrens, Johann H. Bollmann, Andrew D. Bolton, Tim Dunn, Michael B. Orger, Xin Tang, Aaron M. Lambert, Haleh Fotowat, Isaac H. Bianco, David SchoppikYears: 2017 — 2018; Recipients: Engert, FlorianLichtman, Jeff W (co-PI) [⬀] Sompolinsky, Haim (co-PI) [⬀] ; Code: U19; Title/Keywords: Sensorimotor Processing, Decision Making, and Internal States: Towards a Realistic Multiscale Circuit Model of the Larval Zebrafish Brain@ Harvard University; Matching Score: 0.915006283Prof.
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.
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.
Stanford002003Palo Alto, CA, USAChristina Smolke

Stanford
【研究方向】Engineering(11+0); Opioids(3+0); Metabolism(3+0); Cell cycle(1+0);
【模式生物】
【方法技术】Gene(3+0); In vitro(1+0); Model(1+0);
【简述】
【研究论文】Nature(1); Science(2); Cell(3); Nature Communications(1); Nature Methods(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
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
Stanford002003Palo Alto, CA, USAAlice Ting

Stanford
【研究方向】Imaging(3+0); Membrane(1+0); Transcription(1+0); Development(0+1); Synapse(1+0); Mitochondria(1+0);
【模式生物】Human(2+0);
【方法技术】Protein(2+0); Microscopy(2+0); Behavior(0+1); Computation(1+0);
【简述】
【研究论文】Nature(5); Science(1); Cell(3); Nature Methods(2); PNAS(1); eLife(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USADean V. Buonomano

UCLA
【研究方向】Learning(0+2); Temporal processing(0+2); Dynamics(0+2); Cognition(0+1); Sense(0+1); Perception(0+1); Learning and memory(0+1); Speech(0+1); Music(0+1); Neural dynamics(0+1);
【模式生物】Human(0+2);
【方法技术】Computation(0+5); In vitro(0+1); Psychophysics(0+1); Electrophysiology(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, USAChristian Linder

Stanford
【研究方向】Engineering(10+0); Biomechanics(2+0); Branching(1+0); Tumor(1+0); Kinematics(1+0); Concept(1+0); Cerebellum(1+0);
【模式生物】
【方法技术】Model(16+0); Computation(6+0); Behavior(2+0); Theory(2+0); Simulation(1+0);
【简述】
【研究论文】Nature(2); Science(1); Cell(1); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2016 — 2021; Recipients: Linder, Christian; Code: N/A; Title/Keywords: Career: Stretchability by Design - Understanding Mechanical Phenomena in Microarchitectured Soft Material Systems@ Stanford University; Matching Score: 1002036Assoc Prof.
NYU015028New York, NY, USAChristopher Cain

NYU
【研究方向】Fear(10+1); Learning and memory(7+0); Extinction(6+0); Amygdala(5+0); Cognition(4+0); Learning(2+1); Receptor(2+0); Calcium channel(2+0); LTP(2+0); Psychiatry(2+0); Schizophrenia(2+0); Dopamine(1+0); Translation(1+0); Transplantation(1+0); Dendrite(1+0); Synapse(1+0); Disorder(1+0); Dysfunction(1+0); Therapeutics(1+0); Huntington's disease(1+0); Anxiety(1+0); Depression(1+0); Systems Neuroscience(1+0); Pain(1+0); Auditory(1+0); Motor(1+0); Acquisition(1+0); PFC(1+0);
【模式生物】Rat(3+0); Mouse(3+0); Human(2+0); Rodent(1+0);
【方法技术】Behavior(4+0); Model(3+0); Channel(1+0); Pharmacology(1+0);
【简述】Neural mechanisms for learning to cope with pathological fear
【研究论文】Cell(3); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Mark D. Lindner, John H. Kehne, Mark Barad, Joseph E. LedouxGabriel Lazaro-MunozYears: 2017 — 2018; Recipients: Cain, Christopher Kenneth; Code: R01; Title/Keywords: Brain Circuits of Outcome-Dependent Vs. Habitual Avoidance@ New York University School of Medicine; Matching Score: 0.956003605Assist Prof.
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.
UW021010Seattle, WA, USAKathleen Millen

UW
【研究方向】Development(0+18); Cerebellum(0+6); Structure(0+4); Disease(0+4); Mutant(0+2); Embryo(0+2); Autism(0+2); Cognition(0+2); Sense(0+2); Perception(0+2); Motor(0+2); Posture(0+2); Emotion(0+2);
【模式生物】Human(0+10); Mouse(0+10);
【方法技术】Gene(0+3); 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
Yale014011New Haven, CT, USADustin Scheinost

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
NIH-NINDS??Bethesda, MD, USAJudith R. Walters

NIH-NINDS
【研究方向】Basal ganglia(7+5); Parkinson's disease(5+1); Dopamine(3+1); Dysfunction(0+3); Motor cortex(3+0); Oscillation(2+0); Disorder(0+2); Movement disorder(1+1); Motor(1+1); Subthalamic nucleus(2+0); Modulation(0+1); Dopamine receptor(0+1); D2 receptor(1+0); Plasticity(1+0); Psychiatry(1+0); Huntington's disease(0+1); Cognition(1+0); Frequency(1+0); Interneuron(1+0); Context(0+1); Attention(0+1); PFC(1+0); mPFC(1+0); Cingulate cortex(1+0); ACC(1+0); Thalamus(1+0); Substantia nigra(1+0); Pedunculopontine nucleus(1+0);
【模式生物】Rat(9+0); Rodent(5+1); Human(1+0);
【方法技术】Model(5+0); Pharmacology(0+2); In vivo(0+1); Anatomy(0+1); Behavior(0+1); EEG(1+0); fMRI(1+0); DBS(0+1);
【简述】Neurophysiological Pharmacology Section
【研究论文】Neuron(1); JNS(5);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USARaag Airan

Stanford
【研究方向】Imaging(11+0); Neuromodulation(4+0); Structure(4+0); Cell line(3+0); Optical(3+0); Development(2+0); Disease(2+0); Therapy(0+2); APP(2+0); Neuroinflammation(2+0); Tumor(2+0); Neural Circuit(2+0); Language(2+0); Social behavior(2+0); Dynamics(2+0); Resting state(2+0); Dopamine(1+0); Intracellular signaling(1+0); Depression(1+0); Contrast(1+0); Reward(1+0); Diffusion MRI(1+0);
【模式生物】Human(6+0);
【方法技术】MRI(10+0); In vivo(6+0); Optogenetics(5+0); fMRI(4+0); Gene(3+0); Behavior(3+0); Protein(2+0); Model(2+0); Ultrasonic(1+0); Computation(1+0); Data analysis(1+0); Statistics(1+0);
【简述】
【研究论文】Nature(2); Science(1); Cell(1); Neuron(2); Nature Communications(1);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Karl DeisserothShilpa D. KadamYears: 2017; Recipients: Airan, Raag D; Code: RF1; Title/Keywords: Noninvasive Neuromodulation Via Focused Ultrasonic Drug Uncaging@ Stanford University; Matching Score: 1003015Assist Prof.
NIH-NIDCR??Bethesda, MD, USAMark Hoon

NIH-NIDCR
【研究方向】Itch(8+0); Pain(5+0); Peptide(2+0); Regulation(1+0); Modulation(1+0); Plasticity(1+0); Sense(1+0); Temperature(1+0);
【模式生物】Mouse(2+0); Rodent(1+0);
【方法技术】
【简述】Molecular Genetics Unit
【研究论文】Science(1); Nature Neuroscience(5); Neuron(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
Stanford002003Palo Alto, CA, USALauren Mikula

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.
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.
Stanford002003Palo Alto, CA, USAKeith Sudheimer

Stanford
【研究方向】Psychiatry(12+0); Depression(11+0); Receptor(4+0); Psychiatric disorder(3+0); Emotion(1+2); Therapy(2+0); Aging(2+0); Anxiety(1+1); Neural Circuit(2+0); Cognition(2+0); Executive function(2+0); Hypothalamus(2+0); Modulation(1+0); Structure(1+0); Disorder(0+1); Neurology(1+0); Timing(1+0); Morphology(1+0); Imaging(1+0); Cingulate cortex(1+0); Putamen(1+0); Caudate(1+0); Thalamus(1+0);
【模式生物】Human(1+0); Mouse(1+0);
【方法技术】Anatomy(6+0); TMS(4+0); MRI(2+0); Behavior(2+0); fMRI(2+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
John I. JohnsonYears: 2016 — 2018; Recipients: Sudheimer, Keith D; Code: K01; Title/Keywords: Cortisol Receptor Polymorphisms and Cortisol-Induced Emotion Changes in Major Depression@ Stanford University; Matching Score: 0.954001254Assist Prof.
WUSTL009032Saint Louis, MO, USATamara Hershey

WUSTL
【研究方向】D2 receptor(5+0); Memory(5+0); Dopamine(4+0); Neurology(4+0); Cognition(3+1); Sleep(3+0); Metabolism(2+1); Synapse(2+0); Disease(1+1); Disorder(2+0); Psychiatry(2+0); Blood flow(2+0); Neuroimaging(1+1); Optical(2+0); Subthalamic nucleus(1+1); NMDA receptor(1+0); Dopamine receptor(0+1); Structure(1+0); Development(0+1); Axon(1+0); Dysfunction(1+0); Vulnerability(1+0); Therapy(1+0); Huntington's disease(1+0); Movement disorder(1+0); Pediatric(1+0); Anxiety(1+0); Body(1+0); Frequency(1+0); Motor(1+0); Timing(1+0); Cognitive Control(1+0); Emotion(1+0); Reward(1+0); Imaging(1+0); Striatum(1+0); Thalamus(1+0);
【模式生物】Human(3+0);
【方法技术】Behavior(1+2); PET(2+1); DBS(1+1); In vivo(1+0); MRI(0+1); fMRI(0+1); Model(1+0);
【简述】Clinical neuroscience of diabetes and related diseases
【研究论文】Nature(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Joel S. PerlmutterJo Ann V. Antenor-Dorsey, Meghan C. Campbell, Sarah A. EisensteinKevin John BlackYears: 2017 — 2018; Recipients: Hershey, Tamara GMarcus, Daniel Scott [⬀] ; Code: P30; Title/Keywords: Ninds Center Core For Brain Imaging@ Washington University; Matching Score: 0.958008226Prof.
UCSD011017San Diego, CA, USATatyana O. Sharpee

UCSD
【研究方向】Sense(0+2); Development(0+1); Vision(0+1); Object(0+1);
【模式生物】
【方法技术】Computation(0+2); Mathematics(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
UCLA011013Los Angeles, CA, USAFernando Gómez-Pinilla

UCLA
【研究方向】CNS(0+3); Disease(0+2); Therapy(0+2); Trauma(0+2); Cognition(0+2); Regulation(0+1); Structure(0+1); Plasticity(0+1); Environment(0+1); Degeneration(0+1); Aging(0+1); Exercise(0+1); Learning(0+1);
【模式生物】
【方法技术】Behavior(0+2); 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, USACorinna Darian-Smith

Stanford
【研究方向】Neurology(8+0); Neurogenesis(3+1); Injury(2+2); Thalamus(1+1); Red nucleus(2+0); Plasticity(1+0); Synaptic Plasticity(1+0); CNS(0+1); Embryology(1+0); Spinal Cord Injury(1+0); Finger control(0+1); Dynamics(1+0); Motor cortex(1+0); Pulvinar(1+0); Lateral nucleus(1+0); Cuneate nucleus(1+0);
【模式生物】Macaque(10+0); Monkey(7+0); Primate(3+1); Non-human primate(0+2); Rodent(1+0);
【方法技术】Anatomy(2+0); Protein(1+0); Behavior(0+1); Electrophysiology(0+1); Model(1+0);
【简述】
【研究论文】Cell(1); Nature Neuroscience(1); JNS(5); Cerebral Cortex(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles D. Gilbert, Torsten WieselAntony Goodwin, Christina G. von der OheIan Darian-SmithYears: 2015 — 2019; Recipients: Darian-Smith, Corinna; Code: R01; Title/Keywords: Neuronal and Behavioral Responses to Spinal Cord Injury@ Stanford University; Matching Score: 0.915Assoc Prof.
NIH-NIDDK??Bethesda, MD, USACarson C. Chow

NIH-NIDDK
【研究方向】Dynamics(7+0); Transcription(2+0); Receptor(1+0); Plasticity(1+0); Synchrony(1+0); Environment(1+0); Inflammation(1+0); Memory(1+0); Learning(1+0); Body Weight(1+0); Metabolism(1+0); Hormone(1+0); Steroid(1+0); Spiking Neural Network(1+0); Imaging(1+0);
【模式生物】Human(1+0); Stem Cell(1+0);
【方法技术】Gene(6+0); Computation(5+0); Model(5+0); Theory(2+0); Channel(1+0);
【简述】
【研究论文】Cell(3); eLife(2);
【综述】Physical Review(3); Nature Reviews Genetics(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Nancy KopellStephen J. Gotts, Yixin Guo, Eric J. Hildebrand, Rukmini KumarRichard C. Gerkin, Farzad FarkhooiYears: 2007 — 2018; Recipients: Chow, Carson C.; Code: Z01ZIA; Title/Keywords: Modeling and Data Analysis of Obesity, Insulin Resistance, and Diabetes@ Diabetes, Digestive, Kidney Diseases; Matching Score: 0.907011852
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.
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
UCSD011017San Diego, CA, USALi Ye

UCSD
【研究方向】Metabolism(0+4); CNS(0+2); Imaging(0+2); Disorder(0+1); Neurodegenerative disease(0+1); Cognition(0+1); Adaptation(0+1); Homeostatic(0+1); Stress(0+1); CA2(0+1);
【模式生物】
【方法技术】Biochemistry(0+1); In vivo(0+1); Behavior(0+1); Optogenetics(0+1);
【简述】 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
NIH-NIAAA??Bethesda, MD, USADavid Goldman

NIH-NIAAA
【研究方向】Transporter(9+0); Psychiatry(6+0); Alcohol(5+0); Dopamine(4+0); Disorder(4+0); Pain(4+0); 5-HT(3+0); Nicotinic acetylcholine receptor(2+0); Acetylcholine receptor(2+0); Schizophrenia(2+0); Cognition(2+0); Amygdala(2+0); Neurotransmitter(1+0); Neuropeptide(1+0); D2 receptor(1+0); Development(1+0); Clone(1+0); Therapy(1+0); Psychiatric disorder(1+0); ADHD(1+0); Infection(1+0); Nicotine(1+0); Depression(1+0); Pain perception(1+0); Memory(1+0); Learning(1+0); Working memory(1+0); Cognitive Control(1+0); Cardiovascular(1+0); Frontal lobe(1+0); Striatum(1+0); Nucleus accumbens(1+0);
【模式生物】Human(8+0);
【方法技术】Gene(8+0); Behavior(2+0); In vivo(1+0); Model(1+0);
【简述】
【研究论文】Nature Neuroscience(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Kenneth S. ColeMordecai Blaustein067303
Stanford002003Palo Alto, CA, USACholawat Pacharinsak

Stanford
【研究方向】Pain(7+0); Modulation(2+0); Receptor(2+0); Anesthesia(2+0); Pluripotent stem cells(1+0); Disease(1+0); Therapeutics(1+0); Inflammation(1+0); Body temperature(1+0); Imaging(1+0);
【模式生物】Rat(6+0); Stem Cell(3+0); Mouse(2+0); Monkey(1+0);
【方法技术】Model(6+0); Pharmacology(1+0);
【简述】
【研究论文】Science(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
MIT005002Boston, MA, USANeville Hogan

MIT
【研究方向】Stroke(5+1); Robot(1+3); Therapy(3+0); Motor(2+1); Posture(3+0); Development(1+1); Neurology(2+0); Plasticity(0+1); Injury(0+1); Brain injury(0+1); Voluntary Movement(1+0); Motor control(0+1); Execution(1+0); Gait(0+1); Engineering(1+0); Machine(0+1);
【模式生物】Human(1+2);
【方法技术】Behavior(1+0); Computation(1+0); Model(1+0); Mathematics(1+0);
【简述】Interactive Robots for Neuro-Rehabilitation
【研究论文】JNS(5);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Max Berniker, Hyunglae Lee, Konstantinos Michmizos, Tamar FlashNedialko I. KrouchevYears: 2018; Recipients: Hogan, NevilleSchwartz, Andrew B. [⬀] ; Code: R56; Title/Keywords: Neural Encoding of Impedance For Object Manipulation@ University of Pittsburgh At Pittsburgh; Matching Score: 0.916041213Prof.
UW021010Seattle, WA, USAAndrew Ko

UW
【研究方向】Imaging(0+3); Movement disorder(0+2); Epilepsy(0+1); Seizure(0+1); Development(0+1); Disease(0+1); Disorder(0+1); Neural Circuit(0+1); Cognition(0+1); Sensorimotor Integration(0+1); Motor(0+1); Brain-Computer Interface(0+1); Engineering(0+1);
【模式生物】Human(0+2);
【方法技术】DBS(0+3); Behavior(0+2); Electrophysiology(0+2);
【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, USALara Rangel

UCSD
【研究方向】Neural network(0+4); Oscillation(0+2); Cognition(0+1); Dynamics(0+1);
【模式生物】Human(0+1); Rodent(0+1);
【方法技术】Behavior(0+3); EEG(0+3); Computation(0+3); Model(0+2); In vivo(0+1); Anatomy(0+1); Electrophysiology(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
JHU010012Baltimore, MD, USAConor McMeniman

JHU
【研究方向】Disease(0+6); Infection(0+3); Neural Circuit(0+3); Olfaction(0+2); Receptor(0+1); Sense(0+1); Perception(0+1); Knowledge(0+1); Imaging(0+1);
【模式生物】Human(0+3);
【方法技术】Behavior(0+2); Virus(0+1);
【简述】Cellular + Molecular 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
UCSF003015San Francisco, CA, USAMark Von Zastrow

UCSF
【研究方向】Receptor(0+19); Trafficking(0+16); Membrane(0+14); Glutamate receptor(0+3); Regulation(0+2); Opiate(0+2); Neuropeptide(0+2); Peptide receptor(0+2); Signal transduction(0+1); Neurotrophin(0+1); Ligand gated ion channel(0+1); Ion Channel(0+1); Vesicle(0+1); Synaptic Plasticity(0+1); Synapse(0+1); Neural Circuit(0+1); Imaging(0+1);
【模式生物】Human(0+1);
【方法技术】Gene(0+1); Cell culture(0+1); Behavior(0+1); Electrical stimulation(0+1);
【简述】Linking Cell Signaling and Membrane Traffic
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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.
NYU015028New York, NY, USAMichael Long

NYU
【研究方向】Electrical synapse(3+0); Motor(1+1); Timing(2+0); Thalamic reticular nucleus(2+0); Synchrony(1+0); Rhythm(1+0); Reaching(1+0); Learning(1+0); Speech(1+0); Temperature(1+0); Dynamics(1+0); Suprachiasmatic nucleus(1+0);
【模式生物】Human(1+0); Mouse(1+0); Songbird(1+0);
【方法技术】ECoG(1+0); Model(1+0);
【简述】Cellular and circuit mechanisms of complex, learned motor behaviors
【研究论文】Nature(2); Science(2); Nature Neuroscience(2); Neuron(2); JNS(6); Curr Biol.(1);
【综述】Current Opinion In Neurobiology(1); Physical Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Barry W. Connors, Michale S. FeeCeline Joiris, Rachel C. Clary, Madeleine S. Junkins, Robert Egger, Kalman Katlowitz, Georg Kosche, Felix Moll, Sam E. Benezra, Daniel Okobi, Paul W Frazel, Arkarup Banerjee, Daniela VallentinJonathan I. BenichovYears: 2018; Recipients: Long, Michael A; Code: R01; Title/Keywords: Synaptic and Circuit Mechanisms of Learned Motor Sequences@ New York University School of Medicine; Matching Score: 1002933Assist Prof.
NYU015028New York, NY, USAWerner Doyle

NYU
【研究方向】Epilepsy(1+3); Modulation(1+0); Ion Channel(1+0); Seizure(0+1); Auditory(1+0); Planning(0+1); Art(0+1); Sleep(1+0); Dynamics(1+0); Thalamus(1+0);
【模式生物】Human(2+0);
【方法技术】Channel(1+0); Behavior(1+0); EEG(1+0); MEG(1+0);
【简述】Interactive image-directed epilepsy surgery
【研究论文】JNS(1); Nature Human Behaviour(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
Harvard001001Boston, MA, USABence Ölveczky

Harvard
【研究方向】Motor(5+4); Learning(7+0); Neural Circuit(4+0); Object motion(2+0); Motor learning(2+0); Structure(1+0); Sense(1+0); Adaptation(1+0); Spectral(1+0); Timing(1+0); Dynamics(1+0); Imaging(0+1); Motor cortex(1+0); Basal ganglia(1+0);
【模式生物】Rodent(2+2);
【方法技术】Behavior(0+1); Optogenetics(0+1); Computation(0+1); Model(1+0);
【简述】Neural circuit mechanisms underlying the acquisition and control of complex motor sequences
【研究论文】Nature Neuroscience(2); JNS(1); Nature Communications(1);
【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
Markus Meister, Michale S. FeeTim Markman, Valentin André Normand, Chong Guo, Farhan Ali, Risa Kawai, Jonathan Garst Orozco, Rajesh Poddar, Raymond Ko, Alexandre Kempf, Adam Raymond Kampff, Steffen Wolff, Antoniu L. Fantana, Claude Wang, Ashesh K. Dhawale, Jesse D. Marshall, Sharon M.H. Gobes, Timothy OtchyYears: 2017 — 2018; Recipients: Escola, Gary Sean [⬀] Olveczky, Bence P; Code: R01; Title/Keywords: Crcns: Refining Computational Models of Motor Sequence Learning and Execution@ Columbia University Health Sciences; Matching Score: 0.957Prof.
UW021010Seattle, WA, USASusan Ferguson

UW
【研究方向】Receptor(0+3); Addiction(0+2); Neural Circuit(0+2); Modulation(0+1); G-Protein Coupled Receptor(0+1); Development(0+1); Psychiatric disorder(0+1); Learning(0+1); Decision making(0+1); Motivation(0+1); Reward(0+1); Basal ganglia(0+1);
【模式生物】Rodent(0+1);
【方法技术】Behavior(0+2); Anatomy(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.
UCLA011013Los Angeles, CA, USACarrie E. Bearden

UCLA
【研究方向】Disorder(0+3); Psychiatry(0+2); Bipolar(0+2); Schizophrenia(0+2); Structure(0+1); Development(0+1); Disease(0+1); Cognition(0+1);
【模式生物】
【方法技术】Gene(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, 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
UCLA011013Los Angeles, CA, USAMark Barad

UCLA
【研究方向】Extinction(0+16); Learning(0+10); Fear(0+10); Amygdala(0+4); LTP(0+3); Disorder(0+3); Anxiety(0+3); Therapy(0+2); Learning and memory(0+2); Neurotransmitter(0+1); Synaptic Plasticity(0+1); Environment(0+1); Pathogenesis(0+1); Depression(0+1); Cognition(0+1); Form(0+1); Memory(0+1); Context(0+1); PFC(0+1);
【模式生物】Human(0+3);
【方法技术】Behavior(0+8); Pharmacology(0+3); In vitro(0+1); 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
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.
NIH-NIEHS??Bethesda, MD, USAStephen B. Shears

NIH-NIEHS
【研究方向】Metabolism(4+1); Cytokine(4+0); Regulation(1+1); Cell line(2+0); Environment(2+0); Inflammation(2+0); Stress(2+0); Dynamics(1+1); Chloride(0+1); Structure(1+0); Energy homeostasis(0+1); Aging(1+0); Muscle(0+1); Machine(1+0); Connection(1+0);
【模式生物】Human(3+0); Drosophila(3+0); Mouse(1+0); Bird(1+0);
【方法技术】Protein(3+0); Model(1+0);
【简述】
【研究论文】Cell(9);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAMayssa H. Mokalled

WUSTL
【研究方向】Development(12+0); Regeneration(6+2); Transcription(5+0); Differentiation(4+0); Muscle(3+0); Regulation(1+0); Gap junction(1+0); Neurogenesis(0+1); APP(1+0); Injury(0+1); Tumor(1+0);
【模式生物】Zebrafish(2+3); Mouse(0+2); Drosophila(1+0);
【方法技术】Gene(1+0); Model(0+1);
【简述】Mechanisms of neural regeneration using zebrafish and mouse model systems
【研究论文】Science(1); Cell(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000678Assist Prof.
Columbia006008New York, NY, USAYueqing Peng

Columbia
【研究方向】Sleep(0+12); Psychiatric disorder(0+3); Taste(3+0); Sense(0+2); Decision making(2+0); Mushroom body(2+0); Signaling molecule(0+1); Regulation(0+1); Plasticity(1+0); Epilepsy(0+1); Disease(0+1); Disorder(0+1); Perception(0+1); Learning(0+1); Neural network(1+0); Imaging(0+1);
【模式生物】Drosophila(3+0); Mouse(0+1);
【方法技术】Tracing(0+1); Electrophysiology(0+1); Optogenetics(0+1); Pharmacology(0+1);
【简述】Neurobiology of Sleep; Systems and Circutis ; Epilepsy/Psychiatric Disorders ; Sensory Physiology;
【研究论文】Nature(2); Science(2); Neuron(1); JNS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000893Assist Prof.
Harvard001001Boston, MA, USAJan Drugowitsch

Harvard
【研究方向】Decision making(13+0); Inference(6+0); Learning(5+0); Multisensory(4+0); Modulation(3+0); Reward(2+0); Machine learning(1+1); OFC(2+0); Environment(1+0); Sense(1+0); Context(0+1); Spatial navigation(0+1); Social(1+0); Knowledge(0+1); Bayesian(1+0); Spiking Neural Network(1+0); Robot(1+0);
【模式生物】Human(5+0);
【方法技术】Computation(3+4); Behavior(0+4); Model(3+0); Theory(0+3); Gene(2+0); Simulation(1+0);
【简述】Statistical computations and neuronal mechanisms underlying complex decisions and behavior under uncertainty
【研究论文】Nature(1); Nature Neuroscience(1); Neuron(4); JNS(1); Nature Communications(2); eLife(2);
【综述】Current Opinion In Neurobiology(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Alexandre Pouget, Etienne Koechlin, Alexandre PougetYears: 2017 — 2018; Recipients: Drugowitsch, Jan; Code: R01; Title/Keywords: Crcns: Leveraging Decision-Making Variability to Identify Underlying Computations@ Harvard Medical School; Matching Score: 1000939Assist Prof.
NIH-NIMH??Bethesda, MD, USASoohyun Lee

NIH-NIMH
【研究方向】Regulation(3+0); Receptor(3+0); Plasticity(1+1); Development(1+1); Tumor(2+0); Somatosensory(2+0); Barrel cortex(2+0); Motor(2+0); Exploration(2+0); Transporter(1+0); Modulation(1+0); Dopamine(1+0); 5-HT(1+0); D2 receptor(1+0); Structure(1+0); Transcription(1+0); Transplantation(1+0); Synapse(0+1); Disease(1+0); Neural Circuit(0+1); Vision(1+0); Concept(1+0); Sleep(1+0); Metabolism(1+0); Stress(1+0); Dynamics(1+0); CA2(1+0);
【模式生物】Rat(2+0); Human(1+0); Mouse(1+0); Rodent(0+1);
【方法技术】Gene(4+0); Protein(3+0); Behavior(0+2); EEG(1+0); Microscopy(1+0); Computation(0+1); Model(0+1);
【简述】Unit on Functional Neural Circuits
【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
Daniel J. Simons, Karl Kandler, Gord J. Fishell, Bernardo RudyAna R Inacio, Shovan Naskar, Jia QiYears: 2018; Recipients: Lee, Soohyun; Code: ZIA; Title/Keywords: Circuit Mechanisms Underlying Cortical Communications@ National Institute of Mental Health; Matching Score: 0.904002227
UCSD011017San Diego, CA, USAJohn Serences

UCSD
【研究方向】Sense(0+5); Perception(0+4); Cognition(0+2); Environment(0+1); Form(0+1); Object(0+1); Memory(0+1); Decision making(0+1); Working memory(0+1); Neuroimaging(0+1);
【模式生物】
【方法技术】Behavior(0+4); Psychophysics(0+1); Computation(0+1); 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
Stanford002003Palo Alto, CA, USAJoanna Wysocka

Stanford
【研究方向】Development(3+4); Regulation(1+3); Differentiation(0+4); Plasticity(1+1); Transcription(1+1); Form(0+2); Finger(2+0); Peptide(1+0); Structure(0+1); Embryo(0+1); Disease(0+1); Dysfunction(0+1); Context(0+1); Morphology(0+1); Dynamics(0+1);
【模式生物】Human(3+8); Primate(0+1); Mouse(0+1); Rodent(0+1); Stem Cell(0+1);
【方法技术】Gene(1+7); Model(1+4); Virus(1+0); In vivo(0+1); In vitro(0+1); Behavior(0+1);
【简述】
【研究论文】Nature(4); Science(1); Cell(5); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Winship Herr, C. David AllisShady SaadYears: 2015 — 2018; Recipients: Wysocka, Joanna; Code: R01; Title/Keywords: Mechanisms of Enhancer Activation in Early Development@ Stanford University; Matching Score: 1Prof.
JHU010012Baltimore, MD, USADaeyeol Lee

JHU
【研究方向】Decision making(0+3); Cognition(0+2); Environment(0+1); Neural Circuit(0+1); Object(0+1); Planning(0+1); Knowledge(0+1); Reinforcement learning(0+1);
【模式生物】
【方法技术】Behavior(0+3); Computation(0+2); Multi-electrode(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
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
MIT005002Boston, MA, USAJean-Jacques Slotine

MIT
【研究方向】Robot(6+4); Learning(0+3); Adaptation(0+2); Engineering(2+0); Motor(0+1); Motor control(0+1); Dynamics(1+0); Neural network(1+0);
【模式生物】
【方法技术】Computation(2+0); Model(0+2); Theory(0+1); Mathematics(0+1);
【简述】Adaptation and Learning in Robots; Principles of Biological Control; Current projects include:
【研究论文】Nature(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Philip K. Chapman, Wallace Earl Vander Velde, William S. WidnallRajeev Vijay Rikhye, Leo Kozachkov, Gunter Niemeyer, Won HongYears: 2018 — 2020; Recipients: Slotine, Jean-JacquesTuritsyn, Konstantin; Code: N/A; Title/Keywords: Collaborative Research: Stability, Security and Emergency Control For Reconfigurable Networked Microgrids@ Massachusetts Institute of Technology; Matching Score: 0.915057029Prof.
WUSTL009032Saint Louis, MO, USAGammon M. Earhart

WUSTL
【研究方向】Disease(10+2); Gait(9+1); Exercise(2+1); Movement disorder(0+2); Posture(2+0); Body(0+1); Motor(1+0); Executive function(1+0); Imagery(1+0); Neuroimaging(0+1);
【模式生物】
【方法技术】DBS(0+1); Model(1+0);
【简述】Neural Control of Movement in Health and Disease
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Paul S.G. SteinMadeleine E. Hackney, Michael Joseph Falvo, Corey A. Lohnes, Marie E. McNeely, Daniel Soren PetersonYears: 2018; Recipients: Earhart, Gammon M.Ellis, Theresa; Code: R01; Title/Keywords: Walking and Mhealth to Increase Participation in Parkinson Disease (Whip-Pd)@ Boston University (Charles River Campus); Matching Score: 0.931Prof.
UCLA011013Los Angeles, CA, USANigel T. Maidment

UCLA
【研究方向】Neuropeptide(0+1); Dopamine(0+1); limbic system(0+1);
【模式生物】
【方法技术】In vivo(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, USABenjamin de Bivort

Harvard
【研究方向】Dynamics(4+0); Evolutionary(3+0); Amino acid(2+0); 5-HT(2+0); Receptor(2+0); Structure(2+0); Neurotransmitter release(2+0); Plasticity(0+2); Synaptic Plasticity(2+0); Development(1+1); Neuromuscular(2+0); Neural Circuit(0+2); Attention(2+0); Imaging(0+2); Regulation(1+0); Synapse(0+1); HIV(1+0); Infection(1+0); Injury(1+0); Form(0+1); Motor(0+1); Social(1+0); Exploration(1+0); Thermoregulation(1+0); Metabolism(1+0); Methodology(0+1); Robot(1+0);
【模式生物】Drosophila(14+0);
【方法技术】Behavior(7+13); Gene(2+5); Model(3+0); Mathematics(2+0); Protein(1+0); Computation(0+1);
【简述】Characterizing the molecular, neural circuit and ecological underpinnings of behavioral diversity in fruit flies.
【研究论文】Cell(1); Nature Communications(1); Curr Biol.(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Sam KunesKyle HoneggerYears: 2018 — 2023; Recipients: Amir, ArielSamuel, Aravinthan D (co-PI) [⬀] Mazur, Eric [⬀] Murthy, Venkatesh (co-PI) [⬀] De Bivort, Benjamin; Code: N/A; Title/Keywords: Collaborative Research: Formation of a High Flux Student Research Network (Hf-Srn) as a Laboratory For Enhancing Interaction in the Pols Srn@ Harvard University; Matching Score: 0.915001051Assoc 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.
JHU010012Baltimore, MD, USAKing-Wai Yau

JHU
【研究方向】Vision(0+20); Olfaction(0+9); Membrane(0+3); Photoreceptor(0+3); Ion Channel(0+2); Sense(0+2); Adaptation(0+2); Neurotransmitter(0+1); Glutamate(0+1); Receptor(0+1); Chloride(0+1); Object(0+1); Reflex(0+1); Circadian(0+1);
【模式生物】Human(0+2); Mouse(0+2); Primate(0+1);
【方法技术】Channel(0+4); Protein(0+2);
【简述】Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAMutsuyuki Sugimori

NYU
【研究方向】Dendrite(1+4); Synapse(2+0); Tau(2+0); Muscle(2+0); Imaging(0+2); Calcium channel(0+1); Membrane(1+0); Vesicle(1+0); Synaptic Transmission(1+0); Axon(0+1); Spine(0+1); Pathology(1+0); Dysfunction(1+0); Neuromuscular(1+0); Fatigue(1+0); Energy metabolism(1+0); Cerebellum(1+0);
【模式生物】Human(1+0); Xenopus(1+0);
【方法技术】In vitro(0+1);
【简述】Ionic mechanism of the cerebellar Purkinje cell
【研究论文】JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Harvard001001Boston, MA, USA Kwang-Soo Kim

Harvard
【研究方向】Disease(4+2); Parkinson's disease(5+1); Metabolism(1+3); Dopamine neuron(0+3); Development(0+3); Reprogramming(0+3); Neurodegenerative disorder(0+3); Stress(3+0); Cardiovascular(3+0); Regulation(2+0); Receptor(1+1); Microglia(2+0); Cell line(2+0); Cell fate(1+1); Therapy(2+0); LRRK2(2+0); Neuroprotective(1+1); Neuroprotection(1+1); Optical(2+0); Transgenic(1+0); Dopamine(0+1); Transcription(0+1); Rhythm(1+0); Glia(0+1); Neurogenesis(1+0); Differentiation(0+1); Embryo(1+0); Disorder(0+1); Degeneration(0+1); Pathogenesis(1+0); Therapeutics(0+1); Cell therapy(0+1); Alzheimer's disease(1+0); Cognition(1+0); Body(1+0); Finger(1+0); Attention(0+1); Social(1+0); Circadian(1+0); Sleep(1+0);
【模式生物】Stem Cell(6+2); Human(4+1); Mouse(4+0); Rat(2+0);
【方法技术】Gene(0+4); Model(3+0); In vitro(1+1); Protein(1+0); In vivo(1+0); Cell culture(0+1);
【简述】 Molecular and stem cell research of the dopamine system to study and treat human diseases
【研究论文】JNS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2018; Recipients: Kim, Kwang-SooKong, Sek Won; Code: R24; Title/Keywords: Biorepository of Ipsc Lines From Diverse Rat Strains For Regenerative Medicine Research@ McLean Hospital; Matching Score: 0.907000304Prof.
Yale014011New Haven, CT, USADana Small

Yale
【研究方向】Taste(0+3); Motivation(0+3); Reward(0+3); Addiction(0+2); Multisensory integration(0+2); Stress(0+2); Imaging(0+2); Neuroimaging(0+2); Dopamine(0+1); Disorder(0+1); Psychiatry(0+1); Nicotine(0+1); Cognition(0+1); Chemical sense(0+1);
【模式生物】Human(0+1);
【方法技术】Psychophysics(0+3); fMRI(0+3); Behavior(0+2); MRI(0+1);
【简述】Dopamine; Motivation; Neurophysiology; Obesity; Psychophysics; Stress, Psychological; Neuroimaging; Psychiatry and Psychology.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAJames Thomas

UW
【研究方向】Neurotransmitter(0+2); 5-HT(0+2); GABA(0+2); Acetylcholine(0+2); Receptor(0+2); Ion Channel(0+2); Potassium channel(0+2); Structure(0+2); Environment(0+2); Sense(0+2); Motor Neuron(0+2); Muscle(0+2);
【模式生物】C. elegans(0+6);
【方法技术】Gene(0+4); Protein(0+2); Channel(0+2); Microscopy(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, USAVikram Khurana

Harvard
【研究方向】Alpha-synuclein(2+4); Disease(1+2); Neurodegenerative disease(1+2); Parkinson's disease(1+2); Sclerosis(2+0); Metabolism(1+1); Transporter(1+0); Glia(0+1); Trafficking(1+0); Degeneration(0+1); Pathology(0+1); Therapeutics(1+0); Therapy(1+0); Proteinopathy(0+1); Vision(1+0); Body(0+1); Imaging(0+1); Connection(0+1);
【模式生物】Human(0+1); Rat(1+0);
【方法技术】Gene(1+6); Protein(1+2); Cell culture(0+1); Computation(0+1); Model(0+1);
【简述】Genome and Proteome-Scale Dissection of Neurodegenerative Proteinopathy in Human Stem Cell Models
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Mel  B. Feany, Rudolf Jaenisch, Susan L. LindquistAssist Prof.
UW021010Seattle, WA, USABertil Hille 

UW
【研究方向】Membrane(0+3); Transporter(0+1); Modulation(0+1); Ion Channel(0+1); Vesicle(0+1); Synaptic Transmission(0+1); Cell line(0+1); Synapse(0+1); Form(0+1); Hormone(0+1); Dynamics(0+1); Optical imaging(0+1);
【模式生物】
【方法技术】
【简述】Cell and Molecular Neuroscience; X  Excitable Membranes and Synaptic Transmission; 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
NYU015028New York, NY, USAShy Shoham

NYU
【研究方向】Imaging(4+1); Engineering(4+0); Neuromodulation(2+0); Vision(2+0); Encoding(2+0); Motor cortex(2+0); Neurotransmitter(1+0); Membrane(1+0); APP(1+0); Sense(1+0); Object recognition(1+0); Touch(1+0); Brain-Machine Interface(1+0); Inference(1+0); Dynamics(1+0); Neural dynamics(1+0); Primary motor cortex (M1)(1+0); Hippocampus(1+0);
【模式生物】Mouse(2+0); Human(1+0);
【方法技术】Ultrasonic(3+0); In vivo(2+0); Optogenetics(2+0); Theory(2+0); fMRI(1+0); Model(1+0);
【简述】Methods for controlling, imaging, and analyzing neural systems
【研究论文】Nature(2); Cell(1); JNS(2); Nature Communications(1); Nature Methods(1); NIPS(1);
【综述】Physical Review(2); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard A. Normann, Samuel S.-H. WangLiron McLeyYears: 2018; Recipients: Babadi, Behtash (co-PI) [⬀] Chialvo, Dante RFellin, TommasoHisted, Mark HKanold, Patrick O (co-PI) [⬀] Losert, Wolfgang (co-PI) [⬀] Maunsell, John Hr [⬀] Panzeri, Stefano Vt (co-PI) [⬀] Plenz, Dietmar (co-PI) [⬀] Rinberg, Dmitry (co-PI) [⬀] Shoham, Shy; Code: U19; Title/Keywords: Readout and Control of Spatiotemporal Neuronal Codes For Behavior@ University of Chicago; Matching Score: 0.906003765Prof.
WUSTL009032Saint Louis, MO, USAYao Chen

WUSTL
【研究方向】Dynamics(0+5); Psychiatric disorder(0+2); Stroke(2+0); Sleep(0+2); Imaging(1+1); Regulation(1+0); Neuromodulation(0+1); Modulation(1+0); Dopamine(0+1); Acetylcholine(0+1); Receptor(0+1); Peptide receptor(1+0); Peptide(1+0); Structure(1+0); Development(0+1); Environment(1+0); Disease(1+0); Neurodegenerative disorder(0+1); Therapeutics(1+0); Drugs of Abuse(0+1); Neural Circuit(0+1); Spectral(1+0); Learning(0+1); Knowledge(0+1); Connection(0+1);
【模式生物】Mouse(0+1);
【方法技术】Protein(4+0); Behavior(1+3); Theory(2+0); Gene(1+0); In vitro(1+0); Electrophysiology(0+1); Microscopy(0+1); Pharmacology(1+0); Algorithm(1+0);
【简述】Understanding the function of neuromodulators and sleep through the spatiotemporal dynamics of molecular signals
【研究论文】Nature(1); Science(1); NIPS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Peter Lawrence, Damon Page, Karel Svoboda, John Flanagan, Bernardo L. SabatiniYears: 2014 — 2015; Recipients: Chen, Yao; Code: F32; Title/Keywords: Integration and Dynamics of Neuromodulator Action in the Striatum@ Harvard Medical School; Matching Score: 1009366Assist Prof.
UCLA011013Los Angeles, CA, USABaljit S. Khakh

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
JHU010012Baltimore, MD, USAJoshua Vogelstein

JHU
【研究方向】Imaging(0+2); Neural Circuit(0+1); Cognition(0+1); Knowledge(0+1); Connectomics(0+1);
【模式生物】Human(0+1);
【方法技术】Microscopy(0+2); MRI(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
Columbia006008New York, NY, USADritan Agalliu

Columbia
【研究方向】CNS(4+7); Disease(2+4); Stroke(2+3); Development(3+1); Sclerosis(3+1); Disorder(0+2); Therapy(2+0); Psychiatric disorder(0+2); Neuroinflammation(2+0); Motor Neuron(2+0); Muscle(2+0); Imaging(0+2); Vesicle(1+0); Proliferation(1+0); Neurology(1+0); Pathology(1+0); Infection(1+0); Injury(1+0); Retina(0+1); Motor(1+0); Neuroimmunology(0+1); Blood flow(1+0); Optical imaging(1+0);
【模式生物】Stem Cell(5+0); Mouse(1+1); Human(1+0);
【方法技术】Model(2+2); Gene(1+1); In vivo(1+0); In vitro(1+0); Behavior(0+1);
【简述】Dynamic Imaging of the CNS Vasculature; CNS and Retina Vascular Biology ; Blood-Brain Barrier Biology; Neuroimmunology; Models of Psychiatric Disorders;
【研究论文】Nature(1); Cell(1); Neuron(5); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Thomas M. JessellMaryann P. Platt, Charlotte R. WayneYears: 2017 — 2018; Recipients: Agalliu, DritanCutforth, Tyler (co-PI) [⬀] ; Code: R01; Title/Keywords: Cellular and Humoral Immune Mechanisms Underlying Neurovascular Dysfunction in Autoimmune Encephalitis@ Columbia University Health Sciences; Matching Score: 1Assist Prof.
UCSF003015San Francisco, CA, USAJeff Lansman

UCSF
【研究方向】Membrane(0+14); Muscle(0+11); Calcium channel(0+8); Ion Channel(0+4); Sense(0+4); Metabotropic glutamate receptor(0+2); Glutamate receptor(0+2); Structure(0+2); Vesicle(0+2); Development(0+2); Degeneration(0+2); CA2(0+2); Cerebellum(0+2); Knockout(0+1); Transporter(0+1); Signaling molecule(0+1); NMDA receptor(0+1); TRP channel(0+1); Epilepsy(0+1); Trafficking(0+1); Disease(0+1); Pathology(0+1); Therapeutics(0+1); Migraine(0+1); Touch(0+1); Homeostatic(0+1); Vessel(0+1);
【模式生物】Mouse(0+11); Human(0+3);
【方法技术】Channel(0+10); Gene(0+3); Protein(0+2); Model(0+2); Biophysics(0+1); Behavior(0+1); Whole-cell recording(0+1); Optogenetics(0+1); Pharmacology(0+1);
【简述】Biophysics of Mechanosensitive and Voltage-Gated Calcium Channels
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
UCLA011013Los Angeles, CA, USATimothy F. Cloughesy

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, USADaniel Palanker

Stanford
【研究方向】Vision(10+0); Retina(7+0); Imaging(5+0); Engineering(4+0); Therapy(2+1); Degeneration(1+1); Photoreceptor(2+0); Optical(2+0); Structure(1+0); Membrane(1+0); Transplantation(0+1); Synapse(1+0); Therapeutics(0+1); Injury(0+1); Bipolar(1+0); Contrast(1+0); Temperature(1+0);
【模式生物】Rat(2+0); Rodent(2+0); Stem Cell(1+0);
【方法技术】Model(4+1); Electrical stimulation(2+1); Gene(1+0); Optogenetics(1+0); Simulation(1+0);
【简述】
【研究论文】Science(2); JNS(1); PNAS(1); Curr Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
008637Prof.
Princeton061009Princeton, NJ, USAUri Hasson

Princeton
【研究方向】Cognition(11+1); Object(9+0); Vision(7+0); Structure(4+0); Autism(4+0); Cognitive neuroscience(4+0); Neuroimaging(3+0); Sense(2+0); Face(2+0); Memory(2+0); Social(2+0); Exploration(2+0); Encoding(2+0); Dynamics(2+0); Neural dynamics(2+0); Visual cortex(2+0); Auditory cortex(2+0); Modulation(0+1); Translation(1+0); Eye Movement(1+0); Learning and memory(1+0); Long-term memory(1+0); Context(1+0); Language(1+0); Methodology(0+1); Imaging(0+1); Temporal lobe(1+0);
【模式生物】Human(20+2); Monkey(1+0);
【方法技术】fMRI(5+2); MRI(0+1); Behavior(0+1);
【简述】Human Neuroscience
【研究论文】Science(6); Nature Neuroscience(1); Neuron(4); JNS(5); Nature Methods(1); Curr Biol.(3); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Rafael Malach, David J. HeegerChristopher R. Thompson, Mor Regev, Qihong Lu, Elise Piazza, Yara Yeshurun, Janice Chen, Samuel A. Nastase, Yulia Lerner, Christopher J. Honey, Christopher A. BaldassanoYears: 2017 — 2019; Recipients: Hasson, UriNorman, Kenneth A (co-PI) [⬀] ; Code: R01; Title/Keywords: Neural Dynamics Supporting Integration and Recall Over Long Timescales During Natural Continuous Input@ Princeton University; Matching Score: 1011843Prof.
WUSTL009032Saint Louis, MO, USAAaron DiAntonio

WUSTL
【研究方向】Axon(11+13); Degeneration(5+5); Injury(3+5); Regeneration(2+4); Disease(0+5); Development(1+3); Glutamate(3+0); Glutamate receptor(3+0); Synapse(2+1); Metabolism(1+2); Transporter(2+0); Vesicle(2+0); Synaptic Transmission(2+0); Neuromuscular(2+0); Neural Circuit(0+2); Signal transduction(0+1); Regulation(1+0); Receptor(1+0); Structure(0+1); Glial cell(0+1); Glia(0+1); CNS(0+1); Disorder(0+1); Neurodegenerative disease(0+1); Dysfunction(0+1); Fragile X(0+1); Neurotoxicity(0+1); Inflammation(0+1); Execution(0+1); Neuroimmunology(0+1);
【模式生物】Drosophila(10+2); Mouse(1+2);
【方法技术】Gene(2+2); Protein(2+1); Model(0+2); Electrophysiology(0+1); Pharmacology(0+1);
【简述】Neural circuits in development and disease
【研究论文】Nature(1); Cell(2); Nature Neuroscience(1); Neuron(7); JNS(4); Curr Biol.(1);
【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
Thomas L. Schwarz, Corey S. Goodmanjoseph Bloom, scott b. marrus, Vera Valakh, natasha m. viquez, Adam J. Bloom, Richard W. Daniels, Jeffrey M. Donlea, Bradley R. Miller, Sarah A. Naylor, Jung Eun E. Shin, Sungsu Kim, Catherine Collins, Daniel A. Gibson, yogi wairkar, chunlai wu, EJ Brace, Martha R.C. Bhattacharya, Matthew Figley, Catherine A. Collins, Minrong Ai, Ethan GrafYears: 2017 — 2018; Recipients: Diantonio, AaronMilbrandt, Jeffrey D [⬀] ; Code: R01; Title/Keywords: Identifying Inhibitors of Axon Degeneration For the Treatment of Tipn@ Washington University; Matching Score: 1008228Prof.
UCSF003015San Francisco, CA, USAHolly Ingraham

UCSF
【研究方向】Metabolism(0+3); Hypothalamus(0+3); Food Intake(0+2); Imaging(0+2); Receptor(0+1); Disease(0+1); Therapy(0+1); Hormone(0+1);
【模式生物】Mouse(0+2);
【方法技术】In vivo(0+1);
【简述】Neural Basis for Sex-Differences in Metabolism
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USARudy Behnia

Columbia
【研究方向】Membrane(7+0); Vision(3+2); Sense(0+3); Dendrite(2+0); Spine(2+0); Photoreceptor(0+2); Color(0+2); Learning(2+0); Fear(2+0); Optical(2+0); Amygdala(2+0); Environment(0+1); Synapse(0+1); Neural Circuit(1+0); Perception(0+1); Depth(0+1); Object(0+1); Face(0+1); Touch(0+1); Taste(0+1); PFC(1+0);
【模式生物】Drosophila(4+0);
【方法技术】Protein(4+0); Behavior(0+2); In vivo(0+1); Optogenetics(0+1); Computation(0+1); Model(0+1);
【简述】Sensory Physiology; Synapses and Circuits ; Systems and Circuits ;
【研究论文】Nature(4); Cell(3);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Adam G. Carter, Claude DesplanMaia Weisenhaus001303Assist Prof.
Stanford002003Palo Alto, CA, USATakako Fujioka

Stanford
【研究方向】Oscillation(12+0); Auditory(7+0); Stroke(5+0); Motor(5+0); Cognition(4+0); Perception(4+0); Timing(4+0); Music(4+0); Auditory cortex(4+0); Age-related(3+0); Somatosensory(3+0); Encoding(3+0); Neurology(2+0); Cognitive neuroscience(2+0); Frequency(2+0); Context(2+0); Imagery(2+0); Structure(1+0); Plasticity(1+0); Gamma rhythm(1+0); Development(1+0); Therapy(1+0); Aging(1+0); Vision(1+0); Contour(1+0); Auditory processing(1+0); Learning and memory(1+0); Intention(1+0); Social(1+0); Syntax(1+0);
【模式生物】Human(4+0);
【方法技术】EEG(4+0);
【简述】
【研究论文】JNS(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Wisam ReidYears: 2016 — 2018; Recipients: Washburn, AurielFujioka, Takako; Code: N/A; Title/Keywords: Neural Oscillatory and Social Personality Correlates For Perception and Performance of Musical Joint-Action@ Stanford University; Matching Score: 1002357Assist 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, USAWonjae Lee

Stanford
【研究方向】Differentiation(1+0); Axon(1+0); Infection(1+0);
【模式生物】Human(1+0); Stem Cell(1+0);
【方法技术】Behavior(1+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000116Other
NIH-NINDS??Bethesda, MD, USAWilliam H. Theodore

NIH-NINDS
【研究方向】Epilepsy(13+9); Seizure(6+1); Temporal lobe(2+1); Neurology(2+0); Neuroinflammation(1+1); Cognition(0+2); Frequency(2+0); Language(1+1); Imaging(1+1); Transporter(1+0); Receptor(0+1); Glutamate receptor(0+1); Rhythm(1+0); Development(1+0); Therapy(0+1); Infection(1+0); Injury(0+1); Depression(0+1); Exercise(1+0); Semantic(0+1); Circadian(1+0); Amygdala(0+1); White matter(0+1);
【模式生物】Human(1+0); Rat(0+1);
【方法技术】MRI(1+4); TMS(0+3); EEG(2+0); fMRI(2+0); PET(0+2);
【简述】Clinical Epilepsy Section
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USADenis Baylor

Stanford
【研究方向】Retina(5+0); Photoreceptor(4+0); Vision(3+0); Ion Channel(1+0); Adaptation(1+0); Spectral(1+0); Dynamics(1+0);
【模式生物】Macaque(1+0); Monkey(1+0); Primate(1+0);
【方法技术】Channel(1+0);
【简述】
【研究论文】Nature(1); Science(1); Cell(2); Nature Neuroscience(1); Neuron(1); PNAS(2);
【综述】Annual Review Of Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Mike G. Fuortes, John G. Nicholls, Alan Lloyd HodgkinSteven H. DeVries, Robert Fettiplace, Leon Lagnado, Trevor D. Lamb, Clint L. Makino, Tom R. Middendorf, Fred Rieke, Alapakkam P. Sampath, Julie L. Schnapf, W Rowland Taylor, William N. Zagotta, Anita L. Zimmerman, King-Wai Yau, Gary Matthews, Markus Meister, E. J. Chichilnisky, Marie E. BurnsMagali MillecampsYears: 1995 — 1999; Recipients: Baylor, Denis A; Code: R01; Title/Keywords: Visual Signalling in Retina@ Stanford University; Matching Score: 1Prof.
Stanford002003Palo Alto, CA, USAMax Wintermark

Stanford
【研究方向】Stroke(9+3); Imaging(7+1); Brain injury(2+2); Neuroimaging(4+0); Disease(0+2); Neurology(2+0); Seizure(1+0); Psychiatric disorder(0+1); Movement disorder(0+1); Depression(0+1); Post-traumatic stress disorder(0+1); Cardiovascular(0+1); Cerebrovascular(0+1); Vascular network(1+0); Machine learning(1+0); Resting state(1+0); Diffusion tensor imaging(0+1);
【模式生物】Mouse(1+0);
【方法技术】MRI(3+2); Behavior(1+0); Simulation(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
Years: 2017 — 2018; Recipients: Wintermark, Max; Code: R01; Title/Keywords: Mr-Guided Focused Ultrasound Combined With Immunotherapy to Treat Maligt Brain Tumors@ Stanford University; Matching Score: 1Prof.
UCLA011013Los Angeles, CA, USAJonathan Kao

UCLA
【研究方向】Engineering(0+2); Brain-Machine Interface(0+1); Dynamics(0+1); Machine learning(0+1);
【模式生物】
【方法技术】Computation(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, USADaniel S Joyce

Stanford
【研究方向】Vision(10+0); Reflex(4+0); Parkinson's disease(3+0); Adaptation(3+0); Retina(2+0); Circadian(1+0); Optical(1+0);
【模式生物】Human(8+0);
【方法技术】
【简述】
【研究论文】Science(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000079Other
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
UCSD011017San Diego, CA, USAJohn H.K. Liu

UCSD
【研究方向】Rhythm(0+1); Development(0+1); Circadian(0+1); Blood flow(0+1); Dynamics(0+1);
【模式生物】
【方法技术】Pharmacology(0+1);
【简述】 Systems; Clinical
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
CAS-ION??Shanghai, ChinaJun Yan

CAS-ION
【研究方向】Circadian(11+4); Metabolism(5+2); Neural network(0+6); Structure(1+3); Circadian clock(0+4); Development(2+1); Regulation(2+0); Rhythm(1+1); Cell cycle(1+1); Transporter(1+0); Modulation(1+0); Purine(1+0); Translation(1+0); Differentiation(1+0); Environment(0+1); Neurodegenerative disease(0+1); Adaptation(1+0); Muscle(1+0); Causality(0+1); Sleep(1+0); Artificial intelligence(0+1); Connectomics(0+1);
【模式生物】Mouse(3+1); Zebrafish(0+2); Human(1+0); Rat(1+0);
【方法技术】Gene(21+8); Computation(6+5); Protein(3+0); Model(1+2); Microscopy(0+2); MRI(0+1); Behavior(0+1); Microarray(1+0); Simulation(1+0);
【简述】Biological Network Computation
【研究论文】Cell(5); Nature Communications(1); PNAS(1); PLOS Computational Biology(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001278Investigator
Harvard001001Boston, MA, USAChristopher Walsh

Harvard
【研究方向】Autism(7+2); Development(4+3); Disease(2+3); Regulation(3+0); Epilepsy(1+2); Disorder(2+1); Glia(1+1); Cell line(1+1); Lissencephaly(2+0); Evolutionary(2+0); Knockout(1+0); Receptor(1+0); Sodium channel(1+0); Structure(0+1); Vesicle(1+0); Plasticity(0+1); Cell cycle(1+0); Cell lineage(0+1); CNS(1+0); Synapse(0+1); Psychiatric disorder(1+0); Developmental Disorder(1+0); Microcephaly(1+0); Aging(1+0); Injury(1+0); Pediatric(1+0); Cognition(0+1); Sense(0+1); Face(1+0); Spectral(1+0); Oral motor(1+0); Learning(0+1); Imaging(0+1); Cerebellum(1+0);
【模式生物】Human(8+10); Stem Cell(2+0); Mouse(1+0);
【方法技术】Gene(5+2); Protein(3+0); Channel(1+0); Cell culture(0+1); Tracing(1+0); Behavior(1+0);
【简述】Development and disorders of the human cerebral cortex
【研究论文】Science(1); Nature Neuroscience(2); Neuron(2); JNS(1);
【综述】Annual Review Of Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Edward O. Wilson, Leonard B. Spector, Robert Heinz AbelesRonald T. Raines, Kasturi Haldar, Mark D. Distefano, Melissa J. Moore, Jun O. Liu, Kari Nadeau, Dennis Hyong-Kyun Kim, David Edward Ehmann, Vicki Lynn Healy, Roger Scott Flugel, Deborah Ann Miller, Heather Christina Losey, Hiten M. Patel, Rahul Manu Kohli, Claire Chia-Hui Tseng, Nathan Jeremy Hillson, Michelle Pacholec, Ellen Yeh, Michael Andrew Fischbach, Carl Joseph Balibar, Gitanjali Maya Singh, Marie Alice Hollenhorst, Sarah Ann Mahlstedt, Rebecca Frances Roush, Nicholas P. Kwiatkowski, Tadhg P. Begley, Yen-Ho Chu, Neil  L. Kelleher, Elizabeth S. Sattely, Philip R. DeShong, Michael A. Marletta, Robert Anthony Pascal Jr., Bruce Branchaud, David J. Waxman, Hung-Wen (Ben) Liu, Peter G. Schultz, Thomas V. O'Halloran, Lawrence P. Wackett, Gregory L. Verdine, John F. Honek, Felicia A. Etzkorn, Yen-Ho Chu, Dehua Pei, Gerard D. Wright, Yian Shi, Philip A. Cole, Dewey G. McCafferty, Watson J. Lees, Michael D. Burkart, Zucai Suo, Florian Hollfelder, Deborah Zamble, Sarah Ellen O'Connor, Jason K. Sello, David A. Vosburg, Sylvie Garneau-Tsodikova, Hening Lin, Jun Yin, Pieter C. Dorrestein, Jonathan R. Lai, Suzanne A. Blum, Nathan  A. Magarvey, Elizabeth M. Nolan, Eric R. Strieter, Xinyu Liu, Albert A. Bowers, Emily Balskus, William M. Wuest, Brian D. Ames, Travis S. Young, Bo LiYears: 2009 — 2012; Recipients: Walsh, Christopher T; Code: R01; Title/Keywords: Antibiotic Biosynthesis: Amino Acid Morphing@ Harvard Medical School; Matching Score: 0.934044560Prof.
UCLA011013Los Angeles, CA, USADavid L. Glanzman

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, USAEric Courchesne

UCSD
【研究方向】Attention(0+6); Autism(0+5); Cerebellum(0+4); Disorder(0+3); Cognition(0+3); Development(0+2); Vision(0+2); Motor(0+2); Concept(0+2); Imaging(0+2); Parietal lobe(0+2); Dysfunction(0+1); Developmental Disorder(0+1); Contrast(0+1); Form(0+1); Color(0+1); Auditory(0+1); Social(0+1); Metabolism(0+1); Neuroimaging(0+1); Connection(0+1); Frontal lobe(0+1); Basal ganglia(0+1);
【模式生物】Human(0+2);
【方法技术】Behavior(0+3); fMRI(0+3); Anatomy(0+2); Model(0+2); MRI(0+1); Electrophysiology(0+1); Theory(0+1);
【简述】 Cognitive, Behavioral & Psychopharmacology; Clinical
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAAnsgar Furst

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.
UCSD011017San Diego, CA, USAYimin Zou

UCSD
【研究方向】Synapse formation(0+3); Developmental Disorder(0+3); Plasticity(0+2); Axon guidance(0+2); Axon(0+2); Spinal Cord Injury(0+2); Neural Circuit(0+2); Epilepsy(0+1); Axon growth(0+1); Synaptogenesis(0+1); Neural circuit remodeling(0+1); Disease(0+1); Autism(0+1); Brain injury(0+1); Sense(0+1); Motor(0+1);
【模式生物】
【方法技术】
【简述】 Cellular & Developmental
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USAAkira Sawa MD,

JHU
【研究方向】Disease(0+3); Cognition(0+2); Emotion(0+2); Pluripotent stem cells(0+1); Disorder(0+1); Pathogenesis(0+1); Psychiatry(0+1); Schizophrenia(0+1); Olfaction(0+1); Imaging(0+1);
【模式生物】Stem Cell(0+2); Human(0+1);
【方法技术】Model(0+2); Gene(0+1); MRI(0+1); EEG(0+1); PET(0+1); TMS(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
JHU010012Baltimore, MD, USAAmy Bastian

JHU
【研究方向】Movement disorder(0+3); Disease(0+2); Learning(0+2); Environment(0+1); Stroke(0+1); Neural Circuit(0+1); Cognition(0+1); Adaptation(0+1); Reaching(0+1); Motor control(0+1); Muscle(0+1); Robot(0+1); Cerebellum(0+1);
【模式生物】Human(0+1);
【方法技术】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
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
Yale014011New Haven, CT, USAMurat Gunel

Yale
【研究方向】Development(0+2); Disease(0+1); Disorder(0+1); Stroke(0+1);
【模式生物】
【方法技术】Gene(0+2);
【简述】Aneurysm; Brain; Genetics; Molecular Biology; Neurobiology; Neurosurgery; Hemangioma, Cavernous, Central Nervous System.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAJason J. Yi

WUSTL
【研究方向】Development(3+2); Autism(0+3); Dendrite(2+0); Microcircuit(2+0); Disease(0+2); Form(0+2); Olfaction(2+0); Olfactory bulb(2+0); Mutant(1+0); Synapse(1+0); Spine(1+0); Disorder(0+1); Pathogenesis(0+1); Dysfunction(0+1); Angelman(0+1); Somatosensory(1+0); Knowledge(0+1); Optical(1+0);
【模式生物】Human(0+1);
【方法技术】Gene(0+3); Protein(2+0); Tracing(2+0); In vivo(0+1); In vitro(0+1); Microscopy(0+1); Pharmacology(1+0);
【简述】Understanding the mechanisms of nervous system construction and dysfunction.
【研究论文】Nature(1); Cell(4); Neuron(1);
【综述】Pharmacological Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael Ehlers, Klaus  Michael Hahn, Mark J. ZylkaXiaoyi Gao, Kellan Weston, Alissa Cullen, Kwang-soo KimAnthony Paul Barnes, Franck Polleux000792Assist Prof.
Yale014011New Haven, CT, USAEvan Morris

Yale
【研究方向】Neurotransmitter(0+1); Neurotransmitter release(0+1);
【模式生物】
【方法技术】PET(0+2); Model(0+1); Theory(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
UW021010Seattle, WA, USAAakanksha Singhvi

UW
【研究方向】Sense(0+4); Glia(0+2); Development(0+2); Disorder(0+2); Memory(0+2); Autism(0+1); Aging(0+1); Neural Circuit(0+1); Cognition(0+1); Perception(0+1); Imaging(0+1);
【模式生物】C. elegans(0+1);
【方法技术】Gene(0+2); In vivo(0+2); Model(0+1);
【简述】Cellular and Molecular Neuroscience; Sensory Systems; Disorders of the Nervous system; and Invertebrate Neurobiology
Singhvi Lab
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAKaren J Parker

Stanford
【研究方向】Autism(12+2); Social(7+7); Stress(12+1); Development(8+1); Disorder(5+1); Psychiatry(6+0); Anxiety(4+0); Depression(3+0); Hormone(3+0); Regulation(2+0); Neuropeptide(0+2); Receptor(2+0); Plasticity(2+0); Disease(2+0); Vulnerability(2+0); Developmental Disorder(2+0); Biomarker(2+0); Social cognition(0+2); Emotion(2+0); Social behavior(1+1); Neuroendocrine(2+0); Transporter(1+0); Dopamine(1+0); 5-HT(1+0); ACTH(1+0); Neurology(1+0); Fragile X(1+0); Aging(1+0); Tumor(0+1); Pediatric(0+1); Adaptation(1+0); Face(1+0); Consolidation(1+0); Concept(1+0); Circadian(1+0); Homeostatic(1+0);
【模式生物】Monkey(7+5); Primate(4+1); Non-human primate(2+1); Human(1+1); Marmoset(0+1);
【方法技术】Behavior(8+2); Model(3+1); Gene(2+1);
【简述】
【研究论文】Science(2); PNAS(1);
【综述】Annals Of Neurology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Theresa M. Lee, David LyonsJesus E. Madrid, Dean Carson, Joshua A. Herrington, Ozge Oztan, Valentina Sclafani, Catherine Talbot, Debra S. KarhsonYears: 2017 — 2019; Recipients: Hardan, Antonio Youssef (co-PI) [⬀] Parker, Karen J.; Code: R01; Title/Keywords: Intranasal Vasopressin Treatment in Children With Autism@ Stanford University; Matching Score: 1004870Assoc Prof.
Harvard001001Boston, MA, USAAmar Sahay

Harvard
【研究方向】Neurogenesis(17+1); Dentate gyrus(7+1); Memory(3+2); Fear(4+0); Stress(4+0); Receptor(3+0); Plasticity(0+3); Aging(3+0); Anxiety(3+0); Depression(3+0); Neural Circuit(3+0); Social(3+0); Development(1+1); Regeneration(2+0); Axon guidance(2+0); Dendrite(2+0); Spine(2+0); Disease(0+2); Disorder(1+1); Neuroprotective(2+0); Neuroprotection(2+0); Injury(2+0); Cognition(0+2); Olfaction(2+0); Dynamics(2+0); Imaging(1+1); Hippocampus(2+0); Modulation(0+1); Synaptic Transmission(1+0); Differentiation(1+0); CNS(1+0); Axon(1+0); Synapse(0+1); Psychiatry(1+0); Psychiatric disorder(1+0); Age-related(0+1); Systems Neuroscience(1+0); Sense(1+0); Motor(1+0); Social memory(0+1); limbic system(1+0); Olfactory bulb(1+0);
【模式生物】Stem Cell(5+0); Human(1+0); Mouse(1+0);
【方法技术】In vivo(4+0); Behavior(1+1); Gene(0+1); Electrophysiology(0+1); DBS(1+0); Computation(0+1);
【简述】Hippocampal circuit and plasticity mechanisms underlying memory processing and regulation of mood
【研究论文】Nature Neuroscience(1); Nature Communications(3);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David D. Ginty, Alex Kolodkin, René HenSreyan Chowdhury, Duong T. Chu, Antoine Besnard, Travis D. GoodeYears: 2018 — 2019; Recipients: Sahay, Amar; Code: R01; Title/Keywords: Contributions of Hippocampal Oxytocin Receptors to Social Recognition@ Massachusetts General Hospital; Matching Score: 0.913004998Assoc Prof.
Stanford002003Palo Alto, CA, USARichard E Dolmetsch

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.
Stanford002003Palo Alto, CA, USAEJ Chichilnisky

Stanford
【研究方向】Retina(10+0); Vision(4+0); Structure(2+0); Photoreceptor(2+0); Development(1+0); Adaptation(1+0); Contrast(1+0); Color(1+0); Decoding(1+0); Visual cortex(1+0);
【模式生物】Primate(10+0); Human(1+0);
【方法技术】Electrical stimulation(2+0); fMRI(1+0); Computation(1+0); Model(1+0);
【简述】
【研究论文】Nature(3); Science(1); Nature Neuroscience(1); Neuron(1); JNS(8); NIPS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
008616Prof.
NYU015028New York, NY, USAJeffrey Wisoff

NYU
【研究方向】Tumor(4+1); Pediatric(2+1); Cognition(2+0); CNS(1+0); Neurology(1+0); Therapy(1+0); Psychiatry(1+0); Alzheimer's disease(1+0); Infection(1+0); Hemorrhage(1+0); Sleep(1+0); Diffusion tensor imaging(1+0);
【模式生物】
【方法技术】
【简述】Clinical protocols for the treatment of pediatric brain tumors
【研究论文】Nature(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
010582Assoc Prof.
CalTech072006Pasadena, CA, USAHenry A. Lester

CalTech
【研究方向】Receptor(5+0); Ion Channel(4+0); Potassium channel(3+0); Nicotine(3+0); Transporter(2+0); GABA(2+0); Amino acid(1+0); Nicotinic acetylcholine receptor(1+0); Acetylcholine receptor(1+0); Calcium channel(1+0); Neurotransmitter release(1+0); Retina(1+0); Reward(1+0);
【模式生物】Rat(3+0); Mouse(1+0); Xenopus(1+0);
【方法技术】Channel(6+0); Pharmacology(2+0); Gene(1+0); Biochemistry(1+0);
【简述】Neuroscience and Biophysics
【研究论文】Nature(3); Science(4); Nature Neuroscience(1); Neuron(2); JNS(2);
【综述】Trends In Neurosciences(1); Current Opinion In Neurobiology(1); Pharmacological Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Frederick A. Dodge, Haldan Keffer Hartline, Floyd Ratliff, Jean-Pierre ChangeuxAmy M. Hurwitz, Julien Muffat, Amber L. Southwell, Shawnalea J. Frazier, Cambrian Y. Liu, Weston A. Nichols, Nathan Dascal, Alan L. Goldin, Paulo Kofuji, Michael  W. Quick, Wenmei Shi, Rahul Srinivasan, Michael M. White, Terrance P. Snutch, Pierre Charnet, Kamran Diba, Ryan M. Drenan, Rachel E. Penton, Brandon J. Henderson, Julie M. Miwa, Joanna L. JankowskyErik A. Rodriguez, Elizabeth K. Unger, Daniel A. Wagenaar, Ueli Rutishauser, Norman DavidsonYears: 2017 — 2018; Recipients: Lester, Henry A.; Code: R21; Title/Keywords: Nicotine Inside Neurons@ California Institute of Technology; Matching Score: 1032934Prof.
NIH-NIDA??Bethesda, MD, USAJean Lud Cadet

NIH-NIDA
【研究方向】Addiction(3+1); Nucleus accumbens(3+0); Psychiatry(2+0); Knockout(1+0); Regulation(1+0); Glutamate(1+0); Dopamine(0+1); NMDA receptor(1+0); Dopamine receptor(1+0); Glutamate receptor(1+0); Synaptic Plasticity(1+0); Disease(1+0); Pathology(1+0); Cocaine(1+0); Stress(1+0); PFC(1+0); Striatum(1+0);
【模式生物】Mouse(6+0); Rat(5+0);
【方法技术】Gene(2+0); Model(2+0); Protein(1+0);
【简述】Molecular Neuropsychiatry Research Branch
【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: 2018; Recipients: Cadet, Jean Lud; Code: ZIA; Title/Keywords: Oxycodone Addiction: Molecular and Biochemical Consequences@ National Institute On Drug Abuse; Matching Score: 0.905
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.
Stanford002003Palo Alto, CA, USAQuan Dong Nguyen

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.
NYU015028New York, NY, USARegina Sullivan

NYU
【研究方向】Development(13+8); Olfaction(12+0); Fear(7+1); Trauma(2+3); Learning(5+0); Amygdala(4+0); Olfactory bulb(3+0); Regulation(2+0); Neural Circuit(2+0); Cognition(1+1); Cognitive neuroscience(1+1); Memory(2+0); Dopamine(1+0); AMPA receptor(1+0); Plasticity(1+0); Environment(1+0); Synapse(1+0); Neurology(1+0); Psychiatry(1+0); Object(1+0); Extinction(1+0); Context(1+0); Associative learning(1+0); Social(1+0); Stress(0+1); Connection(1+0); Lateral nucleus(1+0); Locus coeruleus(1+0);
【模式生物】Rat(6+0); Human(2+0); Mouse(1+0);
【方法技术】Behavior(5+3); Model(2+0); Gene(0+1); Psychophysics(1+0);
【简述】Infant attachment neurobiology and ontogeny of amygdala-dependent fear learning
【研究论文】Nature(1); Science(1); Nature Neuroscience(1); Neuron(1); JNS(4);
【综述】Review(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Myron Hofer, Warren G. (Ted) Hall, Michael LeonKatherine Jakubs, Parker Holman, Adrienne Santiago, Yannick Sevelinges, Karen Upton, Tania Roth, Stephanie Moriceau, Millie Rincón-Cortés, Jacek Debiec, Maya Opendak, Charlis Raineki, Stephanie Moriceau, Kiseko Shionoya, Rosemarie Elizabeth PerryAnne-Marie MoulyYears: 2002 — 2006; Recipients: Sullivan, Regina Marie; Code: R01; Title/Keywords: Neurobiology of Cognitive Functioning in Infancy@ University of Oklahoma Norman; Matching Score: 0.901009782Prof.
NYU015028New York, NY, USAJess P Shatkin

NYU
【研究方向】Sleep(3+0); Psychiatry(2+0); Disorder(1+0); Psychiatric disorder(0+1); Anxiety(1+0);
【模式生物】
【方法技术】
【简述】Psychiatric disorders in children
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCSF003015San Francisco, CA, USAJoshua Berke

UCSF
【研究方向】Dopamine(0+3); Microcircuit(0+3); Motivation(0+3); Learning(0+2); Dynamics(0+2); Basal ganglia(0+2); Modulation(0+1); Acetylcholine(0+1); Disease(0+1); Parkinson's disease(0+1); Addiction(0+1); Neural Circuit(0+1); Systems Neuroscience(0+1); Decision making(0+1); Reward(0+1); Reinforcement learning(0+1);
【模式生物】
【方法技术】Behavior(0+5); Electrophysiology(0+2); Optogenetics(0+2); In vivo(0+1);
【简述】Neurobiology of Motivation and Adaptive Decision-Making
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USABenjamin Sadock

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
Prof.
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
UCLA011013Los Angeles, CA, USAFabien Scalzo

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, USARalph J. Greenspan

UCSD
【研究方向】Cognition(0+2); Structure(0+1); Rhythm(0+1); Attention(0+1); Aggression(0+1); Circadian(0+1); Sleep(0+1); Neural network(0+1); Optical imaging(0+1);
【模式生物】Drosophila(0+3);
【方法技术】Behavior(0+6); Gene(0+4); Biochemistry(0+1);
【简述】 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
Harvard001001Boston, MA, USA Bradford Lowell

Harvard
【研究方向】Hypothalamus(3+0); Modulation(2+0); Homeostatic(1+1); Engineering(0+2); Amygdala(2+0); Receptor(1+0); Plasticity(0+1); Synapse(0+1); Neural Circuit(0+1); Vision(1+0); Pain(1+0); Eye Movement(1+0); Aggression(1+0); Circadian(1+0); Sleep(1+0); Neuroendocrine(0+1); Hormone(1+0); Autonomic(0+1); Imaging(0+1); Insular cortex(1+0); Basal forebrain(1+0); Median eminence(1+0);
【模式生物】Mouse(4+4);
【方法技术】Gene(0+6); In vivo(0+3); Behavior(0+2); Electrophysiology(0+2); Optogenetics(0+1); Computation(0+1);
【简述】 Neural regulation of hunger, other homeostatic motivational drives, autonomic nervous system, and the neuroendocrine system
【研究论文】Nature Neuroscience(7); Neuron(1); JNS(1); Curr Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yoav Livneh, Rachel A. RossJoel C. GeerlingProf.
Stanford002003Palo Alto, CA, USAAaron Straight

Stanford
【研究方向】Dynamics(2+2); Development(3+0); Bipolar(2+0); Muscle(2+0); Regulation(1+0); Structure(1+0); Vision(1+0); Form(1+0); Timing(1+0); Mating(1+0);
【模式生物】Xenopus(5+0); Human(0+2);
【方法技术】Gene(1+2); In vitro(2+1); Protein(2+0); Microscopy(1+1); In vivo(1+0);
【简述】
【研究论文】Nature(3); Science(2); Cell(14); Curr Biol.(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
011016Prof.
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
WUSTL009032Saint Louis, MO, USAJoseph D. Dougherty

WUSTL
【研究方向】Translation(0+1); Disorder(0+1); Psychiatric disorder(0+1); Developmental Disorder(0+1); Autism(0+1);
【模式生物】Mouse(0+3); Human(0+2);
【方法技术】Gene(0+2); Model(0+2); Behavior(0+1);
【简述】Human Psychiatric Genetics, Mouse Models, Cell Type Specific Gene Expression Profiling, Translation, Astrocytes.
【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, USATed Coons

NYU
【研究方向】Reward(0+1);
【模式生物】
【方法技术】
【简述】Brain mechanisms of reward
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
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
Stanford002003Palo Alto, CA, USAGiles W Plant

Stanford
【研究方向】Transplantation(7+5); Glia(10+0); Spinal Cord Injury(7+3); Regeneration(7+1); Therapy(7+1); Olfaction(8+0); Axon(5+1); Neurology(5+0); Development(4+0); Receptor(3+0); Vision(3+0); Peptide(1+1); Glial cell(1+1); Differentiation(0+2); Engineering(2+0); Neurotrophin(1+0); Pluripotent stem cells(0+1); CNS(1+0); Embryo(0+1); Sense(1+0); Retina(1+0); Form(1+0); Motor(1+0);
【模式生物】Rat(12+1); Stem Cell(4+5); Human(2+3); Mouse(2+1); Primate(1+0);
【方法技术】Gene(6+1); Model(3+1); In vitro(1+1); Behavior(2+0); In vivo(0+1); Ex vivo(1+0); Cell culture(0+1); Anatomy(1+0); Multi-electrode(0+1); Microscopy(0+1); Optogenetics(0+1);
【简述】
【研究论文】Science(1); Cell(4); PNAS(1);
【综述】Current Opinion In Neurobiology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
004202Assoc 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.
WUSTL009032Saint Louis, MO, USADavid C. Van Essen

WUSTL
【研究方向】Vision(8+0); Development(1+5); Neuroimaging(1+2); Attention(2+0); Visual cortex(2+0); Structure(0+1); Disorder(0+1); ADHD(0+1); Autism(0+1); Pediatric(0+1); Schizophrenia(0+1); Cognition(1+0); Cognitive neuroscience(1+0); Striate cortex(1+0); Eye Movement(1+0); Muscle(1+0); Imaging(0+1); Connection(1+0); V1(1+0);
【模式生物】Human(12+6); Monkey(6+1); Macaque(4+0); Non-human primate(0+4); Primate(2+2); Rat(1+0);
【方法技术】In vivo(2+0); MRI(1+0); fMRI(0+1); PET(0+1); Model(1+0); Theory(1+0); Neuroinformatics(0+1);
【简述】Cerebral cortex in humans and nonhuman primates: structure, function, connectivity, development, and evolution
【研究论文】Nature(3); Science(1); Neuron(1); JNS(2); Nature Methods(1); Cerebral Cortex(5);
【综述】Trends In Neurosciences(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John G. Nicholls, Semir Zeki, David Hubel, Jan Jansen Jr., Torsten WieselJason Vytlacil, John L. Bixby, Karina S. Cramer, Jim Knierim, John HR Maunsell, Bruno A. Olshausen, Matthew Frederick Glasser, Edward M. Callaway, Daniel Scott Marcus, Xinmiao Peng, Aki Anzai, Andreas Burkhalter, C Edward Connor, Edgar A. DeYoe, Daniel Jay Felleman, Jack L. Gallant, Jay Hegdé, William T. Newsome, Jaime Olavarria, Jochen Braun, Ammar H. HawasliPeter V. Kochunov, Maryann E. Martone, Kamil (Kâmil Uğurbil) Ugurbil, Alan AnticevicYears: 2017 — 2018; Recipients: Barch, Deanna M (co-PI) [⬀] Bookheimer, Susan Y (co-PI) [⬀] Buckner, Randy L (co-PI) [⬀] Dapretto, Mirella (co-PI) [⬀] Smith, Stephen Mark (co-PI) [⬀] Smith, Stephen Mark (co-PI) [⬀] Smith, Stephen Mark (co-PI) [⬀] Somerville, Leah Helene (co-PI) [⬀] Thomas, Kathleen M (co-PI) [⬀] Van Essen, David C.Yacoub, Essa; Code: U01; Title/Keywords: Mapping the Human Connectome During Typical Development@ Washington University; Matching Score: 1068381Prof.
Stanford002003Palo Alto, CA, USALawrence Recht

Stanford
【研究方向】Tumor(4+0); Imaging(3+0); Development(1+1); Neurology(2+0); Neuro-oncology(2+0); Metabolism(2+0); Neural differentiation(0+1); CNS(1+0); Embryo(0+1); Disease(1+0); Blood flow(1+0);
【模式生物】Rodent(2+1); Rat(2+0); Stem Cell(0+2);
【方法技术】Model(2+3); Protein(2+0); In vivo(1+0); MRI(1+0); Pharmacology(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: 2016 — 2018; Recipients: Recht, Lawrence D; Code: P30; Title/Keywords: Protocol Review and Monitoring System (Core-014)@ Stanford University; Matching Score: 0.958Prof.
UW021010Seattle, WA, USAMichael Mustari

UW
【研究方向】Vision(0+8); Vestibular(0+6); Eye Movement(0+4); Development(0+2); Disorder(0+2); Reflex(0+2); Motor Neuron(0+2); Muscle(0+2); Knowledge(0+2); FEF(0+2); MSTd(0+2); Pontine nuclei(0+2);
【模式生物】
【方法技术】Behavior(0+5); Computation(0+4); Single-unit recording(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
Princeton061009Princeton, NJ, USAAndrew Leifer

Princeton
【研究方向】Neural dynamics(1+7); Imaging(4+0); Synapse(2+0); Neural Circuit(2+0); Learning(0+2); Optical(0+2); Vision(1+0); Motor(1+0); Motor Neuron(1+0); Context(1+0); Temporal processing(1+0); Decision making(0+1); Engineering(0+1);
【模式生物】C. elegans(12+2);
【方法技术】Behavior(5+4); Optogenetics(7+0); Computation(1+0); Model(0+1);
【简述】Systems and Circuits
【研究论文】Nature(1); Cell(1); Neuron(1); Nature Methods(1); eLife(1); PLOS Computational Biology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Thomas Perkins, Aravinthan SamuelFrederick B. Shipley, Kevin Mizes, Sherif Gerges, Ashley Linder, Mochi Liu, Kevin S. Chen000952Assist Prof.
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.
CalTech072006Pasadena, CA, USAYaser Abu-Mostafa

CalTech
【研究方向】Learning(0+14); Development(0+1); Art(0+1); Knowledge(0+1); Neural network(0+1); Engineering(0+1);
【模式生物】
【方法技术】Model(0+2); Theory(0+2); Mathematics(0+2);
【简述】Learning and Computation
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UW021010Seattle, WA, USADavid Perkel

UW
【研究方向】Learning(0+6); Synaptic Plasticity(0+2); Neurotransmitter(0+1); Structure(0+1); Plasticity(0+1); LTP(0+1); Motor learning(0+1); Memory(0+1); Knowledge(0+1); Hippocampus(0+1); Basal ganglia(0+1);
【模式生物】Bird(0+2); Songbird(0+2); Human(0+1);
【方法技术】Behavior(0+3); In vitro(0+2); In vivo(0+1); Model(0+1);
【简述】; Biology Link; Otolaryngology Link;
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
UCSF003015San Francisco, CA, USADena Dubal

UCSF
【研究方向】Aging(0+11); Neurodegenerative disease(0+5); Cognition(0+3); Hormone(0+3); Disease(0+2); Body(0+2); Transgenic(0+1); Synapse(0+1); Age-related(0+1); Stress(0+1);
【模式生物】Human(0+2); Mouse(0+2);
【方法技术】Model(0+3); Gene(0+1);
【简述】Mechanisms of Neural Resilience in Aging and Neurodegenerative Disease
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSF003015San Francisco, CA, USAErik Ullian

UCSF
【研究方向】Synapse(0+13); Glia(0+6); Development(0+6); Retina(0+3); Glial cell(0+2); Synaptogenesis(0+2); Synapse formation(0+2); Form(0+2); Astrocyte(0+1); Embryo(0+1); Dendrite(0+1); Vision(0+1); Connection(0+1); Thalamus(0+1);
【模式生物】
【方法技术】In vitro(0+3); Gene(0+2); Protein(0+1); In vivo(0+1); Cell culture(0+1);
【简述】Interactions between Neurons and Glia that are Required for the Proper Development and Function of the Nervous System
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAAllan D. 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
JHU010012Baltimore, MD, USADa-Ting Lin

JHU
【研究方向】Imaging(0+2); Optical imaging(0+2); Development(0+1); Dysfunction(0+1); Addiction(0+1); Neural Circuit(0+1); Cognition(0+1); Optical(0+1);
【模式生物】
【方法技术】In vivo(0+3); Computation(0+2); Data analysis(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, USAEmily Balcetis

NYU
【研究方向】Social(11+3); Perception(8+2); Vision(5+1); Cognition(3+1); Object(2+0); Social cognition(1+1); Emotion(1+1); Modulation(1+0); Structure(1+0); Environment(1+0); Navigation(0+1); Attention(1+0); Decision making(0+1); Inference(1+0); Exploration(1+0); Motivation(1+0);
【模式生物】
【方法技术】Behavior(0+1);
【简述】Impact of psychological states on conscious and nonconscious perceptions and reactions_x000D_

【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
002928Assoc Prof.
Harvard001001Boston, MA, USACharles Weitz

Harvard
【研究方向】Circadian clock(20+8); Circadian(9+-1); Transcription(3+1); Regulation(3+0); Vision(3+0); Cytokine(2+0); Receptor(2+0); Rhythm(2+0); Retina(2+0); Sleep(2+0); Hypothalamus(2+0); Suprachiasmatic nucleus(2+0); MeCP2(1+0); Mutant(1+0); Environment(0+1); Dendritic growth(1+0); Dendrite(1+0); Spine(1+0); Exploration(1+0); Biological rhythms(0+1); Dynamics(1+0); Machine(0+1);
【模式生物】Mouse(3+1); Human(1+0);
【方法技术】Protein(6+2); Gene(2+1); Behavior(2+0); Biochemistry(0+1); Microscopy(0+1); Bioinformatics(1+0);
【简述】Molecular Biology of Mammalian Circadian Clocks
【研究论文】Cell(4); Nature Neuroscience(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Kai-Florian StorchYears: 2016 — 2018; Recipients: Weitz, Charles J; Code: R01; Title/Keywords: Mammalian Circadian Clock: Genetics of Period Complex Composition and Structure.@ Harvard Medical School; Matching Score: 0.958011603Prof.
UCSF003015San Francisco, CA, USASaul Villeda

UCSF
【研究方向】Aging(0+10); Cognition(0+5); Plasticity(0+2); Age-related(0+2); Environment(0+1); Neurodegenerative disease(0+1); Neurodegenerative disorder(0+1); Vulnerability(0+1);
【模式生物】Human(0+1);
【方法技术】
【简述】Mechanisms of Brain Aging and Rejuvenation
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
MIT005002Boston, MA, USATomaso Poggio

MIT
【研究方向】Vision(5+1); Learning(4+1); Object(3+1); Intelligence(2+2); Machine(4+0); Knowledge(0+3); Regularization(3+0); Object recognition(2+0); Speech(2+0); Convolutional Neural Network(2+0); Tumor(1+0); Neural Circuit(0+1); Form(0+1); Face(1+0); Face recognition(1+0); Memory(0+1); Social(0+1); Concept(0+1); Reasoning(0+1); Machine learning(1+0); Artificial intelligence(1+0); Neural network(1+0); Signal processing(1+0); Engineering(0+1); Methodology(0+1);
【模式生物】Human(2+1);
【方法技术】Computation(6+8); Model(1+7); Theory(3+1); Mathematics(3+1); Gene(2+0); Behavior(0+1);
【简述】Computational Neuroscience
【研究论文】Nature(2); Science(1); Nature Neuroscience(1); Neural Computation(1); NIPS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Antonio Borsellino, David Marr, Werner ReichardtG. Rodrigo Sigala A., Angela J. Yu, Nikon A. Rasumov, Luke Arend, Theodoros Evgeniou, Lyle J. GRAHAM, Leyla Isik, Pawan Sinha, Stanley Michael Bileschi, Christof Koch, Anya Hurlbert, Thomas M. Breuel, Partha Niyogi, Max Riesenhuber, Sayan Mukherjee, Gene W. Yeo, Charles F. Cadieu, Alexander Rakhlin, Sanmay Das, Thomas Serre, Ethan Meyers, Ulf Knoblich, Cheston Tan, Joel Z. Leibo, Heinrich H. Buelthoff, Martin A. Giese, Gabriel Kreiman, Lorenzo Rosasco, Alessandro Verri, Daphna Weinshall, Thomas Serre, Christof Koch, Andrew Parker, Hanspeter A. Mallot, Shimon Edelman, Davide Zoccolan, Sang Wan Lee, Tony Ezzat, Minjoon Kouhmark Stephen Alfano, Francis Harry Compton Crick, Robert Desimone, Manfred Fahle, David J. Freedman, Nikos K. Logothetis, Stephen Smale, Vincent Torre, Shimon Ullman, Alessandro Verri, Chou P. Hung, David L. Sheinberg, Dirk B. WaltherYears: 2013 — 2018; Recipients: Poggio, TomasoWilson, Matthew (co-PI) [⬀] Kreiman, Gabriel (co-PI) [⬀] Mahadevan, LakshminarayanaHirsh, Haym (co-PI) [⬀] ; Code: N/A; Title/Keywords: A Center For Brains, Minds and Machines: the Science and the Technology of Intelligence@ Massachusetts Institute of Technology; Matching Score: 0.915107021Prof.
NYU015028New York, NY, USARobin Mitnick

NYU
【研究方向】Imaging(2+0); Sclerosis(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
Assoc 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.
WUSTL009032Saint Louis, MO, USAJoseph C. Corbo

WUSTL
【研究方向】Photoreceptor(10+0); Development(4+0); Retina(1+3); Vision(1+2); Color(0+2); Spectral(2+0); Encoding(2+0); Reprogramming(1+0); Embryo(1+0); Axon(1+0); Disease(0+1); Degeneration(1+0); Hemorrhage(1+0); Tumor(1+0); Cognition(0+1); Knowledge(0+1); A1(1+0); Hippocampus(1+0); Evolutionary(1+0);
【模式生物】Mouse(6+1); Human(1+3); Bird(0+1);
【方法技术】Gene(6+3); Model(2+1); In vivo(2+0); Protein(1+0);
【简述】(1) transcriptional networks in the retina; (2) the mechanistic basis of color vision; (3) the cis-regulatory basis of human uniqueness and neuropsychiatric disease
【研究论文】Nature(1); Cell(2); Neuron(1); JNS(2);
【综述】Physical Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael Levine, Chris A. Walsh, Constance L. CepkoLeo Volkov, Karen A. Lawrence, Natecia L. Williams, Cynthia L. Montana, Jennifer M. Enright, Susan Q. Shen, Andrew Hughes, Daniel P. Murphy, Stacy L. Donovan, Matthew B. ToomeyYears: 2016 — 2019; Recipients: Corbo, Joseph; Code: R01; Title/Keywords: Deciphering the Mechanistic Basis of Infrared Vision For Optogenetic Applications@ Washington University; Matching Score: 0.915006639Prof.
CalTech072006Pasadena, CA, USAThanos Siapas

CalTech
【研究方向】Vision(5+0); Structure(1+2); Learning and memory(0+3); Sleep(2+1); Visual cortex(3+0); Hippocampus(0+3); Oscillation(2+0); Learning(0+2); V1(2+0); CA1(2+0); Modulation(1+0); Dopamine(1+0); Membrane(1+0); Network Interaction(0+1); Synchrony(1+0); Development(0+1); Nicotine(1+0); Adaptation(1+0); Contrast(1+0); Eye Movement(1+0); Acquisition(0+1); Consolidation(0+1); Memory Consolidation(0+1); Retrieval(0+1); Spatial learning(1+0); Dynamics(1+0); Connection(1+0); V4(1+0); Dorsal striatum(1+0); Nucleus accumbens(1+0);
【模式生物】Mouse(2+0); Primate(1+0); Rodent(0+1);
【方法技术】Model(2+1); Gene(0+1); Behavior(0+1); Pharmacology(0+1); Computation(1+0); Theory(0+1);
【简述】Neurophysiology, Learning and Computation
【研究论文】Nature(1); Science(1); Cell(1); Nature Neuroscience(1); Neuron(7); JNS(1); eLife(1); Cerebral Cortex(1); NIPS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003390Prof.
UCSD011017San Diego, CA, USADavid Welsh

UCSD
【研究方向】Rhythm(0+3); Circadian(0+3); Circadian clock(0+3); Imaging(0+2); Disorder(0+1); Body(0+1); Suprachiasmatic nucleus(0+1);
【模式生物】Human(0+1);
【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, USADavid E. Krantz

UCLA
【研究方向】Neurotransmitter(0+2); Transporter(0+2); Psychiatry(0+2); Regulation(0+1); Synaptic Transmission(0+1); Development(0+1);
【模式生物】Drosophila(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
Stanford002003Palo Alto, CA, USALambertus Hesselink

Stanford
【研究方向】Optical(4+0); Contrast(2+0); Imaging(2+0); Learning(1+0); Dynamics(1+0); Engineering(1+0);
【模式生物】
【方法技术】Model(3+0); Simulation(2+0); Theory(1+0); Statistics(1+0);
【简述】
【研究论文】Science(2);
【综述】Physical Review(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Hans Wolfgang Liepmann, Bradford SturtevantSteven H. Collicott, Minami Yoda, Rajesh K. Batra, Alice Y. Liu, Loukas Paraschis, Xiaolei Shi, Joseph A. Matteo, Jun Ren, Ji-Won Son, Liying Sun, Yuzuru TakashimaYears: 2010 — 2013; Recipients: Hesselink, Lambertus; Code: N/A; Title/Keywords: Nano Optical Conveyor Belt@ Stanford University; Matching Score: 1Prof.
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.
NIH-NCCIH??Bethesda, MD, USAYarimar Carrasquillo

NIH-NCCIH
【研究方向】Amygdala(10+7); Pain(7+4); Plasticity(6+2); Modulation(4+3); Metabotropic glutamate receptor(6+0); Glutamate receptor(6+0); Rhythm(6+0); Suprachiasmatic nucleus(6+0); Circadian(4+0); Potassium channel(3+0); Pain perception(3+0); Sodium channel(2+0); Angelman(2+0); Vision(2+0); Motor(2+0); Learning(1+1); Biological rhythms(2+0); Visual cortex(2+0); Structure(0+1); Cocaine(1+0); Cognition(0+1); Sense(0+1); Touch(0+1); Learning and memory(1+0); Art(1+0);
【模式生物】Mouse(6+0); Rodent(0+1);
【方法技术】Behavior(3+3); Channel(5+0); Anatomy(0+3); Model(2+1); Gene(1+1); Protein(2+0); Electrophysiology(0+2); Optogenetics(0+1); Pharmacology(0+1);
【简述】Behavioral, Neurocircuitry and Cellular Plasticity Section, NCCIH
【研究论文】Neuron(2); JNS(11);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Robert W. Gereau001295
Harvard001001Boston, MA, USASean Megason

Harvard
【研究方向】Development(9+5); Imaging(8+4); Dynamics(6+1); Embryo(2+2); Membrane(3+0); Form(1+1); Transgenic(0+1); Receptor(1+0); Vesicle(1+0); Glia(0+1); Neurogenesis(1+0); Cell fate(0+1); Regeneration(1+0); CNS(1+0); Embryology(0+1); Contrast(1+0); Object(1+0); Hair cell(1+0); Spectral(1+0); Morphology(1+0); Encoding(1+0);
【模式生物】Zebrafish(8+3); Human(2+0);
【方法技术】Gene(6+1); Microscopy(4+2); Model(4+2); Computation(1+1); Tracing(1+0); Mathematics(0+1);
【简述】Development of the spinal cord and inner ear using in toto imaging in zebrafish
【研究论文】Cell(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Andrew P. McMahonYears: 2018; Recipients: Klein, Allon MosheMegason, Sean G; Code: R01; Title/Keywords: Mapping the Signaling Landscape of Vertebrate Development At Single Cell Resolution@ Harvard Medical School; Matching Score: 0.934002472Assoc Prof.
UCLA011013Los Angeles, CA, USALaura DeNardo

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
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
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.
UW021010Seattle, WA, USACyrus P. Zabetian

UW
【研究方向】Body(0+3); Disorder(0+2); Cognition(0+2); Environment(0+1); Neurodegenerative disease(0+1); Parkinson's disease(0+1); LRRK2(0+1); Nicotine(0+1); Frequency(0+1); Motor(0+1);
【模式生物】
【方法技术】Gene(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, USAElizabeth Engle

Harvard
【研究方向】Development(8+4); Disorder(5+3); Axon(2+3); Vision(4+0); Imaging(3+1); Axon guidance(3+0); Motor(3+0); Muscle(3+0); Axon growth(1+1); Disease(0+2); Developmental Disorder(1+1); Mutant(1+0); Structure(0+1); Plasticity(0+1); Glia(0+1); Regeneration(1+0); Neurology(1+0); Autism(1+0); Neuromuscular(1+0); Pediatric(1+0); Cognition(1+0); Face(0+1); Cardiovascular(1+0); Encoding(1+0); Dynamics(1+0); Optical(1+0); Connection(0+1); LIP(1+0); White matter(1+0);
【模式生物】Human(10+3); Mouse(1+1); Zebrafish(0+1);
【方法技术】Gene(6+3); MRI(3+0); Model(0+2); In vitro(0+1); Cell culture(0+1); Computation(0+1);
【简述】Cranial axon growth and guidance
【研究论文】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
E. Tessa Hedley-Whyte, Edward P. Richardson Jr.Matthew Frederick Rose006480Prof.
UCSF003015San Francisco, CA, USAKarunesh Ganguly

UCSF
【研究方向】Motor(0+4); Oscillation(0+1); Stroke(0+1); Injury(0+1); Motor learning(0+1); Neuroprosthetics(0+1);
【模式生物】
【方法技术】In vivo(0+1); Electrophysiology(0+1);
【简述】Neuroprosthetics, motor rehabilitation, and plasticity
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USASteven Burden

NYU
【研究方向】Synapse formation(0+1); Neuromuscular(0+1);
【模式生物】
【方法技术】
【简述】Neuromuscular synapse formation
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gerald Fischbach, Anthony Stretton, U. J. McMahanElizabeth D. Prescott, Alexander Jaworski, Natalie Kim , Amy L. Stiegler, Matthew B. Friese, Peter T. Hallock, Andrea M. Gomez, Mendell Rimer, Scott J. NowakYears: 2015 — 2018; Recipients: Burden, Steven; Code: R01; Title/Keywords: The Role of Agrin/Lrp4/Musk/Dok-7 Signaling in Disassembly of Neuromuscular Synapses During Aging.@ New York University School of Medicine; Matching Score: 0.915Prof.
Columbia006008New York, NY, USARichard S. Mann

Columbia
【研究方向】Development(11+5); Structure(2+0); Transcription(1+1); Proliferation(0+2); Differentiation(0+2); Motor(0+2); Motor Neuron(1+1); Imaging(2+0); Mutant(1+0); Regulation(1+0); CNS(0+1); Axon(0+1); Dendrite(0+1); Synaptogenesis(0+1); Sense(0+1); Body(1+0); Gait(1+0); Morphology(0+1);
【模式生物】Drosophila(5+0); Rodent(1+0); Stem Cell(0+1);
【方法技术】Protein(2+1); Gene(0+2); Microscopy(2+0); Biochemistry(1+0); In vivo(0+1); In vitro(0+1); Behavior(0+1);
【简述】Stem Cell Biology; Neurogenetics; Axon Pathfinding and Synaptogenesis; Cell Specification and Differentiation; Cellular/Molecular/Developmental Neuroscience;
【研究论文】Nature(4); Cell(8);
【综述】Annual Review Of Biochemistry(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David Baltimore, David S. HognessLalanti Venkatasubramanian, Paul Feinstein, Gabrielle Rieckhof, Hyung-Don Ryoo, Jill C. Wildonger, Katherine E. Stevens, Jonathan D. Zirin, Barbara Noro, Michael A. Crickmore, Daniel J. McKay, Hsien-wei Peng, Myungin Baek, Katherine M. Lelli, Vikram Ranade, Susan Newcomb, Matthew Slattery, Fernando Casares, Zhaohui Wang, Brian Gebelein, Joaquim Culi, Carlos Estella, Rohit JoshiYears: 2017 — 2018; Recipients: Mann, Richard S; Code: U19; Title/Keywords: Project 2: Neural Basis of Motor Pattern Control Loops@ California Institute of Technology; Matching Score: 0.907014525Prof.
UW021010Seattle, WA, USALee Osterhout

UW
【研究方向】Language(0+4); Comprehension(0+4); Structure(0+2); Cognition(0+2); Semantic(0+2); Syntax(0+2); Language acquisition(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
UCSD011017San Diego, CA, USAKristin K Baldwin

UCSD
【研究方向】Neural Circuit(0+3); Olfaction(0+3); Clone(0+2); Development(0+1); Neurodegenerative disease(0+1); Sense(0+1); Emotion(0+1); Imaging(0+1);
【模式生物】Mouse(0+2); Human(0+1);
【方法技术】Gene(0+1); Biochemistry(0+1); Behavior(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
NYU015028New York, NY, USABlas Frangione

NYU
【研究方向】Disease(0+2); Vessel(0+2); Transgenic(0+1); Cell line(0+1); Neurodegenerative disorder(0+1); Degeneration(0+1); Alzheimer's disease(0+1); Hemorrhage(0+1); Form(0+1);
【模式生物】Mouse(0+1);
【方法技术】Gene(0+6); Protein(0+4); Model(0+1);
【简述】Protein misfolding, Alzheimer's disease, dementia, and stroke
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
César MilsteinYears: 2001 — 2003; Recipients: Frangione, Blas; Code: R01; Title/Keywords: Amyloid Angiopathy, Early Plaques &Aging@ New York University School of Medicine; Matching Score: 1Emeritus
UCLA011013Los Angeles, CA, USAWendy Walwyn

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, USANicholas Cowan

NYU
【研究方向】Amino acid(0+1); Structure(0+1); Development(1+0); Environment(0+1); Disease(1+0); Neurodegenerative disorder(1+0); Lissencephaly(1+0); Microcephaly(1+0); Temperature(0+1);
【模式生物】Human(5+0);
【方法技术】Protein(0+3); Gene(2+0);
【简述】Protein folding in the eukaryotic cytosol
【研究论文】Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCSD011017San Diego, CA, USAViola Störmer

UCSD
【研究方向】Multisensory integration(0+2); Cognition(0+1); Perception(0+1);
【模式生物】
【方法技术】Behavior(0+1); Computation(0+1);
【简述】 Cognitive, Behavioral & Psychopharmacology; Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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.
Yale014011New Haven, CT, USAD. S. Fahmeed Hyder

Yale
【研究方向】Imaging(0+2); Therapy(0+1); Energy metabolism(0+1); Engineering(0+1);
【模式生物】Bird(0+1);
【方法技术】MRI(0+1); fMRI(0+1);
【简述】Biomedical Engineering; Magnetic Resonance Imaging; Neoplasms by Histologic Type; Neurosciences; Radiology; Molecular Probes.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAJacinda Sampson

Stanford
【研究方向】Sleep(3+0); Neuromuscular(2+0); Mutant(1+0); LTD(1+0); Proliferation(1+0); Differentiation(1+0); Reprogramming(1+0); Disease(1+0); Disorder(1+0); Degeneration(1+0); Sclerosis(1+0); Spectral(1+0); Muscle(1+0);
【模式生物】Human(6+0);
【方法技术】Gene(3+0); EEG(1+0);
【简述】
【研究论文】Science(1); Cell(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
UCSF003015San Francisco, CA, USAYing-Hui Fu

UCSF
【研究方向】Sleep(0+17); Rhythm(0+4); Circadian(0+3); Regulation(0+2); Mutant(0+1); Environment(0+1); Disease(0+1); Disorder(0+1); Alcohol(0+1); Depression(0+1); Social(0+1); Circadian clock(0+1); Cardiovascular(0+1);
【模式生物】Human(0+10); Mouse(0+1);
【方法技术】Behavior(0+4); Gene(0+2); In vivo(0+1); In vitro(0+1); Model(0+1);
【简述】Molecular Study of Human Sleep Behaviors
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USAJonathan Lipton

Harvard
【研究方向】Circadian(3+8); Disease(0+5); Rhythm(0+4); Circadian clock(0+4); Bmal1(1+2); Translation(1+2); Sclerosis(3+0); Timing(0+3); Neural Circuit(2+0); Sleep(2+0); Metabolism(0+2); Dynamics(2+0); Modulation(1+0); Glutamate(1+0); Plasticity(1+0); Oscillation(0+1); Glia(0+1); Environment(0+1); Synapse(0+1); Neurology(1+0); Developmental Disorder(1+0); Aging(0+1); Stress(0+1); Imaging(0+1);
【模式生物】Mouse(2+0);
【方法技术】Protein(2+7); Model(3+2); Behavior(1+3); Biochemistry(0+1);
【简述】Circadian rhythms and translational control in neurological diseases of the developing brain
【研究论文】JNS(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Scott Emmons, Mustafa SahinSamantha M SchaefferAssist Prof.
UCLA011013Los Angeles, CA, USAYih-Ing Hser

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, USAJordan Taylor

Princeton
【研究方向】Adaptation(22+1); Learning(11+8); Motor(10+4); Motor learning(8+1); Cognition(7+0); Cerebellum(5+1); Motor control(4+1); Reinforcement learning(3+1); Muscle(3+0); Attention(3+0); PFC(2+1); Development(1+1); Cognitive neuroscience(2+0); Perception(2+0); Form(0+2); Reaching(2+0); Memory(2+0); Neurotransmitter(0+1); Disease(0+1); Neurology(1+0); Stroke(0+1); Sense(1+0); Vision(1+0); Visual cognition(1+0); Acquisition(0+1); Dynamics(1+0); Temporal lobe(0+1); Medial Temporal Lobe(0+1); Basal ganglia(0+1); Red nucleus(1+0);
【模式生物】Human(7+1); Mouse(1+0);
【方法技术】Computation(9+3); Gene(2+0); Model(0+2); Channel(1+0);
【简述】Human Neuroscience
【研究论文】Science(1); JNS(3); PLOS Computational Biology(1); Neural Computation(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
William Thomas Thach, Neuro Psychology, Kurt A. Thoroughman, Todd S. Braver, Richard IvryKrista M. Bond, Judith E. Fan, Sarah A. Hutter, Samuel D. McDougle, Eugene Poh, Peter A. ButcherYears: 2018 — 2020; Recipients: Taylor, Jordan; Code: N/A; Title/Keywords: Eager: An Exploration of a Psychological Space For Human Motor Generalization@ Princeton University; Matching Score: 0.915001493Assoc Prof.
Stanford002003Palo Alto, CA, USANeelam Goyal

Stanford
【研究方向】Neuromuscular(0+3); Disease(0+2); Muscle(2+0); Disorder(0+1); Sense(1+0); Art(0+1); Sleep(0+1);
【模式生物】
【方法技术】Electrophysiology(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
Assist Prof.
Harvard001001Boston, MA, USAWilliam Carlezon

Harvard
【研究方向】Receptor(4+2); Psychiatry(4+0); Psychiatric disorder(1+2); Anxiety(2+1); Stress(1+2); Plasticity(0+2); Depression(0+2); Social(2+0); Fear(2+0); Sleep(2+0); Amygdala(2+0); Mutant(0+1); Modulation(1+0); AMPA receptor(1+0); Ion Channel(0+1); Rhythm(1+0); Glia(0+1); Development(0+1); Environment(0+1); Synapse(0+1); Disease(0+1); Perinatal(1+0); Trauma(0+1); Addiction(0+1); Cocaine(1+0); Nicotine(1+0); Schizophrenia(1+0); Finger(1+0); Learning(1+0); Motivation(0+1); Reward(1+0); Circadian(1+0); Engineering(0+1); Extended amygdala(1+0); Nucleus accumbens(1+0);
【模式生物】Rat(4+1); Mouse(2+1); Rodent(1+0);
【方法技术】Behavior(3+8); Gene(0+2); Model(0+1);
【简述】How experience affects the brain and behavior
【研究论文】Neuron(1); JNS(4);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John E. Kelsey, Roy Wise, Eric J. NestlerJennifer A. DiNieri, Steve Mague, Hilarie C. Tomasiewicz, Aram Parsegian, Diane M. Damez Werno, Allison Knoll, Ashlee Van't Veer, Andreas Arvanitogiannis, Elena Chartoff, Antonia L. Dow, John Muschamp, Karyn M. Myers, Tracie Paine, Mark Todtenkopf, Audrey M. Wells, Kimberly R. Lezak, Edward G. Meloni, Andrea PliakasC.J. Malanga, Anita J. BechtholtYears: 1996 — 1998; Recipients: Carlezon, William A; Code: F32; Title/Keywords: Molecular Mechanisms of Opiate Sensitization and Reward@ Yale University; Matching Score: 0.97Prof.
Yale014011New Haven, CT, USAChristopher Pittenger

Yale
【研究方向】Basal ganglia(0+5); Disease(0+4); Disorder(0+4); Glutamate(0+2); Learning(0+2); Neurotransmitter(0+1); Structure(0+1); Development(0+1); Dysfunction(0+1); Addiction(0+1); Motor control(0+1); Imaging(0+1);
【模式生物】Mouse(0+2);
【方法技术】Behavior(0+1); fMRI(0+1);
【简述】Basal Ganglia Diseases; Tourette Syndrome; Learning; Molecular Biology; Neuroanatomy; Neurobiology; Neurophysiology; Neurosciences; Obsessive-Compulsive Disorder; Phobic Disorders; Psychopharmacology; Trichotillomania.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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.
Columbia006008New York, NY, USAAi Yamamoto

Columbia
【研究方向】Disease(3+4); Membrane(2+2); Trafficking(0+4); Receptor(3+0); Transgenic(2+0); Transporter(1+1); Degeneration(0+2); Dysfunction(2+0); Huntington's disease(2+0); Context(0+2); Mutant(1+0); Neurotransmitter(0+1); Dopamine(1+0); 5-HT(1+0); Peptide(1+0); Environment(0+1); Pluripotent stem cells(1+0); CNS(0+1); Embryo(0+1); Neurodegenerative disease(1+0); Aging(0+1); Parkinson's disease(1+0); Body(1+0); Motor(1+0); Basal ganglia(1+0); Hypothalamus(1+0);
【模式生物】Mouse(2+2); Stem Cell(2+0); Human(1+0);
【方法技术】Protein(5+5); Model(4+0); In vitro(1+0); Cell culture(1+0); Electrophysiology(1+0);
【简述】Roles of macroautophagy in the healthy and diseased CNS; Neural Degeneration and Repair; Disease; Protein trafficking;
【研究论文】Nature(2); Cell(5); Nature Neuroscience(1); Neuron(1); JNS(2);
【综述】Annual Review Of Neuroscience(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
René HenJoanna M DragichYears: 2018; Recipients: Yamamoto, Ai; Code: R01; Title/Keywords: Selective Autophagy in Parkinson'Sdisease@ Columbia University Health Sciences; Matching Score: 1010125Assoc Prof.
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
JHU010012Baltimore, MD, USAChristopher Potter

JHU
【研究方向】Neural Circuit(0+3); Sense(0+3); Perception(0+2); Environment(0+1); Cognition(0+1); Olfaction(0+1); Knowledge(0+1); Mating(0+1);
【模式生物】Human(0+2);
【方法技术】Gene(0+2); Behavior(0+1); Computation(0+1); Model(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
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, USAAnthony Wagner

Stanford
【研究方向】Memory(11+1); Cognition(9+2); PFC(8+1); Retrieval(7+1); Cognitive Control(6+1); Encoding(6+1); Temporal lobe(4+1); Medial Temporal Lobe(4+1); Semantic(4+0); Executive control(2+1); Learning(2+0); Context(2+0); Language(2+0); Imaging(2+0); Hippocampus(2+0); Structure(1+0); Psychiatry(1+0); Aging(0+1); Schizophrenia(1+0); Cognitive neuroscience(0+1); Episodic memory(1+0); Working memory(0+1); Stress(1+0); Neural decoding(1+0); Dynamics(1+0); Reinforcement learning(1+0); Parietal lobe(1+0);
【模式生物】Human(5+0);
【方法技术】MRI(3+1); fMRI(3+0); ECoG(1+0); EEG(0+1); PET(1+0); TMS(0+1);
【简述】
【研究论文】Science(1); Nature Neuroscience(2); Neuron(3); JNS(2); Nature Communications(1); PNAS(7); Cerebral Cortex(2);
【综述】Annual Review Of Psychology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Robert A. Bjork, Gordon H. Bower, John D.E. Gabrieli, Daniel SchacterNils Nyberg, Jessica K. Wilson, Richard W. Prather, Brittany E. Burrows, Aaron M. Bornstein, Crystal L.C. Reeck, Shanti Shanker, Sarah DuBrow, Mary E. Smith, Serra E. Favila, Manasi Jayakumar, David Badre, Ian C. Ballard, Stephanie A. Gagnon, Alex Gonzalez, Alan Gordon, J. Benjamin Hutchinson, Brice Alan Kuhl, Karen F. LaRocque, Anna M. Khazenzon, Itamar Kahn, Yun-Ching Kao, Nicole Maria Kuhl, Elizabeth Anne Nichols, Elizabeth Anne Race, Rosanna K. Olsen, Janice Chen, Michael L. Waskom, Silvia A. Bunge, Brian D. Gonsalves, Alison R. Preston, Daphna Shohamy, Melina R. Uncapher, Valerie A. Carr, Jiefeng Jiang, Lila Davachi, Jesse Rissman, Benjamin J. Levy, Marlieke T.R. van Kesteren, Brett L. Foster, Thackery Ian BrownRoozbeh Kiani, Geoffrey A. KerchnerYears: 2018 — 2019; Recipients: Wagner, Anthony D; Code: R21; Title/Keywords: Age-Related Decline in Interactions Between Context, Cognitive Control, and Memory@ Stanford University; Matching Score: 1030029Prof.
NYU015028New York, NY, USAAravinda Chakravarti

NYU
【研究方向】
【模式生物】Human(0+1);
【方法技术】
【简述】Human molecular genetics
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USACarla M. Koehler

UCLA
【研究方向】Disease(0+2);
【模式生物】
【方法技术】Protein(0+2); Biochemistry(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
Harvard001001Boston, MA, USAJeffrey Holt

Harvard
【研究方向】Hair cell(22+4); Sense(4+4); Vestibular(7+1); Auditory(5+2); Ion Channel(5+1); Development(4+2); Therapy(5+1); Adaptation(4+1); Disorder(2+2); Dysfunction(1+2); Imaging(1+2); Receptor(1+1); Acquisition(2+0); Transgenic(1+0); Structure(0+1); Pluripotent stem cells(1+0); Disease(0+1);
【模式生物】Mouse(11+0); Stem Cell(5+0); Human(2+1);
【方法技术】Gene(9+3); Model(3+0); Channel(2+0); In vivo(2+0); Protein(0+1); Electrophysiology(0+1);
【简述】Sensory Transduction in Hair Cells of the Mammalian Inner Ear
【研究论文】JNS(1); Nature Communications(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ruth Anne Eatock, David P. CoreyMichaela Levin, Ye Hyun Kim, Jessica R. Risner, Eric A. Stauffer, Geoffrey C. Horwitz, Charles Askew, Xiao Ping LiuYears: 2001 — 2011; Recipients: Holt, Jeffrey R; 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: Ion Channel Function in Auditory &Vestibular Hair Cells@ University of Virginia Charlottesville; Matching Score: 0.957005059Prof.
UCSD011017San Diego, CA, USARobert E. Clark

UCSD
【研究方向】Structure(0+2); Cognition(0+2); Memory(0+2); Learning and memory(0+2); Environment(0+1); Psychiatry(0+1); Sense(0+1); Body(0+1); Connection(0+1);
【模式生物】Rat(0+2); Human(0+1); Rodent(0+1);
【方法技术】Behavior(0+3); Gene(0+1); Model(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
NYU015028New York, NY, USAAlex D. Reyes

NYU
【研究方向】Auditory cortex(4+0); Modulation(2+0); Dendrite(2+0); GABA(1+0); Membrane(1+0); Development(1+0); Depression(1+0); Auditory(1+0); Auditory processing(1+0); Frequency(1+0); Motor cortex(1+0); A1(1+0);
【模式生物】Rat(2+0); Mouse(2+0);
【方法技术】In vitro(2+0); Statistics(1+0);
【简述】Functional interactions of neurons in a network
【研究论文】Nature(1); Science(1); Nature Neuroscience(3); Neuron(2); JNS(7);
【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
Eberhard E. Fetz, Edwin W. Rubel, Bert Sakmann, William J. SpainHysell V. Oviedo, Max Schiff, Frances Chance, Jaime de la Rocha, Brent Doiron, Hideyuki Cateau, Anne-Marie M. Oswald, Jérémie BarralYears: 2014 — 2015; Recipients: Reyes, Alex DRinzel, John M; Code: R21; Title/Keywords: Synaptic Integration With Replacement, Virtual Dendrites Modeled in Real-Time@ New York University; Matching Score: 1005831Prof.
NIH-NIDA??Bethesda, MD, USABrandon Harvey

NIH-NIDA
【研究方向】Transgenic(3+0); Receptor(2+0); Parkinson's disease(2+0); HIV(2+0); CRISPR/Cas9(1+0); Microglia(1+0); Transplantation(1+0); Psychiatry(1+0); Aging(1+0); Age-related(1+0); Neuroprotective(1+0); Neuroprotection(1+0); Stroke(1+0); Injury(1+0); Cocaine(1+0); Kinematics(1+0); Learning(1+0); Reward(1+0); Dorsal striatum(1+0); Ventral pallidum(1+0); Hypothalamus(1+0); VTA(1+0); Substantia nigra(1+0);
【模式生物】Rat(7+0);
【方法技术】Model(3+0); In vitro(1+0); Behavior(1+0);
【简述】
【研究论文】Science(1); Neuron(1); JNS(1); Curr Biol.(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Howard J. Federoff, Barry J. HofferDavid J. ReinerYears: 2018; Recipients: Harvey, Brandon; Code: ZIA; Title/Keywords: Cellular Mechanisms of Neuronal Dysfunction@ National Institute On Drug Abuse; Matching Score: 0.915
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, USAPeyman Golshani

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, USAH. Tad Blair

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, USANicholas Schork

UCSD
【研究方向】Disease(0+3); Development(0+1); Bipolar(0+1); Schizophrenia(0+1); Cardiovascular(0+1); Methodology(0+1);
【模式生物】Human(0+1);
【方法技术】Data analysis(0+3); Gene(0+1); Biochemistry(0+1); Bioinformatics(0+1);
【简述】 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, USAGayle Deutsch, ABPP

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.
Stanford002003Palo Alto, CA, USALaura Giardi

Stanford
【研究方向】Pain(32+5); Pediatric(8+1); Fear(7+2); Neuroimaging(1+1); Anesthesia(1+0); Anxiety(1+0); Cognition(0+1); Headache(1+0); Neuropathic pain(1+0); Musculoskeletal pain(1+0); Learning(0+1); Learning and memory(0+1); Reconsolidation(0+1); Extinction(0+1); Context(0+1); Decision making(1+0); Social(0+1); Art(1+0); Reward(1+0); Imaging(0+1);
【模式生物】Human(1+0);
【方法技术】Behavior(1+2);
【简述】
【研究论文】
【综述】Review(3); Neuroscience And Biobehavioral Reviews(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
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
UCLA011013Los Angeles, CA, USANanthia Suthana

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, 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
Harvard001001Boston, MA, USATodd E. Anthony

Harvard
【研究方向】Stress(0+5); Development(2+1); Disorder(0+2); Anxiety(1+1); Imaging(0+2); Receptor(1+0); Structure(0+1); Plasticity(0+1); Glial cell(1+0); Glia(1+0); CNS(1+0); Disease(0+1); Psychiatric disorder(0+1); Depression(0+1); Post-traumatic stress disorder(0+1); Motor(1+0); Attention(0+1); Social behavior(0+1); Metabolism(1+0); Amygdala(1+0); Hypothalamus(1+0);
【模式生物】Human(1+1); Mouse(1+1);
【方法技术】Behavior(0+6); Gene(2+3); Protein(1+0); Tracing(1+0); Electrophysiology(0+1); Pharmacology(0+1); Model(1+0);
【简述】Genetic dissection of neural circuits that control stress-induced behavioral states
【研究论文】Cell(1); Nature Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Nathaniel Heintz, David J. AndersonYears: 2006 — 2008; Recipients: Anthony, Todd Erryl; Code: F32; Title/Keywords: Connections and Function of Reproductive Neural Circuits@ California Institute of Technology; Matching Score: 0.904Assist Prof.
NYU015028New York, NY, USADaniel Tranchina

NYU
【研究方向】Vision(3+0); Retina(3+0); Neural network(3+0); Adaptation(2+0); Modulation(1+0); Glutamate(1+0); Dopamine(1+0); Glutamate receptor(1+0); Synapse(1+0); Photoreceptor(1+0); Dynamics(1+0); Signal processing(1+0);
【模式生物】Monkey(1+0); Primate(1+0); Xenopus(1+0);
【方法技术】Model(7+0); Computation(5+0); Mathematics(1+0);
【简述】Statistical problems in neuroscience
【研究论文】Nature(1); Cell(1); JNS(2); PLoS Biol.(1); PLOS Computational Biology(1); Neural Computation(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Evan C. Haskell, Duane Q. Nykamp, Felix J. Apfaltrer, Cheng Ly, Adam R. StinchcombeYears: 2002 — 2005; Recipients: Tranchina, Daniel; Code: N/A; Title/Keywords: Population Density Methods and Applications in Large-Scale Modeling of Neural Networks@ New York University; Matching Score: 1004048Prof.
Stanford002003Palo Alto, CA, USAEve Clark

Stanford
【研究方向】Language(24+0); Language acquisition(13+0); Acquisition(12+0); Development(6+0); Cognition(6+0); Learning(5+0); Contrast(3+0); Semantic(2+0); Speech(2+0); Object(1+0); Planning(1+0); Context(1+0); Timing(1+0); Syntax(1+0); Morphology(1+0); Category(1+0); Categorization(1+0); Word meaning(1+0); Art(1+0); Concept(1+0);
【模式生物】Human(2+0);
【方法技术】Behavior(2+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
Scott Schwenter, David Alexander McKercher, Michelle Marie Chouinard, Jean-Philippe Marcotte, Bruno Estigarribia, Chigusa Kurumada, Kate L. LindseyYears: 2012 — 2014; Recipients: Clark, EveTice, Marisa; Code: N/A; Title/Keywords: Learning to Speak in Time: Perception and Production Processes Involved in Conversational Turn-Taking@ Stanford University; Matching Score: 0.915024447Prof.
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, USAMichael Levitt

Stanford
【研究方向】Structure(11+6); Dynamics(5+0); Amino acid(2+0); Transcription(2+0); Inference(2+0); Mutant(1+0); Receptor(1+0); Membrane(1+0); Development(1+0); Language(1+0);
【模式生物】
【方法技术】Protein(11+6); Model(3+2); Simulation(4+1); Theory(1+1); Bioinformatics(2+0); Biochemistry(1+0); Computation(0+1);
【简述】
【研究论文】Science(2); PNAS(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
038630Prof.
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, PubMed
Princeton061009Princeton, NJ, USAMala Murthy

Princeton
【研究方向】Auditory(5+2); Neural codes(4+2); Sense(2+3); Structure(2+1); Membrane(3+0); Development(3+0); Sensorimotor transformation(3+0); Mushroom body(3+0); Neural Circuit(0+2); Sensorimotor Integration(2+0); Regulation(1+0); Modulation(0+1); Neuropeptide(1+0); Glutamate receptor(1+0); Neurotransmitter release(1+0); Sensory experience(0+1); Embryo(1+0); Trafficking(1+0); Perception(0+1); Vision(0+1); Self-motion(0+1); Touch(1+0); Motor(0+1); Social communication(0+1); Mating(0+1);
【模式生物】Drosophila(23+2); Human(0+1); Songbird(0+1);
【方法技术】Behavior(3+3); Gene(2+1); Computation(0+2); Model(0+2); In vivo(0+1); Theory(0+1);
【简述】Systems and Circuits ; Theory and Computation
【研究论文】Nature(1); Science(1); Cell(2); Neuron(4); JNS(2); Nature Communications(1);
【综述】Current Opinion In Neurobiology(5);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Thomas L. Schwarz, Gilles LaurentPip Coen, Kelly LaRue, Diego Pacheco, Alexandria Hammons, Philip A. Coen, Amanda Crocker, Jan Clemens, Adam J. Calhoun, Dudi Deutsch, Cyrille GirardinYears: 2018 — 2019; Recipients: Bialek, William (co-PI) [⬀] Murthy, MalaPillow, Jonathan William (co-PI) [⬀] Shaevitz, Joshua W (co-PI) [⬀] ; Code: R01; Title/Keywords: Dissecting Sensorimotor Pathways Underlying Social Interactions: Models, Circuits, and Behavior@ Princeton University; Matching Score: 1001761Assoc Prof.
NYU015028New York, NY, USAHoward Abikoff

NYU
【研究方向】Disorder(7+0); Psychiatry(7+0); ADHD(4+3); Development(0+4); Attention(2+1); Therapy(1+0); Autism(1+0); Bipolar(1+0);
【模式生物】
【方法技术】Behavior(1+0);
【简述】Treatment development and evaluation of children with Attention Deficit Hyperactivity Disorder
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Emeritus
Stanford002003Palo Alto, CA, USAJames Trudell

Stanford
【研究方向】Receptor(9+0); Alcohol(7+1); Modulation(4+0); Glycine receptor(4+0); Ligand gated ion channel(2+1); Ion Channel(2+1); GABAA receptor(2+0); Chemical neuroscience(2+0); Disorder(2+0); Amino acid(1+0); Potassium channel(1+0); Structure(0+1); Anesthesia(0+1); Development(1+0); Therapeutics(1+0); A2(1+0);
【模式生物】Human(2+0); Mouse(1+0);
【方法技术】Pharmacology(4+0); Model(2+1); Channel(1+0); Behavior(1+0); Computation(0+1); Theory(0+1);
【简述】
【研究论文】
【综述】Pharmacological Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2013 — 2017; Recipients: Trudell, James Robert; Code: R01; Title/Keywords: Defining Alcohol Binding Sites in Ligand-Gated Ion Channels@ Stanford University; Matching Score: 0.958Prof.
WUSTL009032Saint Louis, MO, USAMark E. Warchol

WUSTL
【研究方向】Sense(3+3); Hair cell(2+4); Development(0+4); Regeneration(2+2); Injury(0+4); Transgenic(0+1); Transcription(1+0); Differentiation(1+0); Embryo(0+1); Aging(0+1); Body(0+1); Auditory(0+1);
【模式生物】Mouse(0+2); Bird(0+1); Zebrafish(0+1);
【方法技术】
【简述】Mechanisms of development, injury and repair in the vertebrate auditory system
【研究论文】Cell(2); JNS(3); PLoS Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jeffrey T. CorwinTEJBEER KAURYears: 2017 — 2018; Recipients: Green, Steven H (co-PI) [⬀] Rubel, Edwin W (co-PI) [⬀] Warchol, Mark; Code: R01; Title/Keywords: Role of the Innate Immune System in the Survival of Auditory Neurons@ Washington University; Matching Score: 0.915Prof.
WUSTL009032Saint Louis, MO, USAKathleen B. McDermott

WUSTL
【研究方向】Memory(11+6); Learning(8+2); Cognition(6+1); Language(3+0); Retrieval(1+1); Alzheimer's(1+0); Frequency(1+0); Episodic memory(1+0); Attention(1+0); Executive control(1+0); Semantic(1+0); Encoding(1+0); Imaging(1+0); Neuroimaging(0+1); PFC(1+0); Temporal lobe(1+0); Medial Temporal Lobe(1+0);
【模式生物】Human(2+1);
【方法技术】fMRI(2+3); MRI(2+0); Behavior(0+2);
【简述】Human behavioral and fMRI studies of memory
【研究论文】Science(1); Neuron(3); Cerebral Cortex(1);
【综述】Review(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Henry L. Roediger, IIIKatie Alcock, Hung-Yu Chen, Nathan L. Anderson, Christopher L. Zerr, Jason C.K. Chan, Sean Kang, Karl K. Szpunar, Katie Arnold, Adrian W. Gilmore, Bridgid Finn, Steven M. Nelson, Yana Weinstein, Farah Naaz019338Prof.
Columbia006008New York, NY, USAMichael E. Goldberg

Columbia
【研究方向】Vision(5+8); LIP(9+1); Tumor(6+0); Attention(4+2); Somatosensory(2+2); Modulation(1+2); Cognition(1+2); Disease(2+0); Perception(2+0); Memory(0+2); S1(1+1); V4(2+0); Structure(0+1); Synapse(0+1); Pathogenesis(1+0); Therapy(1+0); Systems Neuroscience(0+1); Sense(0+1); Object(0+1); Spatial attention(1+0); Motor(1+0); Eye Movement(1+0); Saccade(1+0); Learning and memory(0+1); Intention(1+0); Decision making(1+0); Dynamics(1+0); PFC(1+0); Parietal lobe(1+0); Parahippocampal gyrus(0+1); Cerebellum(0+1);
【模式生物】Monkey(4+4); Human(2+0);
【方法技术】Behavior(0+2); Psychophysics(0+1);
【简述】Neurobiology of Learning and Memory; Cognitive/Systems Neuroscience; Sensory Physiology; Synapses and Circuits;
【研究论文】Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles F Barlow, Robert H. WurtzMark F. Walker, Angela Gee, Sara C. Steenrod, Yixing Xu, Annegret Lea Falkner, James Bisley, Charles Bruce, Carol L. Colby, Jean Rene Duhamel, Suresh Krishna, Makoto Kusunoki, Carl R. Olson, Mulugeta Semework, Gregory Stanton, Linus D Sun, Mingsha Zhang, Ari Zvi Zivotofsky, Matthew Phillips, Mark A. Segraves, Jay A. Edelman, Jacqueline Gottlieb, Keith D. Powell, Shennan A. WeissYears: 2018 — 2019; Recipients: Goldberg, Michael E.; Code: R21; Title/Keywords: The Role of the Cerebellum in Visual Learning@ Columbia University Health Sciences; Matching Score: 1000345Prof.
Harvard001001Boston, MA, USASandeep Robert Datta

Harvard
【研究方向】Olfaction(7+2); Development(5+1); Disorder(2+3); Schizophrenia(4+0); Neural Circuit(2+2); Disease(0+3); Sense(2+1); Environment(0+2); Bipolar(2+0); Stress(2+0); Imaging(0+2); Optical(2+0); Regulation(1+0); Modulation(0+1); Receptor(0+1); Ion Channel(0+1); Calcium channel(1+0); Structure(1+0); Plasticity(0+1); Transcription(1+0); Glia(0+1); Synapse(0+1); Neurodegenerative disease(0+1); Psychiatry(1+0); Autism(0+1); Neuroprotective(1+0); Huntington's disease(1+0); Neuroprotection(1+0); Systems Neuroscience(0+1); Body(0+1); Motor(0+1); Associative learning(0+1); Language(0+1); Inference(1+0); Motivation(0+1); Innate behavior(0+1); Machine learning(0+1); Neural network(1+0); Striatum(1+0);
【模式生物】Mouse(4+1); Drosophila(4+0); Bird(1+0);
【方法技术】Gene(4+2); Behavior(4+2); Protein(2+0); Computation(1+1); Channel(1+0); Cell culture(0+1); Tracing(0+1); Electrophysiology(0+1); Optogenetics(0+1); Pharmacology(1+0); Model(1+0);
【简述】Functional and Behavioral Interrogation of Neural Circuits in the Mammalian Olfactory System
【研究论文】Cell(1); Nature Neuroscience(1); Curr Biol.(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. Greenberg, Bernardo L. Sabatini, Richard AxelRalph Emilio Peterson, Victory T. Joseph, Maria L. Bloom, Alexandra Nowlan, Francis Kei Masuda, Alex B. Wiltschko, Stan Pashkovski, Taralyn M. Tan, Maria L. Bloom, David H Brann, Rockwell R Anyoha, Winthrop F Gillis, Slater Sharp, Daniel  M. Bear, Giuliano Iurilli, Paul L. Greer, Andrew J. Giessel, Tatsuya Tsukahara, Jeffrey E. Markowitz, Sara OnvaniStephen D. Liberles022941Assoc Prof.
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.
NIH-NEI??Bethesda, MD, USABevil R Conway

NIH-NEI
【研究方向】Color(18+3); Vision(13+3); V1(6+0); Inferotemporal (IT) cortex(6+0); Face(4+0); Cognition(0+3); Visual cortex(3+0); Receptor(2+0); Structure(2+0); Color perception(2+0); Object(2+0); Categorization(0+2); Neuroaesthetics(2+0); V4(2+0); Posterior inferior temporal cortex(2+0); Differentiation(1+0); Sense(0+1); Perception(1+0); Retina(1+0); Striate cortex(1+0); Extrastriate cortex(1+0); Contrast(1+0); Auditory(0+1); Memory(0+1); Social cognition(0+1); Language(1+0); Emotion(0+1); Decoding(1+0); Imaging(0+1); PFC(1+0);
【模式生物】Macaque(20+0); Human(3+5); Monkey(4+0); Primate(0+3); Non-human primate(0+2);
【方法技术】Computation(1+3); Psychophysics(1+2); MRI(0+2); fMRI(2+0); Model(0+2); Anatomy(0+1); Behavior(1+0); Single-unit recording(1+0); MEG(0+1); Microstimulation(0+1); Pharmacology(0+1); Theory(1+0); Statistics(1+0);
【简述】Sensation, Cognition and Action Section
【研究论文】Nature Neuroscience(1); JNS(3); Curr Biol.(1); PLoS Biol.(1); Neural Computation(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Margaret Livingstone, David HubelRosa Lafer-Sousa, Theodros M HaileThorsten Hansen002858
NYU015028New York, NY, USAWen-Biao Gan

NYU
【研究方向】Synapse(0+7); Structure(0+5); Dendrite(5+0); Spine(4+0); Plasticity(1+2); Development(2+1); Fear(3+0); Structural plasticity(0+2); Neuropathic pain(2+0); Extinction(2+0); Imaging(0+2); Transgenic(0+1); Alzheimer's disease(1+0); Motor learning(1+0); Planning(0+1); Learning(1+0); Learning and memory(0+1); Sleep(1+0); Dynamics(0+1); Motor cortex(1+0); Auditory cortex(1+0); Cingulate cortex(1+0); ACC(1+0);
【模式生物】Mouse(3+3);
【方法技术】In vivo(0+3); Protein(0+1); Microscopy(0+1); Model(1+0);
【简述】Imaging of synapse dynamics in vivo
【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
Eduardo R. Macagno, Jeff W. LichtmanShengxiang Zhang, Dimitrios Davalos, Aerie Y. Lin, Christopher N. Parkhurst, Joseph Cichon, Yuan Lin, Conor Liston, Cora Sau Wan Lai, Jaime Grutzendler, Jin-Wu Tsai, Feng Pan, Mirko SantelloProf.
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.
Columbia006008New York, NY, USARonald K. Liem

Columbia
【研究方向】Disease(3+1); Axon(1+2); Neurodegenerative disease(0+3); Degeneration(0+2); Body(0+2); Motor Neuron(1+1); Development(1+0); Embryo(0+1); Axonal transport(0+1); Neurology(1+0); Pathogenesis(0+1); Therapy(0+1); Pons(0+1); Cerebellum(0+1);
【模式生物】Mouse(3+5); Human(2+1);
【方法技术】Model(2+2); Gene(2+1); Protein(0+3); Cell culture(1+0); Electrophysiology(1+0);
【简述】Neural Degeneration and Repair; Cellular/Molecular/Developmental Neuroscience;
【研究论文】Nature(1); Cell(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael L. ShelanskiMatthew J. Adlam, Dmitri Y. Goriounov, Nina S. Liang, Raul Perez-Olle, Julius J. Jefferson, Adijat A. AdebolaYears: 2015 — 2016; Recipients: Liem, Ronald K.; Code: R01; Title/Keywords: Role of Phosphoinositides in Neuronal Membrane Traffic and Neurodegeneration@ Columbia University Health Sciences; Matching Score: 0.936Prof.
NYU015028New York, NY, USABarry Reisberg

NYU
【研究方向】Disease(0+9); Alzheimer's disease(3+3); Cognition(1+2); NMDA receptor(0+1); Development(0+1); Psychiatry(0+1); Aging(0+1); Dementias(0+1); Tau(1+0); Concept(0+1);
【模式生物】Bird(2+0);
【方法技术】Gene(1+0); Behavior(0+1); Pharmacology(0+1);
【简述】Treatment, management, and prevention of Alzheimer's disease
【研究论文】Nature(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
NYU015028New York, NY, USAGreg Suh

NYU
【研究方向】Neural Circuit(0+1); Innate behavior(0+1);
【模式生物】
【方法技术】
【简述】Neural circuits mediating innate behaviors
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
S. Lawrence Zipursky, David J. AndersonMinrong Ai, Monica DusYears: 2015 — 2018; Recipients: Suh, Greg S.b.; Code: R01; Title/Keywords: Understanding the Role of the Brain Crh (Corticotropin-Releasing Hormone) System in the Detection and Consumption of Nutritional Sugar.@ New York University School of Medicine; Matching Score: 1Assoc Prof.
NIH-NINDS??Bethesda, MD, USADerek Narendra

NIH-NINDS
【研究方向】Pathogenesis(0+5); Mitochondria(3+1); Parkinson's disease(0+4); Neurology(3+0); Development(1+1); Membrane(1+0); Disease(1+0); Dysfunction(1+0); Therapy(0+1); Movement disorder(0+1); Inflammation(1+0); Form(0+1); Headache(1+0); Temperature(1+0); Imaging(0+1);
【模式生物】Mouse(0+1);
【方法技术】Gene(0+2); Protein(0+1); Microscopy(0+1); Model(0+1);
【简述】Neurogenetics Branch
【研究论文】Nature(2); PLoS Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSF003015San Francisco, CA, USALoren Frank

UCSF
【研究方向】Hippocampus(0+11); Learning(0+6); Memory(0+4); Entorhinal cortex(0+3); Environment(0+2); Consolidation(0+2); CA1(0+2); Structure(0+1); Plasticity(0+1); Neural Circuit(0+1); Form(0+1); Retrieval(0+1); Spatial learning(0+1); Optical(0+1); Connection(0+1); Dentate gyrus(0+1); CA3(0+1);
【模式生物】Human(0+3); Rat(0+2); Rodent(0+2);
【方法技术】Behavior(0+2); Optogenetics(0+2); Anatomy(0+1); Model(0+1);
【简述】Learning and Spatial Coding in the Hippocampal-Cortical Circuit
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USAJoshua Kaplan

Harvard
【研究方向】Neuropeptide(3+2); Alcohol(5+0); GABAA receptor(4+0); Neurotransmitter release(2+2); Autism(1+1); Sense(2+0); Form(1+1); Imaging(0+2); Regulation(0+1); Glutamate(1+0); Receptor(1+0); GABAB receptor(1+0); Muscarinic(1+0); Calcium channel(1+0); Vesicle(1+0); Plasticity(0+1); Transcription(0+1); Glia(0+1); Development(0+1); Axon(1+0); Adhesion(0+1); Trafficking(1+0); Synapse formation(0+1); Synapse(0+1); Mitochondria(1+0); Neurology(1+0); Aging(0+1); Ischemia(1+0); Neural Circuit(1+0); Muscle(1+0); Learning(1+0); Attention(1+0); Social(1+0); Stress(1+0); Caudate(1+0);
【模式生物】C. elegans(10+1); Primate(1+0); Rat(1+0); Mouse(1+0);
【方法技术】Behavior(2+3); Gene(0+4); Protein(2+0); Electrophysiology(0+2); Model(1+1);
【简述】Genetic analysis of synaptic transmission
【研究论文】Cell(1); JNS(2);
【综述】Annals Of Neurology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harold Elliot Varmus, H. Robert HorvitzPeter Barrett, Jamie Kass, Michelle Burbea, Tija Jacob, Jason Marcus McEwen, Denise K. Chun, David Jason Simon, Amy B. Vashlishan, Sabrina Hom, Katherine L. Thompson-Peer, Christopher Rongo, Xiajing Tong, Jeremy Samuel DittmanYears: 2015 — 2018; Recipients: Kaplan, Joshua M; Code: R01; Title/Keywords: Mechanotransduction C. Elegans@ Massachusetts General Hospital; Matching Score: 1000146Prof.
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
Stanford002003Palo Alto, CA, USAJamie Zeitzer

Stanford
【研究方向】Sleep(17+1); Disorder(7+0); Circadian(5+2); Rhythm(4+1); Bipolar(4+0); Cognition(4+0); Metabolism(4+0); Disease(3+0); Psychiatry(3+0); Regulation(2+0); Development(2+0); Neurology(2+0); Brain injury(2+0); Transporter(1+0); 5-HT(1+0); Psychiatric disorder(0+1); Biomarker(1+0); Depression(1+0); Perception(0+1); Gait(1+0); Consolidation(1+0); Context(1+0); Timing(0+1); Emotion(1+0); Biological rhythms(1+0); Entrainment(1+0); Homeostatic(1+0); Cardiovascular(1+0); Machine learning(1+0); Suprachiasmatic nucleus(1+0);
【模式生物】Human(5+1); Primate(1+0); Mouse(1+0);
【方法技术】Model(2+0); Simulation(2+0); Anatomy(1+0); Pharmacology(1+0);
【简述】
【研究论文】
【综述】Annual Review Of Neuroscience(1); Annals Of Neurology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles Czeisler, Charles Wilson, Emmanuel J. MignotDaniel J. Pardi, Natalie Solomon, Virginie Gabel, Daniel Joyce, Michelle B. Rissling, Raymond Najjar, Katherine Ann Kaplan, Amanda L. McBean, Manuel SpitschanYears: 2013 — 2014; Recipients: Zeitzer, Jamie M; Code: R21; Title/Keywords: Treating Sleep Disruption in Teens With Millisecond Light Exposure During Sleep@ Stanford University; Matching Score: 0.958006845Assoc Prof.
WUSTL009032Saint Louis, MO, USAMark S. Sands

WUSTL
【研究方向】Therapy(12+7); Disease(5+6); Transplantation(2+3); Pathology(5+0); Metabolism(1+2); CNS(0+2); Cognition(1+1); Genetically modify(0+1); Receptor(1+0); Pluripotent stem cells(1+0); Disorder(0+1); Pathogenesis(0+1); Dysfunction(1+0); Motor(1+0); Amygdala(1+0); Thalamus(1+0);
【模式生物】Stem Cell(11+6); Human(6+2); Mouse(6+0); Rodent(1+0);
【方法技术】Gene(12+3); Model(7+2); Virus(2+1); In vivo(2+1); Protein(1+1); Ex vivo(0+1); Behavior(0+1);
【简述】Pathophysiology and novel therapies for lysosomal storage diseases
【研究论文】Nature(1); Science(1); Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Adarsh Reddy, Megan A. Griffey, August A. Hofling, Anthony Donsante, Josh C. Woloszynek, Shannon L. Macauley-Rambach, Jacqueline A. Hawkins, Charles ShyngYears: 2018 — 2019; Recipients: Sands, Mark S; Code: R01; Title/Keywords: Next Generation Treatment For Krabbe Disease@ Washington University; Matching Score: 1008166Prof.
UCLA011013Los Angeles, CA, USAKetema Paul

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, 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.
MIT005002Boston, MA, USAAlan Jasanoff

MIT
【研究方向】Imaging(1+5); Neurotransmitter(1+1); Development(0+2); Disease(2+0); Plasticity(0+1); Neurodegenerative disease(0+1); Prion diseases(1+0); Cognition(0+1); Form(0+1); Learning(0+1); Reward(0+1); Dynamics(0+1); Reinforcement learning(0+1); Engineering(0+1); Neuroimaging(0+1); Optical(0+1);
【模式生物】Rat(0+2); Mouse(1+1); Human(1+0); Rodent(0+1);
【方法技术】MRI(3+3); fMRI(1+4); Gene(1+2); Protein(0+2); Behavior(0+2); In vitro(0+1); Electrophysiology(0+1); Model(0+1);
【简述】Next-generation brain imaging; Whole-brain analysis of neural function and plasticity
【研究论文】Science(1); Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Mitul  M. Desai, Taekwan LeeYears: 2017 — 2018; Recipients: Jasanoff, Alan; Code: R21; Title/Keywords: Nanoprobes For Neurotransmitter-Sensitive Molecular Fmri in Addiction Research@ Massachusetts Institute of Technology; Matching Score: 1Prof.
MIT005002Boston, MA, USALi-Huei Tsai

MIT
【研究方向】Disease(1+4); Plasticity(0+2); Synaptic Plasticity(2+0); Cognition(1+1); Memory(1+1); Development(0+1); Pluripotent stem cells(0+1); Disorder(0+1); Psychiatry(1+0); Aging(0+1); Schizophrenia(1+0); Form(0+1); Learning and memory(0+1); Reconsolidation(1+0); Fear(1+0); Imaging(0+1);
【模式生物】Human(2+3); Mouse(1+4); Stem Cell(0+2);
【方法技术】Gene(1+2); Protein(0+3); Model(0+3); In vivo(0+1); Tracing(0+1); Optogenetics(0+1);
【简述】
【研究论文】Nature(2); Cell(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Bradford Webb Ozanne, Ed HarlowNadine F. Joseph, Anthony James Martorell, Abdurrahman Wisam Muhtaseb, Charlotta Rühlmann, Gentry N. Patrick, Elena B. Porro, Rani Dhavan, Amitabh Gupta, Jane C. Ko, Benjamin Adam Samuels, Christopher L. Frank, Joshua J. Buchman, Xuecai Ge, Paola Giusti, Takahiro Soda, Omer Durak, Marie Carlén, Andre Fischer, Konstantinos Meletis, Deanna Sue Smith, Yea Jin Kaeser-Woo, Trongha X. Phan, Sandra Siegert, Ji-Song Guan, Jemmie Cheng, Alison E. Mungenast, Jennie Z. YoungYears: 2018; Recipients: Jaffe, Jacob DavidTsai, Li-Huei; Code: U54; Title/Keywords: Deciphering the Role of Kinase Signaling and Epigenetic States in a Down Syndrome Model of Alzheimer's Disease@ Broad Institute, Inc.; Matching Score: 0.946049908Prof.
CalTech072006Pasadena, CA, USAErik Winfree

CalTech
【研究方向】Motor(1+0); Neural network(1+0); Engineering(1+0); Robot(1+0);
【模式生物】
【方法技术】Computation(7+2); Theory(2+0); In vitro(0+1); Model(1+0); Mathematics(1+0);
【简述】DNA and Natural Algorithms
【研究论文】Nature(5); Science(3); PLoS Biol.(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
019271Prof.
UCLA011013Los Angeles, CA, USANiranjala J.K. Tillakaratne

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, 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
JHU010012Baltimore, MD, USAPablo Celnik MD

JHU
【研究方向】Motor(0+3); Disease(0+2); Motor learning(0+2); Stroke(0+1); Neural Circuit(0+1); Cognition(0+1); Knowledge(0+1);
【模式生物】Human(0+3);
【方法技术】TMS(0+2); MRI(0+1); Behavior(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, USADebra Satz

Stanford
【研究方向】Social(4+0); Translation(2+0); Environment(2+0); Reproduction(2+0); Category(1+0);
【模式生物】Human(5+0); Mouse(1+0);
【方法技术】Theory(3+0); Behavior(1+0);
【简述】
【研究论文】Neuron(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003636Prof.
NIH-NIDA??Bethesda, MD, USADa-Ting Lin

NIH-NIDA
【研究方向】Imaging(5+2); Dopamine(2+0); Dysfunction(1+1); Cocaine(2+0); Receptor(1+0); AMPA receptor(1+0); NMDA receptor(1+0); GABAA receptor(1+0); Dopamine receptor(1+0); D2 receptor(1+0); Structure(1+0); Membrane(1+0); Synaptic Plasticity(1+0); Development(0+1); Neurodegenerative disorder(1+0); Addiction(0+1); Vision(1+0); Social(1+0); Exploration(1+0); Dynamics(1+0); Engineering(0+1); Optical(0+1); Optical imaging(0+1); PFC(1+0); V1(1+0); Dorsal striatum(1+0);
【模式生物】Mouse(3+0); Human(1+0);
【方法技术】In vivo(4+2); In vitro(1+0); Microscopy(1+0); Optogenetics(1+0); Computation(0+1); Model(1+0); Data analysis(0+1);
【简述】Neural Engineering Unit
【研究论文】Nature Neuroscience(2); Neuron(2); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard L. HuganirCraig T. Werner, Wen Zhang
Stanford002003Palo Alto, CA, USATirin Moore

Stanford
【研究方向】Vision(5+4); Eye Movement(5+1); Attention(4+2); Cognition(4+1); Neural Circuit(3+1); FEF(4+0); PFC(3+0); V4(3+0); Modulation(2+0); Structure(0+2); Motor(0+2); Working memory(2+0); Dynamics(2+0); Visual cortex(1+1); Dopamine(1+0); Receptor(1+0); Neurology(1+0); ADHD(1+0); Systems Neuroscience(1+0); Cognitive neuroscience(1+0); Perception(0+1); Face(1+0); Spatial attention(1+0); Short-term memory(1+0); Social(1+0); Exploration(1+0);
【模式生物】Macaque(1+0);
【方法技术】Computation(0+1);
【简述】
【研究论文】Nature(1); Science(1); Neuron(3); JNS(3); Nature Communications(1);
【综述】Annual Review Of Psychology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles Gross, Peter H. SchillerJamie K. Fitzgerald, Kitty Z. Xu, Eddy Albarran, Brittany E. Burrows, Rebecca M. Krock, Xiaomo Chen, Katherine M. Armstrong, Daniel L. Kimmel, Robert John Schafer, Nicholas A. Steinmetz, Warren Woodrich Pettine, Xue Han, Marc Zirnsak, Behrad Noudoost, Xuan Sherry Xian, R Becket Ebitz, Alireza SoltaniMark A. PinskYears: 2017 — 2018; Recipients: Moore, Tirin; Code: P30; Title/Keywords: Device Design and Development@ Stanford University; Matching Score: 1Prof.
Princeton061009Princeton, NJ, USAKenneth Norman

Princeton
【研究方向】Memory(10+5); Cognition(5+0); Learning(3+2); Hippocampus(5+0); Context(3+0); Retrieval(2+0); Neural network(1+1); Imaging(2+0); Neuroimaging(0+2); Receptor(1+0); Structure(1+0); Oscillation(0+1); Disorder(0+1); Aging(1+0); Cognitive neuroscience(1+0); Learning and memory(0+1); Memory Reconsolidation(1+0); Extinction(1+0); Attention(1+0); Fear(1+0); Sleep(0+1); Bayesian(1+0); Frontal lobe(1+0);
【模式生物】Human(2+1);
【方法技术】Model(6+3); fMRI(2+1); Behavior(2+0); EEG(0+1); Computation(0+1); Theory(0+1);
【简述】Human Neuroscience ; Theory and Computation
【研究论文】Science(1); Nature Neuroscience(2); Neuron(2);
【综述】Psychological Review(3); Annual Review Of Psychology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John D.E. Gabrieli, Daniel Schacter, Randall C. O'ReillyVaidehi S. Natu, Taylor Beck, Megan deBettencourt, Ghootae Kim, Chris Moore, Chris P. Said, Greg Detre, Stephanie C.Y. Chan, Qihong Lu, Sean M. Polyn, Ehren L. Newman, Susan Robison, Matthew Weber, Gregory J. Detre, Sam J. Gershman, Anna C. Schapiro, Per B. Sederberg, Jeremy R. Manning, Janice Chen, Aaron M. Bornstein, Ida Momennejad, Sarah DuBrow, Manoj Kumar, Joel R. Quamme, Jarrod A. Lewis-Peacock, Christopher A. BaldassanoErika Marie NyhusYears: 2017 — 2019; Recipients: Hasson, Uri [⬀] Norman, Kenneth A; Code: R01; Title/Keywords: Neural Dynamics Supporting Integration and Recall Over Long Timescales During Natural Continuous Input@ Princeton University; Matching Score: 1010669Prof.
WUSTL009032Saint Louis, MO, USADeanna Barch

WUSTL
【研究方向】Cognition(12+9); Schizophrenia(13+3); Psychiatry(8+0); Emotion(2+5); Cognitive Control(3+3); Depression(3+2); PFC(3+1); Working memory(3+0); Dopamine(1+1); Psychiatric disorder(0+2); Aging(2+0); Face(2+0); Cingulate cortex(2+0); ACC(2+0); Amygdala(2+0); Neuromodulation(1+0); Structure(1+0); Development(1+0); Disorder(1+0); Frequency(1+0); Memory(0+1); Acquisition(1+0); Context(1+0); Language(0+1); Reward(1+0); Dynamics(1+0);
【模式生物】Human(4+0);
【方法技术】Behavior(2+2); fMRI(4+0); Theory(2+0); Computation(1+0); Model(1+0);
【简述】Neurobiological and Psychological Mechanisms of Cognitive and Emotional Control: Normative Function and Abnormalities in Psychiatric Disorders
【研究论文】Science(2); Cerebral Cortex(1);
【综述】Psychological Review(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jonathan D. CohenAbhishek Saxena, David Baranger, Adam Culbreth, Alan Ceaser, Jennifer A. Burbridge, Meredith R. Melinder, Caroline A. Racine, Noam I. Keren, Jennifer R. Mathews, Aaron Bonner-Jackson, Shefali B. Brahmbhatt, Zainab Delawalla, Alan Anticevic, Rebecca L. Akcakaya, Karla E. Becerril, Erin C. Dowd, Kevin D. Packingham, Katherine R Luking, David Pagliaccio, David Pagliaccio, Dov Bernard Lerman-Sinkoff, Grega Repovs, Michael S. Gaffrey, Hideo SuzukiTodd S. Braver, Angus W. MacDonaldYears: 2018 — 2019; Recipients: Barch, Deanna; Code: R01R37Activity Code Description:To provide long-term grant support to investigators whose research competence and productivity are distinctly superior and who are highly likely to continue to perform in an outstanding manner. Investigators may not apply for a MERIT award. Program staff and/or members of the cognizant National Advisory Council/Board will identify candidates for the MERIT award during the course of review of competing research grant applications prepared and submitted in accordance with regular PHS requirements.; Title/Keywords: Effort-Based Decision Making and Motivated Behavior in Everyday Life@ Washington University; Matching Score: 0.915049603Prof.
UCSD011017San Diego, CA, USAChitra D. Mandyam

UCSD
【研究方向】mPFC(0+3); Addiction(0+2); PFC(0+2); Plasticity(0+1); Neurogenesis(0+1); Gliogenesis(0+1); Cell fate(0+1); Therapy(0+1); Alcohol(0+1); Comprehension(0+1); Dynamics(0+1);
【模式生物】Rodent(0+2); Stem Cell(0+2);
【方法技术】Behavior(0+1);
【简述】 Cellular & Developmental
【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.
Stanford002003Palo Alto, CA, USARebecca Bernert

Stanford
【研究方向】Sleep(18+0); Disorder(10+0); Psychiatry(8+0); Depression(5+0); Bipolar(4+0); Biomarker(2+0); Emotion(2+0);
【模式生物】
【方法技术】Behavior(1+0); Theory(1+0);
【简述】
【研究论文】
【综述】Review(2); Sleep Medicine Reviews(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Thomas E. JoinerYears: 2012 — 2016; Recipients: Bernert, Rebecca A; Code: K23; Title/Keywords: A Sleep-Oriented Intervention For Suicidal Behaviors@ Stanford University; Matching Score: 0.955Assist Prof.
NYU015028New York, NY, USADaniel Sodickson

NYU
【研究方向】Imaging(17+21); Development(1+5); Acquisition(3+3); Cardiovascular(3+0); Disease(0+2); Brain injury(2+0); Regularization(1+1); Structure(1+0); Tumor(1+0); Learning(0+1); Concept(1+0); Machine learning(0+1); Artificial intelligence(0+1); Engineering(1+0); Connection(0+1);
【模式生物】Human(0+1);
【方法技术】MRI(15+3); PET(0+2); Model(1+1); In vivo(1+0); Anatomy(1+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
013207Assoc Prof.
Harvard001001Boston, MA, USAMark Albers

Harvard
【研究方向】Olfaction(10+2); Alzheimer's disease(5+0); Neural Circuit(0+4); Axon(3+0); Neurodegenerative disease(1+2); Sense(3+0); Imaging(1+2); Disease(1+1); Dysfunction(2+0); Aging(0+2); Parkinson's disease(2+0); Vision(2+0); Connection(0+2); Transgenic(1+0); Synaptic Plasticity(1+0); Differentiation(1+0); Degeneration(1+0); Pathology(1+0); Pathogenesis(0+1); Vulnerability(0+1); Down Syndrome(1+0); Cognition(1+0); Motor(1+0); Episodic memory(1+0);
【模式生物】Mouse(5+3); Human(1+3);
【方法技术】Model(4+1); Gene(0+2); In vivo(1+1); Protein(0+1); In vitro(0+1); fMRI(1+0); PET(1+0); Computation(0+1);
【简述】Systems/Molecular Approaches to Elucidate Mechanisms that Cause Neurodegenerative Disease; Develop/Validate Novel Therapeutic Approaches
【研究论文】Neuron(2); JNS(2); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
NYU015028New York, NY, USAYulin Ge

NYU
【研究方向】Imaging(17+0); Sclerosis(15+0); Neurology(3+0); Brain injury(3+0); Metabolism(3+0); White matter(3+0); Disease(1+1); Age-related(2+0); Blood flow(2+0); Modulation(1+0); Development(0+1); Pathology(1+0); Hyperoxia(1+0); Cognition(1+0); Vision(1+0); Contrast(1+0); Vessel(1+0); Diffusion tensor imaging(1+0); Thalamus(1+0);
【模式生物】
【方法技术】MRI(10+1); Gene(1+0); EEG(1+0);
【简述】Development and application of quantitative high-field MRI to understand and diagnosis brain diseases
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
007823Prof.
NYU015028New York, NY, USADmitry Rinberg

NYU
【研究方向】Olfaction(12+0); Perception(2+0); Receptor(1+0); Structure(1+0); Development(1+0); APP(1+0); Systems Neuroscience(1+0); Sense(0+1); Frequency(1+0); Aversive(1+0); Dynamics(1+0); Neural dynamics(1+0);
【模式生物】Mouse(3+0); Human(1+0);
【方法技术】Behavior(1+0);
【简述】Sensory information processing in the behaving animal
【研究论文】Nature(3); Cell(1); Nature Neuroscience(2); Neuron(2); JNS(3); Nature Communications(1);
【综述】Physical Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Hanan Davidowitz, Alan GelperinSasha Devore, Matt C. Smear, Rodney Philip O'Connor, Roman ShustermanThomas Bozza, Itamar Kahn, David A. Markowitz, Yevgeniy Borisovich SirotinYears: 2018; Recipients: Babadi, Behtash (co-PI) [⬀] Chialvo, Dante RFellin, TommasoHisted, Mark HKanold, Patrick O (co-PI) [⬀] Losert, Wolfgang (co-PI) [⬀] Maunsell, John Hr [⬀] Panzeri, Stefano Vt (co-PI) [⬀] Plenz, Dietmar (co-PI) [⬀] Rinberg, DmitryShoham, Shy (co-PI) [⬀] ; Code: U19; Title/Keywords: Readout and Control of Spatiotemporal Neuronal Codes For Behavior@ University of Chicago; Matching Score: 0.954001671Assoc Prof.
UCLA011013Los Angeles, CA, USAMichael V. Sofroniew

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, USAScott H. Chandler

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, USAKay Chang

Stanford
【研究方向】Pediatric(14+0); Therapy(3+0); Auditory(2+1); Tumor(2+0); Receptor(1+0); Disease(1+0); Pathology(1+0); Body(1+0); Retrieval(1+0); LIP(1+0);
【模式生物】Human(0+1);
【方法技术】Algorithm(1+0);
【简述】
【研究论文】
【综述】Review(5);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001958Prof.
Stanford002003Palo Alto, CA, USAGreg Zaharchuk

Stanford
【研究方向】Imaging(23+2); Stroke(22+1); Disease(5+0); Blood flow(5+0); Cerebrovascular(3+1); Neurology(3+0); Therapy(2+0); Learning(1+1); Metabolism(2+0); Ischemia(1+0); Hypoxia(1+0); Vessel(1+0); Dynamics(1+0); Artificial intelligence(0+1); Neural network(1+0); Neuroimaging(1+0);
【模式生物】Human(4+0);
【方法技术】MRI(14+1); fMRI(0+1); PET(1+0); Theory(1+0);
【简述】
【研究论文】JNS(1);
【综述】Annals Of Neurology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
007846Prof.
NIH-NIDA??Bethesda, MD, USADavid H. Epstein

NIH-NIDA
【研究方向】Addiction(0+2); Environment(0+1); Social(0+1);
【模式生物】
【方法技术】Behavior(0+1);
【简述】Real-world Assessment, Prediction, and Treatment Unit
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAJustus Verhagen

Yale
【研究方向】Perception(0+3); Taste(0+2); Olfaction(0+1); Optical imaging(0+1); Olfactory bulb(0+1);
【模式生物】Rodent(0+2); Human(0+1);
【方法技术】Model(0+1);
【简述】Neural Pathways; Neurobiology; Smell; Taste; Optical Imaging; Optogenetics.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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.
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
Columbia006008New York, NY, USAStephen H. Tsang

Columbia
【研究方向】Disease(16+1); Photoreceptor(12+5); Therapy(11+3); Degeneration(8+3); Vision(7+0); Chloride(4+0); Metabolism(0+4); Structure(3+0); Transplantation(3+0); Retina(3+0); Cell line(2+0); Reprogramming(1+1); Embryo(2+0); Disorder(2+0); Age-related(2+0); CRISPR/Cas9(1+0); Knockout(1+0); Modulation(1+0); Ion Channel(1+0); Membrane(1+0); Astrocyte(1+0); Development(1+0); Environment(0+1); Neurodegenerative disorder(0+1); Pathology(1+0); Dysfunction(1+0); Therapeutics(0+1); Cell therapy(1+0); Aging(1+0); Tumor(1+0); Sense(0+1); Form(1+0); Circadian(0+1); Engineering(0+1); Imaging(0+1); Optical(1+0);
【模式生物】Stem Cell(11+4); Human(12+2); Mouse(9+1); Drosophila(1+0);
【方法技术】Model(20+1); Gene(19+1); Protein(5+0); In vivo(4+0); Channel(2+0); Virus(1+0); In vitro(1+0);
【简述】Neural Degeneration and Repair ; Stem Cell Biology; Sensory Physiology; Genome Surgery; Gene Therapy;
【研究论文】Science(2); Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Victor A. McKusick, Stephen GoffLawrence Chan, Huy Vu Nguyen, Jack Chai Lin Chou, Katherine J. Wert, Susanne Koch, Scott Smemo, Nan-Kai Wang, Joaquin TosiYears: 2018 — 2019; Recipients: Hauswirth, William W (co-PI) [⬀] Michalakis, StylianosPetersen-Jones, SimonTsang, Stephen H; Code: R24; Title/Keywords: Translational Gene Therapy For Cngb1 Retinitis Pigmentosa@ Michigan State University; Matching Score: 0.954006795Assoc Prof.
Stanford002003Palo Alto, CA, USAMichael Snyder

Stanford
【研究方向】Disease(1+3); Transcription(1+2); Development(1+1); Dynamics(2+0); Receptor(1+0); Environment(1+0); Embryo(0+1); Therapeutics(0+1); Form(1+0); Frequency(1+0); Metabolism(0+1); Decoding(1+0); Bayesian(1+0);
【模式生物】Human(11+7); Stem Cell(1+2);
【方法技术】Protein(8+1); Gene(3+1); Model(0+1);
【简述】
【研究论文】Science(1); Cell(5); Nature Methods(1); PLoS Biol.(2);
【综述】Nature Reviews Genetics(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
113362Prof.
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
Stanford002003Palo Alto, CA, USADaniel Spielman

Stanford
【研究方向】Imaging(6+5); Metabolism(4+1); Therapy(1+1); Autism(2+0); Spectral(2+0); Engineering(0+2); Amino acid(1+0); GABA(1+0); Translation(1+0); Development(0+1); Disease(0+1); Disorder(1+0); Psychiatry(1+0); Alzheimer's disease(0+1); Biomarker(1+0); Injury(1+0); Pediatric(0+1); Contrast(0+1); Body(0+1); Muscle(1+0); Neuroimaging(1+0); Thalamus(1+0);
【模式生物】Rat(2+0); Human(1+0);
【方法技术】MRI(3+3); Theory(5+1); In vivo(1+2); Model(3+0); Algorithm(2+0); Biophysics(0+1); Anatomy(0+1); Mathematics(1+0);
【简述】
【研究论文】Nature(1); Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Donghyun Kim, Calvin Lew, Priti Balchandani, Yakir Levin, Jae Mo Park, Kelvin L. BillingsleyYears: 2017 — 2018; Recipients: Spielman, Daniel M [⬀] ; Code: R01; Title/Keywords: Robust 1h Mrsi of Gaba, Glutamate, Glutamine, and Glutathione@ Stanford University; Matching Score: 1014800Prof.
UCSD011017San Diego, CA, USATerrence J. Sejnowski

UCSD
【研究方向】Development(0+1); Dendrite(0+1); Synapse(0+1); Cognition(0+1); Sense(0+1); Memory(0+1); Sleep(0+1); Signal processing(0+1); Imaging(0+1);
【模式生物】
【方法技术】Model(0+3); Behavior(0+2); Computation(0+1); Theory(0+1);
【简述】 Cellular & Developmental; Systems; Cognitive, Behavioral & Psychopharmacology; Clinical; Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USADavid Lyons

Stanford
【研究方向】Development(10+0); Stress(10+0); Receptor(8+0); Axon(4+0); Psychiatry(4+0); Regulation(2+0); Vesicle(2+0); CNS(2+0); Learning(2+0); Dopamine(1+0); Histamine(1+0); Peptide(1+0); Structure(1+0); Membrane(1+0); Plasticity(1+0); LTD(1+0); Glial cell(1+0); Cell migration(1+0); Adhesion(1+0); Injury(1+0); Cognition(1+0); Learning and memory(1+0); Cognitive Control(1+0); Sleep(1+0); Cingulate cortex(1+0); ACC(1+0); Hippocampus(1+0);
【模式生物】Monkey(7+0); Mouse(5+0); Zebrafish(5+0); Rat(3+0); Non-human primate(2+0); Primate(2+0); Human(1+0);
【方法技术】Behavior(4+1); Gene(4+0); In vivo(3+0); PET(2+0);
【简述】
【研究论文】Cell(1); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
William A. MasonJesus E. Madrid, Karen J. ParkerYears: 2012 — 2014; Recipients: Lyons, David M; Code: R01; Title/Keywords: Early Social Stress, Novelty Seeking, and Impulsive Behavior@ Stanford University; Matching Score: 0.958002173Prof.
WUSTL009032Saint Louis, MO, USAC. Chris Weihl

WUSTL
【研究方向】Disease(3+2); Muscle(1+4); Degeneration(0+2); Dysfunction(1+1); Body(1+1); Neurology(1+0); Neurodegenerative disease(0+1); Neurodegenerative disorder(0+1); Pathology(1+0); Aging(0+1); Proteinopathy(1+0); Sclerosis(0+1);
【模式生物】Human(3+0); Mouse(1+0);
【方法技术】Protein(3+5); Model(1+1); Biochemistry(0+1); Cell culture(0+1);
【简述】The interplay between the ubiquitin-proteasome and autophagy pathways in skeletal muscle and neurodegenerative disorders
【研究论文】Nature(2); Cell(2);
【综述】Annals Of Neurology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
Stanford002003Palo Alto, CA, USADiana Do

Stanford
【研究方向】Vision(6+0); Retina(2+0); Optical(2+0); Disease(1+0); Vessel(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
Prof.
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.
NIH-NIMH??Bethesda, MD, USAKathleen R. Merikangas

NIH-NIMH
【研究方向】Disorder(12+7); Psychiatry(9+0); Bipolar(6+0); Anxiety(2+2); Depression(3+0); Migraine(1+1); Structure(1+0); Development(0+1); Environment(0+1); Disease(0+1); Pediatric(1+0); Alcohol(1+0); Olfaction(1+0); Motor(1+0); Attention(1+0); Social(1+0); Sleep(1+0); Cardiovascular(0+1); Dynamics(1+0);
【模式生物】
【方法技术】Gene(0+2);
【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, USAThomas S. Reese

NIH-NINDS
【研究方向】Axon(3+2); Synapse(4+0); Neurology(3+0); Neuromuscular(3+0); Glutamate receptor(1+1); Structure(1+1); Membrane(2+0); Vesicle(2+0); Axonal transport(1+1); Olfaction(2+0); Structural plasticity(0+1); Glia(1+0); Development(0+1); Tumor(1+0); Cognition(1+0); Vision(1+0); Form(0+1); Motor(1+0); Fatigue(1+0); Knowledge(1+0); Stress(0+1); CA2(1+0); Olfactory bulb(1+0); Evolutionary(1+0);
【模式生物】
【方法技术】Microscopy(0+3); Protein(2+0); Behavior(2+0); Channel(1+0); Biochemistry(0+1); In vitro(1+0);
【简述】Structural Cell Biology Section
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ed White, Andy A. Cole, Bechara Kachar, Dennis Landis, John Heuser, Lucas Pozzo-MillerU. J. McMahanYears: 2009 — 2018; Recipients: Reese, Thomas S; Code: ZIA; Title/Keywords: Dynamic Structural Properties of Synapses@ Neurological Disorders and Stroke; Matching Score: 1029163
Yale014011New Haven, CT, USACharles Greer

Yale
【研究方向】Sense(0+3); Olfaction(0+3); Dendrite(0+2); Receptor(0+1); Development(0+1); Differentiation(0+1); Aging(0+1); Olfactory bulb(0+1);
【模式生物】
【方法技术】Gene(0+1);
【简述】Central Nervous System; Neuroglia; Neurons; Nose; Gene Expression Profiling.
【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.
Harvard001001Boston, MA, USADavid Ginty

Harvard
【研究方向】Touch(5+6); Receptor(5+1); Transcription(6+0); Sense(3+3); Development(2+3); Regulation(3+0); Membrane(2+0); Plasticity(0+2); Synapse(1+1); Dysfunction(1+1); Neural Circuit(0+2); Neurotrophin(1+0); Ion Channel(0+1); Structure(1+0); Glia(0+1); Axon growth(1+0); Axon guidance(1+0); Axon(1+0); Trafficking(1+0); Dendrite(1+0); Disorder(0+1); Degeneration(1+0); Autism(0+1); Perception(0+1); Self-motion(1+0); Body(1+0); Somatosensory(0+1); Pain(1+0); Neuropathic pain(0+1); Circadian clock(1+0); Homeostatic(1+0); Cardiovascular(1+0); Encoding(1+0); Imaging(0+1); Connection(0+1); Internal capsule(1+0); Suprachiasmatic nucleus(1+0);
【模式生物】Mouse(3+3);
【方法技术】Gene(3+3); Behavior(3+1); Protein(2+0); Model(1+1); In vivo(1+0); In vitro(0+1); Electrophysiology(0+1); Microscopy(1+0);
【简述】The functional organization of neural circuits underlying the perception of touch
【研究论文】Nature Neuroscience(1); Neuron(2);
【综述】Review(2); Annual Review Of Neuroscience(1); Nature Reviews Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Edward R. Seidel, Michael E. Greenberg, John WagnerSreyan Chowdhury, Christopher M. Davenport, Alexis Andrie Toliver, Brian A. Pierchala, Yang Zheng, Nicole L. Neubarth, Mark W. Springel, Qiyu Zhang, Erica G. Rowe Urquhart, Sohyun Ahn, Andrew A. Pieper, Xiaozhong Qian, Haihong Ye, Amar Sahay, Bonnie E. Lonze, Larry Zweifel, Natalia O. Glebova, Janna Merte, Sasrutha R. Wickramasinghe, Coryse St. Hillaire, Michael Rutlin, Caitlin Engelhard, Lishi Li, Ling Bai, Victoria E. Abraira, Chenghua Gu, Rejji Kuruvilla, Brendan Peltonen Lehnert, Kevin M. Wright, Qingguang Jiang, Amanda L. Zimmerman, Alan J. Emanuel, Shan Meltzer, Christopher D. Deppmann, Wenqin LuoYears: 2016 — 2018; Recipients: Ginty, David D; Code: R35; Title/Keywords: Elucidating Cutaneous Mechanosensory Circuits, From Development to Disease@ Harvard Medical School; Matching Score: 1025521Prof.
UCLA011013Los Angeles, CA, USAJennifer Silvers

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, USAMitchell Chesler

NYU
【研究方向】NMDA receptor(2+3); Regulation(3+1); Synaptic Transmission(0+3); Modulation(1+1); Membrane(1+1); CA1(2+0); Transporter(0+1); Calcium channel(0+1); Seizure(0+1); Development(0+1); Synapse(0+1); Stroke(0+1); Brain injury(0+1); Migraine(0+1); Hormone(0+1); Hippocampus(0+1);
【模式生物】Rat(1+0);
【方法技术】In vitro(1+0); Model(0+1);
【简述】Regulation and modulation of pH in the nervous system
【研究论文】JNS(4);
【综述】Physiological Reviews(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles NicholsonJCT Chen, Huei-Ying Chen, Jay A. Gottfried, Irina Grichtchenko, Chi-Kun Tong, Sabrina Smith, Sachin Makani, Brian Amos, Krishna Naskar, Shlomo Dellal, Nataliya Svichar, Shlomo S. DellalYears: 2003 — 2018; Recipients: Chesler, Mitchell; 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: Dynamics of Ph Regulation in the Brain@ New York University School of Medicine; Matching Score: 1Prof.
NYU015028New York, NY, USAJoseph E. LeDoux

NYU
【研究方向】Memory(0+1); Emotion(0+1);
【模式生物】
【方法技术】
【简述】Memory and emotion
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael GazzanigaJoseph Bedont, Theresa M. Desrochers, Prasad R. Shirvalkar, Lanikea B. King, Sarah A. Stern, Jorge L. Armony, Sevil Duvarci, Yiran Gu, Kevin LaBar, Lizabeth M. Romanski, Glenn E. Schafe, Neot Nava Doron, Jeff Muller, J. Christopher Repa, Marta AP Moita, Sarina M. Rodrigues, Ann E. Wilensky, Elizabeth P. Bauer, Nesha S. Burghardt, Jeffrey C. Erlich, Torfi Sigurosson, Torfi Sigurdsson, Svetlana Rosis, Francisco Sotres-Bayon, Annemieke M. Schoute, Kiriana K. Cowansage, Gabriel Lazaro-Munoz, Hillary C. Schiff, Vincent Campese, June-Seek Choi, Jacek Debiec, Marie H. Monfils, Justin M. Moscarello, Karim Nader, Linnaea E. Ostroff, Elizabeth A. Phelps, Gregory J. Quirk, Christopher Kenneth Cain, Daniela Schiller, Luke R. Johnson, John Apergis-SchouteElizabeth A. Phelps, Tobias BonhoefferYears: 2012 — 2013; Recipients: Dracheva, StellaLedoux, Joseph E (co-PI) ; Code: R21; Title/Keywords: Molecular Determinants of Individual Differences in Fear Reactivity and Recovery@ Icahn School of Medicine At Mount Sinai; Matching Score: 0.918Prof.
NIH-NIMH??Bethesda, MD, USABruno B. Averbeck

NIH-NIMH
【研究方向】PFC(7+1); Dopamine(1+6); Learning(4+1); Psychiatry(4+0); Schizophrenia(3+1); Reinforcement learning(4+0); Ventral striatum(4+0); Auditory(3+0); Amygdala(3+0); Microcircuit(0+2); Parkinson's disease(1+1); Face(2+0); Encoding(2+0); Dynamics(0+2); Imaging(1+1); Caudate(0+2); Plasticity(1+0); Psychiatric disorder(1+0); Anxiety(1+0); Neural Circuit(1+0); Vision(1+0); Motor control(1+0); Memory(1+0); Timing(1+0); Associative learning(1+0); Decision making(1+0); Emotion(1+0); Fear(1+0); Reward(1+0); Decoding(1+0); Motor cortex(1+0); Premotor cortex(1+0); Auditory cortex(1+0); Basal ganglia(0+1);
【模式生物】Macaque(5+0); Primate(4+0); Monkey(1+1); Non-human primate(1+0); Human(1+0); Rat(0+1);
【方法技术】Behavior(1+4); Computation(5+0); Model(2+0); Channel(1+0); Single-unit recording(1+0);
【简述】
【研究论文】Nature Neuroscience(2); Neuron(2); JNS(3);
【综述】Review(2); Annual Review Of Neuroscience(1); Nature Reviews Neuroscience(1); Trends In Neurosciences(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Apostolos P. Georgopoulos, Daeyeol LeeKathryn M. Rothenhoefer, Ana V. Cruz, Olga Dal Monte, Corrie R. Camalier, Nicholas Furl, Ramon Bartolo, Hua Tang, Eunjeong Lee, Eunjeong Lee, Vincent D. CostaMakoto Fukushima, Peter Latham, Lizabeth M. Romanski006567
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
UCLA011013Los Angeles, CA, USALeif Havton

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, USACarol Reiss

NYU
【研究方向】Infection(7+0); Olfaction(3+0); Neuroimmunology(2+1); Cytokine(1+0); Receptor(1+0); Cell line(1+0); Transplantation(1+0); Disease(1+0); Olfactory bulb(1+0);
【模式生物】Human(3+0); Mouse(2+0);
【方法技术】Virus(6+0); Gene(2+0);
【简述】Neuroimmunology
【研究论文】Nature(2);
【综述】Cytokine & Growth Factor Reviews(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
007544Prof.
NYU015028New York, NY, USARoozbeh Kiani

NYU
【研究方向】Decision making(5+1); Bayesian(3+0); Object(2+0); Face(2+0); Inferotemporal (IT) cortex(2+0); Structure(1+0); Environment(1+0); Cognition(1+0); Vision(0+1); Category(1+0); Categorization(1+0); Encoding(1+0); LIP(1+0);
【模式生物】Macaque(2+0); Monkey(2+0); Primate(1+0);
【方法技术】Microstimulation(2+0); Computation(1+0); Mathematics(1+0);
【简述】Decision making, visual shape and motion processing
【研究论文】Nature(2); Science(1); Nature Neuroscience(1); Neuron(6); JNS(2); eLife(2); Cerebral Cortex(1); Neural Computation(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Hossein Esteky, Michael N. Shadlen, William T. Newsome, Michael N. ShadlenSaleh Esteki, Christina Hatch, Long Sha, Stanley Jose Komban, Gouki Okazawa, John J. Sakon, Michael L. Waskom, Braden PurcellNikolaus Kriegeskorte, Anthony D. Wagner, Xiao-Jing Wang, Alan Gordon, Jonathan Winawer, Marc ZirnsakYears: 2015 — 2018; Recipients: Kiani, Roozbeh; Code: R01; Title/Keywords: Crcns: Neural Coding and Computation in Large Ensembles in Prefrontal Cortex@ New York University; Matching Score: 1006331Assist Prof.
UCLA011013Los Angeles, CA, USAAlbert Sattin

UCLA
【研究方向】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
Columbia006008New York, NY, USALloyd A. Greene

Columbia
【研究方向】Receptor(3+4); Parkinson's disease(6+0); Cell line(2+1); Mutant(2+0); Neurotrophin(2+0); Dopamine(2+0); Peptide(2+0); Transcription(2+0); Proliferation(1+1); Neuronal differentiation(1+1); Signal transduction(1+0); Regulation(1+0); Acetylcholine(1+0); Acetylcholine receptor(1+0); Synaptic Plasticity(1+0); Cell cycle(1+0); Differentiation(0+1); Regeneration(0+1); Synapse(0+1); Degeneration(0+1); Neurotoxicity(1+0); Tumor(0+1); Memory(1+0); Stress(1+0);
【模式生物】Rat(2+1); Human(1+0); Mouse(1+0);
【方法技术】Model(3+1); Protein(2+0); Gene(1+0); Biochemistry(1+0); Electrophysiology(1+0);
【简述】Cell Specification and Differentiation; Neural Degeneration and Repair; Synapses and Circuits; Treatment of Brain Tumors;
【研究论文】Nature(1); Science(1); Cell(6); Neuron(2); JNS(5);
【综述】Annual Review Of 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
043574Prof.
Stanford002003Palo Alto, CA, USAMarcia L Stefanick

Stanford
【研究方向】Disease(2+6); Cardiovascular(2+4); Hormone(1+2); Body(1+1); Exercise(0+2); Therapy(1+0); Stroke(1+0); Muscle(1+0); Metabolism(1+0); Neuroendocrinology(0+1);
【模式生物】Human(0+3); Bird(2+0); Primate(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
Prof.
NYU015028New York, NY, USABenjamin Cohen

NYU
【研究方向】Pediatric(1+0); Autonomic(1+0);
【模式生物】Human(1+0);
【方法技术】
【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
012560Assist Prof.
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.
NIH-NIA??Bethesda, MD, USAHuaibin Cai

NIH-NIA
【研究方向】LRRK2(6+2); Parkinson's disease(4+1); Transcription(4+0); Alzheimer's disease(4+0); Mutant(2+1); Receptor(3+0); Degeneration(2+1); Alpha-synuclein(0+3); Motor Neuron(2+1); Transgenic(1+1); Regulation(2+0); Dopamine(2+0); Neurodegenerative disease(2+0); Vulnerability(2+0); Tau(2+0); Stress(2+0); VTA(2+0); Modulation(1+0); Dopamine receptor(1+0); Peptide(1+0); Calcium channel(1+0); Vesicle(1+0); Microglia(1+0); Trafficking(1+0); Synaptogenesis(1+0); Disease(-1+2); Pathogenesis(1+0); Therapeutics(0+1); Therapy(1+0); Aging(1+0); Age-related(1+0); Neuroprotective(1+0); Inflammation(1+0); Neuroprotection(1+0); Hypoxia(1+0); Sclerosis(1+0); Depression(0+1); Cognition(1+0); Motor(1+0); Emotion(1+0); Dynamics(1+0); Dorsal striatum(1+0);
【模式生物】Mouse(12+3); Human(3+0);
【方法技术】Gene(1+6); Protein(6+0); Model(4+2); Microarray(0+2); Channel(1+0); Biochemistry(0+1); In vivo(0+1); In vitro(0+1); Electrophysiology(0+1);
【简述】
【研究论文】Nature(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Randall R. Reed, Donald  L. Price, Philip C. WongHsue-Cheng Chiang, Hoon Shim, Loukia Parisiadou007370
UCLA011013Los Angeles, CA, USAHong Yang

UCLA
【研究方向】Disease(0+2); Disorder(0+2); Metabolism(0+2); Autonomic(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, USALinda M. Liau

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, USAJoanna C. Jen

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, USAJong H Yoon

Stanford
【研究方向】Schizophrenia(31+4); Psychiatry(14+0); Cognition(9+0); Disorder(5+0); Basal ganglia(2+3); Dysfunction(3+1); Vision(4+0); Cognitive Control(4+0); Neuroimaging(3+1); PFC(4+0); Substantia nigra(4+0); Autism(3+0); Working memory(3+0); GABA(2+0); Development(2+0); Cognitive neuroscience(2+0); Modulation(1+0); Dopamine(0+1); Structure(1+0); Disease(0+1); Pediatric(1+0); Bipolar(1+0); Perception(1+0); Face(1+0); Long-term memory(1+0); Context(1+0); Social(1+0); Language(1+0); Speech(1+0); Knowledge(0+1); Encoding(1+0); Imaging(0+1); Motor cortex(1+0); Visual cortex(1+0); Subthalamic nucleus(1+0); Locus coeruleus(1+0);
【模式生物】Human(2+0);
【方法技术】fMRI(2+1); MRI(1+1); Behavior(2+0); Computation(1+0); Model(0+1);
【简述】
【研究论文】JNS(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002701Assoc Prof.
NYU015028New York, NY, USAMarjorie Rhodes

NYU
【研究方向】Development(12+1); Social(9+0); Category(8+0); Cognition(6+0); Reasoning(3+0); Learning(2+0); Structure(1+0); Context(1+0); Attention(1+0); Social cognition(0+1); Categorization(1+0);
【模式生物】Human(1+0);
【方法技术】Theory(3+0);
【简述】Conceptual development and social cognition
【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
Daphna Oyserman, Susan A. GelmanEmily Foster-Hanson, Kelsey Moty, Lisa Chalik, Ryan F Lei, Tara M. Mandalaywala, George KachergisSarah-jane LeslieYears: 2017 — 2020; Recipients: Rhodes, Marjorie; Code: N/A; Title/Keywords: Developmental Changes in Reasoning About Biological Kinds@ New York University; Matching Score: 1002095Assoc Prof.
Stanford002003Palo Alto, CA, USAAnthony G Doufas

Stanford
【研究方向】Anesthesia(7+0); Pain(3+3); Sleep(4+2); Hypoxia(4+0); Neuromuscular(1+0); Dynamics(1+0); Reinforcement learning(1+0);
【模式生物】Human(1+0);
【方法技术】Behavior(0+2); Model(2+0); Pharmacology(0+1); Simulation(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
Prof.
UCLA011013Los Angeles, CA, USAElaine Hsiao

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, 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
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
Stanford002003Palo Alto, CA, USAJohn M Pauly

Stanford
【研究方向】Imaging(17+0); Body(3+0); Learning(3+0); Neural network(2+0); Translation(1+0); Development(1+0); Neurology(1+0); Stroke(1+0); Acquisition(1+0); Concept(1+0); Engineering(1+0);
【模式生物】Human(1+0);
【方法技术】MRI(12+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
Prof.
UW021010Seattle, WA, USAHelen Sherk

UW
【研究方向】Vision(0+10); Environment(0+2); Object recognition(0+2); Visual cortex(0+2);
【模式生物】Primate(0+2);
【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, USACarla Shatz

Stanford
【研究方向】Plasticity(7+0); Vision(3+3); Synaptic Plasticity(3+2); Synapse(4+0); Learning(3+1); Receptor(2+1); Spine(3+0); Regulation(2+0); Development(1+1); Dendrite(2+0); Transgenic(1+0); Knockout(0+1); Modulation(1+0); NMDA receptor(1+0); LTD(1+0); Regeneration(1+0); CNS(1+0); Axon(1+0); Synaptogenesis(1+0); Disorder(0+1); Psychiatry(1+0); Developmental Disorder(0+1); Autism(0+1); Alzheimer's(1+0); Alzheimer's disease(1+0); Neuroprotection(1+0); Stroke(1+0); Depression(1+0); Motor learning(1+0); Memory(0+1); Neural network(1+0); Convolutional Neural Network(1+0); Imaging(0+1); Visual cortex(1+0);
【模式生物】Mouse(2+1); Human(1+1);
【方法技术】Model(2+0); In vivo(0+1); Behavior(0+1); Electrophysiology(0+1);
【简述】
【研究论文】Nature(1); Science(4); Neuron(3); JNS(2); PNAS(3); PLoS Biol.(1); eLife(1); Cerebral Cortex(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David Hubel, Torsten Wiesel, Pasko RakicMatthew Dalva, Patricio A. Riquelme, George Vidal, Jerold Chun, Eva M. Finney, Edward S. Lein, Kenichi N. Hartman, Jaimie D. Adelson, Anirvan Ghosh, Karen L. Allendoerfer, Amy Malick, David D. Stellwagen, Carson Alexis Goddard, Claire Elizabeth McKellar, C Alex Goddard, David N. Bochner, Richard  Whitten Sapp, Daniel A. Butts, Kylie S. Chew, Akash Datwani, Maja Djurisic, Marla B. Feller, Tadzia J. GrandPre, Gene S. Huh, Marta Majdan, Susan K. McConnell, Patrick McQuillen, Richard D. Mooney, Ary S. Ramoa, Josh Syken, Rachel Wong, Aram J. Raissi, Eckhard Friauf, Susan M. Catalano, Tilmann M. Brotz, Lisa M. Boulanger, Yoshi Tagawa, Patrick O. Kanold, Michael J. McConnellLawrence C. KatzYears: 2014 — 2018; Recipients: Shatz, Carla J; Code: R01; Title/Keywords: Development of Visual Connections@ Stanford University; Matching Score: 1Prof.
WUSTL009032Saint Louis, MO, USADavid D. Limbrick

WUSTL
【研究方向】Disorder(0+2); Glutamate(1+0); NMDA receptor(1+0); Neurology(1+0); Homeostatic(1+0); Methodology(0+1);
【模式生物】
【方法技术】In vitro(1+0); MRI(0+1);
【简述】We study disorders of cerebrospinal fluid (CSF) physiology such as hydrocephalus and Chiari-associated syringomyelia
【研究论文】Cell(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Robert J. DeLorenzoYears: 2012 — 2016; Recipients: Limbrick, David Delmar; Code: K23; Title/Keywords: Csf Levels of L1cam and Amyloid Precursor Protein in Post-Hemorrhagic Hydrocephal@ Washington University; Matching Score: 0.948Prof.
Yale014011New Haven, CT, USAPallavi Gopal

Yale
【研究方向】Neurodegenerative disease(0+1); Degeneration(0+1); Sclerosis(0+1);
【模式生物】
【方法技术】
【简述】Amyotrophic Lateral Sclerosis; Autopsy; Cell Biology; Neurons; Ribonucleoproteins; Neurodegenerative Diseases; RNA Transport; Frontotemporal Lobar Degeneration; TDP-43 Proteinopathies.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAS.-K. "Victor" Song

WUSTL
【研究方向】CNS(0+4); Axon(2+2); Pathology(0+3); Injury(1+2); Tumor(0+3); Inflammation(1+1); Sclerosis(1+1); Diffusion MRI(0+2); Imaging(1+1); White matter(1+1); Transgenic(1+0); Translation(0+1); Development(0+1); Differentiation(1+0); Disease(0+1); Degeneration(1+0); Dysfunction(1+0); Biomarker(0+1); Ischemia(1+0); Stroke(0+1); Brain injury(0+1); Spinal Cord Injury(0+1); Human imaging(0+1); Diffusion tensor imaging(1+0);
【模式生物】Mouse(5+1); Human(1+4);
【方法技术】MRI(2+3); fMRI(2+0); In vivo(0+1); In vitro(0+1); Anatomy(0+1); Model(1+0);
【简述】Imaging CNS function and pathology
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USAJoseph L. Demer

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, USAThomas Wisniewski

NYU
【研究方向】Disease(3+8); Pathology(4+0); Prion diseases(0+4); Neurology(2+1); Alzheimer's(2+1); Alzheimer's disease(2+1); ApoE(0+3); Cognition(3+0); Peptide(2+0); Form(2+0); Metabolism(2+0); Transgenic(1+0); Receptor(0+1); Metabotropic glutamate receptor(1+0); Glutamate receptor(1+0); Neurogenesis(1+0); Neurodegenerative disease(0+1); Neurodegenerative disorder(0+1); Pathogenesis(0+1); Autism(1+0); Down Syndrome(1+0); Aging(1+0); Age-related(1+0); Tau(0+1); Infection(0+1); Cardiovascular(1+0); Imaging(1+0);
【模式生物】Mouse(2+0); Non-human primate(0+1); Human(1+0); Primate(0+1); Rodent(0+1);
【方法技术】Protein(4+0); Model(0+2); In vitro(1+0); Anatomy(1+0); MRI(1+0); Microscopy(1+0);
【简述】Pathogenesis of Alzheimer's and prion diseases
【研究论文】Nature(1); Nature Neuroscience(1); Neuron(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Erika Y. ChungYears: 2018; Recipients: Busciglio, Jorge ACuello, A ClaudioFortea, JuanWisniewski, Thomas M; Code: R01; Title/Keywords: The Role of Inflammation and Ngf Dysfunction in the Evolution of Alzheimerdisease Pathology in Down Syndrome@ University of California-Irvine; Matching Score: 0.911025629Prof.
Columbia006008New York, NY, USARichard Vallee

Columbia
【研究方向】Motor(1+10); Axon(0+3); Lissencephaly(0+3); Infection(0+3); Regulation(0+2); Development(0+2); Neurogenesis(0+2); Cell cycle(1+1); Cell migration(0+2); Axonal transport(0+2); Form(0+2); Imaging(2+0); Mutant(0+1); Receptor(0+1); Glial cell(0+1); Differentiation(0+1); CNS(0+1); Embryo(1+0); Synaptogenesis(0+1); Disease(0+1); Degeneration(0+1); Microcephaly(1+0); Stroke(0+1);
【模式生物】Stem Cell(4+3); Rat(1+2); Human(0+2);
【方法技术】Behavior(1+5); Virus(0+3); Protein(0+2); Model(0+2); In vivo(1+0); In vitro(1+0); Cell culture(0+1);
【简述】Motor Proteins in Neurogenesis and Neuronal Migration; Stem Cell Biology; Motor Proteins in Axonal Transport; Cellular/Molecular/Developmental Neuroscience; Axon Pathfinding and Synaptogenesis; Neural Degeneration and Repair; Cell Specification and Differentiation;
【研究论文】Nature(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gary G. BorisyWilliam Theurkauf, Jie Zhou, Bryce M. Paschal, Stephanie A. Stehman, Dileep Varma, Jin-Wu Tsai, Serena C. Tan, Richard J. McKenney, Garrett E. Seale, Kassandra M. Ori, Julian Scherer, George S. Bloom, Erika Holzbaur, Kevin T. VaughanArnold R. KriegsteinYears: 2014 — 2018; Recipients: Gundersen, Gregg G (co-PI) [⬀] Naghavi, Mojgan HosseiniVallee, Richard BertWalsh, Derek; Code: P01; Title/Keywords: The Role of the Microtubule Regulators Kif4 and Eb1 in Hiv-1 Infection@ Columbia University Health Sciences; Matching Score: 1Prof.
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.
UW021010Seattle, WA, USAJack Waters

UW
【研究方向】Modulation(0+2); Attention(0+2); Optical(0+2); Neural Circuit(0+1); Sense(0+1);
【模式生物】Mouse(0+2);
【方法技术】Behavior(0+6); Microscopy(0+2); Optogenetics(0+2);
【简述】Cell and Molecular 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
Stanford002003Palo Alto, CA, USAWilliam Gilly

Stanford
【研究方向】Environment(1+3); Axon(3+1); Sodium channel(3+0); Temperature(0+3); Plasticity(2+0); Olfaction(2+0); Modulation(1+0); Receptor(1+0); Potassium channel(1+0); Structure(1+0); Membrane(1+0); Therapy(1+0); Hypoxia(0+1); Vision(0+1); Adaptation(1+0); Depth(0+1); Motor(1+0); Motor control(0+1); Social(1+0); Sexual behavior(1+0); Metabolism(1+0); Stress(1+0); Engineering(1+0); Imaging(1+0); Evolutionary(1+0);
【模式生物】Human(1+0);
【方法技术】Behavior(5+2); Anatomy(2+1); Channel(2+0); Electrophysiology(0+2); Gene(1+0); Microscopy(0+1);
【简述】
【研究论文】Science(2);
【综述】Review(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Brigitta B. Gundersen, Joshua J. C. Rosenthal, Frank T. Horrigan, Joshua J. Rosenthal, Mary Teresa LuceroYears: 2017 — 2018; Recipients: Denny, Mark (co-PI) [⬀] Palumbi, Stephen (co-PI) [⬀] Gilly, WilliamMicheli, Fiorenza [⬀] Goldbogen, Jeremy (co-PI) [⬀] ; Code: N/A; Title/Keywords: An Experimental Facility to Test the Impacts of Multiple Physical Stressors On Physiology, Ecology and Genomics of Marine Species@ Stanford University; Matching Score: 0.915004433Prof.
NIH-NIA??Bethesda, MD, USAChristopher Ramsden

NIH-NIA
【研究方向】Pain(8+3); Psychiatry(5+0); Disease(3+1); Headache(3+0); Cardiovascular(2+1); Disorder(2+0); Inflammation(0+2); Bipolar(2+0); Depression(2+0); Regulation(1+0); Development(1+0); Neurodegenerative disease(0+1); Dysfunction(1+0); Age-related(0+1); Biomarker(1+0); Injury(1+0); Itch(1+0); Migraine(1+0); Evolutionary(1+0);
【模式生物】Human(7+0); Mouse(3+0); Rat(1+0);
【方法技术】Ex vivo(0+1); Model(0+1); Theory(1+0);
【简述】Lipid Mediators, Inflammation, and Pain Unit
【研究论文】Cell(2); Cerebral Cortex(1);
【综述】Review(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003292
MIT005002Boston, MA, USAJoshua Tenenbaum

MIT
【研究方向】Cognition(10+0); Learning(3+3); Inference(4+1); Structure(4+0); Bayesian(3+1); Semantic(3+0); Concept(2+1); Machine(1+1); Perception(0+1); Vision(1+0); Multisensory perception(1+0); Planning(1+0); Intention(1+0); Decision making(1+0); Language(1+0); Syntax(1+0); Reasoning(1+0); Inductive learning(1+0); Generative model(1+0); Connection(0+1);
【模式生物】Human(0+3);
【方法技术】Model(7+1); Behavior(2+2); Computation(1+3); Theory(0+2); Statistics(1+1); Mathematics(0+1); Simulation(0+1);
【简述】
【研究论文】Science(5); Neural Computation(1); NIPS(3);
【综述】Psychological Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael J. Tarr, Roger Newland Shepard, Whitman RichardsRonnie E. Bryan, Jessica B. Hamrick, Michael B Chang, Chris L. Baker, Steven T. Piantadosi, Julian Jara-Ettinger, Max Kleiman-Weiner, Sean Dae Houlihan, Sarah Schwettmann, Nicolas Davidenko, Thomas L. Griffiths, Charles Kemp, Michael C. Frank, Sam J. Gershman, Frank Jäkel, Patrick Shafto, Ilker Yildirim, Konrad P. Kording, Noah D. Goodman, Peter W. BattagliaYears: 2012 — 2017; Recipients: Tenenbaum, Joshua; Code: N/A; Title/Keywords: Nri-Large: Collaborative Research: Purposeful Prediction: Co-Robot Interaction Via Understanding Intent and Goals@ Massachusetts Institute of Technology; Matching Score: 1046347Prof.
MIT005002Boston, MA, USAKay Tye

MIT
【研究方向】Neural Circuit(4+3); Anxiety(3+3); Amygdala(5+0); Environment(0+3); Learning(1+2); Emotion(0+3); Reward(2+1); Disease(1+1); Disorder(0+2); Memory(0+2); Motivation(0+2); Social behavior(2+0); Decoding(2+0); VTA(2+0); GABA(1+0); Plasticity(0+1); Dopamine neuron(1+0); Synapse(1+0); Psychiatry(1+0); Psychiatric disorder(0+1); Depression(0+1); Pain(0+1); Extinction(0+1); Inhibitory control(0+1); Fear(0+1); Neural encoding(1+0); Dynamics(1+0); Optical(1+0); PFC(1+0); Hippocampus(1+0); Nucleus accumbens(1+0);
【模式生物】Rat(1+0); Mouse(1+0);
【方法技术】Behavior(5+1); Optogenetics(3+0); Model(1+0);
【简述】
【研究论文】Nature(9); Cell(2); Nature Neuroscience(2); Neuron(3); JNS(1); Nature Methods(1);
【综述】Nature Reviews Neuroscience(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard J. Wurtman, Patricia H. Janak, Antonello Bonci, Karl DeisserothChangwoo Seo, Xinhong Chen, Maya Jay, Edward H. Nieh, Clemence Simonnet, Stephen A. Allsop, Caitlin M. Vander Weele, Christopher A. Leppla, Yi Ning Leow, Praneeth Namburi, Joyce Wang, Gillian A. Matthews, Cody A. Siciliano, Romy Wichmann , Gwendolyn G. Calhoon, Fergil Mills, Nancy Padilla-Coreano, Amy K. Sutton, Jacob M Olson, Anna Beyeler, Natsuko Hitora-ImamuraStephan Lammel, Michelle M. SidorYears: 2018; Recipients: Tye, Kay Maxine; Code: R01; Title/Keywords: Exploring Neural Circuit Mechanisms of Social Contact and Social Isolation@ Massachusetts Institute of Technology; Matching Score: 1009352Assist Prof.
Stanford002003Palo Alto, CA, USAScott L Delp

Stanford
【研究方向】Biomechanics(6+0); Neuromodulation(3+0); Development(0+3); Muscle(2+1); Gait(2+0); Neural network(2+0); Modulation(1+0); GABA(1+0); LTD(1+0); Movement disorder(1+0); Neuromuscular(1+0); Injury(1+0); Body(1+0); Pain(1+0); Learning(1+0); Metabolism(1+0); Stress(1+0); Dynamics(1+0); Machine learning(1+0); Engineering(1+0); Imaging(0+1);
【模式生物】Human(4+1);
【方法技术】Computation(2+1); Model(2+1); Gene(2+0); MRI(0+1); Behavior(1+0);
【简述】
【研究论文】Nature(1); Neuron(1); PLOS Computational Biology(1); Nature Human Behaviour(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCSD011017San Diego, CA, USAAntonio De Maio

UCSD
【研究方向】Injury(0+2); Regulation(0+1); Environment(0+1);
【模式生物】Mouse(0+1);
【方法技术】Gene(0+1); Biochemistry(0+1);
【简述】 Biochemistry & Molecular
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USALarry Maloney

NYU
【研究方向】Perception(0+1); Vision(0+1); Planning(0+1); Decision making(0+1);
【模式生物】
【方法技术】
【简述】Visual perception, decision making and movement planning
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCSF003015San Francisco, CA, USAAndrea Hasenstaub

UCSF
【研究方向】Plasticity(0+3); Auditory cortex(0+3); Disease(0+2); Disorder(0+2); Cognition(0+2); Timing(0+2); Epilepsy(0+1); Development(0+1); Dysfunction(0+1); Developmental Disorder(0+1); Autism(0+1); Aging(0+1); Brain injury(0+1); Bipolar(0+1); Schizophrenia(0+1); Auditory processing(0+1); Optical(0+1); Connection(0+1);
【模式生物】Human(0+6); Mouse(0+2); Rat(0+1);
【方法技术】Gene(0+3); Computation(0+3); Model(0+3); Behavior(0+1); Electrophysiology(0+1);
【简述】Genetic, Cellular, Circuit, and Functional Organization of Auditory Cortex
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAKilian M Pohl

Stanford
【研究方向】Alcohol(8+2); Psychiatry(7+0); Imaging(7+0); Development(3+2); Aging(4+1); Structure(4+0); Disease(2+2); Disorder(3+1); White matter(4+0); HIV(2+1); Tumor(3+0); Cognition(2+1); Neuroimaging(2+1); Adolescent development(2+0); CNS(2+0); Infection(2+0); Schizophrenia(1+1); Cognitive neuroscience(2+0); Intelligence(2+0); Machine learning(1+1); Machine(2+0); Dysfunction(1+0); Psychiatric disorder(0+1); Biomarker(1+0); Addiction(1+0); Drug dependence(1+0); Vision(1+0); Spectral(1+0); Motor control(1+0); Sleep(1+0); Encoding(1+0); Bayesian(1+0); Regularization(1+0); Engineering(1+0); Precuneus(1+0); Cerebellum(1+0);
【模式生物】Human(4+1); Rat(1+0);
【方法技术】Virus(2+1); Anatomy(2+0); Behavior(2+0); Pharmacology(2+0); Model(2+0); Algorithm(2+0); MRI(1+0); Computation(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002103Assoc Prof.
Harvard001001Boston, MA, USARachel Wilson

Harvard
【研究方向】Olfaction(17+1); Antennal lobe(6+0); Sense(2+3); Neural Circuit(3+0); Receptor(2+0); Synapse(2+0); Sensorimotor Integration(0+2); Encoding(2+0); Dynamics(2+0); Hippocampus(2+0); Neurotransmitter(1+0); Modulation(1+0); Glutamate(1+0); Ligand gated ion channel(1+0); Ion Channel(1+0); LTP(1+0); Oscillation(1+0); Microcircuit(1+0); Cannabinoids(1+0); Face(0+1); Nociception(1+0); Touch(1+0); Auditory(0+1); Sound localization(1+0); Frequency(1+0); Multisensory integration(0+1); Motor(0+1); Motor control(1+0); Homeostatic(1+0); Neural network(0+1); Optical imaging(0+1); Mushroom body(1+0);
【模式生物】Drosophila(16+1);
【方法技术】Computation(2+3); Gene(1+2); In vivo(1+2); Behavior(3+0); Channel(1+0); Electrophysiology(0+1); Optogenetics(1+0); Model(0+1);
【简述】Neural computations and biophysical mechanisms underlying sensory processing and sensorimotor integration
【研究论文】Nature Neuroscience(3); JNS(1); Curr Biol.(4); Neural Computation(1);
【综述】Annual Review Of Neuroscience(2); Trends In Neurosciences(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Roger A. Nicoll, Gilles LaurentAllison E. Baker, Stephen L. Holtz, Alexandra K. Moore, Sasha Rayshubskiy, Asa Barth-Maron, Paola Patella, Nathan W. Gouwens, Shawn R. Olsen, Brendan Peltonen Lehnert, Mehmet Fisek, Wendy Wing-Heng Liu, Vikas Bhandawat, Quentin Gaudry, James M. Jeanne, Emre Yaksi, Hokto Kazama, Tatsuo Okubo, Yvette E. Fisher, Katherine I. Nagel, Anthony W. Azevedo, John C. TuthillYears: 2017 — 2018; Recipients: Wilson, Rachel; Code: R01; Title/Keywords: Mechanosensory Feature Extraction For Directed Motor Control@ Harvard Medical School; Matching Score: 0.915010431Prof.
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
Harvard001001Boston, MA, USALarry Benowitz

Harvard
【研究方向】Regeneration(16+3); Axon(11+1); Injury(4+4); Stroke(5+2); Spinal Cord Injury(4+1); Vision(3+2); CNS(3+1); Development(2+1); Neurology(3+0); Receptor(2+0); Plasticity(1+1); Therapy(1+1); Neural Circuit(0+2); Retina(1+1); Purine(0+1); Membrane(1+0); Synaptic Plasticity(1+0); Microglia(0+1); Dendrite(1+0); Synapse(0+1); Disease(0+1); Neurodegenerative disease(0+1); Degeneration(0+1); Brain injury(1+0); Tumor(1+0); Schizophrenia(1+0); Photoreceptor(1+0); Form(0+1); Grasp(1+0); Reaching(1+0); Muscle(1+0); Metabolism(1+0); Motor cortex(1+0); Primary motor cortex (M1)(1+0);
【模式生物】Mouse(4+0); Rat(2+0); Stem Cell(2+0); Monkey(1+0); Bird(1+0);
【方法技术】Gene(1+4); Protein(3+1); Model(1+2); In vivo(2+0); Anatomy(1+1); In vitro(1+0); Cell culture(0+1); Behavior(1+0);
【简述】Axonal development and reorganization
【研究论文】Cell(1); Nature Neuroscience(1); JNS(2);
【综述】Trends In Neurosciences(2); Annals Of Neurology(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Roger W. SperryMichio Wendell Painter, Ephraim F. Trakhtenberg, Burcu ErdoganYears: 2018 — 2019; Recipients: Benowitz, Larry IraRosenberg, Paul Allen; Code: R01; Title/Keywords: An Interneuronal Signaling Network Governs the Fate of Retinal Ganglion Cells After Optic Nerve Injury@ Boston Children's Hospital; Matching Score: 1017719Prof.
Stanford002003Palo Alto, CA, USAStephen J Smith

Stanford
【研究方向】Synapse(10+0); Imaging(1+4); Development(1+2); Dendrite(1+2); Knockout(2+0); Pluripotent stem cells(2+0); Synaptogenesis(0+2); Neural Circuit(0+2); Exploration(2+0); Regulation(1+0); GABA(1+0); AMPA receptor(1+0); NMDA receptor(0+1); Potassium channel(1+0); Structure(0+1); Vesicle(0+1); Astrocyte(1+0); Microcircuit(0+1); Disorder(0+1); Fragile X(1+0); Stroke(1+0); Vision(0+1); Adaptation(1+0); Barrel cortex(1+0); Memory(0+1); Context(1+0); Social(1+0); Knowledge(1+0); Vessel(1+0); Bayesian(1+0); Optical(0+1); Optical imaging(0+1);
【模式生物】Mouse(4+1); Stem Cell(4+0); Human(2+1);
【方法技术】Protein(1+1); In vivo(0+2); Computation(2+0); Histochemistry(1+0); Microscopy(1+0); Model(1+0);
【简述】
【研究论文】Nature(4); Neuron(4); JNS(2); Nature Methods(2); PLOS Computational Biology(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
Charles F. Stevens, Wolfhard AlmersBrad Busse, Nicholas C. Weiler, Toshinori Hoshi, Paul Forscher, Dwight Bergles, Susanne E. Ahmari, Cristopher M. Niell, Nicholas J. Nidzieko, Jonah V. Steinbuck, Martin Patrick Meyer, Gordon Xiang Wang, Forrest C. Collman, Noreen Reist, Michael E. Dailey, Timothy A. Ryan, James David JontesGeorge J. Augustine, Milton P. Charlton, Daniel V. Madison, Eric R. Kandel, Paul Greengard, Stuart H. ThompsonYears: 2014 — 2018; Recipients: Burns, RandalSmith, Stephen J ; Code: R01; Title/Keywords: Synaptomes of Mouse and Man@ Allen Institute; Matching Score: 0.374000450Prof.
WUSTL009032Saint Louis, MO, USAHong Chen

WUSTL
【研究方向】Therapy(0+2); Tumor(2+0); Transgenic(1+0); Modulation(1+0); Development(0+1); Cognition(1+0); Frequency(1+0); Metabolism(1+0); Blood flow(1+0); Vessel(1+0); Engineering(0+1); Imaging(1+0);
【模式生物】Mouse(3+0);
【方法技术】Model(2+0); In vivo(1+0); Ex vivo(1+0); Ultrasonic(1+0);
【简述】Combines biology, engineering, and medicine to develop ultrasound techniques for noninvasive, targeted, and personalized cancer treatment
【研究论文】
【综述】Physical Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Kinuko SuzukiAssist Prof.
UCLA011013Los Angeles, CA, USAGiovanni Coppola

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, USADarcy B. Kelley

Columbia
【研究方向】Auditory(2+3); Spectral(1+4); Amygdala(1+4); Motor(1+2); Social communication(1+2); Vocal communication(2+1); Regulation(2+0); Development(2+0); Neuromuscular(1+1); Muscle(2+0); Hormone(2+0); Respiratory(2+0); Transgenic(0+1); Rhythm(0+1); Differentiation(0+1); Synapse(0+1); Systems Neuroscience(0+1); Sense(0+1); Sensorimotor Integration(1+0); Pattern generation(1+0); Neuroendocrine(1+0); Neuroendocrinology(1+0); Evolutionary(1+0);
【模式生物】Xenopus(11+2);
【方法技术】Behavior(4+2); Model(2+2); Ex vivo(0+1);
【简述】Cognitive/Systems Neuroscience, Sensory Physiology, Motor Systems, Synapses and Circuits, Cell Specification and Differentiation;
【研究论文】JNS(1); PNAS(1);
【综述】Current Opinion In Neurobiology(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Donald Wells Pfaff, Fernando NottebohmAnna Louise Vlasits, Christofer J. Edwards, Joseph W. Thornton, Erik Zornik, Taffeta M. Elliott, Brian T. Nasipak, Elizabeth C. Leininger, Irene H. Ballagh, Ayako Yamaguchi, Clémentine Vignal, Rachna K. RanganYears: 2009 — 2012; Recipients: Kelley, Darcy B; Code: R01; Title/Keywords: Neural Substrates For Matching Hearing to Utterance@ Columbia Univ New York Morningside; Matching Score: 0.939Prof.
UCSF003015San Francisco, CA, USAAimee Kao

UCSF
【研究方向】Neurodegenerative disease(0+4); Stress(0+2); Amino acid(0+1); Pluripotent stem cells(0+1); Degeneration(0+1); Dysfunction(0+1);
【模式生物】Stem Cell(0+2); C. elegans(0+1);
【方法技术】Protein(0+1); Model(0+1);
【简述】The molecular basis neurodegenerative diseases
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USADavid W. McLaughlin

NYU
【研究方向】Vision(0+1);
【模式生物】
【方法技术】Mathematics(0+1);
【简述】Nonlinear waves, mathematical physics, visual neural science
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
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, USAAnnelise E Barron

Stanford
【研究方向】Disease(0+12); Development(2+1); Peptide(2+0); Neurology(0+2); Alzheimer's disease(2+0); Injury(1+1); Metabolism(0+2); Amino acid(1+0); Transplantation(1+0); Degeneration(0+1); Pathology(0+1); Alzheimer's(0+1); Abeta(0+1); Neuroinflammation(1+0); Inflammation(0+1); Infection(0+1); Body(0+1); Learning(1+0); Art(1+0); Concept(0+1); Cardiovascular(0+1);
【模式生物】Human(2+2); Stem Cell(1+0);
【方法技术】In vivo(3+0); Protein(2+0); In vitro(1+0); Cell culture(1+0); PET(1+0); Pharmacology(1+0);
【简述】
【研究论文】Science(1);
【链接】机构网站,