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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
UCSD011017San Diego, CA, USAGreg E. Lemke

UCSD
【研究方向】Receptor(0+4); Development(0+3); Signal transduction(0+1); Engineering(0+1);
【模式生物】Mouse(0+2);
【方法技术】Protein(0+1); Biochemistry(0+1); Cell culture(0+1); Model(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, USAJ. Thomas Roland, Jr.

NYU
【研究方向】Auditory(1+2); Disease(0+2); Knowledge(2+0); Tumor(0+1); Vestibular(1+0);
【模式生物】
【方法技术】Anatomy(0+1);
【简述】Cochlear and auditory brainstem implants
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
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.
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.
JHU010012Baltimore, MD, USAEd Connor

JHU
【研究方向】Vision(0+7); Structure(0+2); Environment(0+1); Neural Circuit(0+1); Cognition(0+1); Body(0+1); Aesthetic(0+1); Knowledge(0+1);
【模式生物】Human(0+1);
【方法技术】Tracing(0+1); Computation(0+1);
【简述】Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAChris Hague

UW
【研究方向】Receptor(0+12); Development(0+2); Trafficking(0+2); Disease(0+2);
【模式生物】
【方法技术】Pharmacology(0+4); Protein(0+2); Model(0+2);
【简述】Research Functional characterization of adrenergic receptors.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAHong M. Wu

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

Stanford
【研究方向】Taste(4+0); Pain(0+2); Glutamate(1+0); Opiate(1+0); Peptide(1+0); Regeneration(1+0); Disorder(0+1); Addiction(0+1); Neural Circuit(0+1); Associative learning(1+0); Temperature(1+0); Nucleus accumbens(1+0); Thalamus(1+0);
【模式生物】Rat(2+0);
【方法技术】Channel(2+0);
【简述】
【研究论文】Nature(3); Science(2); Nature Neuroscience(2); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Zhuan Zhou, Charles S. ZukerChen Ran, Manuel Alexander MohrYears: 2018; Recipients: Chen, Xiaoke; Code: R56; Title/Keywords: Thalamic Circuits For Prosocial Behaviors in Mice@ Stanford University; Matching Score: 1001446Assist Prof.
NIH-NINDS??Bethesda, MD, USAAntonina Roll-Mecak

NIH-NINDS
【研究方向】Structure(7+0); Translation(6+0); Dynamics(4+2); Disease(0+2); Regulation(0+1); Development(1+0); Trafficking(0+1); Stroke(1+0); Adaptation(1+0); Form(0+1); Motor(0+1); Language(0+1); Cardiovascular(0+1);
【模式生物】Human(3+1); Drosophila(1+0);
【方法技术】Protein(3+0); In vitro(2+0); Behavior(0+2); Biophysics(0+1);
【简述】Cell Biology and Biophysics Section
【研究论文】Science(2); Cell(7); 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
002384
Stanford002003Palo Alto, CA, USADaniel Fisher

Stanford
【研究方向】Evolutionary(5+1); Dynamics(4+1); Structure(3+0); Adaptation(3+0); Oscillation(1+0); Development(1+0); Disorder(1+0);
【模式生物】Human(2+0); Zebrafish(2+0);
【方法技术】Theory(4+0); Behavior(2+0); Gene(1+0); Bioinformatics(1+0);
【简述】
【研究论文】Nature(1); Science(3); Cell(1); PNAS(3); Curr Biol.(1);
【综述】Physical Review(19);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Shuxin Li, Andrew Holmes, Dane M. ChetkovichYears: 2015 — 2017; Recipients: Fisher, Daniel W.; Code: F30; Title/Keywords: Role of Hcn Channels in Major Depressive Disorder Etiology and Treatment@ Northwestern University At Chicago; Matching Score: 1032562Prof.
NYU015028New York, NY, 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
UCLA011013Los Angeles, CA, USAJoshua A. Hoffs

UCLA
【研究方向】Neuroimaging(0+1);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAJennifer Gelinas

Columbia
【研究方向】Epilepsy(6+6); Receptor(7+0); LTP(7+0); Disorder(3+3); Pediatric(2+3); Hippocampus(5+0); Disease(4+0); Neurology(4+0); Memory(3+1); Language(4+0); Dysfunction(0+3); Cognition(0+3); Learning and memory(2+1); Dynamics(3+0); Neural network(0+3); Neuromodulation(2+0); Synaptic Plasticity(2+0); Translation(2+0); Oscillation(2+0); Seizure(2+0); Development(0+2); Synapse(2+0); Learning(2+0); Sleep(2+0); Temporal lobe(2+0); White matter(2+0); Therapy(0+1); Retrieval(1+0); Engineering(0+1);
【模式生物】Human(3+2); Mouse(2+0); Rodent(0+2);
【方法技术】Protein(6+0); ECoG(4+0); Model(0+2); Electrical stimulation(0+1);
【简述】Neurobiology of learning and memory; Developmental neurophysiology; Epilepsy and cognitive disorders ;
【研究论文】Science(2); Nature Neuroscience(1); Neuron(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Peter V. Nguyen, György Buzsáki001177Assist Prof.
NYU015028New York, NY, USAOded Gonen

NYU
【研究方向】Epilepsy(4+0); Metabolism(1+2); Development(0+2); Brain injury(1+1); Methodology(0+2); Imaging(2+0); Receptor(1+0); Structure(0+1); Neurodegenerative disease(0+1); Psychiatry(1+0); Psychiatric disorder(0+1); Aging(0+1); Biomarker(1+0); Sclerosis(0+1); Schizophrenia(1+0); Encoding(0+1); White matter(1+0);
【模式生物】Human(0+1);
【方法技术】MRI(1+2); Protein(1+0); Biochemistry(0+1); In vivo(0+1); Anatomy(0+1);
【简述】Magnetic Resonance Spectroscopy and its applications to cancer, neurodegenerative diseases and psychiatric disorders
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ivan I. Kirov, Daniel J. Rigotti, William E. WuYears: 2011; Recipients: Gonen, Oded; Code: R56; Title/Keywords: Serial Brain 3d 1h Mr Spectroscopy in Multiple Sclerosis.@ New York University School of Medicine; Matching Score: 1Prof.
Stanford002003Palo Alto, CA, USAAnn M Arvin

Stanford
【研究方向】Pathogenesis(7+2); Infection(3+1); Regulation(1+1); Membrane(1+0); Transcription(1+0); Trafficking(1+0); Disease(0+1); HIV(1+0); Body(1+0);
【模式生物】Human(3+2); Mouse(1+2); Stem Cell(1+0);
【方法技术】Virus(14+2); Model(2+1); In vivo(1+1); Gene(0+1); Protein(1+0); Microscopy(1+0);
【简述】
【研究论文】Nature(2); Cell(5); PNAS(3);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCSD011017San Diego, CA, USAMark A. Geyer

UCSD
【研究方向】Development(0+3); Cognition(0+3); Psychiatric disorder(0+2); Schizophrenia(0+2); Mutant(0+1); Neurotransmitter(0+1); Monoamine(0+1); 5-HT(0+1); Receptor(0+1); Environment(0+1); Disorder(0+1); Anxiety(0+1); Bipolar(0+1); Extinction(0+1); Fear(0+1);
【模式生物】Human(0+4); Rodent(0+3); Mouse(0+2); Rat(0+1);
【方法技术】Behavior(0+7); Model(0+4); Gene(0+2); Pharmacology(0+2);
【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
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.
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.
Stanford002003Palo Alto, CA, USAJun Ding

Stanford
【研究方向】Motor(1+5); Striatum(4+2); Basal ganglia(0+4); Dendrite(3+0); Motor learning(1+2); Motor cortex(2+1); Modulation(2+0); GABA(2+0); Synapse(2+0); Disorder(1+1); Parkinson's disease(2+0); Imaging(2+0); Thalamus(0+2); NMDA receptor(1+0); Muscarinic(1+0); Synaptic integration(1+0); Synaptic Plasticity(1+0); LTD(1+0); Dopamine neuron(1+0); Development(1+0); Dendritic growth(1+0); Synapse formation(1+0); Disease(0+1); Psychiatry(1+0); Movement disorder(1+0); Neural Circuit(1+0); Sense(0+1); Voluntary Movement(0+1); Dynamics(1+0); Engineering(1+0);
【模式生物】Mouse(1+0);
【方法技术】Behavior(0+4); Gene(2+1); Microscopy(2+1); Model(2+0); Electrophysiology(0+1); Optogenetics(0+1); Pharmacology(1+0); Computation(0+1);
【简述】
【研究论文】Cell(1); Nature Communications(2);
【综述】Physical Review(4); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
D. James Surmeier, Bernardo L. SabatiniTonghui Xu, Konstantin Kaganovsky, Jae-Ick Kim, Yu-Wei WuYears: 2018; Recipients: Ding, Jun; Code: R21; Title/Keywords: Massively Parallel Microwire Arrays For Deep Brain Stimulation@ Stanford University; Matching Score: 1018917Assist Prof.
UCLA011013Los Angeles, CA, USAYvette M. Bordelon

UCLA
【研究方向】Disease(0+2); Movement disorder(0+2); Development(0+1); Neurology(0+1);
【模式生物】
【方法技术】Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, 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
Stanford002003Palo Alto, CA, USABeth Beadle

Stanford
【研究方向】Therapy(6+0); Structure(2+0); Development(2+0); Pathology(2+0); Tumor(2+0); Planning(2+0); Disease(1+0); Exercise(1+0); Imaging(1+0); Evolutionary(1+0);
【模式生物】Human(2+0);
【方法技术】Biochemistry(2+0); Behavior(1+0);
【简述】
【研究论文】Science(2); Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002905Assoc Prof.
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.
WUSTL009032Saint Louis, MO, USAPeter D. Lukasiewicz

WUSTL
【研究方向】Vision(1+6); Receptor(0+6); Retina(1+5); Glutamate(0+3); GABA(0+3); CNS(0+2); Knockout(0+1); Neurotransmitter(0+1); Transporter(0+1); Glycine receptor(1+0); Glutamate receptor(0+1); Sodium channel(1+0); Bipolar(1+0); Neural Circuit(0+1); Sense(1+0);
【模式生物】Mouse(1+1);
【方法技术】Channel(1+0); Pharmacology(0+1); Model(0+1);
【简述】Synaptic function and retinal neurobiology
【研究论文】Neuron(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Frank S. WerblinMatthew H. Higgs, Colleen R. Shields, Rachel M. Huckfeldt, Philip R. Williams, Robert J. Purgert, Erika D. EggersGreg MaguireYears: 2015 — 2018; Recipients: Lukasiewicz, Peter D; Code: P30; Title/Keywords: Visual Function Testing Module@ Washington University; Matching Score: 1Prof.
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.
WUSTL009032Saint Louis, MO, USAGilbert Gallardo

WUSTL
【研究方向】Disease(1+4); Neurodegenerative disease(0+5); Tau(0+5); Tauopathies(0+4); Neurotoxicity(0+2); Inflammation(0+2); Disorder(0+1); Degeneration(0+1); Pathology(0+1); Therapy(0+1); Abeta(1+0); ApoE(1+0); Alpha-synuclein(1+0); Neuroprotective(0+1); Neuroinflammation(0+1); Neuroprotection(0+1); Engineering(0+1); Neuroimaging(1+0);
【模式生物】Mouse(0+3); Human(0+2);
【方法技术】Model(0+5); Biochemistry(0+2); Protein(0+1);
【简述】Understand the molecular mechanisms that regulate reactive astrocytes and their neurotoxicity in
neurodegenerative diseases, including Alzheimer’s disease, by utilizing a combination of biochemistry, molecular biology, cellular models of inflammation and mouse models of neurodegenerative diseases.
【研究论文】Nature(1); Nature Neuroscience(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
UCSF003015San Francisco, CA, USAPam England

UCSF
【研究方向】Synaptic Plasticity(0+3); Ion Channel(0+2); Synapse(0+1); Learning and memory(0+1);
【模式生物】
【方法技术】Channel(0+2); Biochemistry(0+1); Electrophysiology(0+1);
【简述】Chemical Neurobiology: Ion Channel Structure-Function, Synaptic Plasticity
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAAlex Carter

WUSTL
【研究方向】Stroke(3+7); Resting state(0+6); Plasticity(0+2); Body(0+2); Dynamics(2+0); Imaging(0+2); Development(1+0); Environment(1+0); Face(0+1); Motor(0+1); Concept(0+1); Knowledge(1+0); Methodology(0+1); Motor cortex(0+1);
【模式生物】Human(2+1);
【方法技术】Behavior(0+5); MRI(0+1); fMRI(1+0); TMS(0+1); Model(1+0);
【简述】Network plasticity as it pertains to neurorehabilitation, particularly in recovery from stroke
【研究论文】Science(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000511Assist Prof.
UCLA011013Los Angeles, CA, USASandra K. Loo

UCLA
【研究方向】Disorder(0+5); Pediatric(0+3); Psychiatric disorder(0+2); ADHD(0+2); Psychiatry(0+1); Dyslexia(0+1); Autism(0+1); Cognition(0+1);
【模式生物】
【方法技术】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
Harvard001001Boston, MA, USA Mary Loeken

Harvard
【研究方向】Development(2+5); Embryo(5+2); Metabolism(3+4); Transporter(2+0); Regulation(1+1); Stress(2+0); Plasticity(0+1); Transcription(1+0); Proliferation(1+0); Cell line(1+0); Neural lineage(0+1); Differentiation(0+1); Environment(1+0); CNS(0+1); Disease(1+0);
【模式生物】Stem Cell(6+2); Mouse(3+2);
【方法技术】Gene(3+4); Model(2+1); Protein(1+1); Cell culture(0+1);
【简述】 Molecular regulation of neural tube development and neural tube defects in diabetic pregnancy
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
CalTech072006Pasadena, CA, USAMasakazu Konishi

CalTech
【研究方向】Development(0+1); Differentiation(0+1); Environment(0+1); Sense(0+1); Perception(0+1); Olfaction(0+1); Sound localization(0+1); Memory(0+1);
【模式生物】Bird(0+2); Songbird(0+1);
【方法技术】Behavior(0+3); Computation(0+1); Theory(0+1); Algorithm(0+1);
【简述】Neurophysiology,
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
NYU015028New York, NY, USALuis Marcos

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

NYU
【研究方向】Decision making(0+1);
【模式生物】
【方法技术】
【简述】Circuitry underlying decision-making
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael Hawken, Randy M. Bruno, Carlos D. Brody, David W. TankAnita A. DisneyYears: 2016 — 2019; Recipients: Constantinople, Christine Marie; 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: Neural Mechanisms of Probability Estimation During Decision-Making@ Princeton University; Matching Score: 1Assist Prof.
MIT005002Boston, MA, USABas Rokers

MIT
【研究方向】Vision(21+6); Perception(4+1); Depth(5+0); Emotion(3+0); Visual cortex(2+1); Sense(2+0); Striate cortex(2+0); Depth perception(0+2); Contour(2+0); Visual motion(2+0); White matter(2+0); Environment(1+0); Cognition(1+0); Extrastriate cortex(1+0); Attention(1+0); Fear(1+0); Dynamics(1+0); Neuroimaging(0+1); PFC(1+0); Amygdala(1+0);
【模式生物】Human(6+0);
【方法技术】Model(4+1); Behavior(2+1); Psychophysics(2+0); TMS(1+0); Computation(0+1);
【简述】
【研究论文】Science(4); Nature Neuroscience(1); Curr Biol.(1); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Zili Liu, Alex C. HukMohan Ji, Martijn Barendregt, Jacqueline M. Fulvio, Andrew M. HaunSerge O. Dumoulin, David William Jacobs, Alan Yuille000519Prof.
Stanford002003Palo Alto, CA, USARuwan Silva

Stanford
【研究方向】Retina(3+0); Depression(1+0); Respiratory(1+0); Imaging(1+0);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
NIH-NINDS??Bethesda, MD, USADavid S. Goldstein

NIH-NINDS
【研究方向】Autonomic(4+2); Disease(4+0); Stress(3+1); Parkinson's disease(0+3); Dopamine(0+2); Metabolism(2+0); Modulation(1+0); Adrenalin(1+0); Dopamine neuron(0+1); Disorder(0+1); Neurology(1+0); Therapeutics(1+0); Cell therapy(1+0); Autism(1+0); Alpha-synuclein(1+0); Depression(1+0); Cognition(1+0); Form(1+0); Concept(1+0); Neuroendocrinology(1+0); Hormone(1+0); Hypothalamus(1+0); Paraventricular nucleus(1+0);
【模式生物】Human(1+0);
【方法技术】Gene(2+0); Pharmacology(2+0); Protein(1+0); In vivo(1+0); Model(1+0);
【简述】Clinical Neurocardiology Section
【研究论文】Cell(2);
【综述】Review(2); Pharmacological Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
042282
Harvard001001Boston, MA, USAEmery N. Brown

Harvard
【研究方向】Anesthesia(2+7); Cognition(1+1); Microglia(1+0); Disorder(1+0); Pathology(1+0); Dysfunction(1+0); Autism(1+0); Depression(1+0); Neural Circuit(1+0); Systems Neuroscience(0+1); Sense(1+0); Depth(0+1); Pain(0+1); Frequency(1+0); Learning(1+0); Consciousness(1+0); Sleep(1+0); Entrainment(1+0); Imaging(0+1);
【模式生物】Rodent(2+0); Human(1+0);
【方法技术】EEG(1+1); Computation(1+1); Model(1+1); Mathematics(1+1); Electrophysiology(0+1); fMRI(0+1); Theory(1+0);
【简述】Neural Signal Processing and Mechanisms of General Anesthesia
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Stanford002003Palo Alto, CA, USALaraine Zappert

Stanford
【研究方向】Psychiatry(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.
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
UCLA011013Los Angeles, CA, USAJoseph J. DiStefano

UCLA
【研究方向】Engineering(0+4); Methodology(0+2); Regulation(0+1); Disease(0+1); Therapy(0+1); Metabolism(0+1); Hormone(0+1); Dynamics(0+1);
【模式生物】
【方法技术】Computation(0+1); Model(0+1); Mathematics(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
MIT005002Boston, MA, USADrazen Prelec

MIT
【研究方向】Decision making(3+1); Neuroeconomics(2+1); Motivation(0+2); Development(0+1); Addiction(1+0); Cognition(0+1); Knowledge(0+1); Exploration(0+1); Reward(0+1); Bayesian(1+0);
【模式生物】Human(0+1);
【方法技术】Behavior(4+3); Theory(2+2); fMRI(0+1); Model(1+0);
【简述】Neuroeconomics
【研究论文】Science(4); Neuron(1);
【综述】Psychological Review(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard J. Herrnstein, R Duncan LucePaymon Hosseini, Derek DunfieldYears: 2005 — 2009; Recipients: Prelec, Drazen; Code: N/A; Title/Keywords: Truth and Truthfulness: Experimental Tests of the Bayesian Truth Serum@ Massachusetts Institute of Technology; Matching Score: 1020400Prof.
Stanford002003Palo Alto, CA, USAStephen A Baccus

Stanford
【研究方向】Retina(5+7); Vision(1+7); Adaptation(5+1); Synapse(1+1); Object motion(2+0); Encoding(2+0); Ion Channel(1+0); Structure(1+0); Plasticity(1+0); Axon(1+0); Disease(0+1); Neural Circuit(0+1); Perception(0+1); Contrast(0+1); Object(0+1); Context(0+1); Timing(1+0); Predictive coding(1+0); Engineering(1+0); Imaging(0+1);
【模式生物】
【方法技术】Computation(3+1); Model(1+1); Behavior(1+0); Theory(0+1); Mathematics(0+1); Statistics(0+1);
【简述】
【研究论文】Nature(1); Nature Neuroscience(1); Neuron(5); JNS(3); PNAS(2); PLoS Biol.(1); eLife(1);
【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
Assoc Prof.
WUSTL009032Saint Louis, MO, USAChad M Sylvester

WUSTL
【研究方向】Anxiety(2+8); Disorder(2+7); Pediatric(0+3); Development(0+2); Depression(2+0); Cognition(0+2); Amygdala(2+0); Psychiatry(1+0); Attention(1+0); Imaging(0+1);
【模式生物】
【方法技术】fMRI(0+5); MRI(0+1);
【简述】Characterizing functional brain network development in children with and without anxiety disorders, with the long-term goal of using this information to devise novel, mechanism-based treatments for pediatric anxiety disorders.
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Maurizio CorbettaYears: 2016 — 2018; Recipients: Sylvester, Chad Michael; Code: K23; Title/Keywords: Attention and Related Functional Brain Networks in Pediatric Anxiety Disorders@ Washington University; Matching Score: 1Assist Prof.
WUSTL009032Saint Louis, MO, USAShiming Chen

WUSTL
【研究方向】Photoreceptor(7+10); Transcription(8+2); Regulation(2+5); Development(1+4); Disease(0+5); Degeneration(2+1); Knockin(2+0); Differentiation(1+1); Mutant(1+0); Receptor(1+0); Short-term plasticity(1+0); Neurogenesis(1+0); Trafficking(1+0); Therapy(0+1); Tumor(1+0); Vision(1+0); Retina(0+1); Metabolism(1+0);
【模式生物】Mouse(6+3); Human(4+1);
【方法技术】Gene(5+7); Model(4+3); Protein(2+0); Virus(1+0); Cell culture(1+0); Electrophysiology(0+1); Bioinformatics(0+1);
【简述】Molecular mechanisms regulating photoreceptor gene expression in healthy and diseased retinas
【研究论文】Nature(1); Cell(2); Neuron(5);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Donald J. ZackYears: 2017 — 2019; Recipients: Chen, ShimingCohen, Barak A [⬀] ; Code: R01; Title/Keywords: Cis-Regulatory Mechanisms Underlying Retinopathy@ Washington University; Matching Score: 1005651Prof.
CalTech072006Pasadena, CA, USAMichael Dickinson

CalTech
【研究方向】Vision(2+2); Regulation(0+1); Structure(1+0); LTD(1+0); Dendritic growth(1+0); Dendrite(1+0); Neuromuscular(0+1); Depression(1+0); Visual motion(1+0); Olfaction(0+1); Biomechanics(0+1); Muscle(1+0);
【模式生物】Drosophila(6+0);
【方法技术】Behavior(1+2); Model(2+1); Computation(1+0);
【简述】Neurophysiology, Decision, Behavior
【研究论文】Nature(1); Science(3); Cell(1); Nature Neuroscience(1); Neuron(2); Nature Methods(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John Palka, Karl Georg GoetzGwyneth M Card, Michael Tu, Amir Fayyazuddin, Sanjay Sane, Claire N. Balint, Alana D. Sherman, John Bender, Michael Reiser, Alice A. Robie, Michael J. Elzinga, Francisco A. Zabala, Marie P. Suver, Floris van Breugel, Sweta Agrawal, Timothy L. Warren, Matthias Wittlinger, Matthew Q. Clark, Mark A. Frye, Douglas L. Altshuler, Andrew D. Straw, Gaby Maimon, Pavan RamdyaYears: 2017 — 2018; Recipients: Dickinson, Michael H; Code: U19; Title/Keywords: Core 3: Instrumentation and Software Resource Core@ California Institute of Technology; Matching Score: 1020699Prof.
UCLA011013Los Angeles, CA, USAChristopher C. Giza

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

UCLA
【研究方向】Demyelinating(0+1); Sclerosis(0+1);
【模式生物】
【方法技术】Virus(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, 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.
JHU010012Baltimore, MD, USAKristina Nielsen

JHU
【研究方向】Vision(0+15); Object recognition(0+3); Neural Circuit(0+2); Cognition(0+2); Visual cortex(0+2); Structure(0+1); Plasticity(0+1); Perception(0+1); Retina(0+1); Form(0+1); Color(0+1); Object(0+1); Imaging(0+1);
【模式生物】
【方法技术】Psychophysics(0+1); Two-photon calcium imaging(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
NIH-NIMH??Bethesda, MD, USAScott Young

NIH-NIMH
【研究方向】Environment(7+0); Knockout(0+4); Social(0+4); CA2(0+4); Hippocampus(1+2); Receptor(0+2); Spine(2+0); Memory(0+2); Aggression(0+2); Paraventricular nucleus(0+2); Transporter(1+0); Regulation(0+1); Proliferation(1+0); Differentiation(1+0); Object(0+1); Pain(1+0); Acquisition(0+1); Social memory(0+1); Fear(0+1); Imaging(1+0); CA1(0+1); Hypothalamus(0+1);
【模式生物】Mouse(0+5); Human(1+0); Rodent(1+0);
【方法技术】Gene(0+2); Model(2+0); Histochemistry(1+0); MRI(1+0); Optogenetics(0+1);
【简述】Section on Neural Gene Expression
【研究论文】Cell(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Christopher Parker006184
Stanford002003Palo Alto, CA, USAWilliam Hurlbut

Stanford
【研究方向】Embryo(6+0); Development(1+0); Pediatric(1+0); Social(1+0); Evolutionary(1+0);
【模式生物】Stem Cell(13+1); Human(3+0);
【方法技术】Theory(1+0);
【简述】
【研究论文】Nature(1); Science(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Stanford002003Palo Alto, CA, USALei Stanley Qi

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
Adam P. ArkinYears: 2015 — 2018; Recipients: Cai, Long [⬀] Qi, Lei Stanley; Code: U01; Title/Keywords: Hi-Resolution Dynamic Imaging of Chromosomes in Single Cells by Combined Crispr Imaging and Sequential Fish@ California Institute of Technology; Matching Score: 0.944Assist Prof.
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.
UCSD011017San Diego, CA, USAPaul A. Insel

UCSD
【研究方向】Receptor(0+3); Development(0+1); Disease(0+1);
【模式生物】
【方法技术】Biochemistry(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIDCD??Bethesda, MD, USALisa Cunningham

NIH-NIDCD
【研究方向】Therapy(4+0); Hair cell(4+0); Regulation(1+0); Proliferation(1+0); Sense(0+1); Pain(1+0); Auditory(1+0); Morphology(1+0); Stress(1+0); Dynamics(1+0); Imaging(1+0); Connection(1+0);
【模式生物】Mouse(5+0); Bird(1+0);
【方法技术】Gene(4+0); Model(2+0); Virus(1+0);
【简述】Section on Sensory Cell Biology
【研究论文】Cell(4); Nature Communications(3);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Edwin W. RubelMona Taleb, Shimon P. Francis, Tiffany G. BakerYears: 2011 — 2018; Recipients: Cunningham, Lisa L; Code: ZIA; Title/Keywords: Mechanisms of Sensory Hair Cell Survival and Death@ Deafness & Other Communication Disorders; Matching Score: 0.912000004
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
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
NYU015028New York, NY, USAAdam Wolkin

NYU
【研究方向】Schizophrenia(0+5); Metabolism(0+4); Cognition(0+2); Frontal lobe(0+2); Dopamine receptor(0+1); Dysfunction(0+1); Amphetamine(0+1); Imaging(0+1); Neuroimaging(0+1);
【模式生物】
【方法技术】MRI(0+3); PET(0+2); Data analysis(0+1);
【简述】Cerebral structural and functional abnormalities in schizophrenia
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
MIT005002Boston, MA, USAMark Harnett

MIT
【研究方向】Dendrite(4+8); Plasticity(0+3); Spine(1+2); Synapse(0+2); Disorder(0+2); Neural Circuit(0+2); Sense(1+1); Glutamate(1+0); Receptor(0+1); Ion Channel(0+1); Potassium channel(1+0); HCN(1+0); Structure(0+1); Membrane(0+1); Autism(0+1); Object(1+0); Motor(1+0); Timing(0+1); Spatial navigation(0+1); Concept(0+1); Optical(0+1);
【模式生物】Human(0+1); Mouse(0+1); Rodent(0+1);
【方法技术】Computation(0+7); Behavior(0+2); Model(0+2); Gene(0+1); In vitro(0+1); Anatomy(0+1);
【简述】Dendrites and computation; Plasticity; Intellectual disability
【研究论文】Nature(2); Neuron(2); JNS(1); Nature Methods(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Larry O. Trussell, Stephen Mark Smith, Hitoshi Morikawa, Jeffrey C. MageeLou Beaulieu-Laroche, Marie-Sophie van der Goes, Vardhan S. Dani, Lukas Fischer, Mathieu Lafourcade, Courtney E. YaegerYears: 2018; Recipients: Harnett, Mark ThomasKodandaramaiah, Suhasa B; Code: R21; Title/Keywords: Supplement: Robotic Platform For High-Densisty in Vivo Intracellular Recording@ University of Minnesota; Matching Score: 0.915Assist Prof.
Stanford002003Palo Alto, CA, USAAndrew D Huberman

Stanford
【研究方向】Vision(8+2); Regeneration(1+1); Neural Circuit(0+2); Plasticity(1+0); Development(1+0); Dendrite(1+0); Neurology(1+0); Degeneration(0+1); Anxiety(0+1); Retina(1+0); Motor(1+0); Eye Movement(1+0); Reflex(1+0); Autonomic(0+1); Connection(1+0); Visual cortex(1+0); Thalamus(1+0);
【模式生物】Mouse(2+0); Primate(1+0);
【方法技术】Behavior(1+1);
【简述】
【研究论文】Nature(4); Science(1); Nature Neuroscience(3); Neuron(5); JNS(2);
【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
Barbara Chapman, Ben A. BarresVictoria Cheung, Lindsey Diane Salay, Jessica A. Osterhout, Jung-Hwan Albert Lim, Rana El-Danaf, Tania A. Seabrook, Supraja Varadarajan, Onkar S. Dhande, Heekyung JungBen K. StaffordYears: 2017 — 2018; Recipients: Huberman, Andrew D; Code: P30; Title/Keywords: Neurogenetics of Vision@ Stanford University; Matching Score: 1Assoc Prof.
Yale014011New Haven, CT, USANicholas Turk-Browne

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
UW021010Seattle, WA, USAEd Lein 

UW
【研究方向】Development(0+4); Microcircuit(0+1); Cognition(0+1); Methodology(0+1);
【模式生物】Human(0+8); Primate(0+1); Rodent(0+1);
【方法技术】Gene(0+2); Anatomy(0+2); 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
UW021010Seattle, WA, USAJan-Marino (Nino) Ramirez

UW
【研究方向】Respiratory(0+16); Development(0+6); Receptor(0+2); Ion Channel(0+2); Calcium channel(0+2); Chloride(0+2); Structure(0+2); Synaptic Transmission(0+2); Rhythm(0+2); Epilepsy(0+2); Disorder(0+2); Rett Syndrome(0+2); Hypoxia(0+2); Tumor(0+2); Motor(0+2); Respiratory control(0+2); Respiratory rhythm(0+2); Context(0+2); Sleep(0+2); Neural network(0+2);
【模式生物】Mouse(0+6); Rat(0+2);
【方法技术】Channel(0+4); In vitro(0+4); Cell culture(0+2); Electrophysiology(0+2);
【简述】Research
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAJoseph B. Watson

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 Moseley

Stanford
【研究方向】Imaging(24+2); Stroke(15+4); Disease(6+2); Blood flow(4+1); White matter(5+0); Neurology(4+0); Pediatric(4+0); Ischemia(3+0); Metabolism(3+0); Diffusion tensor imaging(3+0); Tumor(2+0); Cerebrovascular(2+0); Therapy(0+1); Psychiatry(1+0); Aging(1+0); Injury(1+0); Brain injury(1+0); Schizophrenia(1+0); Cognition(1+0); Knowledge(0+1); Dynamics(1+0);
【模式生物】Rat(2+0);
【方法技术】MRI(16+0); Statistics(2+0); fMRI(1+0); Model(1+0);
【简述】
【研究论文】Nature(1); JNS(1);
【综述】Annals Of Neurology(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Chunlei Liu, Deqiang QiuYears: 2016 — 2017; Recipients: Moseley, Michael EYeom, Kristen; Code: R21; Title/Keywords: A 5minute Motion-Corrected Pediatric Brain Mri Protocol@ Stanford University; Matching Score: 0.958054234Prof.
Yale014011New Haven, CT, USAEllen J. Hoffman

Yale
【研究方向】Disorder(0+1); Psychiatry(0+1);
【模式生物】Zebrafish(0+1);
【方法技术】Pharmacology(0+1);
【简述】Autistic Disorder; Child Psychiatry; Genetics; Neurobiology; Neuropharmacology; Neurosciences; Pharmacology; Zebrafish; Translational Medical Research.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAVinit Mahajan

Stanford
【研究方向】Disease(4+7); Therapy(1+3); Development(2+1); Degeneration(2+1); Vision(3+0); Retina(2+1); Structure(0+2); Translation(1+1); Age-related(1+1); Optical(2+0); Genetically modify(0+1); Mutant(1+0); Knockout(0+1); Intracellular signaling(0+1); Environment(0+1); Aging(1+0); Photoreceptor(0+1);
【模式生物】Human(0+7); Mouse(0+6); Stem Cell(0+2);
【方法技术】Gene(1+6); Protein(2+4); Model(0+2); Biochemistry(0+1); Virus(1+0); In vivo(1+0);
【简述】
【研究论文】Science(2); Cell(2);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Dennis D. CunninghamYears: 2016 — 2019; Recipients: Bassuk, Alexander G [⬀] Mahajan, Vinit BTsang, Stephen H (co-PI) [⬀] ; Code: R01; Title/Keywords: Mechanistic Studies On Regenerative Medicine Approaches to Childhood Blindness@ University of Iowa; Matching Score: 0.976Assoc Prof.
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
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.
JHU010012Baltimore, MD, USAJames Knierim

JHU
【研究方向】Cognition(0+4); Environment(0+3); Hippocampus(0+3); Place cell(0+2); Structure(0+1); Neural Circuit(0+1); Sense(0+1); Form(0+1); Episodic memory(0+1); Temporal lobe(0+1); Entorhinal cortex(0+1); Medial Temporal Lobe(0+1);
【模式生物】Rat(0+2);
【方法技术】Multi-electrode(0+2); Computation(0+2);
【简述】Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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.
Stanford002003Palo Alto, CA, USAPak H Chan

Stanford
【研究方向】Stroke(14+1); Ischemia(7+0); Injury(6+1); Metabolism(7+0); Blood flow(7+0); Neuroprotection(5+0); Disease(4+0); Optical(4+0); Stress(3+0); Cardiovascular(3+0); Transplantation(2+0); Therapy(2+0); Hemorrhage(2+0); LIP(2+0); Genetically modify(1+0); Transcription(1+0); Rhythm(1+0); Regeneration(0+1); Dysfunction(1+0); Neuroprotective(1+0); Inflammation(1+0); Brain injury(1+0); Crush(1+0); Frequency(1+0); Concept(1+0); Vessel(1+0); Imaging(1+0); Striatum(1+0); White matter(1+0);
【模式生物】Stem Cell(11+0); Mouse(6+0); Rat(4+0);
【方法技术】Protein(3+0); Gene(1+0); Channel(1+0); In vivo(1+0);
【简述】
【研究论文】JNS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001082Prof.
JHU010012Baltimore, MD, USALawrence Schramm

JHU
【研究方向】Regulation(0+1); Disease(0+1); Neural Circuit(0+1); Cognition(0+1); Metabolism(0+1); Autonomic(0+1);
【模式生物】
【方法技术】Anatomy(0+1); Computation(0+1);
【简述】Neural Circuits, Ensembles + Connectomes; Systems, Cognitive + Computational 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, USABin Wu Ph.D.

JHU
【研究方向】Translation(0+6); Regulation(0+1); Development(0+1); Axon(0+1); Dendrite(0+1); Neurodegenerative disease(0+1); Dysfunction(0+1); Dynamics(0+1); Imaging(0+1);
【模式生物】
【方法技术】Gene(0+5); Protein(0+1);
【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, USABob Rehder

NYU
【研究方向】Category(0+1);
【模式生物】
【方法技术】
【简述】Formation of categories and causal relationships
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Reid Hastie, Thomas K. Landauer, Brian H. RossShaoming Wang, Bob Colner, Jay B. Martin, Zach Davis, Aaron B. Hoffman, ShinWoo Kim, Jerad FieldsTodd M. GureckisYears: 2006 — 2010; Recipients: Rehder, Bob; Code: N/A; Title/Keywords: An Eyetracking Category Learning Model@ New York University; Matching Score: 1Assoc Prof.
UW021010Seattle, WA, USAJay Parrish

UW
【研究方向】Dendrite(0+34); Somatosensory(0+18); Form(0+1);
【模式生物】Drosophila(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
UCLA011013Los Angeles, CA, USAPaul E. Micevych

UCLA
【研究方向】Regulation(0+3); Glial cell(0+2); Neuroprotection(0+2); Modulation(0+1); Dopamine(0+1); Receptor(0+1); Dopamine neuron(0+1); CNS(0+1); Disease(0+1); Pathology(0+1); Neuroprotective(0+1); Cognition(0+1); Sense(0+1); Pain(0+1); Sexual behavior(0+1); Steroid(0+1); Imaging(0+1);
【模式生物】
【方法技术】Behavior(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USARachel G. Klein

NYU
【研究方向】Disorder(0+1); ADHD(0+1); Anxiety(0+1); Depression(0+1); Learning(0+1);
【模式生物】
【方法技术】
【简述】Longitudinal study of interventions in ADHD, learning and anxiety Disorders, and depression
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCSD011017San Diego, CA, USAKaren Pierce

UCSD
【研究方向】Autism(0+1); Cognition(0+1);
【模式生物】
【方法技术】Behavior(0+2);
【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, USAMegan Klabunde

Stanford
【研究方向】Disorder(9+0); Psychiatry(3+0); Cognition(3+0); Stress(3+0); Executive function(2+0); Neuroimaging(2+0); Structure(1+0); Fragile X(1+0); Trauma(1+0); Anxiety(1+0); Depression(1+0); Cognitive neuroscience(1+0); Pain(1+0); Social(1+0); Emotion(1+0); Amygdala(1+0);
【模式生物】Human(2+0);
【方法技术】Behavior(2+0); Model(1+0);
【简述】
【研究论文】
【综述】European Eating Disorders Review(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000358Assist 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.
Yale014011New Haven, CT, USARobert LaMotte

Yale
【研究方向】Itch(0+13); Pain(0+6); Development(0+1); Therapy(0+1); Sense(0+1); Encoding(0+1);
【模式生物】Human(0+1); Monkey(0+1);
【方法技术】Electrophysiology(0+3); Psychophysics(0+2); Model(0+1);
【简述】Anesthesiology; Nervous System; Neurochemistry; Neurons; Neurophysiology; Pain; Nociceptive Pain.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Princeton061009Princeton, NJ, USAJonathan Pillow

Princeton
【研究方向】Vision(4+1); Decoding(5+0); Decision making(2+1); Inference(1+2); Structure(1+1); Perception(1+1); Neural encoding(2+0); Bayesian(1+1); Cognition(1+0); Cognitive neuroscience(1+0); Sense(0+1); Adaptation(0+1); Memory(1+0); Encoding(1+0); Machine learning(0+1); Visual cortex(1+0);
【模式生物】Primate(1+0);
【方法技术】Computation(6+1); Model(5+2); Theory(0+3); fMRI(1+0); Statistics(0+1); Algorithm(1+0);
【简述】Theory and Computation
【研究论文】Nature(2); Science(1); Nature Neuroscience(2); Neuron(2); JNS(1); PLOS Computational Biology(1); Neural Computation(3); NIPS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Rich S. Zemel, Eero P. Simoncelli, Peter LathamMijung Park, Anqi Wu, Kenneth W. Latimer, Jacob Yates, Ji Hyun Bak, Mikio Aoi, Il Memming Park, Adam Charles, Brian D. DePasqualeE. J. Chichilnisky, Amelia J. Christensen, Gregory D. Horwitz, Alex C. Huk, Spencer L. SmithYears: 2018 — 2019; Recipients: Bialek, William (co-PI) [⬀] Murthy, Mala [⬀] Pillow, Jonathan WilliamShaevitz, Joshua W (co-PI) [⬀] ; Code: R01; Title/Keywords: Dissecting Sensorimotor Pathways Underlying Social Interactions: Models, Circuits, and Behavior@ Princeton University; Matching Score: 1004546Assoc Prof.
UCSD011017San Diego, CA, USAAnna Devor

UCSD
【研究方向】Imaging(0+3); Development(0+1); Inference(0+1); Engineering(0+1);
【模式生物】Human(0+2);
【方法技术】fMRI(0+2); MEG(0+2); MRI(0+1);
【简述】 Cellular & Developmental; Systems
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAJohn S Oghalai

Stanford
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Other
NIH-NIA??Bethesda, MD, USAMadhav Thambisetty

NIH-NIA
【研究方向】Alzheimer's disease(18+3); Disease(11+3); Aging(7+2); Neurology(5+0); Cognition(4+1); Metabolism(5+0); Pathology(2+1); Psychiatry(3+0); Structure(1+1); Tau(2+0); Biomarker(1+1); Neuroimaging(0+2); Environment(0+1); Age-related(1+0); Alzheimer's(1+0); ApoE(1+0); Sclerosis(1+0); Knowledge(0+1); Sleep(1+0); Blood flow(1+0);
【模式生物】Human(1+0); Mouse(1+0);
【方法技术】Gene(3+1); Protein(0+1); Behavior(0+1); Model(1+0);
【简述】Unit of Clinical & Translational Neuroscience
【研究论文】Cell(1); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
004322
JHU010012Baltimore, MD, USAJonathan Pevsner

JHU
【研究方向】Disorder(0+2); Disease(0+1); Autism(0+1); Down Syndrome(0+1);
【模式生物】
【方法技术】Gene(0+1); Bioinformatics(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
WUSTL009032Saint Louis, MO, USAEdward B. Han

WUSTL
【研究方向】Learning(0+5); Hippocampus(0+3); Imaging(0+2); Oscillation(0+1); Development(1+0); Dendrite(1+0); Neurodegenerative disease(0+1); Learning and memory(0+1); Spatial navigation(0+1);
【模式生物】Mouse(1+0);
【方法技术】Behavior(0+2); In vivo(0+1); LFP(0+1); Two-photon calcium imaging(0+1);
【简述】Learning-related hippocampal network activation
【研究论文】JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
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
UCSD011017San Diego, CA, USAMaksim Bazhenov

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

WUSTL
【研究方向】Migraine(2+5); CA2(4+0); Pain(3+0); Headache(0+3); Synaptic Transmission(1+1); Disorder(0+2); Receptor(1+0); Ion Channel(0+1); Calcium channel(1+0); Development(0+1); Synapse(1+0); Therapeutics(0+1); Therapy(0+1); Systems Neuroscience(0+1); Frequency(0+1); Encoding(0+1); Imaging(0+1);
【模式生物】Mouse(1+2);
【方法技术】Channel(5+2); Gene(0+1); Biophysics(0+1); Anatomy(0+1); Tracing(0+1); Behavior(0+1); Electrophysiology(0+1);
【简述】genetic and epigenetic mechanisms underlying episodic and chronic migraine
【研究论文】Nature(1); Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Allan I. Basbaum, Richard W. TsienYears: 2009 — 2013; Recipients: Cao, Yu-Qing; Code: N/A; Title/Keywords: Exploring the Interaction Between Calcium Channels and Their Presynaptic Slots@ Washington University; Matching Score: 1Assoc Prof.
Columbia006008New York, NY, USAChristoph Kellendonk

Columbia
【研究方向】Cognition(4+6); Receptor(6+0); D2 receptor(5+0); Schizophrenia(2+3); Motivation(2+2); Dopamine(3+0); Thalamus(3+0); Development(2+0); Disorder(0+2); Psychiatry(2+0); Working memory(1+1); PFC(2+0); Striatum(2+0); Regulation(1+0); Modulation(1+0); D1 receptor(1+0); Synaptic Plasticity(1+0); LTP(1+0); Neurogenesis(1+0); Regeneration(1+0); Dendrite(1+0); Disease(0+1); Degeneration(1+0); Pathogenesis(1+0); Psychiatric disorder(0+1); Alcohol(1+0); Cocaine(1+0); Anxiety(1+0); Contrast(0+1); Learning and memory(0+1); Timing(1+0); Associative learning(1+0); Morphology(1+0); Causality(0+1); Circadian(1+0); Steroid(1+0); Stress(1+0); Imaging(0+1); Hippocampus(1+0); Basal ganglia(1+0); Nucleus accumbens(1+0);
【模式生物】Mouse(5+4); Human(0+2);
【方法技术】Gene(4+1); Behavior(1+2); Model(1+2); Anatomy(1+0);
【简述】Neurobiology of Learning and Memory; Neurogenetics; Models of Psychiatric Disorders; Neurobiology of Disease;
【研究论文】Nature(2); Science(1); Cell(1); Neuron(3); JNS(3);
【综述】Trends In Neurosciences(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Eric R. KandelAbigail M Clark, Fernanda Carvalho Poyraz, Maxime Cazorla, Eduardo F. GalloYears: 2011 — 2015; Recipients: Kellendonk, Christoph; Code: R01; Title/Keywords: Medium Spiny Neuron Excitability and Motivation@ Columbia University Health Sciences; Matching Score: 1009920Assoc Prof.
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.
NYU015028New York, NY, USADmitri Chklovskii

NYU
【研究方向】Vision(3+0); Connectomics(2+1); Morphology(2+0); Visual cortex(2+0); Structure(1+0); Structural plasticity(1+0); Neural Circuit(1+0); Visual motion(1+0); Motor Neuron(1+0); V1(1+0);
【模式生物】Drosophila(1+0); C. elegans(1+0);
【方法技术】Computation(1+1); Microscopy(1+0);
【简述】Neural computation and connectomics
【研究论文】Nature(2); Science(1); Nature Neuroscience(1); Neuron(6); PLoS Biol.(1); Cerebral Cortex(1); PLOS Computational Biology(1);
【综述】Physical Review(2); Trends In Neurosciences(1); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Patrick A. Lee, Bertrand I. Halperin, Charles F. StevensKarim N'Diaye, Quan Wen, Arjun Bharioke, Lav R. Varshney, Marta Rivera-Alba, Cengiz Pehlevan, Sen Song, Armen Stepanyants, Shaul Druckmann, Juan Nunez-Iglesias, Tao Hu, Karol Gregor, Matthieu Wyart015337Assoc Prof.
Harvard001001Boston, MA, USABruce Bean

Harvard
【研究方向】Ion Channel(0+9); Regulation(3+0); Potassium channel(0+3); Sodium channel(2+1); CA1(3+0); Dopamine(0+2); Calcium channel(0+2); Membrane(1+1); Development(2+0); Axon(2+0); Neurotransmitter(0+1); 5-HT(0+1); Acetylcholine(0+1); Receptor(0+1); Muscarinic(1+0); Peptide(1+0); Rhythm(0+1); Epilepsy(0+1); Dopamine neuron(1+0); Therapy(0+1); Inflammation(1+0); Sclerosis(1+0); Sense(1+0); Itch(0+1); Neuropathic pain(0+1); Motor Neuron(1+0); Circadian(0+1); Sleep(0+1); Hypothalamus(0+1); Substantia nigra(1+0);
【模式生物】
【方法技术】Channel(2+1); Electrophysiology(0+2); Pharmacology(0+2);
【简述】Neuronal excitability and ion channel pharmacology
【研究论文】Nature Neuroscience(2); Neuron(2); JNS(5);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David A. Goldstein, Peter Shrager, Richard W. TsienKeiko Weir, Hanxiong Zhang, Kenton Jon Swartz, Abraha Taddese, Michael Tri H. Do, Nathaniel T. Blair, Alexander C. Jackson, Wenqin Hu, Zayd M. Khaliq, Marco Martina, Lorin S. Milescu, Isabelle  M. Mintz, Chung-Chin Kuo, Indira M. Raman, Stephanie C. GantzSeog Bae OhYears: 2019; Recipients: Bean, Bruce P; Code: R01; Title/Keywords: State-Dependent Interaction of Antiepileptic Drugs With Voltage-Dependent Sodium Channels and Differential Regulation of Excitatory and Inhibitory Central Neurons@ Harvard Medical School; Matching Score: 1Prof.
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.
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, 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.
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.
JHU010012Baltimore, MD, USADean Wong MD,

JHU
【研究方向】Imaging(0+4); Development(0+2); CNS(0+1); ADHD(0+1); Cocaine(0+1); Schizophrenia(0+1);
【模式生物】Human(0+1);
【方法技术】PET(0+5); In vivo(0+2); Pharmacology(0+2); 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
Yale014011New Haven, CT, USASourav Ghosh

Yale
【研究方向】Regeneration(0+5); Development(0+3); Disease(0+2); Astrocyte(0+1); CNS(0+1); Axon(0+1);
【模式生物】
【方法技术】
【简述】Astrocytes; Axons; Glioblastoma; Immune System; Nerve Regeneration; Neurology.
【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
NIH-NINDS??Bethesda, MD, USAJeff H. Duyn

NIH-NINDS
【研究方向】Contrast(2+2); White matter(4+0); Imaging(2+1); Development(0+1); Spine(1+0); Sclerosis(1+0); Spectral(1+0); Acquisition(0+1); Timing(1+0); Sleep(1+0); Metabolism(0+1); Basal forebrain(1+0);
【模式生物】Human(2+0);
【方法技术】MRI(4+7); fMRI(9+0); Anatomy(0+1); Model(1+0);
【简述】Advanced MRI Section
【研究论文】Neuron(1); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Aaldert Hendrik Wapstra, Michael W. WeinerMolly G Bright
UW021010Seattle, WA, USAJeansok Kim 

UW
【研究方向】Associative learning(0+2); Stress(0+2);
【模式生物】
【方法技术】In vivo(0+3); In vitro(0+3); Behavior(0+2); Pharmacology(0+2);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAFranck Polleux

Columbia
【研究方向】Development(5+1); Axon(3+1); Dendrite(3+0); Interneuron(2+0); Regulation(1+0); Membrane(1+0); Differentiation(0+1); Axon guidance(1+0); Branching(1+0); Synaptogenesis(0+1); Synapse formation(1+0); Spine(1+0); Disease(0+1); Autism(1+0); Tau(1+0); Morphology(1+0); Stress(1+0);
【模式生物】Human(0+1);
【方法技术】Gene(0+1); Protein(1+0); Behavior(0+1); Pharmacology(0+1);
【简述】Synapses and Circuits; Axon Pathfinding and Synaptogenesis; Cell Specification and Differentiation;
【研究论文】Nature(1); Science(2); Cell(5); Neuron(5);
【综述】Annual Review Of Neuroscience(2); Review(2); Nature Reviews Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Anirvan GhoshDaniel Iascone, Ashton Winfield Powell, Dante S. Bortone, Randal A. Hand, Sabrice  G. Guerrier, Jaeda Coutinho-Budd, Heike Blockus, Anthony Paul Barnes, Takayuki Sassa, Julien Courchet, Kaumudi V. Joshi, Tommy L. Lewis Jr, Seok-Kyu Kwon, Seok-Kyu Kwon, Yusuke HirabayashiJason J Yi, Brendan N. LilleyYears: 2016 — 2018; Recipients: Polleux, Franck ; Code: R01; Title/Keywords: Cellular and Molecular Mechanisms Underlying the Function of Srgap2 During Synaptic Development@ Columbia University Health Sciences; Matching Score: 1007358Prof.
UCSD011017San Diego, CA, USAChih-Ying Su

UCSD
【研究方向】Receptor(0+1); Development(0+1); Olfaction(0+1); Imaging(0+1);
【模式生物】Drosophila(0+1);
【方法技术】Biochemistry(0+1); Behavior(0+1); Electrophysiology(0+1); Optogenetics(0+1); Model(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
MIT005002Boston, MA, USAMichael Halassa

MIT
【研究方向】Sleep(6+0); Modulation(2+0); Astrocyte(2+0); Synapse(2+0); Schizophrenia(2+0); Cognition(2+0); Attention(2+0); Thalamic reticular nucleus(2+0); Regulation(1+0); Glutamate(1+0); Receptor(1+0); NMDA receptor(1+0); Synaptic Transmission(1+0); Synaptic Plasticity(1+0); Oscillation(1+0); Disease(1+0); Alcohol(1+0); Sense(1+0); Memory(1+0); Cognitive Control(1+0); Optical(1+0); A1(1+0);
【模式生物】Mouse(2+0);
【方法技术】Behavior(3+0); In vivo(1+0); Computation(1+0); Model(1+0);
【简述】
【研究论文】Nature(3); Cell(1); Nature Neuroscience(2); Neuron(1); JNS(3); eLife(1);
【综述】Trends In Neurosciences(1); Current Opinion In Neurobiology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Philip Haydon, Matthew A. WilsonSima Mofakham, Ralf  D. Wimmer, Miho Nakajima, Luke Ian Schmitt, Rajeev Vijay Rikhye, Alireza Hashemi, Arghya MukherjeeZhe ChenYears: 2015 — 2018; Recipients: Halassa, Michael M; Code: R01; Title/Keywords: The Cognitive Searchlight: Trn Circuit Dissection in Health and Disease@ New York University School of Medicine; Matching Score: 1004298Assist Prof.
Yale014011New Haven, CT, USAMarvin M Chun

Yale
【研究方向】Perception(0+3); Memory(0+3); Attention(0+3); Decision making(0+3); Psychiatry(0+1); Cognition(0+1); Cognitive neuroscience(0+1); Long-term memory(0+1); Retrieval(0+1); Working memory(0+1); Executive control(0+1); Encoding(0+1); Imaging(0+1); Neuroimaging(0+1);
【模式生物】Human(0+1);
【方法技术】fMRI(0+4); Behavior(0+2); MRI(0+1); Computation(0+1); Model(0+1);
【简述】Attention; Decision Making; Memory; Neurobiology; Perception; Psychiatry and Psychology.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAFrederick Sigworth

Yale
【研究方向】Ion Channel(0+4); Potassium channel(0+3); Sodium channel(0+3); Structure(0+2); Membrane(0+2); Engineering(0+2); Imaging(0+2);
【模式生物】Xenopus(0+2);
【方法技术】Channel(0+7); Electrophysiology(0+2); Microscopy(0+2); Protein(0+1); Computation(0+1); Model(0+1); Mathematics(0+1);
【简述】Biomedical Engineering; Electrophysiology; Ion Channels; Microscopy, Electron; Physiology; Xenopus; Potassium Channels; Sodium Channels; Patch-Clamp Techniques; Potassium Channels, Voltage-Gated; Voltage-Gated Sodium Channels.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSF003015San Francisco, CA, USAKaveh Ashrafi

UCSF
【研究方向】Metabolism(0+4); Body(0+3); Regulation(0+2); Transcription(0+2); Disease(0+2); Food Intake(0+2); Mutant(0+1); Transporter(0+1); Signal transduction(0+1); Receptor(0+1); Translation(0+1); Development(0+1); Neuroendocrine(0+1); Connection(0+1);
【模式生物】C. elegans(0+4); Human(0+2); Rodent(0+2);
【方法技术】Gene(0+6); Behavior(0+2); Model(0+1);
【简述】Analysis of Genetic and Neuronal Networks that Regulate Fat Content
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAEsteban Mazzoni

NYU
【研究方向】Development(4+0); Vision(3+0); Motor Neuron(3+0); Differentiation(1+1); Embryo(2+0); Photoreceptor(2+0); Circadian(2+0); Regulation(1+0); Receptor(1+0); Transcription(1+0); Neurogenesis(1+0); Reprogramming(1+0); Transplantation(1+0); Disease(0+1); Color(1+0); Circadian clock(1+0); Entrainment(1+0); Dynamics(1+0); Imaging(1+0);
【模式生物】Drosophila(5+0); Stem Cell(3+2);
【方法技术】Gene(2+0); Behavior(1+0);
【简述】Differentiation of stem cells into disease relevant neuronal cell types
【研究论文】Nature(1); Science(1); Cell(2); Nature Neuroscience(2); Neuron(6); JNS(1); Nature Communications(2); Nature Methods(1); Curr Biol.(1); PLoS Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Claude DesplanYears: 2018 — 2019; Recipients: Mazzoni, EstebanReinberg, Danny [⬀] ; Code: R01; Title/Keywords: Understanding Ctcf Boundaries Controlling Hox Gene Expression@ New York University School of Medicine; Matching Score: 0.915002528Assist Prof.
UW021010Seattle, WA, USAJulie Harris

UW
【研究方向】Disease(0+2); Vision(0+2); Transgenic(0+1); Structure(0+1); Axon(0+1); Cognition(0+1); Perception(0+1); Connection(0+1);
【模式生物】Mouse(0+5);
【方法技术】Computation(0+2); Gene(0+1); Anatomy(0+1); Behavior(0+1); Microscopy(0+1); Model(0+1);
【简述】Research
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
NIH-NICHD??Bethesda, MD, USATimothy Petros

NIH-NICHD
【研究方向】Interneuron(5+9); Development(6+2); Environment(1+4); Axon(4+0); Optic chiasm(2+0); Regulation(1+0); Receptor(1+0); Plasticity(0+1); Transcription(1+0); Neurogenesis(1+0); Pluripotent stem cells(1+0); Transplantation(1+0); CNS(1+0); Embryo(1+0); Axon growth(1+0); Schizophrenia(1+0); Context(1+0);
【模式生物】Stem Cell(5+0); Mouse(3+0);
【方法技术】Gene(1+3); Ex vivo(1+0);
【简述】Unit on Cellular and Molecular Neurodevelopment
【研究论文】Nature(1); Neuron(2); JNS(4);
【综述】Annual Review Of Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Carol A. Mason, Stewart A. Anderson, Gord J. FishellDongjin Lee, Chris RhodesYears: 2014 — 2015; Recipients: Petros, Timothy J; Code: K99; Title/Keywords: Investigation Into the Mechanisms For Generating Interneuron Diversity@ New York University School of Medicine; Matching Score: 1
Stanford002003Palo Alto, CA, USAGordon Li

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

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

Stanford
【研究方向】Hippocampus(5+0); Stroke(4+0); Imaging(4+0); Brain injury(2+0); Retrieval(2+0); Encoding(2+0); Motor cortex(2+0); Temporal lobe(2+0); Medial Temporal Lobe(2+0); LTD(1+0); Disease(1+0); Trauma(1+0); Contrast(1+0); Biomechanics(1+0); Dynamics(1+0); Diffusion MRI(1+0); Diffusion tensor imaging(1+0); Neuroimaging(1+0);
【模式生物】Human(7+0); Mouse(2+0);
【方法技术】MRI(6+0); Anatomy(1+0); Computation(1+0); Model(1+0);
【简述】
【研究论文】Science(2); JNS(1); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Susan BookheimerYears: 2019; Recipients: Zeineh, Michael M; Code: R01; Title/Keywords: Iron as An Imaging Biomarker For Inflammation in Ad@ Stanford University; Matching Score: 1Assist Prof.
NYU015028New York, NY, USAJeffrey Erlich

NYU
【研究方向】Decision making(2+1); A2(2+0); Psychiatry(1+0); Alzheimer's disease(1+0); Parkinson's disease(1+0); Schizophrenia(1+0); Systems Neuroscience(1+0); Auditory(1+0); Retrieval(1+0); Short-term memory(1+0); Executive control(1+0); Dynamics(1+0); PFC(1+0); Amygdala(1+0); Substantia nigra(1+0);
【模式生物】Rat(7+0); Human(1+0);
【方法技术】Behavior(3+0); Computation(1+1); Model(1+1);
【简述】Perceptual and Economic Decision-making, Animal models, Computation models_x000D_

【研究论文】Nature(2); Neuron(3); JNS(1); eLife(3); 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
Brian M. Ross, Matthew Shapiro, Joseph E. Ledoux, Carlos D. BrodySylvain Nicolas DubroquaMelanie Wilke000946Assist Prof.
MIT005002Boston, MA, USASusan Hockfield

MIT
【研究方向】Development(1+3); Tumor(0+2); Glial cell(0+1); CNS(0+1); Brain injury(0+1);
【模式生物】Rat(2+0); Human(1+0);
【方法技术】Protein(0+1); Anatomy(0+1); Model(1+0);
【简述】
【研究论文】Science(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ronald DubnerYears: 1997 — 1998; Recipients: Hockfield, Susan; Code: R13; Title/Keywords: 1997 Gordon Conference On Neural Plasticity@ Gordon Research Conferences; Matching Score: 0.901Prof.
Yale014011New Haven, CT, USAKristopher Kahle

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
Stanford002003Palo Alto, CA, USARon Dror

Stanford
【研究方向】Receptor(10+0); Structure(8+0); Dynamics(8+0); Transporter(2+0); Machine(2+0); Acetylcholine receptor(1+0); Muscarinic(1+0); Peptide(1+0); Ion Channel(1+0); Potassium channel(1+0); Perception(1+0); Vision(1+0); Machine learning(1+0);
【模式生物】Human(1+0);
【方法技术】Protein(5+0); Simulation(5+0); Biochemistry(1+0); Biophysics(1+0); Computation(1+0); Bioinformatics(1+0);
【简述】
【研究论文】Nature(9); Cell(3); Neuron(1); Nature structural & molecular biology(1); PNAS(2);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Edward H. AdelsonYears: 2018 — 2019; Recipients: Dror, Ron; Code: R01; Title/Keywords: Discovering the Mechanism of Gpcr-Mediated Arrestin Stimulation to Enable Effective Drug Therapies@ Stanford University; Matching Score: 1019778Assoc Prof.
UCLA011013Los Angeles, CA, USAKathrin Plath

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, USAColeen Murphy

Princeton
【研究方向】Aging(20+13); Regulation(8+0); Disease(5+0); Age-related(3+1); Development(2+1); Learning and memory(3+0); Receptor(0+1); Transcription(0+1); Disorder(0+1); Neurodegenerative disease(0+1); Degeneration(0+1); Motor(1+0); Muscle(1+0); Memory(1+0); Learning(1+0); Mating(1+0); Entrainment(1+0); Metabolism(1+0); Stress(1+0);
【模式生物】C. elegans(20+8); Human(0+1);
【方法技术】Gene(7+7); Biochemistry(3+0); Model(1+2); In vitro(0+1); Microarray(0+1); Computation(1+0);
【简述】Systems and Circuits
【研究论文】Nature(1); Science(2); Cell(7); Curr Biol.(2); PLoS Biol.(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
James A. Spudich, Cynthia KenyonAmanda L. Kauffman, Shijing Luo, Rachel Nicole Arey, Gunnar A. Kleemann, Vanisha Lakhina, Mohammad Rahimi, Nicole Templeman, Airon A. Wills, Thomas Heimbucher, Rachel Kaletsky2015 — 2018; Recipients: Murphy, Coleen Tara; Code: DP1; Title/Keywords: Toward the Tissue-Ome: a Map of the C. Elegans Cell-Specific Transcriptome@ Princeton University; Matching Score: 1006671Prof.
UCSD011017San Diego, CA, USATimothy Gentner

UCSD
【研究方向】Vocal communication(0+3); Cognition(0+2); Sense(0+1);
【模式生物】
【方法技术】Behavior(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
JHU010012Baltimore, MD, USAKishore Kuchibhotla

JHU
【研究方向】Context(0+6); Knowledge(0+5); Neural Circuit(0+4); Cognition(0+4); Learning(0+4); Disease(0+3); Environment(0+1); Anxiety(0+1); Face(0+1); Dynamics(0+1); Neural network(0+1); Imaging(0+1);
【模式生物】
【方法技术】Behavior(0+3); Two-photon calcium imaging(0+1); Computation(0+1); Model(0+1);
【简述】Neural Circuits, Ensembles + Connectomes; Systems, Cognitive + Computational Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USAGentry N. Patrick

UCSD
【研究方向】Synapse(0+8); AMPA receptor(0+4); Disease(0+3); Body(0+3); Plasticity(0+2); Synaptic Plasticity(0+2); Development(0+2); CNS(0+2); Trafficking(0+2); Neurodegenerative disease(0+2); Connection(0+2); Regulation(0+1); Glutamate receptor(0+1); Cell cycle(0+1); Cell fate(0+1); Dendrite(0+1); Spine(0+1); Dysfunction(0+1); Parkinson's disease(0+1); Contrast(0+1);
【模式生物】Human(0+1);
【方法技术】Protein(0+12); Microscopy(0+2); Biochemistry(0+1); Anatomy(0+1); Model(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-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
Harvard001001Boston, MA, USAWade Regehr

Harvard
【研究方向】Synapse(12+6); Neurotransmitter(1+2); Cannabinoids(3+0); Depression(2+1); Synaptic Plasticity(2+0); Short-term plasticity(2+0); Development(1+1); Dendrite(1+1); Imaging(0+2); CA1(2+0); Transgenic(0+1); Mutant(1+0); Regulation(1+0); GABA(0+1); Calcium channel(1+0); Vesicle(1+0); LTD(1+0); Dysfunction(1+0); Frequency(1+0); Climbing fiber(1+0); Memory(0+1); Timing(1+0); Dynamics(1+0); Optical imaging(1+0); CA3(1+0); Cerebellum(0+1);
【模式生物】Mouse(1+1);
【方法技术】Protein(3+0); In vivo(1+1); Behavior(1+1); Optogenetics(2+0); Computation(1+1); Channel(1+0); Electrophysiology(0+1); Microscopy(0+1);
【简述】Synaptic Transmission and Dendritic Processing
【研究论文】Nature Neuroscience(1); JNS(3); eLife(1);
【综述】Current Opinion In Neurobiology(2); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jerome Pine, David B. Rutledge, Clay M. Armstrong, David W. TankJustin Brousseau, Chong Guo, Josef Turecek, Kaspar Vogt, Bernardo L. Sabatini, Jeremy Samuel Dittman, Pradeep P. Atluri, Adam G. Carter, Anatol C. Kreitzer, Kelly A. Foster, Patrick K. Safo, Michael H. Myoga, Monica S. Thanawala, Yunxiang Chu, Christopher Weyrer, Miklos Antal, Michael Beierlein, Aaron R. Best, Dawn Blitz, Stephan D. Brenowitz, Solange P. Brown, Megan R. Carey, Court Hull, Skyler L. Jackman, Isabelle  M. Mintz, Richard Todd Pressler, Stephanie Rudolph, John J. Crowley, Chih-Chieh Wang, Kyung-Seok Han, Chinfei Chen, Matthew A. Xu-Friedman, Takashi R. Sato, Diasynou (Diasinou) Fioravante, Laurens Witter, Laurens WitterChristopher WeyrerYears: 2017 — 2019; Recipients: Regehr, Wade G; Code: R35; Title/Keywords: Mechanisms and Functions of Synapses and Circuits@ Harvard Medical School; Matching Score: 0.934019079Prof.
NIH-NIDCD??Bethesda, MD, USAMatthew Kelley

NIH-NIDCD
【研究方向】Memory(14+0); Development(4+4); Cognition(5+0); Sense(0+5); Hair cell(3+1); Learning(3+0); Semantic(3+0); Social(2+0); Regulation(1+0); Receptor(1+0); Structure(0+1); Cell fate(0+1); Cell migration(1+0); Therapy(1+0); Inflammation(1+0); Perception(0+1); Auditory(1+0); Language(1+0); Imagery(1+0); Knowledge(1+0); Metabolism(1+0); Pineal gland(1+0);
【模式生物】Human(2+0); Mouse(1+1); Stem Cell(1+0);
【方法技术】Behavior(2+0); Gene(1+0); In vitro(0+1);
【简述】
【研究论文】Nature(2); Cell(3); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jeffrey T. CorwinYears: 2015; Recipients: Kelley, Matthew WSanes, Dan HarveyWerner, Lynne A. [⬀] ; Code: R13; Title/Keywords: Auditory Development Conference@ University of Washington; Matching Score: 0.901000837
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
Columbia006008New York, NY, USAEric Kandel

Columbia
【研究方向】Learning(0+2); Learning and memory(0+2); Genetically modify(0+1); Ion Channel(0+1); Synaptic Plasticity(1+0); LTP(0+1); Synapse(0+1); Pathogenesis(1+0); Psychiatric disorder(0+1); Age-related(1+0); Cocaine(1+0); Nicotine(1+0); Schizophrenia(1+0); Neural Circuit(1+0); Cognition(1+0); Sense(1+0); Form(1+0); Reflex(0+1); Memory(1+0); Long-term memory(0+1); Knowledge(1+0); Hippocampus(0+1); Striatum(1+0);
【模式生物】Mouse(0+1);
【方法技术】Gene(1+0); Protein(1+0); Cell culture(0+1); Behavior(0+1); Model(0+1);
【简述】Neurogenetics; Models of Psychiatric Disorders; Neurobiology of Learning and Memory; Biophysics/Ion Channels; Synapses and Circuits; Systems and Circuits;
【研究论文】Science(2); Cell(3); Neuron(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harry Grundfest, Wade Marshall, Stephen Kuffler, Ladislav TaucRaghu Kiran Appasani, Ben S. Huang, John J. Marshall, Jenny Shao, Rern Lau, David Tukey, Ruby Hsu, Yin Li, Heidi Kay Smith, Emi Ling, Hal Blumenfeld, Edmonds Brian, John H. Byrne, William N. Frost, Wayne Hening, Arnold R. Kriegstein, Dietmar Kuhl, Daniele Piomelli, Stephen G. Rayport, Lee Zuckerman, Seb Thuault, Celia Durkin, Howard Wachtel, Daniel Gardner, Edgar T. Walters, Michael M. Segal, Vincent F. Castellucci, Lise S. Eliot, Timothy E. Kennedy, Bong-Kiun Kaang, Christopher Todd Anderson, Lei Wang, Christopher J. Pittenger, Amit Etkin, Sally Till, Priyamvada Rajasethupathy, Thomas W. Abrams, Juan Marcos Alarcon, Cristina M. Alberini, Mark Barad, James E. Blankenship, Tom Carew, Gregory A. Clark, Pramod Dash, Lenzie Katherine Ford, Seth Grant, Yinghe Hu, Kaoru Inokuchi, Christoph Kellendonk, Clifford Kentros, Irving Kupfermann, Kelsey C. Martin, Earl Mayeri, Mark R. Mayford, Francisco J. Monje, Alexei Morozov, Isabel Muzzio, Thomas J. O'Dell, Susan L. Patterson, Paul Pfaffinger, Harold Pinsker, Richard Scheller, Gleb Shumyatsky, Kausik Si, Joe Tsien, Harshad D. Vishwasrao, Andrea Volterra, Danny Winder, Min Zhuo, Abid Hussaini, Pablo Esteban Jercog, Xiang Li, Chirag Upreti, Arun Asok, Christopher A. de Solis, John D. Koester, Nicholas Dale, J. David Sweatt, David L. Glanzman, Jean-François Brunet, Michael A. Kiebler, Peter V. Nguyen, Ted Abel, Hyon Son, Shinya Kuroda, Joung-Hun Kim, Matthew F. Nolan, Dinko Kranjac, Ottavio Arancio, Khalid Touzani, Pierre Trifilieff, Michael A. ColicosEugene P Brandon, Donald Peter Cain, Paul Greengard, Robert U. Muller, James H. Schwartz, Steven A. Siegelbaum, Stephen J. Smith, Stanislav S. ZakharenkoYears: 2012 — 2016; Recipients: Ju, Jingyue [⬀] Kandel, Eric R (co-PI) Moroz, Leonid L (co-PI) [⬀] Sander, Chris; Code: R01; Title/Keywords: Genomic Approaches to Deciphering Memory Circuits@ Columbia Univ New York Morningside; Matching Score: 0.939Prof.
Stanford002003Palo Alto, CA, USAHolden Maecker

Stanford
【研究方向】Cytokine(8+0); Disease(2+1); Memory(2+0); Signal transduction(1+0); Peptide(1+0); Development(1+0); Proliferation(1+0); Environment(1+0); Transplantation(0+1); Adhesion(1+0); Biomarker(1+0); Infection(0+1); Exercise(1+0); Fatigue(1+0); Gastrointestinal(1+0); Imaging(1+0);
【模式生物】Human(4+0); Mouse(2+0);
【方法技术】Virus(2+0); Gene(1+0); Protein(1+0); In vivo(1+0); Anatomy(1+0);
【简述】
【研究论文】Cell(2); PNAS(2);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
010003Prof.
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.
WUSTL009032Saint Louis, MO, USAN. Gautam

WUSTL
【研究方向】Membrane(4+0); Cell migration(4+0); Regulation(2+0); Structure(1+0); Oscillation(1+0); Differentiation(0+1); Dynamics(1+0); Imaging(0+1); Optical(1+0);
【模式生物】
【方法技术】Optogenetics(3+1); Protein(2+0); Behavior(1+0);
【简述】Optogenetic Control of Signaling and Cell Behavior
【研究论文】Cell(10);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USAKelsey C. Martin

UCLA
【研究方向】Synapse(0+9); Plasticity(0+7); Translation(0+4); Disorder(0+3); Memory(0+3); Regulation(0+2); Synaptic Plasticity(0+2); Transcription(0+2); Long-term memory(0+2); Signaling molecule(0+1); Dopamine(0+1); Structure(0+1); Autism(0+1); Addiction(0+1); Anxiety(0+1); Body(0+1); Attention(0+1); Emotion(0+1); Connection(0+1);
【模式生物】Mouse(0+1);
【方法技术】Gene(0+3); Protein(0+1); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAGina Poe

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, USAJonathan Demb

Yale
【研究方向】Retina(0+4); CNS(0+2); Transgenic(0+1); Glutamate(0+1); Neurotransmitter release(0+1); Synapse(0+1); Disease(0+1); Dysfunction(0+1); Bipolar(0+1); Photoreceptor(0+1); Adaptation(0+1); Contrast(0+1); Interneuron(0+1); Morphology(0+1); Imaging(0+1); Connection(0+1);
【模式生物】Mouse(0+2);
【方法技术】Model(0+3); Electrophysiology(0+2); Microscopy(0+2); In vitro(0+1); Behavior(0+1); Optogenetics(0+1); Computation(0+1);
【简述】Adaptation, Physiological; Neurophysiology; Retinal Ganglion Cells; Synapses; Retinal Cone Photoreceptor Cells; Retinal Bipolar Cells.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAChristopher Van Dyck

Yale
【研究方向】Psychiatry(0+6); Aging(0+5); Disease(0+4); Neuroimaging(0+3); Neurology(0+2); Alzheimer's disease(0+2); Cognition(0+2); Development(0+1); Therapy(0+1); Imaging(0+1);
【模式生物】
【方法技术】Behavior(0+1);
【简述】Aging; Alzheimer Disease; Drug Therapy; Genetics; Neurobiology; Neurology; Psychiatry; Positron-Emission Tomography; Neuroimaging.
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAChristopher S. Colwell

UCLA
【研究方向】Rhythm(0+3); Circadian(0+3); Timing(0+2); Dysfunction(0+1); Therapy(0+1); Psychiatry(0+1); Psychiatric disorder(0+1); Motor control(0+1); Imaging(0+1);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
MIT005002Boston, MA, USAEdward Adelson

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

Columbia
【研究方向】Psychiatry(16+0); Development(7+2); Disorder(3+5); Learning(1+4); Psychiatric disorder(2+1); Cognition(1+2); Neuroimaging(1+2); Anxiety(0+2); Neural Circuit(1+1); Learning and memory(1+1); Reward(0+2); Structure(0+1); Microglia(1+0); Dysfunction(0+1); ADHD(1+0); Pediatric(1+0); Systems Neuroscience(0+1); Memory(1+0); Skill learning(1+0); Social(1+0); Social behavior(1+0); Imaging(0+1); Hippocampus(0+1);
【模式生物】Human(2+0); Rodent(0+1);
【方法技术】fMRI(8+1); Behavior(2+1); MRI(0+2); Anatomy(1+0);
【简述】Brain Imaging ; Cognitive/Systems Neuroscience ; Neurobiology of Learning and Memory;
【研究论文】Nature(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David PagliaccioYears: 2018; Recipients: Marsh, RachelMonk, Catherine E (co-PI) [⬀] Spann, Marisa N [⬀] ; Code: R01; Title/Keywords: Intergenerational Transmission of Deficits in Self-Regulatory Control@ Columbia University Health Sciences; Matching Score: 0.955002680Prof.
NYU015028New York, NY, USALynne Kiorpes

NYU
【研究方向】Development(0+1); Vision(0+1);
【模式生物】
【方法技术】
【简述】Development of visual function
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Davida TellerDaniel C. Kiper, Chao Tang, Brittany N. Bushnell, Cynthia Hall-Haro, Tom J. van Grootel, Da-Peng LiJ Anthony MovshonYears: 2016 — 2018; Recipients: Kiorpes, Lynne; Code: T32; Title/Keywords: Training Systems and Integrative Neuroscience@ New York University; Matching Score: 1Prof.
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.
Columbia006008New York, NY, USARaju Tomer

Columbia
【研究方向】Development(7+2); Imaging(5+1); Structure(3+1); Dopamine(2+0); Membrane(2+0); Dopamine neuron(2+0); Embryo(2+0); Injury(2+0); Body(2+0); Mushroom body(2+0); Hypothalamus(2+0); Differentiation(0+1); Systems Neuroscience(0+1); Dynamics(1+0); Engineering(1+0); Optical(0+1);
【模式生物】Stem Cell(0+1);
【方法技术】Microscopy(10+0); Gene(4+0); Model(4+0); Computation(2+1); Protein(2+0); Statistics(2+0);
【简述】Brain Imaging; Cell specification and differentiation; Stem cell biology; Cognitive/Systems neuroscience ;
【研究论文】Nature(2); Science(1); Cell(3); Nature Neuroscience(1); Nature Methods(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Detlev Arendt, Karl Deisseroth002457Assist Prof.
JHU010012Baltimore, MD, USAMikhail Pletnikov MD,

JHU
【研究方向】Development(0+3); Environment(0+3); Disease(0+2); Neurology(0+2); Autism(0+2); Schizophrenia(0+2); Transgenic(0+1); Mutant(0+1); NMDA receptor(0+1); Pathogenesis(0+1); Developmental Disorder(0+1); Neuroinflammation(0+1); Infection(0+1); Neural Circuit(0+1); Cognition(0+1); Neuroimmunology(0+1); Stress(0+1);
【模式生物】Human(0+1); Mouse(0+1);
【方法技术】Gene(0+4); Model(0+2); 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
NYU015028New York, NY, USAMichael J. Hawken

NYU
【研究方向】Perception(0+1); Vision(0+1);
【模式生物】
【方法技术】
【简述】Neuronal mechanisms of visual perception
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
NYU015028New York, NY, USABiyu Jade He

NYU
【研究方向】Perception(2+0); Vision(2+0); Dynamics(1+1); Neural dynamics(2+0); Cognition(1+0); Consciousness(1+0);
【模式生物】Human(3+1);
【方法技术】Behavior(2+0); ECoG(1+0);
【简述】Large-scale brain dynamics underlying human cognition
【研究论文】Science(1); JNS(3); eLife(2); Cerebral Cortex(1); Nature Human Behaviour(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003541Assist Prof.
UCSD011017San Diego, CA, USAGery Schulteis

UCSD
【研究方向】Drugs of Abuse(0+2); Plasticity(0+1); Alcohol(0+1); Opioids(0+1); Drug tolerance(0+1); Cognition(0+1); Body(0+1); Pain(0+1); Reward(0+1); Autonomic(0+1); Respiratory(0+1);
【模式生物】Rodent(0+1);
【方法技术】Behavior(0+2); Pharmacology(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
UCSD011017San Diego, CA, USAEdward M. Callaway

UCSD
【研究方向】Vision(0+4); Neural Circuit(0+3); Visual cortex(0+2); Transgenic(0+1); Development(0+1); Perception(0+1); V1(0+1);
【模式生物】
【方法技术】Gene(0+4); In vivo(0+1); In vitro(0+1); Anatomy(0+1); Computation(0+1);
【简述】 Systems
【研究论文】
【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.
UCLA011013Los Angeles, CA, USADouglas L. Black

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, USATara Madhyastha

UW
【研究方向】Disease(0+2); Cognition(0+2); Neurodegenerative disease(0+1); Dynamics(0+1); Resting state(0+1); Imaging(0+1); Neuroimaging(0+1);
【模式生物】
【方法技术】fMRI(0+2); EEG(0+1); Model(0+1);
【简述】Behavioral Neuroscience
More info about Dr. Madhyastha
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAAdrienne Fairhall

UW
【研究方向】Dynamics(0+4); Neural Circuit(0+2); Sense(0+2); Adaptation(0+2); Motor control(0+2); Memory(0+2); Learning(0+2);
【模式生物】Primate(0+1);
【方法技术】Model(0+4); Computation(0+2); Mathematics(0+2);
【简述】Computational neuroscience

Research
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAGregory W. Terman

UW
【研究方向】LTP(0+6); Opiate(0+4); Pain(0+4); Modulation(0+3); Receptor(0+3); Synaptic Plasticity(0+2); Learning and memory(0+2); Transporter(0+1); Glutamate(0+1); NMDA receptor(0+1); Calcium channel(0+1); Membrane(0+1); Synaptic Transmission(0+1); Plasticity(0+1); Neuroplasticity(0+1); Epilepsy(0+1); Regeneration(0+1); Dendrite(0+1); Pathogenesis(0+1); Stroke(0+1); Opioids(0+1); Hippocampus(0+1); CA3(0+1);
【模式生物】
【方法技术】Channel(0+1); In vitro(0+1); Model(0+1);
【简述】Behavioral Neuroscience;  Excitable Membranes and Synaptic Transmission; Neurotransmitters; Modulators; Transporters and Receptors; Sensory Systems
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAEric Shea-Brown

UW
【研究方向】Dynamics(0+5); Neural network(0+3); Cognition(0+2); Decision making(0+2); Neural dynamics(0+2); Connectomics(0+2); Neural Circuit(0+1); Sense(0+1);
【模式生物】
【方法技术】Behavior(0+2); Model(0+2); Mathematics(0+2);
【简述】Research
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAAgueda Rostagno

NYU
【研究方向】Disease(4+0); Abeta(2+0); Glial cell(1+0); Dysfunction(1+0); Aging(1+0); Alzheimer's(1+0); Stress(1+0);
【模式生物】Mouse(1+0);
【方法技术】Protein(2+0); Gene(1+0); In vivo(1+0); In vitro(1+0); Bioinformatics(1+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
WUSTL009032Saint Louis, MO, USAYehuda Ben-Shahar

WUSTL
【研究方向】Plasticity(3+1); Sodium channel(2+0); Environment(0+2); Cognition(2+0); Learning(2+0); Social(0+2); Social behavior(1+1); Neuroendocrine(2+0); Respiratory(2+0); Evolutionary(0+2); Transgenic(1+0); Transporter(1+0); Regulation(1+0); Transcription(1+0); Sense(1+0); Associative learning(1+0); Mating(1+0); Stress(1+0);
【模式生物】Drosophila(6+1); Human(2+0);
【方法技术】Behavior(12+3); Gene(6+3); Model(0+3);
【简述】Molecular, cellular, genetic and evolutionary mechanisms of behavior
【研究论文】Science(2); Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gene E. RobinsonYears: 2017 — 2020; Recipients: Robinson, GeneDuncan, IanBen-Shahar, YehudaRaman, Baranidharan (co-PI) [⬀] ; Code: N/A; Title/Keywords: Neuronex Technology Hub: Advancing Neuronal and Genetic Approaches to Animal Behavior Research@ Washington University; Matching Score: 0.948002676Assoc Prof.
Princeton061009Princeton, NJ, USASabine Kastner

Princeton
【研究方向】Attention(6+3); Vision(6+2); Cognition(1+3); Striate cortex(3+0); Extrastriate cortex(3+0); Cognitive neuroscience(0+2); Object(1+1); Imaging(0+2); Neuroimaging(0+2); Pulvinar(2+0); Epilepsy(0+1); Psychiatry(0+1); Perception(0+1); Object perception(0+1); Spatial attention(1+0); Context(1+0); Categorization(1+0); Neural codes(0+1); Neural dynamics(1+0); Diffusion tensor imaging(0+1); PPC(1+0); Visual cortex(1+0); Thalamus(1+0);
【模式生物】Human(8+5); Monkey(0+4); Primate(1+2); Macaque(0+1);
【方法技术】Behavior(2+2); Model(0+3); MRI(1+1); Electrophysiology(1+1); ECoG(1+1); Anatomy(1+0); fMRI(0+1); Theory(1+0);
【简述】Systems and Circuits ; Human Neuroscience
【研究论文】Nature(4); Science(2); Nature Neuroscience(2); Neuron(5); Curr Biol.(1); Cerebral Cortex(1);
【综述】Annual Review Of Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Otto D. Creutzfeldt, Hans-Christoph Nothdurft, Leslie UngerleiderHilda M. Fehd, Kevin DeSimone, Kevin S. Weiner, Megan Harvey, Daniel H. O'Connor, Kathi Seidl, Mark A. Pinsk, Sara M. Szczepanski, Michael Arcaro, Manoj K. Eradath, Yuri B. Saalmann, Diane M. Beck, Christina S. Konen, Stephanie A. McMains, Liang Wang, Jiye G. Kim, Miranda R. Scolari, Ian C. Fiebelkorn, Aidan P. Murphy, Keith A. Schneider, Mark A. Pinsk, Marius V. Peelen, Gideon Paul Caplovitz, Ryan E.B. Mruczek, Su Keun Jeong, Nikolaos C. AggelopoulosChethan Pandarinath, Michael WL CheeYears: 2018; Recipients: Kastner, Sabine; Code: R01; Title/Keywords: Functions of the Thalamus in Attention and Perception@ Princeton University; Matching Score: 1Prof.
UCLA011013Los Angeles, CA, USAKaren M. Lyons

UCLA
【研究方向】Development(0+3); Receptor(0+2); Context(0+2); Transgenic(0+1); Cell cycle(0+1);
【模式生物】Mouse(0+2);
【方法技术】Gene(0+3); Cell culture(0+2); Model(0+2); Protein(0+1); 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
UCLA011013Los Angeles, CA, USAMartin M. Monti

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, 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, 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.
UCLA011013Los Angeles, CA, USAWilliam Grisham

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

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, USAMatt LaVoie

Harvard
【研究方向】LRRK2(6+2); Disease(0+6); Parkinson's disease(4+2); Regulation(3+0); Glia(0+3); Sclerosis(1+2); Knockin(1+1); Membrane(2+0); Mitochondria(2+0); Dysfunction(1+1); Stress(2+0); CRISPR/Cas9(0+1); Structure(1+0); Microglia(1+0); Cell cycle(1+0); Cell line(0+1); Neurodegenerative disease(0+1); Alzheimer's disease(0+1); Alpha-synuclein(1+0); Huntington's disease(0+1); Movement disorder(1+0); Encoding(0+1); Imaging(0+1);
【模式生物】Mouse(0+1); Bird(1+0); Drosophila(1+0);
【方法技术】Gene(1+6); Model(1+5); Protein(2+0); Cell culture(0+1);
【简述】The role of proteostasis deficits and mitochondrial dysfunction in neurodegenerative diseases
【研究论文】Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
Stanford002003Palo Alto, CA, USAHelen M Blau

Stanford
【研究方向】Muscle(5+5); Reprogramming(1+2); Cell fate(0+2); Regeneration(0+2); Disease(1+1); Disorder(0+2); Therapy(2+0); Anesthesia(1+0); Development(0+1); Differentiation(1+0); Therapeutics(1+0); Aging(0+1); Knowledge(0+1); Metabolism(1+0); Neural network(1+0); Engineering(1+0); Imaging(0+1);
【模式生物】Stem Cell(6+5); Human(2+1); Mouse(3+0);
【方法技术】Model(4+0); Gene(2+1); In vitro(2+1); Protein(0+1); In vivo(0+1);
【简述】
【研究论文】Nature(7); Cell(2); Nature Communications(1); Nature Methods(1); PNAS(3); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Fotis Kafatos, Charles J. EpsteinWilliam E. Blanco-Bose, Timothy R. Brazelton, Clare R. Ozawa, Mark A. LaBarge, Thomas S. Wehrman, George L. Sen, Adam T. Palermo, Kostandin Pajcini, Alex Chia Yu ChangYears: 2017 — 2018; Recipients: Blau, Helen MKundaje, Anshul [⬀] ; Code: R01; Title/Keywords: Learning Regulatory Drivers of Chromatin and Expression Dynamics During Nuclear Reprogramming@ Stanford University; Matching Score: 1Prof.
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
JHU010012Baltimore, MD, USAAndrew Gordus PHD

JHU
【研究方向】Environment(0+6); Neural Circuit(0+2); Innate behavior(0+2); Development(0+1); Sense(0+1); Vision(0+1); Memory(0+1); Path integration(0+1);
【模式生物】C. elegans(0+1);
【方法技术】Behavior(0+6); Gene(0+4); Model(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
NIH-NIMH??Bethesda, MD, USASusan Amara

NIH-NIMH
【研究方向】Transporter(11+4); Glutamate(3+1); Amino acid(4+0); Dopamine(3+0); Amphetamine(3+0); Regulation(1+1); Dopamine neuron(2+0); Cocaine(2+0); Transgenic(1+0); Receptor(1+0); Ion Channel(0+1); Structure(0+1); Translation(1+0); Development(1+0); Disease(1+0);
【模式生物】Rat(3+0);
【方法技术】Pharmacology(3+0); Channel(2+0); Gene(1+0); Behavior(1+0);
【简述】Laboratory of Molecular and Cellular Neurobiology (LMCN)
【研究论文】Cell(1); Neuron(2); JNS(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael G. RosenfeldRebecca P. Seal, Christopher Brad Divito, Susan L. Ingram, Delany Torres-Salazar, Robert J. Vandenberg, Randy D. BlakelyYears: 2002 — 2010; Recipients: Amara, Susan G.; Code: R01; Title/Keywords: Molecular Studies of Human Cns Glutamate Transporters@ University of Pittsburgh At Pittsburgh; Matching Score: 0.919
UCSD011017San Diego, CA, USAGene Yeo

UCSD
【研究方向】Disease(0+2); Disorder(0+2); CRISPR/Cas9(0+1); Regulation(0+1); Translation(0+1); Development(0+1); Neurodegenerative disease(0+1); Autism(0+1); Neuromuscular(0+1); Cognition(0+1);
【模式生物】Mouse(0+1); Stem Cell(0+1);
【方法技术】Gene(0+2); Biochemistry(0+1); Virus(0+1); In vivo(0+1); In vitro(0+1); Behavior(0+1); Model(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular; 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
UW021010Seattle, WA, USAClemens Cabernard

UW
【研究方向】Plasticity(0+1); Development(0+1); Disorder(0+1); Developmental Disorder(0+1); Microcephaly(0+1); Cognition(0+1); Body(0+1);
【模式生物】Stem Cell(0+7); Human(0+2);
【方法技术】Behavior(0+1); Model(0+1);
【简述】Cell and Molecular Neuroscience; Developmental Neurobiology; Disorders of the Nervous System; and Invertebrate Neurobiology.
Cabernard Lab
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USARafael Romero

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

NIH-NIDA
【研究方向】Cocaine(8+2); VTA(7+1); Dopamine neuron(5+0); Nucleus accumbens(4+1); Receptor(4+0); LTP(2+2); Disorder(3+1); Drugs of Abuse(1+3); PFC(2+2); Dopamine(3+0); Modulation(2+0); Glutamate(2+0); Plasticity(2+0); Synaptic Plasticity(1+1); Microglia(2+0); Reward(2+0); Transporter(1+0); GABA(1+0); NMDA receptor(1+0); D1 receptor(1+0); D2 receptor(1+0); Potassium channel(1+0); LTD(1+0); Astrocyte(1+0); Synapse(1+0); Vulnerability(1+0); Psychiatric disorder(1+0); Neurotoxicity(1+0); Addiction(0+1); Alcohol(0+1); Depression(1+0); Adaptation(1+0); Form(0+1); Learning(1+0); Motivation(1+0); Stress(1+0); Dynamics(1+0); Frontal lobe(1+0); Amygdala(1+0); Basal ganglia(1+0); Dorsal striatum(1+0);
【模式生物】Rat(2+0); Mouse(2+0); Human(1+0); C. elegans(1+0);
【方法技术】Behavior(9+2); TMS(3+0); Electrophysiology(1+1); Optogenetics(1+1); Gene(1+0); Protein(1+0); Channel(1+0); In vivo(1+0); In vitro(1+0);
【简述】Scientific Director, NIDA
【研究论文】Science(1); Cell(1); Nature Neuroscience(3); Neuron(2); JNS(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
Nicola Biagio Mercuri, Robert C. Malenka, John T. WilliamsFederica Sarti, Lynne D. Tye, Michael C. Chiang, Wendy Xin, Kimberly A. Kempadoo, A Moses Lee, Nicholas Edwards, Stephanie L. Borgland, Billy T. Chen, T. Chase Francis, June Junghyun Hahn, Miquel Martin, Jon T. Pierce-Shimomura, Marco Pignatelli, Dennis R. Sparta, Ross A. McDevitt, Lindsay  M De Biase, Hugo Tejeda, Graziella Madeo, Stephanie C. Gantz, Miriam Melis, Mark A. Ungless, Tara L. Crowder Skarpaas, Matthew J. Wanat, Kay M. Tye, Emanuela Argilli, Garret D. Stuber, Jonathan P. Britt, Woody HopfViktor N. Kharazia, Sharif A. TahaYears: 2018; Recipients: Bonci, Antonello; Code: ZIA; Title/Keywords: The Role of Glutamine Synthetase in Oligodendrocytes@ National Institute On Drug Abuse; Matching Score: 1020245
Stanford002003Palo Alto, CA, USADavid Lentink

Stanford
【研究方向】Dynamics(3+0); Kinematics(2+0); Robot(2+0); Vision(1+0); Morphology(1+0);
【模式生物】Bird(5+0); Zebrafish(1+0);
【方法技术】Model(3+0); In vivo(2+0); Biophysics(1+0);
【简述】
【研究论文】Nature(2); Science(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2016 — 2021; Recipients: Lentink, David; Code: N/A; Title/Keywords: Career: How Birds Lift Weight With Flapping Wings@ Stanford University; Matching Score: 1001963Assist Prof.
Stanford002003Palo Alto, CA, USARuth O'hara

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
Michael A. Arbib, Joseph B. Hellige, Joan McDowd, David A. WalshJohn C. Flournoy, Jill D. WaringYears: 2018 — 2019; Recipients: Hallmayer, Joachim F [⬀] O'hara, Ruth M; Code: R01; Title/Keywords: Gene Expression Profiling of Ipsc Derived Neurons in Autism Spectrum Disorder@ Stanford University; Matching Score: 0.958Prof.
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.
NIH-NIDDK??Bethesda, MD, USAJurgen Wess

NIH-NIDDK
【研究方向】Muscarinic(8+0); Receptor(5+0); Dopamine(3+0); Memory(2+0); Modulation(1+0); Acetylcholine receptor(1+0); D1 receptor(1+0); Axon(1+0); Neuroprotective(1+0); Neuroprotection(1+0); Cognition(1+0); Learning(1+0); Learning and memory(1+0); Attention(1+0); Metabolism(1+0); Basal ganglia(1+0); Substantia nigra(1+0); Pars reticulata(1+0);
【模式生物】Mouse(3+0); Human(1+0);
【方法技术】Electrophysiology(1+0);
【简述】
【研究论文】Neuron(2); JNS(1); Nature Communications(2); eLife(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIEHS??Bethesda, MD, USASerena Dudek

NIH-NIEHS
【研究方向】CA2(13+2); Synaptic Plasticity(8+1); Development(3+6); Plasticity(3+2); Environment(0+5); Synapse(4+1); Hippocampus(5+0); LTD(3+0); Regulation(2+0); NMDA receptor(2+0); Transcription(2+0); Oscillation(2+0); Learning and memory(2+0); Entorhinal cortex(2+0); Modulation(1+0); Glutamate(1+0); Receptor(1+0); Peptide(1+0); LTP(1+0); Dendrite(1+0); Spine(1+0); Disease(0+1); Psychiatry(1+0); Angelman(1+0); Alzheimer's disease(0+1); Depression(1+0); Schizophrenia(0+1); Cognition(0+1); Vision(1+0); Contrast(0+1); Frequency(1+0); Long-term memory(1+0); Context(1+0); Social(1+0); Morphology(1+0); Connection(0+1); Visual cortex(1+0); CA1(1+0);
【模式生物】Mouse(4+1); Human(0+2); Rat(1+0); Rodent(1+0);
【方法技术】Protein(3+1); Behavior(2+1); In vitro(2+0); Model(2+0); Gene(1+0); Channel(1+0);
【简述】
【研究论文】Nature Neuroscience(1); Neuron(1); JNS(1); Nature Communications(1); eLife(1);
【综述】Review(3); Nature Reviews Neuroscience(2); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gary Lynch, Mark F. Bear, Michael FriedlanderRitika Patil, Daniel Lustberg, Paul R. Evans, Mahsa Samadi, J. Paige Adams, Georgia M. Alexander, Douglas Caruana, Maile Henson, Ramendra N. Saha, Shannon FarrisJohn Raymond Hepler, W Scott Young005956
NIH-NIMH??Bethesda, MD, USACarlos A. Zarate

NIH-NIMH
【研究方向】Disorder(3+5); Depression(6+2); Psychiatry(7+0); Imaging(2+2); Therapeutics(0+2); Neuroimaging(2+0); NMDA receptor(1+0); Glycine receptor(0+1); Biomarker(0+1); Bipolar(0+1); Motor(1+0); Emotion(1+0);
【模式生物】Mouse(2+0); Rat(1+0);
【方法技术】fMRI(1+2); MEG(0+2); MRI(0+1); PET(0+1); Pharmacology(1+0);
【简述】
【研究论文】
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Nancy B. Lundin, Katherine Xie, Níall Lally, Jessica L. (Ihne) Reed, Jessica R GilbertYears: 2015 — 2018; Recipients: Zarate, Carlos; Code: ZIA; Title/Keywords: Glutamatergic Modulators For Rapid and Sustained Antidepressant Effect@ National Institute of Mental Health; Matching Score: 0.915
UCSD011017San Diego, CA, USARobert A. Rissman

UCSD
【研究方向】Biomarker(0+4); Alzheimer's disease(0+2); Transgenic(0+1); Disease(0+1); Neurodegenerative disease(0+1); Pathology(0+1); Vulnerability(0+1); Parkinson's disease(0+1); Stress(0+1);
【模式生物】Human(0+1); Mouse(0+1);
【方法技术】Gene(0+1); Biochemistry(0+1); In vivo(0+1); Pharmacology(0+1); Model(0+1);
【简述】 Biochemistry & Molecular; Clinical
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAChiye Aoki

NYU
【研究方向】Glutamate(4+0); Vision(3+0); Visual cortex(3+0); Transporter(2+0); AMPA receptor(2+0); GABAA receptor(2+0); Plasticity(1+1); Axon(2+0); Knockin(1+0); Modulation(1+0); NMDA receptor(1+0); D2 receptor(1+0); Ion Channel(1+0); Dopamine neuron(1+0); Development(1+0); Disease(1+0); Neurology(1+0); Pathology(1+0); Nicotine(1+0); Anxiety(1+0); Form(1+0); Learning(1+0); V1(1+0); Auditory cortex(1+0); CA2(1+0); Amygdala(1+0);
【模式生物】Rat(4+0); Mouse(2+0); Macaque(1+0);
【方法技术】Gene(1+0); Protein(1+0); Channel(1+0);
【简述】Neuronal plasticity in neocortex
【研究论文】Science(1); Cell(1); Nature Neuroscience(2); Neuron(1); JNS(10);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Philip Siekevitz, Virginia M. PickelBarkha S. Rana, Hannah Actor-Engel, Yi-Wen Chen, Susan J. Lee, Hermina Nedelescu, Adrienne Santiago, Anita A. Disney, Sho Fujisawa, Nicole Sabaliauskas, Tara G. ChowdhuryYears: 2015 — 2020; Recipients: Aoki, Chiye; Code: N/A; Title/Keywords: Reu Site: Center For Neural Science Summer Undergraduate Research Program (Surp)@ New York University; Matching Score: 1009692Prof.
Stanford002003Palo Alto, CA, USAMing-Chih Kao

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
Assist Prof.
Yale014011New Haven, CT, USAAngelique Bordey

Yale
【研究方向】Disease(0+2); Disorder(0+2); Glia(0+1); Neurogenesis(0+1); Pathology(0+1); Autism(0+1); Cognition(0+1); Machine(0+1);
【模式生物】Stem Cell(0+5);
【方法技术】Gene(0+1); Protein(0+1);
【简述】Autistic Disorder; Central Nervous System Diseases; Nervous System Malformations; Nervous System Diseases; Neurologic Manifestations; Neurosurgery; Physiology; Stem Cells; Diseases.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAIsabella Graef

Stanford
【研究方向】Development(4+3); Regulation(1+1); Transcription(2+0); LTD(1+0); Differentiation(1+0); Embryo(1+0); Dendrite(1+0); Branching(1+0); Neurodegenerative disease(0+1); Sense(1+0); Evolutionary(1+0);
【模式生物】
【方法技术】Gene(0+2);
【简述】
【研究论文】Nature(1); Science(4); Cell(7); Neuron(2); PNAS(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2011; Recipients: Graef, Isabella A; Code: R13; Title/Keywords: Wiring the Brain 2011: Making Connections@ Stanford University; Matching Score: 1Assist Prof.
UW021010Seattle, WA, USAJ

UW
【研究方向】Aging(0+10); Development(0+4); Transgenic(0+2); Vesicle(0+2); Transcription(0+2); Differentiation(0+2); Embryo(0+2); Adhesion(0+2); Disease(0+2); Neurodegenerative disease(0+2); APP(0+2); Abeta(0+2); Tau(0+2); Sense(0+2); Stress(0+2);
【模式生物】
【方法技术】Protein(0+16); Channel(0+2); Biochemistry(0+2); In vivo(0+2); Microscopy(0+2);
【简述】Research
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, 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
NIH-NIMH??Bethesda, MD, USAVictor W. Pike

NIH-NIMH
【研究方向】Imaging(10+3); Receptor(9+1); Metabolism(3+1); Transporter(2+1); Blood flow(3+0); Dopamine(2+0); Development(1+1); Disease(2+0); Psychiatry(2+0); Biomarker(2+0); Neurotransmitter(0+1); Embryo(1+0); Inflammation(1+0); Methodology(0+1);
【模式生物】Human(7+3); Monkey(7+0); Stem Cell(4+0); Mouse(3+0); Rodent(3+0); Rat(1+0);
【方法技术】PET(13+6); Protein(5+0); In vivo(3+1); Pharmacology(3+0); Model(2+0); Gene(1+0); In vitro(1+0);
【简述】
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
016182
UW021010Seattle, WA, USARajesh P.N. Rao

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
Columbia006008New York, NY, USAGary Struhl

Columbia
【研究方向】Body(2+3); Development(2+1); Regulation(2+0); Receptor(0+1); Structure(1+0); Transcription(0+1); Translation(0+1); Form(1+0); Olfaction(1+0);
【模式生物】Drosophila(13+1);
【方法技术】Protein(4+0); Gene(3+0); In vivo(2+0);
【简述】Organ growth; Cell patterning; Cell-cell signaling;
【研究论文】Nature(6); Cell(10);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Peter Lawrence, Tom ManiatisRobin P. Wharton, Josh Dubnau, Konrad Basler, Jordi Casanova, Jin Jiang, Joseph ParkerYears: 2018; Recipients: Struhl, Gary; Code: R35; Title/Keywords: Morphogen Control of Organ Growth in Drosophila@ Columbia University Health Sciences; Matching Score: 0.955020439Prof.
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.
UCSD011017San Diego, CA, USAHenry D. I. Abarbanel

UCSD
【研究方向】Vocalization(0+1); Machine learning(0+1);
【模式生物】
【方法技术】Model(0+3); Behavior(0+1); Electrophysiology(0+1);
【简述】 Systems; Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USALe Cong

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
Assist Prof.
Harvard001001Boston, MA, USAMatthew Pecot

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

Stanford
【研究方向】Engineering(13+2); Regeneration(4+1); Development(3+0); Differentiation(1+2); Therapy(3+0); Embryo(2+0); Tumor(2+0); Mutant(1+0); Peptide(1+0); Cell fate(0+1); Disease(1+0); Hypoxia(1+0); Metabolism(1+0); Cardiovascular(1+0);
【模式生物】Stem Cell(26+11); Human(6+0); Mouse(5+0);
【方法技术】Model(5+0); Gene(3+1); Behavior(3+0); In vivo(1+1); Protein(1+0); In vitro(1+0); Pharmacology(1+0);
【简述】
【研究论文】Science(2); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jie ZhengLizhen Xu004113Assoc Prof.
UCLA011013Los Angeles, CA, USAYe Zhang

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, USAXiaolin Zheng

Stanford
【研究方向】Environment(2+0); Engineering(2+0); Form(1+0);
【模式生物】
【方法技术】Microscopy(1+0); Computation(1+0);
【简述】
【研究论文】Science(2); Cell(1); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
009821Assoc Prof.
NIH-NINDS??Bethesda, MD, USAPrashant Chittiboina

NIH-NINDS
【研究方向】Disease(10+0); Imaging(3+3); Spine(3+0); Tumor(1+2); Hormone(3+0); Hypoxia(2+0); Brain injury(2+0); Pediatric(2+0); Vestibular(1+1); Metabolism(1+1); Optical imaging(2+0); Transporter(1+0); Cytokine(1+0); Neurology(1+0); Psychiatry(1+0); Hemorrhage(1+0); Injury(1+0); Neuro-oncology(1+0);
【模式生物】
【方法技术】MRI(3+3); Gene(3+0); Simulation(1+0);
【简述】Neurosurgery Unit for Pituitary and Inheritable Diseases
【研究论文】Cell(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000994
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.
UW021010Seattle, WA, USARandall  Moon

UW
【研究方向】Signal transduction(0+2); Embryo(0+2); Development(0+1); Cell fate(0+1); Encoding(0+1);
【模式生物】Xenopus(0+3); Zebrafish(0+3); Drosophila(0+2); Mouse(0+1);
【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
Stanford002003Palo Alto, CA, USAEric I Knudsen

Stanford
【研究方向】Vision(7+1); Attention(5+1); Spatial attention(3+1); Oscillation(2+0); Neural Circuit(1+1); Microcircuit(1+0); Systems Neuroscience(1+0); Sense(0+1); Auditory(0+1); Descending control(1+0); Categorization(1+0);
【模式生物】Bird(1+1);
【方法技术】Anatomy(0+2); Behavior(0+2); In vitro(0+1); Tracing(0+1); Microstimulation(0+1); Pharmacology(0+1);
【简述】
【研究论文】Nature Neuroscience(1); Neuron(3); JNS(3); Nature Communications(1); PNAS(1); Curr Biol.(2);
【综述】Trends In Neurosciences(1); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ted H. Bullock, Mark KonishiDeepa L. Ramamurthy, Michael S. Brainard, Dan Feldman, Joshua Gold, Greg L. Miller, Sascha du Lac, Gregory Lloyd Miller, Peter Sutherland Hyde, Brie Ann Linkenhoker, Joseph F. Bergan, Kristin A. Maczko, Ilana B. Witten, Astra Shamgar Bryant, Yale E. Cohen, William M. DeBello, Yoram Gutfreund, Joachim Mogdans, Shreesh  P. Mysore, Daniel Winkowski, C Alex Goddard, Ali Asadollahi, John C. MiddlebrooksYears: 2014 — 2017; Recipients: Knudsen, Eric; Code: R01; Title/Keywords: Cholinergic Control of Spatial Attention: Cellular and Circuit Mechanisms@ Stanford University; Matching Score: 0.915Prof.
UCSD011017San Diego, CA, USAAlexander S. Kauffman

UCSD
【研究方向】Development(0+2); Reproduction(0+2); Neuroendocrine(0+2); Hormone(0+2); Regulation(0+1); Developmental Disorder(0+1); Neural Circuit(0+1); Sexual differentiation(0+1);
【模式生物】Human(0+1);
【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
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.
Columbia006008New York, NY, USAJoachim Scholz

Columbia
【研究方向】Pain(8+9); Injury(3+3); Neuropathic pain(2+3); Glial cell(0+3); Glia(1+1); Regulation(0+1); Glutamate(1+0); Synaptic Transmission(0+1); Environment(0+1); Pluripotent stem cells(0+1); Disease(0+1); Inflammation(0+1); Object(1+0); Somatosensory(0+1); Inflammatory pain(0+1); Social(1+0); Exploration(0+1);
【模式生物】Stem Cell(0+5); Rat(2+0); Human(0+1);
【方法技术】Behavior(2+0); Model(0+2);
【简述】Cellular and Molecular Mechanisms of Chronic Pain;
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000119Assist Prof.
UCLA011013Los Angeles, CA, USAAlcino J. Silva

UCLA
【研究方向】Cognition(0+4); Development(0+2); Learning and memory(0+2); Transgenic(0+1); Psychiatry(0+1); APP(0+1);
【模式生物】Human(0+2); Mouse(0+1); Drosophila(0+1);
【方法技术】Bioinformatics(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, USAMarkus Meister

CalTech
【研究方向】Retina(9+1); Vision(3+1); Structure(1+1); Adaptation(2+0); Contrast(2+0); Olfaction(1+1); Olfactory bulb(1+1); Rhythm(1+0); Development(1+0); Object(1+0); Antennal lobe(0+1); Acquisition(1+0); Aggression(1+0); Circadian(1+0); Neural codes(1+0); Decoding(1+0); Predictive coding(1+0); Visual cortex(0+1); Suprachiasmatic nucleus(1+0);
【模式生物】Rat(2+0); Monkey(1+0); Mouse(1+0);
【方法技术】Anatomy(0+1); Computation(1+0); Model(1+0);
【简述】Function of neuronal circuits
【研究论文】Nature(4); Science(4); Neuron(6); JNS(2); Neural Computation(1); NIPS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Howard C. Berg, Denis A. BaylorMargarida  L. Agrochao, Brenna Krieger, Daniel Crevier, Stelios M. Smirnakis, Elwin Wu, Edward Soucy, Iman Brivanlou, Justin Keat, Bence P. Olveczky, Xaq Pitkow, Antoniu L. Fantana, Saskia de Vries, Maria Neimark Geffen, Kaveri Rajaraman, Toban A. Szuts, Esteban A. Real, Hiroki Asari, Stephen Baccus, Michael J. Berry, Erik P. Cook, Evan Feinberg, Anthony Leonardo, Ofer Mazor, Yifeng Zhang, Ya-tang Li, Pamela Reinagel, David K. Warland, Sheila Nirenberg, Timothy E. Holy, Toshihiko Hosoya, Botond M. Roska, Tim Gollisch, Yoram BurakYears: 2011 — 2015; Recipients: Lichtman, Jeff W [⬀] Meister, MarkusSanes, Joshua R (co-PI) [⬀] Seung, Hyunjune Sebastian; Code: R01; Title/Keywords: High Resolution Connectomics of Mammalian Neural Circuits@ Harvard University; Matching Score: 0.903016354Prof.
Princeton061009Princeton, NJ, USAIlana Witten

Princeton
【研究方向】Dopamine neuron(5+0); Reward(1+2); Striatum(2+1); Auditory(2+0); Learning(2+0); Social(1+1); Encoding(2+0); Nucleus accumbens(2+0); Dopamine(1+0); D2 receptor(1+0); Disease(0+1); Psychiatry(1+0); Cocaine(1+0); Vision(1+0); Motor(1+0); Decision making(1+0); Working memory(1+0); Neural encoding(1+0); Dynamics(1+0); Imaging(0+1); PFC(1+0);
【模式生物】Rat(1+0); Mouse(1+0); Rodent(0+1);
【方法技术】Optogenetics(4+0); Behavior(1+1); Electrophysiology(0+1); Computation(0+1); Model(0+1); Theory(0+1);
【简述】Systems and Circuits
【研究论文】Nature(1); Science(1); Cell(2); Nature Neuroscience(6); Neuron(2); JNS(2); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Lee Silver, Michael J. Berry, Eric I. Knudsen, Karl DeisserothHee Jae Jang, Jung Yoon Choi, Lindsay C Willmore, Anna Zhukovskaya, Alejandro Pan Vazquez, Malavika Murugan, Junuk LeeEsteban A. EngelYears: 2017 — 2018; Recipients: Witten, Ilana; Code: U19; Title/Keywords: Subcortical Neural Coding and Dynamics@ Princeton University; Matching Score: 0.915003059Assoc Prof.
Columbia006008New York, NY, USAJacqueline Gottlieb

Columbia
【研究方向】Attention(21+2); LIP(15+0); Vision(11+1); Eye Movement(9+0); FEF(8+0); Cognition(6+0); Reward(5+1); Perception(5+0); Curiosity(4+1); Parietal lobe(4+0); Exploration(2+1); PPC(3+0); Spatial attention(2+0); Barrel cortex(2+0); Learning(2+0); Motivation(1+1); Structure(0+1); Degeneration(1+0); Systems Neuroscience(0+1); Sense(1+0); Striate cortex(1+0); Extrastriate cortex(1+0); Depth(0+1); Motor(1+0); Saccade(1+0); Memory(0+1); Learning and memory(1+0); Timing(1+0); Decision making(0+1); Working memory(0+1); Semantic(1+0); Reasoning(0+1); Frontal lobe(0+1); neostriatum(1+0);
【模式生物】Monkey(15+1); Primate(6+0); Human(4+0); Non-human primate(2+0); Rat(2+0);
【方法技术】Computation(4+1); Behavior(2+2); Microstimulation(2+0); Model(1+0);
【简述】Cognitive/Systems Neuroscience; Neurophysiology; Reasoning and Decision Making; Instrinsic Motivation; Curiosity and Exploration; Systems and Circuits;
【研究论文】Nature(1); Science(1); Nature Neuroscience(4); Neuron(2); JNS(6); PLoS Biol.(1); Cerebral Cortex(2);
【综述】Current Opinion In Neurobiology(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles Bruce, Asaf Keller, Michael E. GoldbergYou-Nah Jeon, Mattias Horan, Reza Lashgari, Erfan Zabeh, Puiu  F. Balan, Edgar Emilio Galindo-Leon, Jeff Oristaglio, Mototaka Suzuki, Dan Vatterott, Kenji KobayashiYears: 2017 — 2018; Recipients: Gottlieb, Jacqueline; Code: R03; Title/Keywords: Neural Mechanisms of Saccadic Information Seeking Behavior@ Columbia University Health Sciences; Matching Score: 1005424Prof.
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.
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.
NYU015028New York, NY, USAPamela B. Kahn

NYU
【研究方向】Schizophrenia(9+1); Perception(2+1); Emotion(2+1); Psychiatry(2+0); Disorder(1+0); Vision(1+0); Contrast(1+0); Frequency(1+0);
【模式生物】
【方法技术】
【简述】Sensation, perception, and emotions in schizophrenia
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc 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.
WUSTL009032Saint Louis, MO, USAKaren L. O`Malley

WUSTL
【研究方向】Metabotropic glutamate receptor(1+2); Glutamate receptor(1+2); Parkinson's disease(0+3); Dopamine(1+1); Membrane(0+2); Disorder(0+2); Transporter(1+0); Signal transduction(0+1); Regulation(0+1); Receptor(0+1); Synaptic Plasticity(0+1); Development(0+1); CNS(0+1); Psychiatric disorder(0+1); Addiction(0+1); Schizophrenia(0+1); Learning(0+1);
【模式生物】Mouse(1+0);
【方法技术】Model(0+3); Gene(0+2); Protein(2+0); In vivo(1+1); Microarray(0+1);
【简述】Mechanisms underlying the specification, regulation, and neurodegeneration of dopaminergic and glutamatergic systems
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Yale014011New Haven, CT, USASlav Bagriantsev

Yale
【研究方向】Sense(0+4); Receptor(0+2); Ion Channel(0+2); Touch(0+2); Potassium channel(0+1); Sodium channel(0+1);
【模式生物】
【方法技术】Electrophysiology(0+3); Biochemistry(0+2); Biophysics(0+2);
【简述】Biochemistry; Biophysics; Ducks; Electrophysiology; Ion Channels; Mechanoreceptors; Neurosciences; Pacinian Corpuscles; Sensory Receptor Cells; Trigeminal Ganglion; Thermoreceptors; Potassium Channels; Anseriformes; Transient Receptor Potential Channels; Voltage-Gated Sodium Channels.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
MIT005002Boston, MA, USAAlan Hein

MIT
【研究方向】Vision(1+5); Development(1+2); Auditory(0+3); Eye Movement(0+3); Sense(0+2); Visual motion(1+1); Muscle(2+0); Acquisition(0+2); Receptor(0+1); Environment(0+1); Depth(0+1); Object(0+1); Body(0+1); Vestibular(0+1); Posture(1+0); Gait(1+0); Exploration(0+1);
【模式生物】
【方法技术】Behavior(0+1);
【简述】Development and Maintenance of Spatially Coordinated Behavior
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Newt AgrawalProf.
Stanford002003Palo Alto, CA, USAKrishna Shenoy

Stanford
【研究方向】Engineering(10+0); Motor cortex(7+0); Dynamics(4+0); Brain-Computer Interface(3+0); Premotor cortex(3+0); Vision(2+0); Brain-Machine Interface(2+0); Structure(1+0); Development(1+0); Neural Circuit(1+0); Depth(1+0); Self-motion perception(1+0); Frequency(1+0); Motor(1+0); Reaching(1+0); Motor learning(1+0); Execution(1+0); Posture(1+0); Heading perception(1+0); Decision making(1+0); Neural dynamics(1+0); Machine(1+0); PFC(1+0); Visual cortex(1+0);
【模式生物】Human(3+0); Monkey(3+0); Primate(2+0); Macaque(1+0);
【方法技术】LFP(2+0); Optogenetics(2+0); Computation(2+0); Model(2+0); Algorithm(2+0); Electrical stimulation(1+0); Statistics(1+0);
【简述】
【研究论文】Neuron(3); JNS(2); Nature Communications(1); Nature Methods(1); eLife(1); PLOS Computational Biology(1);
【综述】Annual Review Of Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gordon L. Shaw, Clifton G. Fonstad, Richard A. AndersenAlexander M. Chan, Chia-Jung Chang, Paul Nuyujukian, Justin Foster, Werapong Goo, Cora Ames, Jonathan Kao, Daniel J. O'Shea, Sergey Stavisky, Eric M. Trautmann, Stephen I. Ryu, Caleb Kemere, Gopal Santhanam, Byron M. Yu, Afsheen Afshar, John Patrick Cunningham, Vikash Gilja, Cynthia A. Chestek, Rachel S. Kalmar, Zuley Rivera-Alvidrez, Matthew T. Kaufman, Joline Fan, Jonathan A. Michaels, Vikash Gilja, Paul Kalanithi, David Sussillo, Chandramouli Chandrasekaran, Aaron P. Batista, Byron M. Yu, John Patrick Cunningham, Mark M. Churchland, Ilka Diester, Cynthia A. Chestek, Matthew T. Kaufman, Chethan PandarinathManeesh Sahani, Stephen I. Ryu, Karl Deisseroth, Michael Black, Matthew G. MacDougallYears: 2009 — 2012; Recipients: Black, Michael J (co-PI) [⬀] Shenoy, Krishna V; Code: R01; Title/Keywords: Toward An Animal Model of Freely Moving Humans@ Stanford University; Matching Score: 1012939Prof.
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, USAAmin Arbabian

Stanford
【研究方向】Imaging(8+1); Frequency(6+0); Engineering(2+0); Depth(1+0); Phase shift(1+0);
【模式生物】
【方法技术】Ultrasonic(8+1); Theory(3+0); Electrical stimulation(2+0); In 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
Years: 2018 — 2019; Recipients: Arbabian, Amin; Code: R01; Title/Keywords: A Wireless, Implantable Microdevice For Closed-Loop Drug Delivery to Prevent the Morbidity of Diabetes Therapy-Induced Hypoglycemia@ Stanford University; Matching Score: 1001372Assist Prof.
UCLA011013Los Angeles, CA, USAPatricia E. Phelps

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

UCSF
【研究方向】Basal ganglia(0+4); Regulation(0+3); Differentiation(0+3); Transcription(0+2); Embryo(0+2); Encoding(0+2); Cytokine(0+1); Structure(0+1); Neurogenesis(0+1); Developmental Disorder(0+1);
【模式生物】Mouse(0+2); Human(0+1);
【方法技术】Gene(0+1);
【简述】Genetic Regulation of Forebrain Development
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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.
UCSD011017San Diego, CA, USAWilliam B. Kristan, Jr.

UCSD
【研究方向】Connection(0+3); Synapse(0+2); Form(0+2); Gap junction(0+1); Development(0+1); Imaging(0+1);
【模式生物】
【方法技术】Behavior(0+3); Anatomy(0+1); Electrophysiology(0+1); Computation(0+1); Model(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
JHU010012Baltimore, MD, USARejji Kuruvilla

JHU
【研究方向】Development(0+4); Axon(0+2); Form(0+2); Signal transduction(0+1); Trafficking(0+1); Dendritic growth(0+1); Dendrite(0+1); Synapse formation(0+1); Morphology(0+1); Imaging(0+1);
【模式生物】Mouse(0+1);
【方法技术】
【简述】Developmental Neuroscience; Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAAndrew M. Wikenheiser

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

Yale
【研究方向】Body(0+3); Disease(0+2); Imaging(0+2); Regulation(0+1); Environment(0+1); Sense(0+1);
【模式生物】
【方法技术】Gene(0+2); In vivo(0+1); Anatomy(0+1); Tracing(0+1); Behavior(0+1); Optogenetics(0+1);
【简述】Cardiovascular System; Cranial Nerves; Heart; Neural Pathways; Physiology; Vagus Nerve; Peripheral Nervous System; Ganglia, Sensory; Optogenetics.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USADavid A. Hafler

Yale
【研究方向】Sclerosis(0+2); Neurology(0+1); HIV(0+1); Neuroimmunology(0+1);
【模式生物】
【方法技术】
【简述】Acquired Immunodeficiency Syndrome; Genetics; HIV; Immune System; Multiple Sclerosis; Neurology; Autoimmunity.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAG. Stanley McKnight

UW
【研究方向】Signal transduction(0+2); Neurotransmitter(0+1); Transporter(0+1); LTP(0+1); Neural Circuit(0+1); Sense(0+1); Memory(0+1); Learning(0+1); Energy balance(0+1); Hypothalamus(0+1);
【模式生物】Mouse(0+2);
【方法技术】Gene(0+3);
【简述】Cell and Molecular Neuroscience;  Neural Circuits; Neuroendocrinology Neurotransmitters; Modulators; Transporters and Receptors Sensory Systems
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USAMohamed Farah

JHU
【研究方向】Regeneration(0+12); Axon(0+11); Disease(0+6); Motor(0+5); Motor Neuron(0+4); Muscle(0+4); Degeneration(0+3); Injury(0+2); Receptor(0+1); APP(0+1); Tumor(0+1); Sclerosis(0+1); Body(0+1);
【模式生物】Mouse(0+4); Rodent(0+4); Human(0+3);
【方法技术】Model(0+4); Gene(0+3); Pharmacology(0+3); Protein(0+1); Behavior(0+1); Electrophysiology(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
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
JHU010012Baltimore, MD, USAShreesh Mysore

JHU
【研究方向】Cognition(0+3); Attention(0+3); Dysfunction(0+1); Psychiatric disorder(0+1); ADHD(0+1); Autism(0+1); Schizophrenia(0+1); Neural Circuit(0+1); Decision making(0+1);
【模式生物】
【方法技术】Computation(0+3); Behavior(0+1);
【简述】Neural Circuits, Ensembles + Connectomes; Systems, Cognitive + Computational Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USAJohn Flanagan

Harvard
【研究方向】Development(2+5); Disease(5+1); Connection(0+5); Regeneration(0+4); Axon(0+4); Axon guidance(0+3); Injury(0+3); Mutant(2+0); Receptor(0+2); Membrane(2+0); Plasticity(0+2); Translation(0+2); Therapy(2+0); APP(2+0); Regulation(0+1); Glia(0+1); Cell line(1+0); Trafficking(1+0); Synapse(0+1); Disorder(1+0); Degeneration(0+1); Infection(1+0); Motor(1+0); Metabolism(1+0); Imaging(0+1);
【模式生物】Human(4+0); Mouse(3+0);
【方法技术】Pharmacology(6+0); Protein(2+2); Model(2+1); Gene(0+2); In vivo(1+1); Biochemistry(1+0); Cell culture(0+1); Computation(0+1);
【简述】Cell-cell signaling in development and regeneration of axonal connections
【研究论文】Nature(1); Cell(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gerald Maurice Edelman, Philip LederHwai-Jong Cheng, Ming-Ko Chiang, Mitsuharu Hattori, Michael J. Hansen, Perry A. Brittis, Edna E. Sun, Alan P. Tenney, Miriam E. Osterfield, Yao Chen, Dan W. Nowakowski, Qiang Lu, Masaru Nakamoto, Pierre Vanderhaeghen, David A. FeldheimYears: 2016 — 2019; Recipients: Flanagan, John G; Code: R01; Title/Keywords: Molecular Mechanisms of Neuron Motility and Axon Guidance@ Harvard Medical School; Matching Score: 0.958001402Prof.
Stanford002003Palo Alto, CA, USATrevor Hastie

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

WUSTL
【研究方向】Circadian clock(4+3); Disease(5+1); Stress(3+3); Neurology(3+0); Aging(1+2); Biomarker(3+0); Regulation(1+1); Alzheimer's disease(2+0); Tau(2+0); Circadian(1+1); Sleep(2+0); Bmal1(1+0); Rhythm(1+0); Synapse(0+1); Neurodegenerative disease(1+0); Pathology(1+0); Pathogenesis(1+0); Alzheimer's(1+0); Neurotoxicity(1+0); Injury(0+1); Timing(1+0); Metabolism(0+1); Imaging(1+0); Connection(0+1);
【模式生物】Mouse(0+2); Human(1+0);
【方法技术】In vivo(3+0); MRI(3+0); Model(0+2); Gene(1+0); Protein(0+1); Biochemistry(1+0); In vitro(1+0); Pharmacology(1+0);
【简述】Molecular mechanisms of neurodegeneration, with interest in circadian clock genes and oxidative stress
【研究论文】Nature(1); Science(2); Nature Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003365Assist Prof.
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.
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.
UCLA011013Los Angeles, CA, USARoselinde H. Kaiser

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

NIH-NEI
【研究方向】Vision(11+6); Eye Movement(10+4); Attention(3+1); Cognition(2+1); Perception(2+1); Visual motion(1+1); Motor control(0+2); Modulation(1+0); Structure(0+1); Oscillation(1+0); Sense(0+1); Object(0+1); Spatial attention(1+0); Motor(1+0); Cerebellum(0+1);
【模式生物】Monkey(4+0); Primate(3+0); Human(2+0);
【方法技术】Computation(2+1); Model(2+0); Behavior(1+0); Psychophysics(0+1); Computational Model(0+1);
【简述】
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stephen G. Lisberger, Frederick A. Miles, Robert H. WurtzChristopher D. Carello, Dorion Liston, Lee P. Lovejoy, Shaun Patrick Mahaffy, Samuel Uno Nummela, Leanne Chukoskie, Laurent Madelain, Ziad M. Hafed, Kristina J. Nielsen, James P. Herman, Lupeng Wang, Leor Katz, Gongchen Yu, Garth A. Fowler, Anushree KarkhanisLaurent GoffartYears: 2011 — 2012; Recipients: Callaway, Edward M (co-PI) [⬀] Krauzlis, Richard JReynolds, John H [⬀] ; Code: R21; Title/Keywords: Optogenetic Tools to Selectively Activate Projection Neurons in Awake Primate@ Salk Institute For Biological Studies; Matching Score: 0.922006157
Yale014011New Haven, CT, USAMarcelo Dietrich

Yale
【研究方向】Hypothalamus(0+2); Plasticity(0+1); Synaptic Plasticity(0+1); Disease(0+1); Disorder(0+1); Body(0+1); Exploration(0+1); Energy balance(0+1); Neuroendocrinology(0+1); Energy metabolism(0+1); Dynamics(0+1);
【模式生物】Mouse(0+1);
【方法技术】Behavior(0+5); Gene(0+2); Electrophysiology(0+1); Model(0+1);
【简述】Alzheimer Disease; Animals; Behavior and Behavior Mechanisms; Mental Disorders; Hypothalamus; Mental Health; Nervous System; Neurobiology; Neurosciences; Obesity; Synapses.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USATodd Gureckis

NYU
【研究方向】Cognition(12+0); Learning(11+1); Category(4+0); Environment(3+0); Memory(2+1); Decision making(3+0); Structure(1+0); Cognitive neuroscience(1+0); Perception(1+0); Concept(1+0); Exploration(1+0);
【模式生物】
【方法技术】Behavior(7+0); Model(2+0); fMRI(1+0); Computation(1+0); Mathematics(1+0);
【简述】Memory, learning, and decision processes behind intelligent and adaptive behaviors
【研究论文】Science(7);
【综述】Psychological Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard Hallworth, Bradley C. Love, Robert Lee Goldstone, Robert M. NosofskyLisa Zaval, Nathaniel J. Blanco, Carol Jew, Jay B. Martin, Alexander Rich, David Halpern, Anselm Rothe, Jerad Fields, Mordechai Z. Juni, Douglas B. Markant, John McDonnell, Anna Coenen, Ili Ma, Shannon Tubridy, Neil Bramley, George KachergisYears: 2016 — 2019; Recipients: Gureckis, ToddDavachi, Lila (co-PI) [⬀] ; Code: N/A; Title/Keywords: Ncs-Fo: Using Computational Cognitive Neuroscience to Predict and Optimize Memory@ New York University; Matching Score: 0.915003258Assoc Prof.
Stanford002003Palo Alto, CA, USASean Mackey

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

WUSTL
【研究方向】Stroke(7+5); Disease(1+4); Brain injury(1+3); Peptide(1+2); Therapy(0+3); APP(0+3); Ischemia(2+1); Plasticity(0+2); Injury(0+2); Blood flow(1+1); Vessel(0+2); Synaptic Plasticity(1+0); Trafficking(0+1); Neurology(1+0); Vulnerability(1+0); Pediatric(1+0); Sense(1+0); Vision(1+0); Form(0+1); Social(1+0); Metabolism(0+1); Resting state(1+0); Imaging(0+1); Neuroimaging(0+1); Optical Neuroimaging(0+1); White matter(0+1);
【模式生物】Mouse(2+2); Human(0+2);
【方法技术】Gene(0+4); Model(0+2); Protein(0+1); In vivo(0+1); In vitro(0+1); Cell culture(0+1); Behavior(1+0); Electrophysiology(0+1); Microscopy(0+1); Algorithm(1+0);
【简述】Pathogenesis of amyloid fibrils and amyloid plaques in AD mouse models
【研究论文】Nature(1); Cell(3); Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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.
Stanford002003Palo Alto, CA, USAVictor W Henderson

Stanford
【研究方向】Cognition(7+3); Disease(3+0); Alzheimer's disease(3+0); Neurology(2+0); Parkinson's disease(2+0); Stroke(2+0); Metabolism(2+0); Respiratory(2+0); Epilepsy(1+0); Disorder(1+0); Aging(0+1); Alzheimer's(1+0); ApoE(1+0); Movement disorder(1+0); Episodic memory(1+0); Timing(1+0); Hormone(1+0); Stress(1+0); Cardiovascular(1+0);
【模式生物】Human(1+1);
【方法技术】Virus(1+0);
【简述】
【研究论文】PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2015 — 2018; Recipients: Henderson, Victor [⬀] ; Code: P50; Title/Keywords: Stanford Alzheimer's Disease Research Center@ Stanford University; Matching Score: 0.915Prof.
WUSTL009032Saint Louis, MO, USAHarold Burton

WUSTL
【研究方向】Somatosensory(10+0); Sense(2+2); Vision(0+4); Speech(0+4); Visual cortex(0+4); Touch(1+2); Auditory(1+1); Language(0+2); Auditory cortex(1+1); Structure(1+0); Plasticity(0+1); Neurology(1+0); Body(1+0); Pain(1+0); Auditory processing(0+1); Sound localization(0+1); Spectral(0+1); Memory(1+0); Learning(0+1); Attention(1+0); Semantic(0+1); Blood flow(1+0); Dynamics(0+1); Resting state(1+0); Imaging(0+1); Motor cortex(1+0); Thalamus(1+0);
【模式生物】Human(6+0); Monkey(3+0); Primate(3+0); Macaque(1+0);
【方法技术】fMRI(3+2); MRI(0+1);
【简述】Neuroimaging studies of adaptive plasticity in people with sensory deficits
【研究论文】Nature(1); Science(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Robert M. BenjaminJohn R. Pruett, Jason R. Wingert, Kevin D. Alloway, Krish SathianEdward G. JonesYears: 1999 — 2009; Recipients: Burton, Harold; Code: R01; Title/Keywords: Braille Reading &Adaptive Plasticity in the Human Brain@ Washington University; Matching Score: 1017180Prof.
Stanford002003Palo Alto, CA, USAJulia Kaltschmidt

Stanford
【研究方向】Development(2+1); Sense(2+1); Interneuron(1+2); Motor Neuron(3+0); Neural Circuit(2+0); Dynamics(2+0); Glutamate(1+0); Structure(0+1); Transcription(1+0); Differentiation(0+1); Embryo(1+0); Synapse(1+0); Microcircuit(0+1); Neurodegenerative disease(1+0); Injury(1+0); Motor(1+0); Reflex(1+0); Muscle(1+0); Imaging(0+1); Connection(1+0);
【模式生物】Mouse(2+1); Human(0+1); Drosophila(1+0);
【方法技术】Protein(2+0); In vivo(1+1); Behavior(0+2); Gene(0+1); Anatomy(0+1); Model(0+1);
【简述】
【研究论文】Nature(3); Science(1); Cell(10); Neuron(3); JNS(4); PNAS(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
Andrea H. Brand, Thomas M. JessellSoha Ashrafi, Jeffrey Russ, Jarret A.P. Weinrich, Subhamoy Das, Michael MendeYears: 2013 — 2017; Recipients: Kaltschmidt, Julia Anna; Code: R01; Title/Keywords: Molecular Mechanisms Regulating Inhibitory Circuitry in the Spinal Cord@ Sloan-Kettering Inst Can Research; Matching Score: 0.963Assoc Prof.
Columbia006008New York, NY, USAMimi Shirasu-Hiza

Columbia
【研究方向】Circadian(3+7); Disease(0+8); Regulation(2+3); Rhythm(2+2); Dynamics(4+0); Development(2+1); Fragile X(3+0); Circadian clock(3+0); Sleep(1+2); Metabolism(1+2); Pathology(0+2); Infection(2+0); Oscillation(0+1); Epilepsy(0+1); Cell cycle(1+0); Mitochondria(0+1); Degeneration(0+1); Aging(0+1); Alzheimer's(0+1); Parkinson's(0+1); Huntington's(0+1); Bipolar(0+1); Schizophrenia(0+1); Learning and memory(0+1); Stress(1+0);
【模式生物】Drosophila(13+1); Xenopus(5+0); C. elegans(2+0); Human(0+1);
【方法技术】Protein(2+0); Behavior(2+0); Model(2+0);
【简述】Neurobiology of Learning and Memory; Neurogenetics; Neural Degeneration and Repair; Cellular/Molecular/Developmental Neuroscience; Circadian-regulated metabolism; Glial development and pathology; Sleep; Mitochondria biology and disease;
【研究论文】Nature(2); Science(1); Cell(10); Curr Biol.(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001319Assoc Prof.
CalTech072006Pasadena, CA, USAShinsuke Shimojo

CalTech
【研究方向】Vision(0+6); Cognition(0+2); Perception(0+2); Emotion(0+2); Development(0+1); Color(0+1); Face(0+1); Frequency(0+1); Eye Movement(0+1); Context(0+1); Decision making(0+1);
【模式生物】Human(0+1);
【方法技术】Psychophysics(0+2); TMS(0+2); Behavior(0+1); fMRI(0+1);
【简述】Psychophysics
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard M. Held, Ken NakayamaJonathan M. Malmaud, Alma Gharib, Neil S. Halelamien, Ikuya Murakami, Noelle R. B. Stiles, Takeo Watanabe, Tamara A. Knutsen, Ching E. Ho, Yukiyasu Kamitani, Katsumi Watanabe, Claudiu Simion, Ryota Kanai, Patricia A. Neil, Daw-An Wu, Dylan Nieman, Shao-Min Hung, Romi Nijhawan, Erik J. Schlicht, Ladan Shams, Bhavin Sheth, Kyongsik Yun, Junghyun Park, Michael Campos, Daw-An Wu, Virginie van Wassenhove, Shih-Wei Wu, Vikram S. Chib, Sang Wan Lee, Fumiko HoeftYears: 2018; Recipients: Ortiz, Michael (co-PI) [⬀] Shapiro, MikhailShimojo, ShinsukeTsao, Doris Ying (co-PI) [⬀] ; Code: RF1; Title/Keywords: Ultrasonic Neuromodulation: Establishing Mechanisms and Parameters to Optimize Targeted Neuromodulation and Control Sensory Side-Effects@ California Institute of Technology; Matching Score: 1Prof.
WUSTL009032Saint Louis, MO, USADavid M. Ornitz

WUSTL
【研究方向】Development(3+9); Injury(2+6); Receptor(2+4); Regeneration(0+5); Olfaction(1+4); Differentiation(0+3); Sense(0+3); Cardiovascular(0+3); Regulation(1+1); Sodium channel(0+2); Proliferation(1+1); Pathogenesis(1+1); Mutant(1+0); Seizure(0+1); Cell line(0+1); Cell lineage(0+1); Embryo(0+1); Branching(0+1); Aging(0+1); Dystonia(0+1); Pediatric(0+1); Cognition(0+1); Knowledge(0+1); Metabolism(0+1); Respiratory(0+1);
【模式生物】Mouse(0+3); Human(0+1);
【方法技术】Model(1+2); In vivo(0+2); Channel(0+1);
【简述】FGF signaling in cardiovascular, lung, skeletal, and inner ear development, injury response, and regeneration
【研究论文】Cell(3); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
MIT005002Boston, MA, USAWilliam Quinn

MIT
【研究方向】Learning(0+8); Mutant(0+4); Memory(1+3); Learning and memory(0+3); Long-term memory(0+3); Engineering(0+2); Transgenic(0+1); Neuropeptide(0+1); Peptide(0+1); Transcription(0+1); Form(0+1); Acquisition(0+1);
【模式生物】Drosophila(2+1);
【方法技术】Gene(1+6); Protein(1+0); Behavior(0+1);
【简述】Genetic and Molecular Studies of Learning and Memory in Drosophila
【研究论文】Nature Neuroscience(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Seymour BenzerKwang Wook Choi, Tim Tully, Scott WaddellYears: 1998 — 2000; Recipients: Quinn, William G; Code: R01; Title/Keywords: Cloning the Drosophila Radish Gene@ Massachusetts Institute of Technology; Matching Score: 0.915Prof.
WUSTL009032Saint Louis, MO, USAIlya E. Monosov

WUSTL
【研究方向】Modulation(0+1); Anxiety(0+1); Vision(1+0); Motor(0+1); Learning and memory(0+1); Decision making(0+1); Emotion(0+1); Reward(1+0); Imaging(0+1); PFC(1+0); mPFC(1+0); Caudate(1+0);
【模式生物】Primate(2+0); Monkey(1+0);
【方法技术】Behavior(0+4); Anatomy(0+1); Tracing(0+1); MRI(1+0); Optogenetics(0+1);
【简述】Study of the neuronal circuits involved in uncertainty-processing
【研究论文】Nature Neuroscience(1); Neuron(1); JNS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ursula Bellugi, David L. Sheinberg, Kirk G. Thompson, Okihide HikosakaYears: 2019; Recipients: Monosov, Ilya E.; Code: R01; Title/Keywords: Mechanisms of Information Seeking in the Primate Brain@ Washington University; Matching Score: 0.913Assist Prof.
UCLA011013Los Angeles, CA, USALarry F. Hoffman

UCLA
【研究方向】Vestibular(0+7); Receptor(0+3); CNS(0+3); Regeneration(0+2); Disorder(0+1); Sense(0+1);
【模式生物】
【方法技术】Anatomy(0+1); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USATodd P. Coleman

UCSD
【研究方向】Systems Neuroscience(0+1);
【模式生物】
【方法技术】
【简述】 Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAAllison Okamura

Stanford
【研究方向】Robot(10+2); Environment(3+4); Sense(3+0); Perception(2+0); Cardiovascular(2+0); Engineering(2+0); Development(1+0); Therapy(1+0); Vision(1+0); Motor learning(1+0); Planning(1+0); Muscle(1+0); Navigation(1+0); Social(1+0); Exploration(0+1);
【模式生物】Human(0+1);
【方法技术】Model(7+2); Simulation(1+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
014893Prof.
Stanford002003Palo Alto, CA, USAManish Saggar

Stanford
【研究方向】Creativity(12+0); Disorder(4+0); Psychiatry(1+3); Fragile X(3+1); Bipolar(4+0); Neural network(4+0); Attention(3+0); Social(3+0); Dynamics(0+3); Neuroimaging(2+1); Development(0+2); Learning(1+1); Connectomics(2+0); Psychiatric disorder(0+1); Cognition(1+0); Artificial Neural network(1+0); Imaging(1+0); Robot(1+0);
【模式生物】Human(4+0);
【方法技术】Behavior(7+1); Model(3+4); Computation(2+4); fMRI(5+0); EEG(4+0); fNIRS(2+0); Data analysis(2+0); Gene(1+0); Mathematics(0+1);
【简述】
【研究论文】Nature Communications(1); Cerebral Cortex(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Risto Miikkulainen, Clifford Saron, David Schnyer, Allan ReissYears: 2018; Recipients: Saggar, Manish; Code: DP2; Title/Keywords: Only Time Will Tell: a Computational Psychiatry Approach to Model Temporal Transitions in Brain Activity as a Lens Towards Developing Better Diagnostic Nosology For Psychiatric Illness@ Stanford University; Matching Score: 1000587Assist Prof.
JHU010012Baltimore, MD, USAAndrew Jaffe

JHU
【研究方向】Development(0+2); Disease(0+1); Disorder(0+1); Psychiatry(0+1); Aging(0+1); Methodology(0+1);
【模式生物】Human(0+4); Stem Cell(0+1);
【方法技术】Computation(0+2);
【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
NIH-NIMH??Bethesda, MD, USAKuan Hong Wang

NIH-NIMH
【研究方向】Sense(3+1); Touch(4+0); Dopamine(3+0); Development(2+1); Vision(3+0); Social(0+3); Imaging(2+1); Axon guidance(2+0); Psychiatric disorder(1+1); Depression(1+1); Schizophrenia(1+1); Neural Circuit(1+1); Cognition(1+1); Neuropathic pain(2+0); Visual cortex(2+0); Metabotropic glutamate receptor(1+0); Glutamate receptor(1+0); Plasticity(1+0); Oscillation(1+0); Dopamine neuron(1+0); Proliferation(1+0); Environment(0+1); Sensory experience(1+0); Axon(1+0); Branching(1+0); Disorder(0+1); Therapy(1+0); Psychiatry(1+0); Infection(1+0); Addiction(0+1); Somatosensory(1+0); Pain(1+0); Motor learning(1+0); Memory(1+0); Context(0+1); Exploration(1+0); Optical(0+1); Motor cortex(1+0); Supplementary motor cortex(1+0); PFC(1+0); CA1(1+0);
【模式生物】Mouse(3+4); Monkey(1+0);
【方法技术】Behavior(1+5); Gene(3+1); In vivo(2+1); Protein(1+0); Anatomy(1+0); Electrophysiology(0+1); Optogenetics(1+0); Pharmacology(0+1); Model(0+1);
【简述】Unit on Neural Circuits and Adaptive Behaviors
【研究论文】Nature(1); Cell(1);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003443
Stanford002003Palo Alto, CA, USATina Hernandez-Boussard

Stanford
【研究方向】Pain(7+0); Cell line(3+0); Tumor(3+0); Machine learning(2+0); Environment(1+0); Spine(1+0); Degeneration(1+0); Analgesics(1+0); Language(1+0); Knowledge(1+0); Engineering(1+0);
【模式生物】Human(4+0);
【方法技术】Gene(8+0); Microarray(6+0); Computation(0+1); Model(1+0);
【简述】
【研究论文】Science(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
013690Assoc Prof.
Harvard001001Boston, MA, USANadine Gaab

Harvard
【研究方向】Development(14+7); Dyslexia(13+1); Language(3+3); Plasticity(3+1); Cognition(2+2); White matter(4+0); Cognitive neuroscience(1+2); Auditory(2+1); Auditory processing(3+0); Memory(3+0); Executive function(3+0); Environment(1+1); Pediatric(1+1); Vision(2+0); Form(2+0); Learning(1+1); Neuroimaging(1+1); Structure(1+0); Neurology(1+0); ADHD(1+0); Perception(1+0); Face(1+0); Motor(1+0); Temporal processing(1+0); Speech(1+0); Emotion(1+0); Sleep(1+0); Neural network(1+0); Auditory cortex(1+0);
【模式生物】Human(4+1);
【方法技术】fMRI(5+1); Behavior(5+0); Gene(0+1); Anatomy(1+0); MRI(0+1); Theory(1+0);
【简述】Developmental cognitive neuroscience and pediatric neuroimaging with a special focus on language-based learning disabilities
【研究论文】Nature Neuroscience(1);
【综述】Trends In Neurosciences(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gottfried Schlaug, Paula Tallal, John D.E. GabrieliElizabeth S. Norton, Christopher BenjaminYears: 2016 — 2018; Recipients: Gaab, NadineGrant, Patricia Ellen; Code: R01; Title/Keywords: Examining Neural Mechanisms of Developmental Dyslexia From Infancy to School-Age@ Children's Hospital Corporation; Matching Score: 0.901004934Assoc Prof.
UCSD011017San Diego, CA, USAYishi Jin

UCSD
【研究方向】Synapse(0+4); Development(0+2); Regeneration(0+2); Synaptogenesis(0+2); Neurotransmitter(0+1); Signal transduction(0+1); Receptor(0+1); Structure(0+1); Neurotransmitter release(0+1); Axon guidance(0+1); Connection(0+1);
【模式生物】C. elegans(0+3);
【方法技术】Biochemistry(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAOlav Solgaard

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

WUSTL
【研究方向】Pain(27+6); Neuropathic pain(5+2); Therapy(2+1); Development(2+0); Disease(0+2); Headache(2+0); Anesthesia(1+0); Neurology(1+0); Therapeutics(1+0); Parkinson's disease(1+0); Stroke(0+1); Sclerosis(0+1); Sense(1+0); Musculoskeletal pain(1+0); Art(0+1);
【模式生物】Human(1+0);
【方法技术】Ex vivo(1+0); Pharmacology(1+0); Model(1+0);
【简述】Dr. Haroutounian studies neuropathic pain with a focus on determining individual predictors of treatment response to analgesic pharmacotherapy.
【研究论文】
【综述】Review(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002814Assist Prof.
Stanford002003Palo Alto, CA, USAHsi-Yang Wu

Stanford
【研究方向】Pediatric(13+0); Development(2+0); Pathology(2+0); Astrocyte(1+0); Transplantation(1+0); Disease(1+0); Therapeutics(1+0); Therapy(0+1); Infection(1+0); Perinatal(1+0); Tumor(1+0); Muscle(1+0);
【模式生物】Rat(5+0);
【方法技术】Protein(1+0); MRI(0+1); Pharmacology(1+0);
【简述】
【研究论文】Nature(1); Science(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2004 — 2006; Recipients: Wu, Hsi-Yang; Code: K08; Title/Keywords: Afferent Signaling in Voiding Reflex Maturation@ University of Pittsburgh At Pittsburgh; Matching Score: 0.954Assoc Prof.
MIT005002Boston, MA, USAKwanghun Chung

MIT
【研究方向】Imaging(6+0); Development(5+0); Regulation(2+0); Cognition(2+0); Dynamics(2+0); Connection(2+0); Differentiation(1+0); Disease(1+0); Dysfunction(0+1); Vision(1+0); Temperature(1+0);
【模式生物】C. elegans(2+0); Human(1+0); Mouse(1+0);
【方法技术】Gene(3+0); Microscopy(3+0); Computation(2+0); Statistics(2+0); Protein(1+0); Behavior(0+1); Model(1+0);
【简述】
【研究论文】Nature(2); Science(1); Cell(2); Nature Methods(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Hang LuSung-Yon Kim003200Assist Prof.
Stanford002003Palo Alto, CA, USADaniel Jarosz

Stanford
【研究方向】Environment(1+4); Stress(1+3); Acquisition(0+3); Disease(1+1); Metabolism(2+0); Amino acid(1+0); Development(1+0); Methodology(0+1); Imaging(0+1); Evolutionary(1+0);
【模式生物】
【方法技术】Gene(4+3); Protein(3+2); Biochemistry(2+1);
【简述】
【研究论文】Nature(2); Science(2); Cell(6); Nature Communications(1); PNAS(1); eLife(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Rachel E. Klevit, Graham C. Walker, Susan L. LindquistShady Saad, Jing Lin Lucy Xie, José Aguilar-RodríguezYears: 2017; Recipients: Brunet, Anne [⬀] Jarosz, Daniel; Code: RF1; Title/Keywords: Discovery of Protein Aggregates During Vertebrate Aging and Neurodegeneration@ Stanford University; Matching Score: 1Assist Prof.
UCSF003015San Francisco, CA, USAArturo Alvarez-Buylla

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

JHU
【研究方向】Vision(0+5); Retina(0+2); Plasticity(0+1); Neural Circuit(0+1); Cognition(0+1); Optical imaging(0+1);
【模式生物】Primate(0+2); Human(0+1);
【方法技术】Anatomy(0+1); Electrophysiology(0+1); Computation(0+1);
【简述】Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAFelix E. Schweizer

UCLA
【研究方向】Regulation(0+2); Structure(0+1); Neurotransmitter release(0+1); Synaptic Transmission(0+1); Synapse(0+1); Sense(0+1); Hair cell(0+1); Vestibular(0+1); Optical(0+1);
【模式生物】Drosophila(0+1);
【方法技术】Protein(0+1); Biochemistry(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
JHU010012Baltimore, MD, USAPete Calabresi MD

JHU
【研究方向】Disease(0+3); Demyelinating(0+2); Glial cell(0+1); Differentiation(0+1); CNS(0+1); Injury(0+1); Trauma(0+1); Sclerosis(0+1);
【模式生物】Mouse(0+3);
【方法技术】Model(0+4); In vivo(0+1); In vitro(0+1);
【简述】Neurobiology of Disease; Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIDCR??Bethesda, MD, USAEva Mezey

NIH-NIDCR
【研究方向】Receptor(6+1); Differentiation(1+3); Transporter(3+0); Peptide receptor(2+0); Proliferation(1+1); Transplantation(2+0); Knockout(1+0); Regulation(1+0); Neuropeptide(1+0); Dopamine(1+0); 5-HT(1+0); Histamine(1+0); Microglia(1+0); Reprogramming(1+0); Dendrite(1+0); Spine(1+0); Disease(1+0); Parkinson's disease(1+0); Cannabinoids(1+0); Form(1+0); Social(1+0); Neuroendocrinology(1+0); Paraventricular nucleus(1+0);
【模式生物】Stem Cell(11+6); Mouse(6+0); Human(4+0); Rat(4+0);
【方法技术】Histochemistry(4+0); Gene(2+0); In vivo(1+0); Pharmacology(1+0); Computation(1+0); Model(1+0);
【简述】
【研究论文】Nature(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
025403
Stanford002003Palo Alto, CA, USAGarry Gold

Stanford
【研究方向】Imaging(19+7); Biomechanics(3+1); Muscle(3+1); Disease(2+0); Metabolism(2+0); Disorder(1+0); Degeneration(1+0); Pathology(0+1); Therapy(1+0); Contrast(1+0); Pain(1+0); Exercise(1+0); Learning(1+0); Acquisition(1+0); Stress(1+0); Encoding(1+0); Regularization(1+0); Engineering(1+0);
【模式生物】Human(1+0);
【方法技术】MRI(20+2); Model(2+1); In vivo(2+0); PET(1+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2015 — 2018; Recipients: Gold, Garry E; Code: R01; Title/Keywords: Weight-Bearing Imaging of the Knee Using C-Arm Ct@ Stanford University; Matching Score: 0.958014140Prof.
Yale014011New Haven, CT, USAMichael Nitabach

Yale
【研究方向】Ion Channel(0+3); Decision making(0+3); Transgenic(0+1); Peptide(0+1); Neural Circuit(0+1); Sleep(0+1); Energy metabolism(0+1); Imaging(0+1);
【模式生物】Drosophila(0+2); C. elegans(0+2);
【方法技术】Behavior(0+3); Channel(0+2); Gene(0+1); Optogenetics(0+1); Computation(0+1); Model(0+1);
【简述】Behavior, Animal; Decision Making; Genetics; Ion Channels; Neuropeptides; Neurophysiology; Neurotoxins; Physiology.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USANigam H Shah

Stanford
【研究方向】Disease(2+1); Decision making(1+2); Learning(2+0); Cardiovascular(2+0); LTD(1+0); Dysfunction(1+0); Biomarker(1+0); Pediatric(1+0); Concept(0+1); Knowledge(0+1); Respiratory(1+0); Machine learning(0+1); Artificial intelligence(1+0);
【模式生物】
【方法技术】Model(1+2); Gene(1+1); Statistics(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
Assoc Prof.
Harvard001001Boston, MA, USASusan Dymecki

Harvard
【研究方向】Development(4+2); 5-HT(2+0); Disorder(0+2); Pathogenesis(2+0); Inhibitory control(2+0); Emotion(1+1); Raphe(2+0); Modulation(0+1); Plasticity(0+1); Transcription(1+0); Glia(0+1); Microglia(1+0); Synapse(1+0); Dysfunction(1+0); Therapeutics(0+1); Hemorrhage(1+0); Stroke(1+0); Depression(0+1); Neural Circuit(1+0); Homeostatic(1+0); Respiratory(1+0); Dynamics(1+0); Imaging(0+1);
【模式生物】Mouse(4+1);
【方法技术】Gene(1+3); Behavior(1+2); Electrophysiology(0+2); Protein(1+0); Cell culture(0+1); Computation(0+1); Model(1+0);
【简述】Specialization in the Serotonin System Shapes Behavior and Regulates Homeostasis
【研究论文】Neuron(3); JNS(2); eLife(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stephen V. DesiderioRachael D. Brust, Ryan T. Dosumu-Johnson, Rajeshwar Awatramani, Patricia (Tricia) Jensen, Benjamin Okaty, Junchul Kim, Abhishek Mukhopadhyay, Vera Niederkofler, Yasmin Escobedo-Lozoya, Giacomo MaddaloniYears: 2015 — 2017; Recipients: Dymecki, Susan M.; Code: P01; Title/Keywords: The Ventral Medulla and the Sudden Infant Death Syndrome@ Harvard Medical School; Matching Score: 1Prof.
UCLA011013Los Angeles, CA, USAIgor Spigelman

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, USAMichelle G. Craske

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, USAWarren S. Grundfest

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

UCLA
【研究方向】Tumor(0+4); Therapy(0+1);
【模式生物】
【方法技术】Anatomy(0+1); Pharmacology(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAShafali Spurling Jeste

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, USAXiangdong William Yang

UCLA
【研究方向】Transgenic(0+3); Disease(0+2); Psychiatry(0+2);
【模式生物】Human(0+2); Mouse(0+1);
【方法技术】Gene(0+2); Model(0+2); Biochemistry(0+1); Biophysics(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, USALori Zeltser

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

NIH-NIDCD
【研究方向】Metabolism(6+0); Neurology(5+0); Vision(5+0); Face(4+0); Neuroimaging(3+1); Psychiatry(2+0); Age-related(2+0); Alzheimer's disease(2+0); Neural Circuit(2+0); Cognition(1+1); Striate cortex(2+0); Extrastriate cortex(2+0); Object(2+0); Auditory(2+0); Short-term memory(2+0); Language(1+1); Concept(2+0); Encoding(2+0); Auditory cortex(2+0); Dopamine(1+0); Structure(1+0); Plasticity(0+1); Disorder(0+1); Dyslexia(1+0); Autism(1+0); Aging(1+0); Sense(1+0); Memory(1+0); Retrieval(1+0); Attention(1+0); Working memory(1+0); Executive control(1+0); Speech(1+0); Blood flow(1+0); Neural network(0+1); Imaging(1+0); Angular gyrus(1+0); White matter(1+0);
【模式生物】Human(7+0); Macaque(1+0);
【方法技术】Model(5+2); fMRI(4+1); PET(4+1); MEG(3+1); Behavior(1+1); Computation(1+1); In vivo(1+0); Anatomy(1+0); MRI(1+0); Simulation(1+0);
【简述】
【研究论文】PLoS Biol.(1); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanley I. Rapoport, Gino C. SegreArpan Banerjee, Paul Corbitt, Yukiko Kikuchi, Jieun Kim, Qin Liu, Ajay S. Pillai, Feng Rong, Jason Smith, Malle A. Tagamets, Hung Thai-Van, Marina Papoutsi, Fatima Husain, Randy McIntosh, Antonio Ulloa, Jessica R GilbertYears: 2003 — 2018; Recipients: Horwitz, Barry; Code: Z01ZIA; Title/Keywords: Brain Imaging and Modeling@ Deafness &Other Communication Disorders; Matching Score: 1025121
UCLA011013Los Angeles, CA, USAAaron P. Blaisdell

UCLA
【研究方向】Cognition(0+4); Learning(0+2); Vision(0+1); Visual cognition(0+1); Memory(0+1);
【模式生物】Human(0+2); Rat(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
Columbia006008New York, NY, USACharles Zuker

Columbia
【研究方向】Taste(7+1); Receptor(3+0); Sense(1+2); Environment(1+0); Synapse(0+1); Vision(0+1); Touch(0+1); Olfaction(0+1); Stress(1+0); Imaging(0+1);
【模式生物】Mouse(1+0);
【方法技术】Gene(0+1); Model(0+1);
【简述】Brain Imaging; Sensory Physiology; Neurogenetics; Synapses and Circuits;
【研究论文】Nature(6); Science(1); Cell(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvey  F. Lodish, Gerald M. RubinDaniel Eskenazi, Sangyu Xu, Liz Baker, Denise Malicki, Barbara A. Niemeyer, Suzanne Rutherford, Kristin Scott, Dean Smith, Mark Stamnes, Rama Ranganathan, Louisa Wu, Aarron T. Willingham, Kenneth L. Mueller, Yifeng Zhang, Grace Q. Zhao, Greg Nelson, Angela L. Huang, Tyler A. Ofstad, David A. Yarmolinsky, Elliot Adler, Annett Behn-Krappa, Steve Britt, Aaron Cassill, Nansi Jo Colley, Patrick Dolph, Monica Gorman, Maurice Kernan, Hojoon Lee, Jürgen Lindemeier, Brian Ondek, David Schultz, Bih-Hwa Shieh, Susan Tsunoda, Javier Vinos, Andy Zelhof, Jayaram Chandrashekar, Marco Gallio, Dimitri Trankner, Lindsey J. Macpherson, Li Wang, Jairaj K. Acharya, Tomer Avidor-Reiss, Andrew  C. Zelhof, Faisal N. Zaidi, Boaz Cook, Xiaoke ChenMariana WolfnerYears: 2013 — 2017; Recipients: Zuker, Charles S; Code: R01; Title/Keywords: Brain Circuits Mediating Motivated Behaviors@ Columbia University Health Sciences; Matching Score: 1Prof.
UCSF003015San Francisco, CA, USAAdam Gazzaley

UCSF
【研究方向】Modulation(0+14); Attention(0+12); Cognition(0+10); Aging(0+7); Disease(0+4); Memory(0+4); Working memory(0+3); Network Interaction(0+2); Sense(0+2); Neural network(0+2); Development(0+1); Environment(0+1); Age-related(0+1); Cognitive neuroscience(0+1); Vision(0+1); Episodic memory(0+1); Imagery(0+1); Encoding(0+1); Dynamics(0+1); Imaging(0+1); Connection(0+1); PFC(0+1);
【模式生物】Human(0+1);
【方法技术】fMRI(0+4); EEG(0+3); TMS(0+2); MRI(0+1); Pharmacology(0+1);
【简述】Neural Mechanisms of Attention and Memory
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USAMichela Gallagher

JHU
【研究方向】Memory(0+7); Neural Circuit(0+5); Aging(0+3); Cognition(0+3); Encoding(0+2); Signal transduction(0+1); Plasticity(0+1); Disease(0+1); Attention(0+1); PFC(0+1); Amygdala(0+1); Basal forebrain(0+1);
【模式生物】Rat(0+4); Rodent(0+2); Human(0+1);
【方法技术】Behavior(0+3); Computation(0+1); Model(0+1);
【简述】Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; Cellular + Molecular Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAShaul Yogev

Yale
【研究方向】Synapse(0+2); Body(0+2); Axonal transport(0+1); Dendrite(0+1); Disease(0+1); Dysfunction(0+1); Aging(0+1); Motor Neuron(0+1);
【模式生物】C. elegans(0+1);
【方法技术】Protein(0+1); Model(0+1);
【简述】Axonal Transport; Cell Biology; Cytoskeleton; Neurons; Synapses; Motor Neuron Disease.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
CalTech072006Pasadena, CA, USADoris Tsao

CalTech
【研究方向】Face(7+0); Color(3+0); Face perception(1+2); Temporal lobe(3+0); Neural Circuit(0+2); Contrast(2+0); Object recognition(0+2); Cognition(1+0); Vision(1+0); Striate cortex(1+0); Extrastriate cortex(1+0); Object(1+0); Neuroimaging(1+0); Frontal lobe(1+0); Visual cortex(1+0); Inferotemporal (IT) cortex(1+0); Posterior inferior temporal cortex(1+0);
【模式生物】Macaque(10+0); Human(3+0); Primate(1+1);
【方法技术】fMRI(3+0); Single-unit recording(1+0);
【简述】Neural circuits underlying face perception and object recognition in primates
【研究论文】Science(3); Cell(2); Nature Neuroscience(3); Neuron(4); JNS(2); Cerebral Cortex(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Margaret LivingstoneTamara A. Knutsen, Simon Kornblith, Janis Karan Hesse, Jialiang Lu, Shay Ohayon, Pinglei Bao, Trinity B. Crapse, Joseph B. Wekselblatt, Danique Jeurissen, Le ChangYears: 2018; Recipients: Ortiz, Michael (co-PI) [⬀] Shapiro, MikhailShimojo, Shinsuke (co-PI) [⬀] Tsao, Doris Ying; Code: RF1; Title/Keywords: Ultrasonic Neuromodulation: Establishing Mechanisms and Parameters to Optimize Targeted Neuromodulation and Control Sensory Side-Effects@ California Institute of Technology; Matching Score: 1005985Prof.
JHU010012Baltimore, MD, USASeth Blackshaw

JHU
【研究方向】Hypothalamus(0+8); Retina(0+6); Development(0+5); Photoreceptor(0+5); Transcription(0+3); Differentiation(0+3); CNS(0+3); Regulation(0+2); Structure(0+2); Glia(0+2); Neurogenesis(0+2); Cell fate(0+2); Body Weight(0+2); Glial cell(0+1); Embryo(0+1); Therapy(0+1); Neuroprotective(0+1); Neuroprotection(0+1); Contrast(0+1); Finger(0+1); Morphology(0+1); Circadian(0+1); Food Intake(0+1); Homeostatic(0+1); Median eminence(0+1);
【模式生物】Mouse(0+2); Human(0+1);
【方法技术】Gene(0+2); Protein(0+2); Behavior(0+1); Microarray(0+1); Pharmacology(0+1); Model(0+1);
【简述】Developmental Neuroscience; Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USALin Jiang

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, USAGilad Evrony

NYU
【研究方向】Development(4+1); Disease(2+1); Cell line(2+0); Cell lineage(2+0); Neurology(1+1); Proliferation(1+0); Differentiation(1+0); Psychiatry(0+1); Microcephaly(1+0); Cognition(1+0);
【模式生物】Human(11+2); Stem Cell(1+0);
【方法技术】Gene(2+3);
【简述】Genomics technologies for neuroscience and neuropsychiatric disease
【研究论文】Science(4); Cell(3); Neuron(2); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Chris A. Walsh001893Assist Prof.
Harvard001001Boston, MA, USACorey Harwell

Harvard
【研究方向】Development(1+3); Glia(3+0); Interneuron(1+2); Disorder(0+2); Cognition(0+2); Form(0+2); Regulation(1+0); Plasticity(0+1); Synapse formation(0+1); Synapse(0+1); Microcircuit(1+0); Therapy(0+1); Autism(0+1); Schizophrenia(0+1); Barrel cortex(1+0); Imaging(0+1); Connection(0+1);
【模式生物】Mouse(1+0); Stem Cell(1+0);
【方法技术】Tracing(0+2); Anatomy(0+1); Behavior(0+1); Electrophysiology(0+1);
【简述】Cellular and Molecular Mechanisms of Cortical Circuit Assembly
【研究论文】Nature Neuroscience(1); Neuron(3); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Elly Nedivi, Arnold R. KriegsteinYears: 2019; Recipients: Harwell, Corey C; Code: R56; Title/Keywords: Temporal Specification of Basal Forebrain Circuitry@ Harvard Medical School; Matching Score: 0.958Assist Prof.
Harvard001001Boston, MA, USAJeffrey Macklis

Harvard
【研究方向】Development(2+6); Disease(1+3); Motor Neuron(2+2); Differentiation(1+2); Regeneration(0+2); Axon(1+1); Sense(2+0); Somatosensory(2+0); Acquisition(2+0); Regulation(1+0); Plasticity(0+1); Glia(0+1); Neurogenesis(0+1); Pluripotent stem cells(1+0); Transplantation(1+0); Axon guidance(0+1); Dendrite(1+0); Degeneration(1+0); Vulnerability(0+1); Autism(0+1); Rett Syndrome(1+0); Aging(1+0); Neuromuscular(1+0); Injury(0+1); Spinal Cord Injury(0+1); Sclerosis(1+0); Motor(0+1); Stress(1+0); Encoding(1+0);
【模式生物】Stem Cell(2+1); Human(1+1); Mouse(2+0); Macaque(1+0);
【方法技术】Gene(1+2); In vivo(1+0); In vitro(0+1); Cell culture(0+1); Computation(0+1); Model(1+0);
【简述】Mammalian cerebral cortex– fundamental molecular development, neuronal diversity, development-maintenance of specific circuitry, degenerative diseases, regeneration
【研究论文】Nature Neuroscience(2); Neuron(4); JNS(2); Nature Communications(2); Cerebral Cortex(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard L. Sidman, Richard L. SidmanBrian A. Baldo, Kevin X. Liu, Ryan Richardson, Sara Shnider, Cameron Sadegh, Luciano Custo Greig, Alexander J. Murphy, Volney Sheen, Lisa A. Catapano, Sanjay Magavi, Bradley J. Molyneaux, Eiman Azim, Ryann Fame, Mollie Woodworth, Alexandros Poulopoulos, Noriyuki Kishi, U. Shivraj Sohur, Maria J. Galazo, Suzanne Tharin, Jessica MacDonald, Hari Padmanabhan, Thomas Wuttke, Seth L. Shipman, Omer Durak, Cynthia Hernit-Grant, Youzhen Wang, Blair Leavitt, Monte Gates, Rose Fricker-Gates, Jinhui Chen, Bartley Mitchell, Paola Arlotta, Jason G. Emsley, P. Hande Ozdinler, Denis Jabaudon, Kadir OzkanYears: 2018 — 2019; Recipients: Macklis, Jeffrey D; Code: R21; Title/Keywords: Novel Beam and R26-Beacon Recombinase-Based Systems For Mosaic Analysis of Gene Function@ Harvard University; Matching Score: 0.934Prof.
Stanford002003Palo Alto, CA, USAAllan L Reiss

Stanford
【研究方向】Disorder(2+3); Fragile X(4+1); Creativity(4+1); Development(2+2); Psychiatry(2+2); Cognition(3+1); Environment(1+2); Social(2+1); Neurology(1+1); Attention(2+0); Structure(0+1); Synchrony(1+0); Dysfunction(0+1); Autism(1+0); Executive function(0+1); Concept(0+1); Neuroimaging(0+1); Amygdala(1+0); limbic system(1+0); White matter(1+0);
【模式生物】Human(0+2);
【方法技术】Gene(3+2); Behavior(0+4); fMRI(2+0); fNIRS(1+0); Model(0+1); Data analysis(1+0); Statistics(0+1);
【简述】
【研究论文】Nature(1); Science(1); Nature Neuroscience(1); JNS(1); Nature Communications(1); PNAS(3); Cerebral Cortex(1);
【综述】Review(3); Nature Reviews Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Yale014011New Haven, CT, USAArthur Horwich

Yale
【研究方向】Mutant(0+2); Disease(0+2); Motor Neuron(0+2); Development(0+1); Neurodegenerative disease(0+1); Dysfunction(0+1); Sclerosis(0+1); Form(0+1);
【模式生物】Mouse(0+2); Human(0+1);
【方法技术】Protein(0+3); Model(0+1);
【简述】Amyotrophic Lateral Sclerosis; Genetics; Motor Neurons; Neurosciences; Pediatrics; Superoxide Dismutase; Protein Folding; Neurodegenerative Diseases.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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.
WUSTL009032Saint Louis, MO, USAGregory J. Zipfel

WUSTL
【研究方向】Stroke(8+1); Hemorrhage(4+1); Cerebrovascular(3+1); Peptide(2+1); Disease(1+2); Ischemia(2+1); Transgenic(2+0); Dysfunction(2+0); Therapeutics(0+2); Brain injury(2+0); Dynamics(2+0); Regulation(1+0); Glutamate(1+0); Potassium channel(1+0); CNS(1+0); Neurology(1+0); Alzheimer's(1+0); Alzheimer's disease(1+0); Tau(1+0); Injury(1+0); Cognition(1+0); Imaging(1+0);
【模式生物】Human(2+0); Mouse(2+0);
【方法技术】Protein(2+0); Channel(1+0); In vivo(1+0); In vitro(1+0);
【简述】Mechanisms and novel therapeutics for cerebral amyloid angiopathy and cerebral vasospasm
【研究论文】Nature(1); Science(1); Cell(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ananth K. VellimanaYears: 2015 — 2018; Recipients: Zipfel, Gregory J; Code: R25; Title/Keywords: Washington University Neurosurgery Resident Research Education Program@ Washington University; Matching Score: 1008385Assoc Prof.
Columbia006008New York, NY, USAUlrich Hengst

Columbia
【研究方向】Translation(11+3); Axon(8+5); Development(5+3); Regulation(4+0); Degeneration(2+1); Membrane(2+0); Reprogramming(2+0); Trafficking(2+0); Alzheimer's disease(0+2); Injury(0+2); Body(0+2); Hippocampus(2+0); NMDA receptor(1+0); Transcription(0+1); Dendrite(0+1); Synaptogenesis(0+1); Neurodegenerative disease(0+1); Neurodegenerative disorder(0+1); Pathogenesis(0+1); Therapy(1+0); Contrast(0+1); Context(0+1); Morphology(0+1); Respiratory(1+0);
【模式生物】Mouse(3+0); Human(1+0);
【方法技术】Protein(9+7); Gene(2+0); Virus(2+0); In vivo(1+1); Behavior(2+0); In vitro(0+1);
【简述】Neural Degeneration and Repair; Axon Pathfinding and Synaptogenesis; Cellular/Molecular/Developmental Neuroscience;
【研究论文】Nature(3); Cell(4); Nature Neuroscience(1); JNS(2); Nature Communications(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Denis Monard, Samie R. JaffreyJimena Baleriola, Nicole J. ShirkeyYears: 2018; Recipients: Hengst, Ulrich; Code: R01; Title/Keywords: A Transcription Factor Complex Specifically Induced in Neurodegeneration@ Columbia University Health Sciences; Matching Score: 1001768Assoc Prof.
UCLA011013Los Angeles, CA, USACarlos Portera-Cailliau

UCLA
【研究方向】Neurology(0+2); Development(0+1); Dysfunction(0+1); Autism(0+1); Fragile X(0+1); Sense(0+1); Learning(0+1); Learning and memory(0+1); Imaging(0+1);
【模式生物】
【方法技术】Biochemistry(0+1); In vivo(0+1); Electrophysiology(0+1); Two-photon calcium imaging(0+1); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USASabina Berretta

Harvard
【研究方向】Schizophrenia(26+4); Disorder(10+6); Bipolar(10+5); Psychiatry(13+1); Amygdala(8+4); Psychiatric disorder(2+2); Development(2+1); Synapse(1+2); Entorhinal cortex(3+0); Dopamine(2+0); GABA(2+0); Plasticity(2+0); Rhythm(1+1); Glia(0+2); Pathology(0+2); Psychoses(0+2); Circadian(1+1); Stress(2+0); PFC(2+0); Striatum(2+0); Transporter(1+0); Regulation(0+1); Glutamate(1+0); Receptor(1+0); Peptide(0+1); Structure(0+1); Synaptic Plasticity(1+0); Glial cell(0+1); Disease(0+1); Neurology(1+0); Anxiety(0+1); Neural Circuit(0+1); Olfaction(1+0); Concept(1+0); Emotion(0+1); Motor cortex(1+0); Hippocampus(1+0); Thalamic reticular nucleus(0+1); Hypothalamus(1+0);
【模式生物】Human(5+1); Rat(1+0); Rodent(1+0);
【方法技术】Gene(1+2); Protein(2+0); Cell culture(0+1); Model(1+0);
【简述】Extracellular matrix/neuron/glia interactions in the pathophysiology of schizophrenia and bipolar disorder.
【研究论文】JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2019; Recipients: Berretta, Sabina; Code: P50; Title/Keywords: Postmortem Studies of Crf-Pacap in Human Ptsd (Berretta)@ McLean Hospital; Matching Score: 0.907003877Assoc Prof.
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.
UCLA011013Los Angeles, CA, USANicholas C. Brecha

UCLA
【研究方向】Retina(0+5); Bipolar(0+4); Receptor(0+3); Peptide(0+2); Ion Channel(0+2); Vision(0+2); Regulation(0+1); Modulation(0+1); Amino acid(0+1); Opiate(0+1); Neuropeptide(0+1); Peptide receptor(0+1); Axon(0+1); Microcircuit(0+1); Photoreceptor(0+1); Morphology(0+1); CA2(0+1);
【模式生物】
【方法技术】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
Stanford002003Palo Alto, CA, USALarry Leifer

Stanford
【研究方向】Engineering(12+0); Learning(4+0); Vision(3+0); Environment(2+0); Concept(2+0); Knowledge(2+0); Development(1+0); Retrieval(1+0); Social(1+0); Language(1+0); Art(1+0); Causality(1+0); Methodology(1+0); Robot(1+0);
【模式生物】Human(1+0);
【方法技术】Behavior(2+0); Model(1+0);
【简述】
【研究论文】Science(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
008601Prof.
JHU010012Baltimore, MD, USADaniel Drachman MD

JHU
【研究方向】Motor Neuron(0+8); Disease(0+6); Neuromuscular(0+4); Disorder(0+2); Acetylcholine receptor(0+1); Development(0+1); Dendrite(0+1); Pathogenesis(0+1); Sclerosis(0+1);
【模式生物】
【方法技术】Gene(0+1); Model(0+1);
【简述】Cellular + Molecular Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
Yale014011New Haven, CT, USAHyojung Seo

Yale
【研究方向】Psychiatry(0+1); Schizophrenia(0+1); Memory(0+1); Learning(0+1); PFC(0+1);
【模式生物】
【方法技术】
【简述】Behavior, Animal; Learning; Memory; Neurophysiology; Psychiatry; Schizophrenia; Prefrontal Cortex.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
NYU015028New York, NY, USAThomas J. Carew

NYU
【研究方向】Memory(0+1);
【模式生物】
【方法技术】Behavior(0+1);
【简述】Molecular, cellular, and behavioral architecture of memory formation
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
WUSTL009032Saint Louis, MO, USADaniel Kerschensteiner

WUSTL
【研究方向】Retina(10+2); Development(6+2); Vision(3+4); Synapse(4+0); Synapse formation(3+0); Neural Circuit(0+3); Contrast(3+0); Object motion(3+0); Potassium channel(2+0); Homeostatic plasticity(2+0); Transgenic(0+1); Regulation(1+0); Receptor(1+0); Structure(1+0); Plasticity(0+1); Transcription(1+0); Axon(1+0); Dendrite(1+0); Mitochondria(1+0); Bipolar(1+0); Adaptation(1+0); Inhibitory control(1+0); Imaging(0+1); Connection(0+1);
【模式生物】Mouse(3+0); Rat(2+0);
【方法技术】Channel(3+0); Multi-electrode(0+2); Computation(0+2); Gene(1+0); In vivo(1+0); Behavior(0+1);
【简述】Neural circuit assembly and visual processing in the retina and the brain
【研究论文】Nature(1); Cell(1); Nature Neuroscience(1); Neuron(3); JNS(3); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Rachel WongAnurag R. Goel, Jenna M Krizan, Nai-Wen TienYears: 2019; Recipients: Kerschensteiner, Daniel; Code: R01; Title/Keywords: Neuronal Plasticity in Retinal Circuit Development and Disease@ Washington University; Matching Score: 1001483Assoc Prof.
NYU015028New York, NY, USAMala Rao

NYU
【研究方向】Psychiatry(3+0); Synapse(2+0); Disease(1+1); Transgenic(1+0); Differentiation(1+0); Degeneration(0+1); HIV(1+0); Motor Neuron(1+0); V3(1+0);
【模式生物】Human(1+0); Mouse(1+0);
【方法技术】In vivo(2+0); Behavior(1+0);
【简述】Degeneration of neurons caused by elecated proteases in Alzheimer’s disease
【研究论文】Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
WUSTL009032Saint Louis, MO, USACeleste M. Karch

WUSTL
【研究方向】Disease(17+8); Tau(5+8); Tauopathies(1+5); Alzheimer's disease(4+0); Degeneration(2+1); Sclerosis(3+0); Mutant(2+0); Neurodegenerative disease(1+1); Pathology(0+2); Pathogenesis(2+0); Dysfunction(0+2); Psychiatry(2+0); Parkinson's disease(2+0); Metabolism(0+2); Structure(1+0); Astrocyte(1+0); Development(1+0); Differentiation(1+0); Pluripotent stem cells(1+0); Neurology(1+0); Vulnerability(0+1); Alzheimer's(1+0); Inflammation(1+0); Motor Neuron(1+0); Neuroimaging(1+0);
【模式生物】Human(6+3); Stem Cell(4+1); Mouse(0+1);
【方法技术】Gene(12+2); Protein(0+4); Model(0+2);
【简述】Understanding the molecular and cellular mechanisms underlying tauopathies
【研究论文】Nature(1); Neuron(1); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David R. Borchelt, Alison M. GoateYears: 2014 — 2018; Recipients: Karch, Celeste; Code: K01; Title/Keywords: Genetic Disruption of Tau Metabolism in Tauopathies@ Washington University; Matching Score: 0.915002884Assist Prof.
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.
UCLA011013Los Angeles, CA, USACarolyn R. Houser

UCLA
【研究方向】GABA(0+6); Development(0+4); Neurotransmitter(0+2); Receptor(0+2); Plasticity(0+2); Regulation(0+1); Epilepsy(0+1);
【模式生物】Human(0+1);
【方法技术】Anatomy(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, USAJonathan Cohen

Harvard
【研究方向】Acetylcholine receptor(8+1); Membrane(9+0); Nicotinic acetylcholine receptor(6+1); Structure(4+2); Neurotransmitter(0+3); GABA(0+3); Nicotine(1+2); Muscle(0+3); GABAA receptor(1+1); Mutant(0+1); Regulation(0+1); Glutamate(0+1); Dopamine(0+1); Anesthesia(0+1); Development(0+1); Disease(0+1); Pathology(1+0); Alzheimer's disease(1+0); Parkinson's disease(0+1); Neuromuscular(1+0); Addiction(0+1); Memory(0+1); Learning(0+1); Attention(0+1); Sleep(0+1); Steroid(0+1);
【模式生物】
【方法技术】Biochemistry(7+0); Protein(5+1); Pharmacology(2+0); Electrophysiology(0+1); Computation(0+1);
【简述】Ligand-Gated Ion Channels: Structure and Function
【研究论文】Neuron(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Edgar Bright Wilson, Jr., Jean-Pierre ChangeuxRichard Neubig, Marcus L. Ware, Jonathan C. Trinidad, Michael J. Bianchetta, Filbert H. Hong, Laura M. Magnotti, Steen E. Pedersen, Marc BartoliYears: 2014 — 2018; Recipients: Cohen, Jonathan Brewer ; Code: P01; Title/Keywords: Protein Chemistry Core@ Massachusetts General Hospital; Matching Score: 1010019
JHU010012Baltimore, MD, USAIrving Reti MBBS

JHU
【研究方向】Therapy(0+3); Cognition(0+3); Seizure(0+2); Development(0+2); Depression(0+2); AMPA receptor(0+1); Synaptic Plasticity(0+1); Anesthesia(0+1); Disorder(0+1); Fragile X(0+1); Neural Circuit(0+1); Frequency(0+1); Memory(0+1); Learning(0+1); Social(0+1); Motivation(0+1); Subthalamic nucleus(0+1);
【模式生物】Mouse(0+5); Monkey(0+2); Rodent(0+2);
【方法技术】DBS(0+5); Behavior(0+4); Model(0+4); Gene(0+1); Optogenetics(0+1); TMS(0+1); Pharmacology(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
UCLA011013Los Angeles, CA, USAJoseph L. Lasky

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, USAHedy Kober

Yale
【研究方向】Disorder(0+1); Emotion(0+1);
【模式生物】
【方法技术】
【简述】Cognition; Emotions; Thinking; Smoking Cessation; Meditation; Substance-Related Disorders; Mindfulness.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAHelen Bronte-Stewart

Stanford
【研究方向】Parkinson's disease(24+1); Movement disorder(13+2); Disease(6+0); Neurology(6+0); Motor(4+1); Gait(5+0); Oscillation(4+0); Rhythm(4+0); Frequency(4+0); Neuromodulation(2+0); HIV(2+0); Motor learning(2+0); Motor control(1+1); Reflex(2+0); Basal ganglia(0+2); Subthalamic nucleus(2+0); Synchrony(1+0); Pathogenesis(0+1); Infection(1+0); Body(1+0); Auditory(1+0); Finger(1+0); Nucleus accumbens(1+0);
【模式生物】Human(3+1); Monkey(1+0); Primate(1+0); Mouse(1+0);
【方法技术】DBS(18+0); LFP(1+1); Behavior(0+1); Model(1+0);
【简述】
【研究论文】PNAS(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stephen G. LisbergerCrista L. Barberini, Diane WhitmerBrett M. WingeierYears: 2016 — 2017; Recipients: Bronte-Stewart, Helen; Code: R21; Title/Keywords: Neural and Kinematic Features of Freezing of Gait For Adaptive Neurostimulation@ Stanford University; Matching Score: 0.915003718Prof.
CAS-ION??Shanghai, ChinaZhi-Qi Xiong

CAS-ION
【研究方向】Regulation(6+4); Development(4+2); Dendrite(6+0); Homeostatic(1+5); Disease(1+4); Hippocampus(5+0); Disorder(0+4); Receptor(3+0); Synaptic Transmission(2+1); Epilepsy(1+2); Seizure(3+0); Dentate gyrus(3+0); NMDA receptor(2+0); CNS(1+1); Dendritic growth(2+0); Pathogenesis(0+2); Therapy(1+1); Angelman(1+1); Fragile X(1+1); Stroke(1+1); Cognition(1+1); Memory(2+0); Working memory(2+0); MeCP2(0+1); Transgenic(0+1); Modulation(0+1); GABA(1+0); GABAA receptor(0+1); GABAB receptor(1+0); Glutamate receptor(1+0); Structure(0+1); Membrane(1+0); Plasticity(0+1); Synaptic Plasticity(0+1); LTP(1+0); Homeostatic plasticity(0+1); Transcription(1+0); Environment(0+1); Axon(1+0); Synapse(1+0); Spine(1+0); Neurology(1+0); Vulnerability(1+0); Rett Syndrome(1+0); Aging(1+0); Alzheimer's disease(0+1); Injury(0+1); Sclerosis(1+0); Depression(1+0); Neural Circuit(0+1); Sense(1+0); Form(0+1); Somatosensory(1+0); Auditory(1+0); Motor Neuron(1+0); Acquisition(1+0); Timing(1+0); Social(0+1); Morphology(0+1); Fear(1+0); Imaging(0+1); CA1(1+0); Amygdala(1+0); Nucleus basalis(1+0); Lateral nucleus(1+0); Cerebellum(1+0);
【模式生物】Mouse(2+6); Rat(5+0); Human(0+1);
【方法技术】Gene(3+3); Protein(4+1); Model(2+1); Channel(0+1); In vivo(1+0); In vitro(0+1); Tracing(1+0); Electrophysiology(0+1); Electrical stimulation(1+0); Pharmacology(0+1);
【简述】Neurobiology of Disease
【研究论文】Nature Neuroscience(1); Neuron(5); PNAS(2); Cerebral Cortex(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Janet Stringer, James O. McNamaraShanshan Zhu, Xuewen Cheng, Ming-Yue Wu003605Senior Investigator
JHU010012Baltimore, MD, USAReza Shadmehr

JHU
【研究方向】Motor control(0+3); Disease(0+1); Neural Circuit(0+1); Cognition(0+1); Language(0+1); Metabolism(0+1); Imaging(0+1); Robot(0+1);
【模式生物】Human(0+2);
【方法技术】Computation(0+2); Theory(0+2); Behavior(0+1); Mathematics(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
NIH-NIMH??Bethesda, MD, USATed B. Usdin

NIH-NIMH
【研究方向】Receptor(3+8); Peptide(6+3); Hormone(3+3); Fear(3+0); Neurotransmitter(0+2); Transporter(0+2); Anxiety(2+0); Memory(2+0); Amygdala(2+0); Hypothalamus(1+1); Transgenic(0+1); Regulation(1+0); Modulation(0+1); Neuropeptide(1+0); Peptide receptor(1+0); Neurogenesis(1+0); Differentiation(1+0); Disease(0+1); Pathology(0+1); Alcohol(1+0); Pain(1+0); Nociception(1+0); Inflammatory pain(1+0); Pain perception(0+1); Touch(1+0); Context(1+0); Social(1+0); Exploration(0+1); Motivation(1+0); Aversive(1+0); Thermoregulation(1+0); Metabolism(0+1); Neuroendocrine(1+0); Connection(1+0); Medial nucleus(1+0); Thalamus(0+1); Preoptic area(1+0); Locus coeruleus(1+0);
【模式生物】Mouse(6+1); Rat(5+0);
【方法技术】Behavior(5+1); Anatomy(0+2); Pharmacology(0+2); Protein(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
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, USAStefano Fusi

Columbia
【研究方向】Learning(5+1); Cognition(4+0); Neural network(3+1); Synapse(3+0); Dynamics(3+0); Synaptic Plasticity(2+0); Memory(2+0); Learning and memory(0+2); Neural Circuit(1+0); Systems Neuroscience(0+1); Sense(0+1); Vision(1+0); Motor(0+1); Long-term memory(1+0); Memory Consolidation(1+0); Intention(0+1); Working memory(1+0); Emotion(1+0); Encoding(1+0); Neural dynamics(0+1); PFC(1+0); Inferotemporal (IT) cortex(1+0); Amygdala(1+0);
【模式生物】
【方法技术】Computation(7+1); Model(4+1); Behavior(1+2); Theory(1+2); In vivo(2+0); Simulation(1+0);
【简述】Theoretical Neuroscience; Cognitive/Systems Neuroscience; Neurobiology of Learning and Memory; Computation and Theory;
【研究论文】Nature(2); Nature Neuroscience(2); Neuron(2); JNS(1); Neural Computation(5);
【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
Walter Senn, Daniel Amit, Xiao-Jing Wang, Hans Rudolf LüscherGiancarlo La Camera, Mattia Rigotti, Lorenzo Fontolan, Kiyohito Iigaya, Omri Barak, Anthony J. Decostanzo, Srdjan Ostojic, Daniel David Ben Dayan Rubin, Alex Roxin, Fabio Stefanini, Michele GiuglianoEmre Ozgür Neftçi, C Daniel Salzman, Larry F. Abbott, Eleni VasilakiYears: 2017 — 2019; Recipients: Paninski, Liam (co-PI) [⬀] Cunningham, John (co-PI) [⬀] Miller, Kenneth (co-PI) [⬀] Abbott, Laurence [⬀] Fusi, Stefano; Code: N/A; Title/Keywords: Neuronex Theory Team: Columbia University Theoretical Neuroscience Center@ Columbia University; Matching Score: 1005931Assoc Prof.
UW021010Seattle, WA, USAAzadeh Yazdan-Shahmorad

UW
【研究方向】Plasticity(0+2); Stroke(0+2); Ion Channel(0+1); Disorder(0+1); Therapy(0+1); Sensorimotor Integration(0+1); Brain-Computer Interface(0+1);
【模式生物】
【方法技术】Electrophysiology(0+2); Optogenetics(0+2); Behavior(0+1);
【简述】Brain-computer interfaces; Computational neuroscience; Motor systems and sensorimotor integration; Disorders of the nervous system
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
CAS-ION??Shanghai, ChinaZuo-Ren Wang

CAS-ION
【研究方向】Attention(1+13); OFC(1+10); Neural Circuit(0+7); Modality(1+6); PPC(0+7); Sense(1+5); ACC(1+5); Decision making(0+5); LIP(0+5); Olfaction(3+0); Vision(0+2); Antennal lobe(2+0); Neural dynamics(0+2); Cingulate cortex(1+1); Periaqueductal gray(1+1); Ion Channel(1+0); Systems Neuroscience(0+1); Nociception(1+0); Taste(1+0); Executive control(0+1); Reward(0+1); Mushroom body(1+0); PFC(0+1);
【模式生物】Drosophila(10+0); Rat(1+8); Mouse(0+4); Monkey(0+2); Primate(0+2); Human(0+1);
【方法技术】Behavior(1+4); Optogenetics(1+4); Channel(2+0); Electrophysiology(0+2); Gene(1+0); Pharmacology(0+1);
【简述】Neural Circuits and Animal Behavior
【研究论文】Cell(2); Neuron(1); PNAS(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002447Senior Investigator
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. Reynolds

UCSD
【研究方向】Object(0+4); Vision(0+3); Sense(0+1); Perception(0+1); Retina(0+1); Attention(0+1); Decision making(0+1);
【模式生物】
【方法技术】Behavior(0+2); Computation(0+2); Psychophysics(0+1); Model(0+1);
【简述】 Systems
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USAKechen Zhang

JHU
【研究方向】Neural Circuit(0+1); Cognition(0+1);
【模式生物】
【方法技术】Computation(0+2); Model(0+1); Theory(0+1); Mathematics(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, 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
Harvard001001Boston, MA, USALauren Orefice

Harvard
【研究方向】Sense(0+10); Dendrite(6+0); Spine(5+0); Dysfunction(2+3); Touch(2+3); Seizure(4+0); Development(0+4); Epilepsy(3+0); Differentiation(2+0); Disease(0+2); Disorder(0+2); Hypoxia(2+0); Cognition(0+2); Somatosensory(0+2); Learning and memory(2+0); Spatial learning(2+0); Social behavior(0+2); Gastrointestinal(0+2); Imaging(0+2); Plasticity(0+1); Synaptic Plasticity(1+0); Glia(0+1); Sensory experience(0+1); Synapse(0+1); Autism(0+1); Perception(0+1);
【模式生物】Mouse(8+2); Human(2+0);
【方法技术】Model(6+2); Gene(0+4); Behavior(3+1); Electrophysiology(0+2); Protein(1+0); In vivo(0+1); In vitro(0+1); Cell culture(0+1); Anatomy(0+1);
【简述】Development, function and dysfunction of the somatosensory system
【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
Baoji Xu000465Assist Prof.
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
Columbia006008New York, NY, USAAndrew Tomlinson

Columbia
【研究方向】Development(2+2); Photoreceptor(3+1); Retina(1+2); Cell fate(1+1); Differentiation(0+2); Signal transduction(1+0); Receptor(1+0); Transcription(1+0); Cell cycle(1+0); Decoding(1+0); Evolutionary(1+0);
【模式生物】Drosophila(10+1);
【方法技术】Protein(2+0); Behavior(0+1);
【简述】Cellular Interactions in Drosophila Development; Cell Specification and Differentiation;
【研究论文】Nature(1); Cell(7); PLoS Biol.(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Donald Ready, Gerald M. RubinWalter R. Strapps, Hui-Ying Lim, Corey G. Washington, Naureen Quibria, Gerard Campbell, Marcel WehrliYears: 2016 — 2017; Recipients: Tomlinson, Andrew; Code: R01; Title/Keywords: Receptor Tyrosine Kinase Activity in Drosophila Eye Development@ Columbia University Health Sciences; Matching Score: 1Prof.
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.
UCLA011013Los Angeles, CA, USAErnest M. Wright

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, USAKerry Walton

NYU
【研究方向】Development(2+6); Synapse(4+0); Pain(4+0); Motor(2+2); Synaptic Transmission(2+0); Oscillation(0+2); Plasticity(0+1); Environment(0+1); CNS(1+0); Sense(1+0); Vestibular(1+0); Posture(0+1); Imaging(1+0);
【模式生物】Rat(4+1); Human(1+0);
【方法技术】In vitro(5+1); Electrophysiology(1+2); Model(1+1); Anatomy(0+1); Theory(1+0);
【简述】Postnatal development of the mammalian nervous system
【研究论文】Science(1); JNS(1);
【综述】Brain Research Reviews(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Rodolfo R. Llinás004088Assoc Prof.
Columbia006008New York, NY, USAStavros Lomvardas

Columbia
【研究方向】Olfaction(8+4); Receptor(7+3); Regulation(2+0); Structure(1+0); Synaptic Plasticity(1+0); Transcription(1+0); Development(0+1); Sense(0+1);
【模式生物】Mouse(1+0);
【方法技术】Gene(4+3); Protein(1+0); In vivo(1+0); Microscopy(0+1);
【简述】Sensory Physiology; Snapses and Circuits;
【研究论文】Science(1); Cell(11); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard AxelWilliam E. Allen, Eleanor J. Clowney, Bradley M. Colquitt, David Bruce Lyons, Colleen MosleyDheeraj S. RoyYears: 2016 — 2018; Recipients: Lomvardas, Stavros; Code: R01; Title/Keywords: Deciphering the Molecular Principles of Olfactory Receptor Gene Choice@ Columbia University Health Sciences; Matching Score: 0.937Prof.
Stanford002003Palo Alto, CA, USAElizabeth Mormino

Stanford
【研究方向】Neurology(10+0); Disease(6+0); Cognition(6+0); Aging(3+0); Metabolism(3+0); Imaging(3+0); Degeneration(1+0); Vulnerability(1+0); Alzheimer's disease(1+0); Tau(1+0); ApoE(1+0); Episodic memory(1+0); Inferior frontal gyrus(1+0); White matter(1+0);
【模式生物】
【方法技术】PET(1+0);
【简述】
【研究论文】Nature(1); Neuron(1); JNS(1); Cerebral Cortex(1);
【综述】Annals Of Neurology(2); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
005054Assist Prof.
Stanford002003Palo Alto, CA, USADaria Mochly-Rosen

Stanford
【研究方向】Peptide(1+7); Dysfunction(6+0); Disease(1+4); Signal transduction(2+1); Receptor(3+0); Alcohol(3+0); Stress(1+2); Modulation(2+0); Neurodegenerative disease(1+1); Regulation(1+0); Monoamine(1+0); Structure(0+1); Development(0+1); Differentiation(1+0); Therapeutics(0+1); Aging(1+0); Alzheimer's disease(1+0); Huntington's disease(0+1); Inflammation(1+0); Ischemia(1+0); Injury(1+0); Sclerosis(1+0); Cognition(1+0); Metabolism(0+1); Cardiovascular(1+0); Dynamics(0+1);
【模式生物】Human(1+2); Stem Cell(2+0); Rat(1+0);
【方法技术】Protein(19+1); In vivo(4+1); Pharmacology(2+1); Gene(1+1); In vitro(1+1); Model(1+1);
【简述】
【研究论文】Nature(1); Science(3); Cell(1); Nature Communications(2); PNAS(1);
【综述】Review(3); Nature Reviews Drug Discovery(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Elizabeth G. Stebbins, Leon E. Chen, Rebecca R. Begley, Rachel Bright, Christopher L. Murriel, Stefan Siwko, Viktoria Kheifets, Xin Qi, Matthew StevensYears: 2018; Recipients: Mochly-Rosen, DariaWeinberg, Kenneth I. [⬀] ; Code: R01; Title/Keywords: Aldh Activation to Treat Fanconi Anemia@ Stanford University; Matching Score: 1026555Prof.
Columbia006008New York, NY, USARandy Bruno

Columbia
【研究方向】Sense(2+3); Imaging(3+1); Dopamine(3+0); Synapse(2+1); Somatosensory(3+0); Barrel cortex(2+1); Synchrony(2+0); Sensory experience(2+0); Dendrite(2+0); Psychiatry(2+0); Cognition(2+0); Touch(0+2); Attention(2+0); Neural network(1+1); Thalamus(2+0); Structure(1+0); Axon(1+0); Systems Neuroscience(0+1); Taste(0+1); Planning(0+1); Decision making(0+1); Working memory(0+1); S1(1+0);
【模式生物】Rat(8+0); Human(1+0);
【方法技术】In vivo(3+1); Model(2+1); In vitro(1+0); Anatomy(0+1); Behavior(0+1); Microscopy(0+1); Optogenetics(0+1); Computation(0+1); Theory(0+1);
【简述】Sensory Physiology; Theoretical Neuroscience; Cognitive/Systems Neuroscience; Synapses and Circuits;
【研究论文】Science(2); Neuron(3); JNS(3); Cerebral Cortex(4);
【综述】Current Opinion In Neurobiology(1); Brain Research Reviews(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Daniel J. Simons, Bert SakmannCarl Edward Schoonover, Christine M. Constantinople, Alejandro Ramirez-Vallejo, Wanying Zhang, Y. Kate HongYears: 2016 — 2018; Recipients: Bruno, Randy M; Code: R01; Title/Keywords: The Behavioral Functions of Upper and Lower Cortical Layers@ Columbia University Health Sciences; Matching Score: 1003996Assoc Prof.
CAS-ION??Shanghai, ChinaHung-Chun Chang

CAS-ION
【研究方向】Circadian(3+10); Metabolism(2+6); Disorder(0+4); Aging(3+1); Sleep(2+2); Oscillation(0+2); Disease(0+2); Dysfunction(0+2); Age-related(0+2); Circadian clock(1+1); Bmal1(1+0); Knockout(1+0); Knockin(1+0); Regulation(1+0); Rhythm(0+1); Environment(0+1); Somatic cell nuclear transfer (SCNT)(1+0); Psychiatric disorder(1+0); Cognition(1+0); Entrainment(0+1); Cardiovascular(0+1); Suprachiasmatic nucleus(0+1);
【模式生物】Macaque(2+0); Monkey(2+0); Rat(1+0);
【方法技术】Protein(4+0); Gene(1+2); In vivo(1+1); Behavior(0+2); Model(0+2);
【简述】Circadian Control and Age-Related Disorders
【研究论文】Nature(1); Cell(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002919Investigator
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.
NYU015028New York, NY, USAKaren Adolph

NYU
【研究方向】Development(18+0); Motor(6+0); Perception(4+0); Learning(3+0); Object(2+0); Body(1+0); Acquisition(1+0);
【模式生物】Human(2+0);
【方法技术】Behavior(0+1); Psychophysics(1+0);
【简述】Behavioral flexibility in infants, children, and adults
【研究论文】Nature(1); Science(3);
【综述】Psychological Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
007750Prof.
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.
UCLA011013Los Angeles, CA, USAGal Bitan

UCLA
【研究方向】Alzheimer's disease(0+5); Disease(0+4); Parkinson's disease(0+2); Amino acid(0+1); Receptor(0+1); Peptide(0+1); Structure(0+1); Neurology(0+1); Neurodegenerative disease(0+1); Tauopathies(0+1); Prion diseases(0+1); Sclerosis(0+1); Form(0+1); Methodology(0+1);
【模式生物】
【方法技术】Protein(0+2);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAJeffery T. Lichtenhan

WUSTL
【研究方向】Auditory(1+1); Membrane(1+0); Environment(0+1); Disorder(1+0); Autism(1+0); Frequency(0+1); Reflex(1+0); Speech(0+1);
【模式生物】Human(2+0);
【方法技术】Behavior(1+0);
【简述】Questions related to normal and diseased cochlear physiology
【研究论文】JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
UCLA011013Los Angeles, CA, USAGary W. Small

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, USAJeffrey Rothstein MD,

JHU
【研究方向】Transporter(0+13); Glutamate(0+8); Regulation(0+3); Transgenic(0+2); Trafficking(0+2); Membrane(0+1); Transcription(0+1); Epilepsy(0+1); Disease(0+1); Disorder(0+1); Neurology(0+1); Therapeutics(0+1); Therapy(0+1); Neuroprotective(0+1); Neuroprotection(0+1); Sclerosis(0+1); Metabolism(0+1);
【模式生物】Mouse(0+1); Stem Cell(0+1);
【方法技术】Model(0+2);
【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
WUSTL009032Saint Louis, MO, USAShin-ichiro Imai

WUSTL
【研究方向】Aging(8+12); Metabolism(16+1); Regulation(6+3); Hypothalamus(1+8); Muscle(0+5); Disease(4+0); Mitochondria(2+0); Circadian clock(2+0); Sleep(1+1); Transgenic(0+1); Receptor(0+1); Structure(1+0); Age-related(0+1); Cognition(1+0); Circadian(0+1); Body temperature(0+1); Stress(1+0); Dynamics(0+1); Lateral nuclei(1+0);
【模式生物】Mouse(5+2); Stem Cell(2+0);
【方法技术】Gene(1+0); Protein(1+0); Pharmacology(1+0);
【简述】Understanding the molecular mechanism of aging and longevity in mammals
【研究论文】Nature(1); Science(1); Cell(10); Nature structural & molecular biology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
017917Prof.
Stanford002003Palo Alto, CA, USAViet Nguyen

Stanford
【研究方向】Motor(4+0); Disease(3+0); Development(2+0); Spine(2+0); Imaging(2+0); Regeneration(1+0); Therapy(1+0); HIV(1+0); Infection(1+0); Tumor(1+0); Encoding(1+0); Dynamics(1+0); Evolutionary(1+0);
【模式生物】Human(2+0); Mouse(2+0);
【方法技术】In vivo(1+0);
【简述】
【研究论文】Science(1); Cell(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002148Assoc Prof.
UCSD011017San Diego, CA, USAAndrea A. Chiba

UCSD
【研究方向】Attention(0+3); Cognition(0+2); Modulation(0+1); Spatial attention(0+1); Memory(0+1); Learning(0+1); Learning and memory(0+1); Associative learning(0+1); Knowledge(0+1); Amygdala(0+1); Basal forebrain(0+1);
【模式生物】
【方法技术】Behavior(0+3); Model(0+1);
【简述】 Systems; Cognitive, Behavioral & Psychopharmacology; Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
JHU010012Baltimore, MD, USAAhmet Hoke MD,

JHU
【研究方向】Regeneration(0+3); Axon(0+3); Development(0+2); Disorder(0+2); Disease(0+1); Degeneration(0+1); Injury(0+1); Sclerosis(0+1); Sense(0+1);
【模式生物】Stem Cell(0+2);
【方法技术】Gene(0+1); In vivo(0+1); In vitro(0+1); Model(0+1);
【简述】Developmental Neuroscience; Cellular + Molecular Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USARichard Margolis

NYU
【研究方向】Development(1+2); Structure(0+2); Embryo(2+0); Axon(0+2); Injury(0+2); Spinal Cord Injury(1+1); Regulation(1+0); Glia(1+0); Astrocyte(1+0); Differentiation(0+1); Environment(0+1); Regeneration(0+1); CNS(0+1); Axon guidance(0+1); Dendrite(0+1); Branching(0+1); Retina(1+0); V2(1+0);
【模式生物】Stem Cell(8+3); Rat(1+0);
【方法技术】Protein(1+3); Pharmacology(1+0);
【简述】Structure and functions of nervous tissue proteoglycans
【研究论文】JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Emeritus
Stanford002003Palo Alto, CA, USADaniel V Madison

Stanford
【研究方向】Hippocampus(6+0); Calcium channel(3+0); LTP(3+0); CA2(3+0); Modulation(2+0); Synaptic Transmission(2+0); GABA(1+0); Receptor(1+0); Body(1+0); Imaging(1+0); CA1(1+0);
【模式生物】Rat(6+0);
【方法技术】In vitro(2+0); Protein(1+0);
【简述】
【研究论文】Nature(3); Science(3); Cell(2); Neuron(2); JNS(3);
【综述】Annual Review Of Neuroscience(2); Trends In Neurosciences(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gary Lynch, Roger A. Nicoll, Roger A. Nicoll, Richard W. TsienDwight Bergles, Gal Cohen, Van A. Doze, Ricardo Valenzuela, Adrienne Orr, Michelle R. Emond, Janice E.A. Braun, Jane Haley, Jesse E. Hanson, Richard D. Mooney, Karen D. Parfitt, Paul Pavlidis, Erin M. Schuman, Joel C. Selcher, Rory McQuiston, Johanna Michelle Montgomery, Michael Finley, Ananya MitraCraig C. Garner, Stephen J. Smith, Richard Meyers, Richard W. Aldrich014732Assoc Prof.
NYU015028New York, NY, USALisa Doan

NYU
【研究方向】Pain(2+1); Calcium channel(0+1);
【模式生物】
【方法技术】
【简述】Voltage-gated calcium channels and pain
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
WUSTL009032Saint Louis, MO, USAMarcus E. Raichle

WUSTL
【研究方向】Imaging(3+3); Cognition(2+1); Blood flow(2+1); Disease(0+2); Attention(2+0); Metabolism(1+1); PFC(2+0); Disorder(1+0); Anxiety(0+1); Depression(0+1); Cognitive neuroscience(1+0); Vision(1+0); Somatosensory(1+0); Eye Movement(1+0); Motor learning(1+0); Memory(1+0); Category(0+1); Emotion(0+1); mPFC(1+0); Cingulate cortex(1+0); ACC(1+0);
【模式生物】Human(9+3); Monkey(1+0);
【方法技术】MRI(1+3); fMRI(1+3); PET(0+3); Anatomy(2+0);
【简述】Functional brain imaging with positron emission tomography and magnetic resonance
【研究论文】Nature(3); Science(2); Neuron(1); Cerebral Cortex(2);
【综述】Review(3); Nature Reviews Neuroscience(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Justin L. Vincent, William J. Bentley, Joseph R. Simpson, Biyu J. He, Sanjeev N. Vaishnavi, Neil Vaishnavi, Manu S. Goyal, Jose V. PardoDaniel Scott MarcusYears: 2017 — 2019; Recipients: Raichle, Marcus EVlassenko, Andrei G. [⬀] ; Code: R01; Title/Keywords: Aerobic Glycolysis in the Development Ofalzheimer's Disease@ Washington University; Matching Score: 1137751Prof.
Columbia006008New York, NY, USAAurel Lazar

Columbia
【研究方向】Neural Circuit(0+4); Sense(0+3); Systems Neuroscience(0+2); Olfaction(0+2); Engineering(0+2); Machine(0+2); Dendrite(0+1); Synapse(0+1); Reaching(0+1); Encoding(0+1); Neural encoding(0+1); Decoding(0+1);
【模式生物】Drosophila(0+2);
【方法技术】Model(0+5); Computation(0+3); Theory(0+3); In vivo(0+2); Channel(0+1); Behavior(1+0); Simulation(1+0);
【简述】Cognitive/Systems Neuroscience; Synapses and Circuits; Theoretical Neuroscience; Sensory Physiology;
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Cristina Aurrecoechea, Mahesan Nandikesan, Anmo J. Kim, Eftychios A. Pnevmatikakis, Yevgeniy B. SlutskiyYears: 2015 — 2018; Recipients: Lazar, Aurel; Code: N/A; Title/Keywords: The Digital Fly Brain@ Columbia University; Matching Score: 1009271Prof.
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
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.
Harvard001001Boston, MA, USAGary Yellen

Harvard
【研究方向】Metabolism(4+9); Imaging(8+2); Epilepsy(4+1); Seizure(1+4); Body(0+3); Ion Channel(1+1); Therapy(1+1); Substantia nigra(2+0); Pars reticulata(2+0); Knockout(1+0); Regulation(1+0); Receptor(0+1); Potassium channel(1+0); Membrane(0+1); Anticonvulsant(0+1); Glia(0+1); Mitochondria(0+1); Disease(0+1); Learning(0+1); Connection(0+1);
【模式生物】Mouse(1+3);
【方法技术】Gene(1+1); Channel(2+0); Model(1+1); Protein(0+1); In vivo(0+1); Electrophysiology(0+1);
【简述】Neuronal metabolism and excitability; Fluorescent biosensor imaging;
K-ATP channels and anti-epilepsy mechanisms

【研究论文】Cell(2); Neuron(1); JNS(1); Nature Communications(1);
【综述】Trends In Neurosciences(1); Curr Opin Chem Biol. (1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles F. Stevens, Christopher MillerKi Soon Shin, Andrew Lutas, Sarah Webster, John Paul Dekker, James Berg, Geoffrey Richard Tanner, Yin Pun Hung, Yin P. (Rex) Hung, Donato del Camino, Miguel Holmgren, Sujung Ryu, Juan-Ramón Martínez-François, Rebecca A. Mongeon, Carlos Manlio Díaz García, Dorothy M. Koveal, Brad S. Rothberg, Catherine Proenza, Mathew C. TantamaRoderick MacKinnonYears: 2018 — 2019; Recipients: Yellen, Gary I; Code: R01; Title/Keywords: Mechanisms of Seizure Resistance in a Mouse Genetic Model With Altered Metabolism@ Harvard Medical School; Matching Score: 0.958Prof.
UCSD011017San Diego, CA, USAUrsula Bellugi

UCSD
【研究方向】Language(0+6); Cognition(0+5); Disorder(0+2); Structure(0+1); Cognitive neuroscience(0+1); Contrast(0+1); Social(0+1); Syntax(0+1); Grammar(0+1);
【模式生物】Human(0+1);
【方法技术】Behavior(0+1);
【简述】 Cognitive, Behavioral & Psychopharmacology
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, 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.
UCSF003015San Francisco, CA, USAFelice Dunn

UCSF
【研究方向】Bipolar(0+9); Disease(0+4); Synapse(0+3); Vision(0+3); Retina(0+3); Photoreceptor(0+3); Degeneration(0+2); Structure(0+1); Connection(0+1);
【模式生物】
【方法技术】Anatomy(0+1); Model(0+1);
【简述】Anatomy and function of retinal circuits under normal and disease states
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAKatherine Karlsgodt

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

NIH-NINDS
【研究方向】Olfaction(16+9); Olfactory bulb(4+3); Plasticity(1+5); Receptor(3+1); Sense(3+1); Development(1+2); Alzheimer's disease(2+1); Neural Circuit(1+2); APP(2+0); Brain injury(2+0); Imaging(1+1); Transgenic(0+1); Neurogenesis(1+0); Regeneration(0+1); Axon guidance(1+0); Dendrite(0+1); Disease(0+1); Neurology(1+0); Neurodegenerative disease(1+0); Dysfunction(0+1); Parkinson's disease(0+1); Timing(1+0); Connection(0+1);
【模式生物】Mouse(4+2); Human(1+0);
【方法技术】Model(4+1); In vivo(2+1); Gene(1+0); Biochemistry(0+1); MRI(1+0); Behavior(0+1); Electrophysiology(0+1); Optogenetics(0+1);
【简述】Developmental Neural Plasticity Section
【研究论文】Science(1); Cell(2); JNS(6); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard Axel, Lawrence C. KatzCaroline Rauffenbart, Alynda Noel Wood, Bryce D GrierYears: 2010 — 2016; Recipients: Belluscio, Leonardo; Code: ZIA; Title/Keywords: Restoration of Olfactory Neural Circuitry Following Disruption.@ Neurological Disorders and Stroke; Matching Score: 0.913
NYU015028New York, NY, USAKonstantin Ichtchenko

NYU
【研究方向】Engineering(1+0);
【模式生物】Human(1+0); Stem Cell(1+0);
【方法技术】Gene(1+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
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.
Stanford002003Palo Alto, CA, USAJoy Taylor

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
Years: 2007 — 2010; Recipients: Taylor, Joy L; Code: P41; Title/Keywords: Cognitive&Neural Basis of Memory in Older Aviators Genetically At Risk For Ad@ Stanford University; Matching Score: 0.958Assoc Prof.
Stanford002003Palo Alto, CA, USAJames Priest

Stanford
【研究方向】Disease(8+3); Development(1+1); Cardiovascular(2+0); Rhythm(1+0); Embryo(1+0); Disorder(0+1); Pathogenesis(0+1); Pediatric(0+1); Finger(1+0); Knowledge(1+0); Inference(1+0);
【模式生物】Human(3+0);
【方法技术】Gene(3+3); Model(0+2); Protein(1+0); Channel(1+0); Algorithm(1+0);
【简述】
【研究论文】Science(1); Cell(1); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
NYU015028New York, NY, USADaniel Turnbull

NYU
【研究方向】Transgenic(0+1);
【模式生物】Mouse(0+1);
【方法技术】
【简述】Ultrasound and Magnetic Resonance Microimaging of transgenic mice
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Abby E. Deans, Xin Yu, Cesar A. Berrios-Otero, Benjamin B. BartelleYears: 2018 — 2019; Recipients: Turnbull, Daniel HZhang, Jiangyang [⬀] ; Code: R01; Title/Keywords: Quantitative Imaging of Mouse Brain Development@ New York University School of Medicine; Matching Score: 1Prof.
Yale014011New Haven, CT, USAKelly Cosgrove

Yale
【研究方向】Nicotinic acetylcholine receptor(0+2); Acetylcholine receptor(0+2); Alcohol(0+2); Nicotine(0+2); Neuroimaging(0+2); Neurotransmitter(0+1); Dopamine(0+1); Synaptic Plasticity(0+1); Disease(0+1); Psychiatry(0+1); Psychiatric disorder(0+1); Addiction(0+1);
【模式生物】Human(0+1);
【方法技术】PET(0+2); Gene(0+1);
【简述】Alcoholism; Brain; Neurobiology; Nicotine; Radiology; Positron-Emission Tomography; Neuroimaging; alpha7 Nicotinic Acetylcholine Receptor; Diseases; Chemicals and Drugs; Psychiatry and Psychology.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAShaul Druckmann

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

NIH-NIAAA
【研究方向】Biomarker(0+2); Disorder(0+1); Therapeutics(0+1); Alcohol(0+1); Imaging(0+1);
【模式生物】Human(0+2);
【方法技术】Gene(0+3);
【简述】Section on Clinical Genomics and Experimental Therapeutics
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USASeth Margolis

JHU
【研究方向】Synapse formation(0+8); Development(0+7); Synapse(0+6); Cognition(0+5); Disorder(0+4); Angelman(0+2); Spine(0+1); Disease(0+1); Autism(0+1); Form(0+1); Connection(0+1);
【模式生物】Human(0+2);
【方法技术】Gene(0+2); In vivo(0+1); In vitro(0+1); Electrophysiology(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
UCSD011017San Diego, CA, USAPamela Reinagel

UCSD
【研究方向】Cognition(0+1);
【模式生物】
【方法技术】Theory(0+3); Behavior(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
WUSTL009032Saint Louis, MO, USAThomas Papouin

WUSTL
【研究方向】NMDA receptor(10+0); Synapse(3+3); Neuromodulation(2+2); Receptor(2+1); LTP(3+0); Cognition(1+2); Glial cell(0+2); Environment(1+1); Disorder(0+2); Fragile X(2+0); Memory(2+0); Knockout(1+0); Signaling molecule(0+1); Glutamate(1+0); GABA(1+0); Synaptic integration(0+1); Plasticity(1+0); Neuroplasticity(1+0); Synaptic Plasticity(0+1); Astrocyte(1+0); Development(0+1); CNS(1+0); Trafficking(1+0); Therapeutics(0+1); Psychiatric disorder(0+1); Depression(0+1); Schizophrenia(0+1); Learning(1+0); Learning and memory(0+1); Attention(0+1); Comprehension(0+1); Sleep(0+1); Mushroom body(1+0);
【模式生物】Mouse(4+0);
【方法技术】Model(2+2); Protein(1+0); Behavior(0+1); Computation(0+1);
【简述】Mechanisms or neuron-glia interactions in health and disease
【研究论文】Nature(1); Cell(1); Neuron(2); JNS(1); eLife(1); Cerebral Cortex(2);
【综述】Review(2); Trends In Neurosciences(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stéphane H. Oliet, Philip Haydon001839Assist Prof.
MIT005002Boston, MA, USAEarl Miller

MIT
【研究方向】PFC(11+4); Vision(6+0); Cognition(3+2); Inferotemporal (IT) cortex(5+0); Memory(1+3); Associative learning(2+0); Attention(1+1); Short-term memory(2+0); Working memory(2+0); Cognitive Control(1+1); Transgenic(1+0); Structure(0+1); Dysfunction(0+1); Sense(0+1); Learning(0+1); Category(1+0); Knowledge(0+1); Reward(1+0); Striatum(1+0);
【模式生物】Primate(6+2); Macaque(1+0); Human(0+1);
【方法技术】Behavior(0+5); Virus(1+0); Psychophysics(0+1); Pharmacology(0+1); Computation(0+1); Theory(1+0);
【简述】Neural Basis of Memory and Cognition
【研究论文】Nature(6); Science(6); Neuron(1); JNS(3);
【综述】Annual Review Of Neuroscience(1); Nature Reviews Neuroscience(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles Gross, Robert DesimoneAlexa D'Ambra, Jorge Yanar, Mark H. Histed, Michelle S. Machon, Gregor Rainer, Jacob A. Donoghue, Leo Kozachkov, Wael F. Asaad, David J. Freedman, Melissa R. Warden, Timothy J. Buschman, Simon Kornblith, Kathleen C. Anderson, Scott L. Brincat, Anitha Pasupathy, M Victoria Puig, Jefferson E. Roy, Markus Siegel, Antonia C.M. Diogo, Jason A. Cromer, Jonas Rose, Matthew R. Silver, Jon Wallis, Andreas Nieder, Evan G. Antzoulatos, Timothy J. Buschman, Evan G. AntzoulatosCynthia A. EricksonYears: 2017 — 2018; Recipients: Brown, Emery N.Miller, Earl K; Code: R01; Title/Keywords: Thalamocortical Dynamics and Consciousness@ Massachusetts Institute of Technology; Matching Score: 1039951Prof.
UW021010Seattle, WA, USAHannele Ruohola-Baker

UW
【研究方向】Cell cycle(0+3); Photoreceptor(0+2); Muscle(0+2); Mutant(0+1); Signaling molecule(0+1); Regulation(0+1); Glial cell(0+1); Environment(0+1); Axon(0+1); Degeneration(0+1); Injury(0+1); Evolutionary(0+1);
【模式生物】Stem Cell(0+16); Drosophila(0+2); Human(0+1);
【方法技术】Gene(0+3); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAThomas Blanck

NYU
【研究方向】Anesthesia(4+0); Modulation(1+0); Calcium channel(1+0); Membrane(1+0); LTD(1+0); Embryo(1+0); Dendrite(1+0); Mitochondria(1+0); Spine(1+0); Disease(1+0); Neurology(1+0); Dysfunction(1+0); Neuropathic pain(1+0); Muscle(1+0);
【模式生物】Human(1+0); Rat(1+0); Mouse(1+0);
【方法技术】Protein(1+0); Channel(1+0); Biochemistry(1+0); Biophysics(1+0); In vitro(1+0); Pharmacology(1+0); Model(1+0);
【简述】Understanding of the mechanisms of anesthetic action
【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
Years: 1985 — 1986; Recipients: Blanck, Thomas J J; Code: R01; Title/Keywords: Electrophoresis of Human Malignant Hyperthermic Muscle@ Johns Hopkins University; Matching Score: 0.954003079Emeritus
NIH-NICHD??Bethesda, MD, USAMihaela Serpe

NIH-NICHD
【研究方向】Neuromuscular(7+1); Glutamate receptor(6+1); Synapse(1+6); Development(4+2); Structure(0+2); Synapse maturation(2+0); Ion Channel(0+1); Vesicle(1+0); CNS(1+0); Embryo(1+0); Axon guidance(1+0); Vision(1+0); Form(0+1); Optical(0+1);
【模式生物】Drosophila(14+5); Zebrafish(1+0);
【方法技术】Protein(2+2); Gene(0+2); Electrophysiology(0+1); Model(0+1);
【简述】Unit of Cellular Communication
【研究论文】Nature(1); Cell(3); Neuron(2); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Tae Hee HanYears: 2012 — 2018; Recipients: Serpe, Mihaela; Code: ZIA; Title/Keywords: Modulation of Tgf-Beta Signaling@ Child Health and Human Development; Matching Score: 0.913
NYU015028New York, NY, USAMasuo Ohno

NYU
【研究方向】Memory(9+1); Alzheimer's disease(7+0); Disease(5+0); Transgenic(4+0); Dysfunction(4+0); Learning(2+1); Receptor(2+0); Synaptic Plasticity(2+0); Knockout(1+0); Plasticity(1+0); Development(1+0); Disorder(0+1); Therapeutics(1+0); Aging(1+0); Alzheimer's(1+0); APP(1+0); Cognition(1+0); Learning and memory(1+0); Working memory(1+0);
【模式生物】Mouse(14+0); Rat(3+0);
【方法技术】Model(9+0); Pharmacology(3+0); Gene(2+0); Biochemistry(1+0); Behavior(1+0);
【简述】Molecular and cellular mechanisms underlying learning, memory and its disorders
【研究论文】Nature(2); Nature Neuroscience(1); Neuron(3); JNS(2); Curr Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
007765Assoc Prof.
JHU010012Baltimore, MD, USAPhilip Wong

JHU
【研究方向】Neurodegenerative disease(0+4); Transgenic(0+1); Knockout(0+1); Development(0+1); Disease(0+1); Pathogenesis(0+1); Therapy(0+1); Abeta(0+1); Biomarker(0+1); Sclerosis(0+1);
【模式生物】Mouse(0+3);
【方法技术】Model(0+4); Gene(0+2); Protein(0+1);
【简述】Neurobiology of Disease; Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NICHD??Bethesda, MD, USAAndres Buonanno

NIH-NICHD
【研究方向】Dopamine(0+4); Oscillation(0+4); Cognition(0+3); Receptor(0+2); Psychiatric disorder(0+2); Regulation(0+1); Structure(0+1); Synaptic Plasticity(0+1); LTP(0+1); Development(0+1); CNS(0+1); Microcircuit(0+1); Developmental Disorder(0+1); ADHD(0+1); Autism(0+1); Schizophrenia(0+1); Working memory(0+1); Concept(0+1);
【模式生物】Rat(0+1);
【方法技术】
【简述】Section on Molecular Neurobiology
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John MerlieClaudia Colina, Elias Leiva-SalcedoYears: 2012 — 2018; Recipients: Buonanno, Andres; Code: ZIA; Title/Keywords: Neuregulin-Erbb Signaling in Neuronal Development and Psychiatric Disorders@ Child Health and Human Development; Matching Score: 0.912
Harvard001001Boston, MA, USAKerry Ressler

Harvard
【研究方向】Fear(10+5); Psychiatry(14+0); Disorder(11+2); Trauma(4+5); Memory(2+6); Anxiety(7+0); Extinction(6+1); Stress(5+1); Depression(5+0); Emotion(2+3); Receptor(4+0); Cognition(3+1); Olfaction(4+0); Post-traumatic stress disorder(3+0); Amygdala(3+0); Modulation(1+1); Development(1+1); Learning(1+1); Social(2+0); Neuroimaging(1+1); Knockout(0+1); Regulation(1+0); Structure(1+0); Plasticity(0+1); Synaptic Plasticity(1+0); Translation(1+0); Synapse(0+1); Disease(0+1); Dysfunction(1+0); Biomarker(1+0); Pediatric(1+0); Neural Circuit(1+0); Systems Neuroscience(0+1); Contrast(0+1); Face perception(1+0); Consolidation(0+1); Memory Consolidation(0+1); Social cognition(1+0); Aversive(1+0); Hormone(1+0); Autonomic(1+0); Encoding(1+0); S1(1+0); Olfactory bulb(1+0);
【模式生物】Mouse(2+3); Human(0+3); Rat(1+0);
【方法技术】Gene(4+2); Behavior(2+2); Virus(0+1); Optogenetics(0+1); Pharmacology(1+0); Model(0+1);
【简述】Molecular Biology, Genetics, and Neural Circuitry of Fear in Animals and Human Fear-Related Disorders
【研究论文】
【综述】Trends In Neurosciences(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Richard J. Wurtman, Linda B. Buck, Michael DavisAlex O. Rothbaum, Thomas Crow, Orion Paul Keifer, Jr., Mallory E. Bowers, Filomene G. Morrison, Lisa M. Stanek-Rattiner, Jasmeer P. Chhatwal, Seth V. Jones, Kimberly A. Maguschak, Amy L. Mahan, Charles F. Gillespie, Aaron M. Jasnow, Dennis C. Choi, Georgette M. Gafford, Sunayana B. Banerjee, Stephanie A. Maddox, Raül Andero Gali, Rachel A. Ross, Nikolaos P. DaskalakisRetsina M. Meyer, Seth Davin Norrholm, Nikolaos P. DaskalakisYears: 2019; Recipients: Ressler, Kerry J.Suh, Junghyup; Code: R21; Title/Keywords: Neural Circuit Mechanisms of Stress-Induced Alcohol Seeking Behavior@ McLean Hospital; Matching Score: 0.907031964Prof.
Stanford002003Palo Alto, CA, USARajat Rohatgi

Stanford
【研究方向】Development(5+2); Signal transduction(0+3); Regulation(1+1); Membrane(2+0); Environment(0+2); Disease(0+2); Body(0+2); Imaging(0+2); Receptor(1+0); G-Protein Coupled Receptor(1+0); Structure(1+0); Cell cycle(1+0); Regeneration(0+1); Trafficking(0+1); Degeneration(0+1); Tumor(0+1); Face(0+1); Stress(0+1); Optical(0+1);
【模式生物】Human(1+3);
【方法技术】Protein(1+3); Gene(1+2); Biochemistry(0+1); Behavior(0+1);
【简述】
【研究论文】Nature(2); Science(1); Cell(4); eLife(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
NYU015028New York, NY, USAAntonio Convit

NYU
【研究方向】Cognition(2+1); Sleep(2+0); Metabolism(1+1); Cerebrovascular(2+0); Neurology(1+0); Alzheimer's disease(1+0); Inflammation(1+0); Respiratory(1+0); Imaging(1+0);
【模式生物】
【方法技术】
【简述】Cognitive effects of obesity and metabolic dysregulation
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
WUSTL009032Saint Louis, MO, USAWayland W. L. Cheng

WUSTL
【研究方向】Membrane(0+4); Ligand gated ion channel(1+2); Ion Channel(1+2); Modulation(0+2); Potassium channel(2+0); Therapeutics(0+2); Regulation(1+0); Nicotinic acetylcholine receptor(0+1); Acetylcholine receptor(0+1); GABAA receptor(0+1); Structure(0+1); Disease(0+1); Pain(0+1); Analgesics(0+1); Steroid(0+1);
【模式生物】Human(1+0);
【方法技术】Channel(1+1); Model(0+2); Electrophysiology(0+1); Pharmacology(0+1);
【简述】I am interested in the structure and function of neuronal ligand-gated ion channels, and the mechanism of channel modulation by endogenous lipids or exogenous drugs such as general anesthetics.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
WUSTL009032Saint Louis, MO, USAD.P. Mohapatra

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

UW
【研究方向】Learning(0+6); Synaptic Plasticity(0+3); Environment(0+3);
【模式生物】
【方法技术】Behavior(0+3);
【简述】Research
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, 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.
UCSF003015San Francisco, CA, USALisa Gunaydin

UCSF
【研究方向】Disease(0+2); Disorder(0+2); Psychiatric disorder(0+2); Autism(0+2); Anxiety(0+2); Neural Circuit(0+2); Neurotransmitter(0+1); Axon(0+1); Synapse(0+1); Social(0+1); Exploration(0+1); Emotion(0+1); Neural dynamics(0+1); Optical(0+1); PFC(0+1);
【模式生物】Human(0+2); Rodent(0+2); Mouse(0+1);
【方法技术】Behavior(0+5); Optogenetics(0+2); Model(0+1);
【简述】Circuit basis of motivated behaviors in psychiatric disease
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAPaul Mathews

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, USAIan G. Dobbins

WUSTL
【研究方向】Memory(2+2); Imaging(1+2); Learning(2+0); Decision making(1+1); PFC(1+1); Cognition(0+1); Retrieval(0+1); Episodic memory(0+1); Motivation(1+0);
【模式生物】
【方法技术】fMRI(1+3); MRI(1+1); Behavior(0+2); Model(1+1); Theory(1+0);
【简述】Interaction of Episodic Memory and Decision-Making Using fMRI and behavioral methods
【研究论文】Nature(1); Cerebral Cortex(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
UCLA011013Los Angeles, CA, USAMichel F. Lévesque

UCLA
【研究方向】Epilepsy(0+1); Imaging(0+1);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USASanjay Malhotra

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

Stanford
【研究方向】Language(2+0); Context(1+0); Syntax(1+0); Consciousness(1+0); Art(1+0);
【模式生物】Human(2+0);
【方法技术】Behavior(1+0); Theory(1+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
WUSTL009032Saint Louis, MO, USAPaul S.G. Stein

WUSTL
【研究方向】Motor(14+3); Reflex(8+2); Rhythm(3+2); Body(1+1); Touch(0+2); Neural network(0+2); NMDA receptor(1+0); Embryo(1+0); Axon(0+1); Neuromuscular(0+1); Sense(1+0); Sensorimotor Integration(0+1); Motor Neuron(0+1); Muscle(0+1); Pattern generation(0+1); Concept(0+1);
【模式生物】
【方法技术】Behavior(2+0); Gene(1+0); Electrical stimulation(1+0);
【简述】Sensorimotor integration; spinal cord neural networks; turtle hindlimb motor output
【研究论文】JNS(4);
【综述】Annual Review Of Neuroscience(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Donald Kennedy, Ted H. BullockGammon M. Earhart, Jilei Hou, Mindy S. Marks, Jeremy R. Groves, Tomasz Skladzien, Tara D. Carter, Priyantha P. Karunaratne, Scott N. CurrieYears: 1992 — 2010; Recipients: Stein, Paul S.; Code: R01; Title/Keywords: Sensory and Motor Integration in the Spinal Cord@ Washington University; Matching Score: 0.936004061Prof.
NYU015028New York, NY, USAJack Rosenbluth

NYU
【研究方向】Disease(0+4); Glial cell(0+2); Neurology(2+0); Trauma(0+2); Sense(0+2); Motor(0+2); Transgenic(0+1); Ion Channel(0+1); Proliferation(0+1); Cell line(0+1); Differentiation(0+1); Axon(0+1); Injury(0+1); Sclerosis(0+1); Schizophrenia(1+0);
【模式生物】Mouse(3+0);
【方法技术】Behavior(0+2); Model(1+1); Gene(0+1); Protein(1+0); Channel(0+1); In vivo(0+1);
【简述】Neuroglial interactions
【研究论文】Cell(1); JNS(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Amanda J. Mierzwa, Florence ChaverneffYears: 2003 — 2013; Recipients: Rosenbluth, Jack; Code: R01; Title/Keywords: Pathology of Dysmyelination and Demyelination@ New York University School of Medicine; Matching Score: 1Emeritus
Stanford002003Palo Alto, CA, USACourtney Wusthoff

Stanford
【研究方向】Development(4+0); Brain injury(2+2); Pediatric(2+1); Epilepsy(2+0); Neurology(2+0); Perinatal(0+1); Neuroimaging(1+0);
【模式生物】Human(1+0);
【方法技术】EEG(2+2); Gene(2+0); MRI(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: 2017 — 2018; Recipients: Wusthoff, Courtney Jane; Code: K02; Title/Keywords: A Multicenter Study of Eeg in Premature Infants With Neonatal Encephalopathy@ Stanford University; Matching Score: 0.958Assoc Prof.
UW021010Seattle, WA, USAAlbert Folch

UW
【研究方向】Cell line(0+3); Olfaction(0+2); Cell migration(0+1); Environment(0+1); Axon guidance(0+1); Synaptogenesis(0+1); Sense(0+1); Muscle(0+1); Methodology(0+1);
【模式生物】Rat(0+1);
【方法技术】Cell culture(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
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.
Princeton061009Princeton, NJ, USAWilliam Bialek

Princeton
【研究方向】Vision(14+0); Neural codes(14+0); Dynamics(12+0); Learning(6+2); Adaptation(6+0); Auditory(6+0); Sense(5+0); Perception(3+2); Signal processing(4+0); Regulation(3+0); Structure(3+0); Neural network(3+0); Development(0+2); Contrast(2+0); Timing(2+0); Language(0+2); Evolutionary(0+2); Oscillation(1+0); Embryo(1+0); Bipolar(1+0); Cognition(1+0); Visual motion(1+0); Frequency(1+0); Motor(1+0); Eye Movement(1+0); Muscle(1+0); Attention(1+0); Inference(1+0); Encoding(1+0); Bayesian(1+0);
【模式生物】C. elegans(4+0); Human(2+0); Macaque(1+0); Monkey(1+0); Bird(1+0); Songbird(1+0);
【方法技术】Computation(13+0); Model(13+0); Theory(7+5); Protein(7+0); Behavior(4+2); Gene(4+0); Statistics(2+0); Biochemistry(1+0); Biophysics(1+0); Psychophysics(1+0); Mathematics(1+0);
【简述】Theory and Computation
【研究论文】Nature(5); Science(6); Cell(6); Neuron(7); Neural Computation(1);
【综述】Trends In Neurosciences(1); Physical Review(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Alan J. Bearden, Hero Piet Wit, Frank Wilczek, Anthony ZeeGreg S. Corrado, Seth Bruder, William Bruno, Denis Chigirev, Michael Robert DeWeese, Leonid Kruglyak, Yuan Sophie Liu, Fred Rieke, Daniel Ruderman, Spiros Skourtis, Steven Strong, David K. Warland, Michael C. Crair, Nicholas D. Socci, Marc Potters, Ilya Mark Nemenman, Thomas Gregor, Gasper Tkacik, Dario Amodei, Julien Dubuis, Steven Hamed Hassani, Dmitry Krotov, Mikhail Tikhonov, Ji Hyun Bak, Thomas Adelman, Adrienne Fairhall, Kamesh Krishnamurthy, Zili Liu, Jonathan Miller, Katherine Moortgat, Thierry Mora, Stephanie E. Palmer, Elad Schneidman, Tatyana Sharpee, Greg Stephens, Susanne Still, Aleksandra Walczak, Wulfram Gerstner, Audrey Sederberg, Gordon BermanYears: 2018 — 2019; Recipients: Bialek, WilliamMurthy, Mala [⬀] Pillow, 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: 1025349Prof.
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
JHU010012Baltimore, MD, USAUlrich Mueller

JHU
【研究方向】Hair cell(0+6); Perception(0+4); Auditory(0+4); Development(0+3); Neurotransmitter(0+1); Ion Channel(0+1); Differentiation(0+1); Disease(0+1); Psychiatric disorder(0+1); Neural Circuit(0+1);
【模式生物】Stem Cell(0+6); Human(0+2); Mouse(0+2); Marmoset(0+1);
【方法技术】Gene(0+2);
【简述】Neural Circuits, Ensembles + Connectomes; Developmental Neuroscience; Cellular + Molecular Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAAndrew F. Leuchter

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

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

NIH-NIA
【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, USAUlf Dettmer

Harvard
【研究方向】Disease(9+3); Neurotoxicity(6+0); Alpha-synuclein(5+0); Vesicle(2+1); Parkinson's disease(2+1); Membrane(2+0); Form(2+0); Motor(2+0); Engineering(0+2); Imaging(0+2); Glia(0+1); Development(1+0); Environment(0+1); Neurology(1+0); Neurodegenerative disease(1+0); Pathogenesis(0+1); Movement disorder(1+0); Injury(1+0); Depth(0+1); Body(0+1);
【模式生物】Human(3+0); Mouse(2+1);
【方法技术】Protein(11+4); In vivo(4+0); Model(0+3); Biochemistry(1+1); Gene(0+1); Microscopy(0+1);
【简述】Modeling protein dyshomeostasis in Parkinson's disease and exploring strategies to correct it
【研究论文】Cell(1); Nature Communications(3);
【综述】Current Opinion In Neurobiology(2); Annals Of Neurology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000550Assist Prof.
Stanford002003Palo Alto, CA, USAThomas Sudhof

Stanford
【研究方向】Synapse(2+7); Vesicle(2+2); Neurotransmitter release(0+4); LTP(3+0); Disease(1+2); Neurotransmitter(0+2); Regulation(1+1); Receptor(0+2); AMPA receptor(2+0); Autism(0+2); Neural Circuit(2+0); Membrane(0+1); Vesicle fusion(1+0); Synaptic Transmission(1+0); LTD(1+0); Reprogramming(1+0); Pluripotent stem cells(1+0); Trafficking(1+0); Synapse formation(0+1); Neurodegenerative disorder(0+1); Pathogenesis(0+1); Depression(1+0); Schizophrenia(0+1); Sense(0+1); Perception(0+1); Form(0+1); Memory(1+0); Learning and memory(0+1); Knowledge(0+1); Emotion(0+1); Hormone(0+1); Imaging(1+0); Connection(0+1);
【模式生物】Human(2+3); Stem Cell(4+0); Mouse(0+1);
【方法技术】Gene(0+2); Behavior(0+2); Model(1+1); Protein(1+0); Biochemistry(0+1);
【简述】
【研究论文】Science(1); Cell(1); Nature Neuroscience(1); Neuron(5); JNS(3); PNAS(2); PLoS Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Victor P. Whittaker, Joseph L. Goldstein, Michael  Stuart BrownNicole Gautier, Andrea J. Roth, Timothy Aaron Galfin, Deniz Atasoy, Hongmei Li, Bo Zhang, Kat Kozyrytska, Konstantin Kaganovsky, Roger S. Zhang, Yuqi (Cosmos) Wang, Alexander A. Chubykin, Zhiping Pang, Yea Jin Kaeser-Woo, Yoon Seok Kim, Nils Brose, Sreeganga S. Chandra, Rafael Fernandez-Chacon, Marc V. Fuccillo, Ozgun Gokce, Sung-Jin Lee, David Martinelli, Stephan Maxeiner, Markus Missler, Ali Shahmoradi, Justin H. Trotter, Theodoros Tsetsenis, Matthijs Verhage, Jaewon Ko, Patrick E. Rothwell, Dick Wu, Jason P. Covy, Yu-Wen Alvin Huang, Fei Yi, Man Jiang, Fujun Luo, Mu Zhou, Zahra Dargaei, Thomas Biederer, Weiping Han, Angela Ho, Anton Maximov, Alfred (AJ) J. Robison, Jun Xu, Peng Cao, Tao Liu, Jason Aoto, Huinan (Marcus) Li, Soham Chanda, Lulu Y Chen, Yuri Ushkaryov, Pascal S. KaeserEge T. Kavalali, Wade Morishita, Jai santosh Polepalli, Christian Rosenmund, Craig M. PowellYears: 2019; Recipients: Sudhof, Thomas C.Wernig, Marius [⬀] ; Code: R01; Title/Keywords: The Role of Myt1l in the Developing and Adult Mouse Brain@ Stanford University; Matching Score: 1Prof.
UCSD011017San Diego, CA, USANigel A. Calcutt

UCSD
【研究方向】Disease(0+3); Sense(0+2); Pain(0+1);
【模式生物】
【方法技术】Model(0+2); Biochemistry(0+1); In vivo(0+1); Behavior(0+1); Pharmacology(0+1);
【简述】 Biochemistry & Molecular; Systems
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NINDS??Bethesda, MD, USADorian McGavern

NIH-NINDS
【研究方向】CNS(4+6); Infection(7+1); Brain injury(4+1); Differentiation(4+0); Disease(0+4); Injury(2+2); Pathogenesis(1+2); Inflammation(3+0); Dendrite(2+0); Neuroinflammation(2+0); Vessel(2+0); Imaging(1+1); Transgenic(1+0); Cytokine(1+0); Receptor(1+0); Transcription(1+0); Microglia(1+0); Development(1+0); Proliferation(1+0); Environment(0+1); Pluripotent stem cells(1+0); Synapse formation(1+0); Neurology(1+0); Pathology(1+0); Neuroprotection(1+0); Sclerosis(1+0); Body(0+1); Memory(1+0); Context(1+0); Neuroimmunology(1+0);
【模式生物】Mouse(2+0); Stem Cell(2+0); Human(1+0);
【方法技术】Virus(3+0); In vivo(3+0); Protein(2+0); Anatomy(1+0); Tracing(1+0); Microscopy(0+1); Model(1+0);
【简述】Viral Immunology and Intravital Imaging Section
【研究论文】Cell(5); Nature Neuroscience(1); Neuron(1); PLoS Biol.(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Moses Rodriguez, Michael B. OldstoneSelam Gossa, Tristan Dyson, Phi Truong, Sara Heydari, Shruti Desai, Elizabeth Kenyon, Monica Manglani, Zachary Fitzpatrick, Hannah Mason, Nicole Mihelson, Filipa Cardoso, Kara Corps, Matt Russo, Elisa Eme-Scolan, Patrick Duncker, Panagiotis Mastorakos, Luciana Negro, Henning Lauterbach, David Brooks, Lucile Garidou, Silvia S. Kang, Bernd Zinselmeyer, Debasis Nayak, Jasmin Herz, Philip A. Swanson, Rahul Dave, Elliot A. Moseman, Rejane Rua, Ying (Claire) Fan, Theodore L. Roth, Aivi Nguyen, Patrick Wu, Alexa Ciesinski, Jane Yurim Lee, Alexander Silva, Isabella Swafford008523</