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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
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.
Harvard001001Boston, MA, USANaoshige Uchida

Harvard
【研究方向】Dopamine(10+0); Olfaction(7+0); Dopamine neuron(6+0); Reward(6+0); Sense(0+3); Striatum(3+0); Olfactory bulb(3+0); Adhesion(2+0); Neural Circuit(2+0); Learning(0+2); Decision making(1+1); Neural codes(0+2); Dynamics(0+2); Receptor(1+0); Development(1+0); Synapse(1+0); Adaptation(1+0); Form(1+0); Somatosensory(1+0); Chemical sense(1+0); Motor(1+0); Memory(0+1); Inference(1+0); Parental behavior(1+0); PFC(1+0); mPFC(1+0); OFC(1+0); Paraventricular nucleus(1+0); VTA(1+0);
【模式生物】Mouse(3+2); Rat(3+1);
【方法技术】Behavior(3+8); Computation(1+1); Gene(0+1); Virus(1+0); Multi-electrode(0+1);
【简述】Neurobiology of decision-making
【研究论文】Nature Neuroscience(3); Nature Communications(1);
【综述】Annual Review Of Neuroscience(1); Nature Reviews Neuroscience(1); Trends In Neurosciences(1); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Masatoshi Takeichi, Kensaku Mori, Zachary F. MainenNeir Eshel, JU TIAN, William S. Menegas, Kevin M. Cury, Mackenzie Weygandt Mathis, Clara K Starkweather, Jeremiah Y. Cohen, Sebastian Haesler, Bénédicte M Babayan, HyungGoo R. Kim, Athar N. Malik, Rafi HaddadYears: 2019; Recipients: Murthy, Venkatesh N [⬀] Uchida, Naoshige; Code: R01; Title/Keywords: Emergence of Valence Coding in the Ventral Striatum@ Harvard University; Matching Score: 1007639Prof.
Harvard001001Boston, MA, USAZhigang He

Harvard
【研究方向】Receptor(9+0); Regeneration(7+1); Axon(6+1); Injury(1+4); CNS(2+2); Development(1+1); Synapse(0+2); Brain injury(2+0); Spinal Cord Injury(0+2); Touch(2+0); Modulation(1+0); Transcription(1+0); Proliferation(1+0); Disease(0+1); Neuropathic pain(1+0); Olfaction(1+0); Auditory(1+0); Motor(0+1); Muscle(1+0); Sleep(1+0); Connection(0+1);
【模式生物】Human(2+0); Mouse(2+0); Rat(1+0);
【方法技术】Gene(0+1); In vivo(1+0); Tracing(1+0); Behavior(1+0);
【简述】 Cellular and Molecular Mechanisms in Axon Guidance and Regeneration
【研究论文】Cell(3); Nature Neuroscience(1); Nature Communications(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
Marc Tessier-LavigneKevin C. Wang, Vuk Koprivica, Glenn C. Yiu, Michael Norsworthy, Fengfeng Bei, Stephane Belin, Benedikt Brommer, Bo Chen, Shane Hegarty, Yang Hu, Yi Li, Kai Liu, Kevin Park, Patrice D. Smith, Joanna Stanicka, Fang Sun, Xuhua Wang, Jing Wang, Qianbin Wang, Philip Willaims, Liu Yuanyuan, Chunyang Zhang, Zicong Zhang, Miao He, Xuelian He, Anne Jacobi, Feng Tian, Aboozar Monavarfeshani, Homaira Nawabi, Romain Cartoni020281Prof.
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
NIH-NINDS??Bethesda, MD, USAZu-Hang Sheng

NIH-NINDS
【研究方向】Axon(0+5); Mitochondria(0+4); Receptor(3+0); Structure(1+2); Disease(3+0); Regulation(1+1); Axonal transport(0+2); Neurodegenerative disease(0+2); Dysfunction(0+2); Injury(1+1); Stress(1+1); Imaging(1+1); Modulation(1+0); Membrane(0+1); Energy homeostasis(0+1); Trafficking(0+1); Disorder(0+1); Pathology(0+1); Pathogenesis(0+1); Biomarker(1+0); Sense(0+1); Object(1+0); Body(0+1); Motor(0+1); Learning(1+0); Working memory(1+0); Concept(1+0); Knowledge(0+1); Encoding(1+0); PFC(1+0);
【模式生物】Human(3+1); Rat(1+0); Mouse(0+1);
【方法技术】Gene(0+1); Model(0+1);
【简述】Synaptic Function Section
【研究论文】Nature(3); Cell(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Zhou bingYears: 2012 — 2018; Recipients: Sheng, Zu-Hang; Code: ZIA; Title/Keywords: Axonal Transport Regulates Synaptic Function and Axonal Homeostasis@ Neurological Disorders and Stroke; Matching Score: 1
Harvard001001Boston, MA, USADennis Selkoe

Harvard
【研究方向】APP(1+4); Alzheimer's disease(4+0); Vesicle(2+0); Dysfunction(1+1); Tau(2+0); Parkinson's disease(2+0); AMPA receptor(1+0); Membrane(0+1); Plasticity(1+0); Synaptic Plasticity(1+0); Glia(0+1); Microglia(1+0); Development(1+0); Environment(1+0); Embryo(1+0); Trafficking(0+1); Disease(0+1); Degeneration(0+1); Vulnerability(1+0); Aging(0+1); Alzheimer's(1+0); Biomarker(1+0); Parkinson's(1+0); Tauopathies(1+0); Inflammation(1+0); Neuroprotection(1+0); Motor(1+0); Memory(1+0); Decoding(1+0); CA1(1+0);
【模式生物】Mouse(1+2); Human(1+0); Stem Cell(1+0);
【方法技术】Biochemistry(2+2); Gene(1+1); Protein(0+2); Model(0+2); In vitro(1+0); Cell culture(0+1); Electrophysiology(0+1); Microscopy(0+1); Pharmacology(0+1);
【简述】Molecular Mechanisms of Neurodegeneration in Alzheimer's and Parkinsons Diseases
【研究论文】Nature Neuroscience(1); JNS(1); Nature Communications(1); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles F Barlow, Michael L. ShelanskiCarmela R. Abraham, Jay H. Chyung, William T. Kimberly, Brian M. Whalen, Matthew L. Hemming, Allen C. Chen, Irit Rappley, Soyon Y. Hong, Heather C. Rice, Edward H. Koo, Matthew J. LaVoie, Dominic Walsh, Nobuyuki Nukina, Christian Haass, Tracy L. Young-Pearse, Thomas Koeglsperger, Yasuo Ihara, Reisa SperlingYears: 2017 — 2018; Recipients: Nuber, SilkeSelkoe, Dennis J; Code: R21; Title/Keywords: Shifting Multimers: New Mouse and Culture Models of ?-Synuclein Truncation by Calpain in Pd@ Brigham and Women's Hospital; Matching Score: 0.91Prof.
Stanford002003Palo Alto, CA, USAMargaret Levi

Stanford
【研究方向】Social(5+0); Art(2+0); Regulation(1+0); Structure(1+0);
【模式生物】Human(1+0);
【方法技术】Behavior(2+0); Theory(2+0); Model(1+0);
【简述】
【研究论文】Science(4);
【综述】Review(7);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Joseph H. JupilleYears: 2014 — 2016; Recipients: Levi, MargaretJohnson, Carolina; Code: N/A; Title/Keywords: Doctoral Dissertation Research in Political Science: An Institutional Theory of Participatory Budgeting@ University of Washington; Matching Score: 0.954018516Prof.
UW021010Seattle, WA, USAEric Turner

UW
【研究方向】Development(0+4); Disorder(0+3); Transgenic(0+2); Regulation(0+2); Dopamine(0+1); 5-HT(0+1); Transcription(0+1); Addiction(0+1); Depression(0+1); Schizophrenia(0+1); Context(0+1); Art(0+1);
【模式生物】Human(0+1); Mouse(0+1);
【方法技术】Gene(0+3); Behavior(0+1); Electrophysiology(0+1); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAEdward Ziff

NYU
【研究方向】AMPA receptor(0+1); Trafficking(0+1); Spine(0+1); Disease(0+1);
【模式生物】
【方法技术】
【简述】AMPA receptors trafficking, synaptic strength, spine morphogenesis, and neurological diseases
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Frederick SangerLinheng Li / Xi He, Bradley Alan States, Joshua B. Silverman, Wei Lu, Brian David Fernholz, Sara Monea, Yafell Serulle, David Tukey, Sooyeon Lee, Roseann F. Titcombe, Bryen A. Jordan, Pavel Osten, George C. Prendergast, Sophie Restituito, Michael E. Greenberg, Jon HanleyYears: 2009 — 2013; Recipients: Ziff, Edward B; Code: R01; Title/Keywords: Role of Cgkii in Ampa Receptor Transport@ New York University School of Medicine; Matching Score: 0.958Prof.
UCLA011013Los Angeles, CA, USADavid S. Williams

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

Harvard
【研究方向】Development(8+4); Disorder(5+3); Axon(2+3); Vision(4+0); Imaging(3+1); Axon guidance(3+0); Motor(3+0); Muscle(3+0); Axon growth(1+1); Disease(0+2); Developmental Disorder(1+1); Mutant(1+0); Structure(0+1); Plasticity(0+1); Glia(0+1); Regeneration(1+0); Neurology(1+0); Autism(1+0); Neuromuscular(1+0); Pediatric(1+0); Cognition(1+0); Face(0+1); Cardiovascular(1+0); Encoding(1+0); Dynamics(1+0); Optical(1+0); Connection(0+1); LIP(1+0); White matter(1+0);
【模式生物】Human(10+3); Mouse(1+1); Zebrafish(0+1);
【方法技术】Gene(6+3); MRI(3+0); Model(0+2); In vitro(0+1); Cell culture(0+1); Computation(0+1);
【简述】Cranial axon growth and guidance
【研究论文】Nature Communications(1);
【综述】Annals Of Neurology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
E. Tessa Hedley-Whyte, Edward P. Richardson Jr.Matthew Frederick Rose006480Prof.
Princeton061009Princeton, NJ, USATimothy Buschman

Princeton
【研究方向】Executive control(0+5); Cognition(1+3); Attention(2+0); PFC(1+1); FEF(2+0); Oscillation(1+0); Disease(0+1); Neurodegenerative disease(0+1); Autism(0+1); Parkinson's(0+1); Schizophrenia(0+1); Neural Circuit(0+1); Vision(1+0); Basal ganglia(0+1);
【模式生物】Non-human primate(0+1); Primate(0+1); Rodent(0+1);
【方法技术】Behavior(0+3); Electrophysiology(0+2); Optogenetics(0+1);
【简述】Systems and Circuits
【研究论文】Science(1); Neuron(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Robert Desimone, Earl K. Miller, Earl K. Miller, Christopher I. Moore, Edward S. BoydenPavlos Kollias, Matthew F. Panichello, Sina Tafazoli, Camden J MacDowell, Nikola T. Markov, R Becket EbitzYears: 2018 — 2019; Recipients: Buschman, Timothy J.; Code: R56; Title/Keywords: Understanding the Network Mechanisms That Control Working Memory@ Princeton University; Matching Score: 1Assist Prof.
JHU010012Baltimore, MD, USAGabsang Lee, DVM

JHU
【研究方向】Pluripotent stem cells(0+2); Disease(0+2); Muscle(0+2); Disorder(0+1); Methodology(0+1);
【模式生物】Stem Cell(0+4); Human(0+2);
【方法技术】Gene(0+3); 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
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.
UCLA011013Los Angeles, CA, USAJuan Carlos G. Marvizón

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, USAMartin Wallner

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, USAMarco Iacoboni

UCLA
【研究方向】Psychiatry(0+1);
【模式生物】
【方法技术】TMS(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, USAChristopher J. Evans

UCLA
【研究方向】Receptor(0+2); Psychiatry(0+1); Drugs of Abuse(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
Princeton061009Princeton, NJ, USAElizabeth Gould

Princeton
【研究方向】Cognition(2+7); Regulation(1+2); Anxiety(1+2); Structure(0+2); Plasticity(0+2); Structural plasticity(0+2); Microglia(0+2); Environment(0+2); Synapse(0+2); Morphology(0+2); Mating(0+2); PFC(2+0); Gap junction(1+0); Neurogenesis(1+0); Dendrite(1+0); Spine(1+0); Exercise(1+0); Learning and memory(1+0); mPFC(1+0); Dentate gyrus(1+0);
【模式生物】Human(0+1);
【方法技术】
【简述】Systems and Circuits ; Human Neuroscience
【研究论文】JNS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Bruce S. McEwenLiron Noiman, Yevgenia Kozorovitskiy, Maya Opendak, Anna V. Beylin, Patima Tanapat, Christian Mirescu, Alexis M. Stranahan, Julia M. Caponiti, Yu-Wei Chen, Timothy J. Schoenfeld, Miriam E. Bocarsly, Adam T Brockett, Nicholas Hastings, Benedetta LeunerCharles Gross, Tracey J. ShorsYears: 2018; Recipients: Gould, Elizabeth; Code: R01; Title/Keywords: Investigating Perineuronal Nets and Hippocampal Plasticity in Early Life Adversity-Induced Anxiety@ Princeton University; Matching Score: 1Prof.
Columbia006008New York, NY, USAAndres Bendesky

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

UCLA
【研究方向】Parkinson's disease(0+4); Huntington's disease(0+4); Modulation(0+3); Striatum(0+3); Mutant(0+2); Neuromodulation(0+2); Amino acid(0+2); Dopamine(0+2); Receptor(0+2); Neurodegenerative disorder(0+2); Pediatric(0+2); Basal ganglia(0+2); Dopamine receptor(0+1); Epilepsy(0+1); Development(0+1); Dysfunction(0+1); Therapy(0+1);
【模式生物】Mouse(0+4); Human(0+2);
【方法技术】Model(0+6); Electrophysiology(0+3); 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
Columbia006008New York, NY, USAChristoph Anacker

Columbia
【研究方向】Stress(10+9); Neurogenesis(11+1); Depression(7+2); Psychiatry(6+0); Receptor(5+0); Dentate gyrus(3+2); Development(0+4); Neural Circuit(0+4); Psychiatric disorder(0+3); Hippocampus(0+3); Transgenic(0+2); Inflammation(2+0); Anxiety(0+2); Cognition(2+0); Memory(2+0); Regulation(1+0); Modulation(1+0); Cytokine(1+0); Disorder(1+0); Pathogenesis(0+1); Ischemia(1+0); Trauma(1+0); Metabolism(1+0); Imaging(0+1); Dorsal raphe nucleus(1+0);
【模式生物】Mouse(1+3); Human(2+1); Rat(1+0);
【方法技术】Behavior(3+3); Gene(0+1); In vivo(0+1); Optogenetics(0+1); Model(1+0);
【简述】Neurobioloy of Psychiatric Disorders ; Stress Susceptibility and Resilience ; Early life Development ; Neural Circuits ; Molecular Mechanisms;
【研究论文】Nature(1); Nature Neuroscience(2);
【综述】Nature Reviews Neuroscience(2); Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
René Hen, Michael J. Meaney003695Assist Prof.
UCLA011013Los Angeles, CA, USASuraj P. Bhat

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, USAAnthony Norcia

Stanford
【研究方向】Vision(35+1); Development(9+1); Contrast(8+0); Visual cortex(4+0); Face(3+0); Perception(2+0); Contour(2+0); Frequency(2+0); Dynamics(2+0); LTD(1+0); Cognition(1+0); Cognitive neuroscience(1+0); Sense(1+0); Object(1+0); Decision making(1+0); Engineering(1+0); Imaging(0+1);
【模式生物】Human(12+0);
【方法技术】EEG(3+0); Computation(2+0); Statistics(2+0); Psychophysics(1+0); Electrophysiology(1+0); fMRI(1+0); Electrical stimulation(1+0);
【简述】
【研究论文】Science(2); JNS(2); PLOS Computational Biology(2);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Leo Ganz, Christopher W. Tyler, Lorrin RiggsFaraz Farzin, Deborah Orel-Bixler, Justin Michael Ales, Jacek Dmochowski, Faraz Farzin, Peter Jes Kohler, David Henry Peterzell, Uri Polat, Rick J. Brown, Ann M. Skoczenski, T Rowan Candy, Lawrence Gregory Appelbaum, Melanie Palomares, Jeffrey J. Tsai, Emily A. CooperStefano BaldassiYears: 2017 — 2018; Recipients: Norcia, Anthony M; Code: R21; Title/Keywords: Non-Invasive Brain Stimulation Approaches to Visual System Modeling and Plasticity@ Stanford University; Matching Score: 1007422Prof.
Stanford002003Palo Alto, CA, USAScott Dixon

Stanford
【研究方向】Metabolism(5+2); Disease(2+1); Stress(3+0); Differentiation(2+0); Regulation(1+0); Development(1+0); Therapy(1+0); Brain injury(1+0); Knowledge(0+1);
【模式生物】Human(1+0);
【方法技术】Model(2+0); Gene(1+0); Protein(1+0); Biochemistry(1+0); Pharmacology(1+0); Computation(1+0);
【简述】
【研究论文】Nature(2); Cell(5); eLife(1); PLOS Computational Biology(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2017 — 2018; Recipients: Dixon, Scott; Code: R01; Title/Keywords: Characterizing the Regulation of Ferroptosis@ Stanford University; Matching Score: 1Assist Prof.
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.
UCSD011017San Diego, CA, USADavide Dulcis

UCSD
【研究方向】Plasticity(0+1);
【模式生物】
【方法技术】Behavior(0+1);
【简述】 Cellular & Developmental
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAYao Chen

WUSTL
【研究方向】Dynamics(0+5); Psychiatric disorder(0+2); Stroke(2+0); Sleep(0+2); Imaging(1+1); Regulation(1+0); Neuromodulation(0+1); Modulation(1+0); Dopamine(0+1); Acetylcholine(0+1); Receptor(0+1); Peptide receptor(1+0); Peptide(1+0); Structure(1+0); Development(0+1); Environment(1+0); Disease(1+0); Neurodegenerative disorder(0+1); Therapeutics(1+0); Drugs of Abuse(0+1); Neural Circuit(0+1); Spectral(1+0); Learning(0+1); Knowledge(0+1); Connection(0+1);
【模式生物】Mouse(0+1);
【方法技术】Protein(4+0); Behavior(1+3); Theory(2+0); Gene(1+0); In vitro(1+0); Electrophysiology(0+1); Microscopy(0+1); Pharmacology(1+0); Algorithm(1+0);
【简述】Understanding the function of neuromodulators and sleep through the spatiotemporal dynamics of molecular signals
【研究论文】Nature(1); Science(1); NIPS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Peter Lawrence, Damon Page, Karel Svoboda, John Flanagan, Bernardo L. SabatiniYears: 2014 — 2015; Recipients: Chen, Yao; Code: F32; Title/Keywords: Integration and Dynamics of Neuromodulator Action in the Striatum@ Harvard Medical School; Matching Score: 1009366Assist Prof.
Stanford002003Palo Alto, CA, USALambertus Hesselink

Stanford
【研究方向】Optical(4+0); Contrast(2+0); Imaging(2+0); Learning(1+0); Dynamics(1+0); Engineering(1+0);
【模式生物】
【方法技术】Model(3+0); Simulation(2+0); Theory(1+0); Statistics(1+0);
【简述】
【研究论文】Science(2);
【综述】Physical Review(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Hans Wolfgang Liepmann, Bradford SturtevantSteven H. Collicott, Minami Yoda, Rajesh K. Batra, Alice Y. Liu, Loukas Paraschis, Xiaolei Shi, Joseph A. Matteo, Jun Ren, Ji-Won Son, Liying Sun, Yuzuru TakashimaYears: 2010 — 2013; Recipients: Hesselink, Lambertus; Code: N/A; Title/Keywords: Nano Optical Conveyor Belt@ Stanford University; Matching Score: 1Prof.
Stanford002003Palo Alto, CA, USAMaarten Lansberg

Stanford
【研究方向】Stroke(50+5); Imaging(15+1); Therapy(10+1); Neurology(7+0); Hemorrhage(4+0); Disease(3+0); Development(1+0); Ischemia(1+0); Vision(1+0); Decision making(1+0); Metabolism(1+0); Blood flow(1+0); Cardiovascular(1+0); Cerebrovascular(1+0); Vessel(1+0);
【模式生物】
【方法技术】MRI(7+1); Simulation(1+0);
【简述】
【研究论文】
【综述】Annals Of Neurology(3); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
012452Assoc Prof.
WUSTL009032Saint Louis, MO, USAMichael Hughes

WUSTL
【研究方向】Circadian(10+1); Rhythm(8+1); Circadian clock(4+1); Muscle(2+2); Biological rhythms(4+0); Metabolism(3+0); Transcription(2+0); Dendrite(2+0); Disease(1+1); Peptide(1+0); Neurology(1+0); Social(1+0); Dynamics(1+0); Machine learning(1+0);
【模式生物】Drosophila(4+0); Rat(1+0); Mouse(1+0);
【方法技术】Gene(6+4); Behavior(2+0); Bioinformatics(1+1); Algorithm(2+0);
【简述】Our laboratory uses functional genomics to understand tissue specific gene expression in circadian rhythms, skeletal muscle, and lung disease
【研究论文】Science(2); Cell(2); Neuron(1); Curr Biol.(1); PLoS Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003341Assist Prof.
MIT005002Boston, MA, USAIla Fiete

MIT
【研究方向】Grid cell(9+0); Learning(6+0); Neural network(5+0); Plasticity(2+0); Path integration(2+0); Dynamics(2+0); Development(1+0); Environment(1+0); Memory(1+0); Navigation(1+0); Exploration(1+0); Spiking Neural Network(1+0); Mushroom body(1+0); Hippocampus(1+0);
【模式生物】Rat(2+0); Human(1+0); Drosophila(1+0);
【方法技术】Model(6+0); Computation(3+0);
【简述】
【研究论文】Cell(3); Nature Neuroscience(3); Neuron(4); JNS(2); Curr Biol.(1); PLOS Computational Biology(1); Neural Computation(1); NIPS(1);
【综述】Physical Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
H Sebastian Seung, Daniel S. Fisher, Christof KochJohn Eric Widloski, KiJung Yoon, Sean Gregory Trettel, Yongseok YooMichale S. Fee, Richard H.R. Hahnloser, Yoram BurakYears: 2015 — 2017; Recipients: Fiete, Ila R.Huk, Alexander CPriebe, Nicholas J. [⬀] ; Code: U01; Title/Keywords: Neural Ensembles Underlying Natural Tracking Behavior@ University of Texas, Austin; Matching Score: 1001949Assoc Prof.
Stanford002003Palo Alto, CA, USABilly W Loo

Stanford
【研究方向】Therapy(6+2); Tumor(6+0); Imaging(3+2); Metabolism(1+1); LTD(1+0); Translation(0+1); Hypoxia(1+0); Body(1+0);
【模式生物】Human(1+0);
【方法技术】
【简述】
【研究论文】Science(8); Cell(8);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
CalTech072006Pasadena, CA, USAAntonio Rangel

CalTech
【研究方向】Decision making(4+1); Social(5+0); Cognition(2+1); OFC(3+0); Vision(2+0); PFC(2+0); mPFC(2+0); Modulation(1+0); Environment(1+0); Addiction(1+0); Cognitive neuroscience(0+1); Motor(1+0); Learning(1+0); Attention(1+0); Social cognition(1+0); Appetitive(1+0); Aversive(1+0); Reward(1+0); Dynamics(1+0); Imaging(0+1); Striatum(1+0);
【模式生物】Human(1+0);
【方法技术】Computation(5+0); MRI(0+1); Behavior(1+0); fMRI(0+1); TMS(0+1); Model(1+0);
【简述】Neuroeconomics
【研究论文】Nature(1); Science(1); Nature Neuroscience(1); JNS(6); Neural Computation(1);
【综述】Review(4); Nature Reviews Neuroscience(1); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
B. Douglas Bernheim, Alberto Alesina, Eric S. MaskinJonathan M. Malmaud, Shabnam Hakimi, Klaus Wunderlich, Nicolette (Nikki) J. Sullivan, Ian Krajbich, Cary D. Frydman, Vanessa Janowski, Alice Lin, Benjamin Bushong, Seung Lark Lim, Hilke Plassmann, Shih-Wei Wu, Damian Alexander StanleyYears: 2017 — 2019; Recipients: Rangel, AntonioAdolphs, Ralph (co-PI) [⬀] O'doherty, John [⬀] Mobbs, Dean (co-PI) [⬀] ; Code: N/A; Title/Keywords: Mri: Acquisition of a High Performance 3t Magnetic Resonance System For High Resolution Human Brain Imaging@ California Institute of Technology; Matching Score: 1017210Prof.
Stanford002003Palo Alto, CA, USAJeffrey Goldberg

Stanford
【研究方向】Vision(6+2); Differentiation(3+0); Development(0+2); Regeneration(1+1); Engineering(1+1); Regulation(1+0); Receptor(1+0); Transplantation(1+0); CNS(1+0); Embryo(1+0); Axon(1+0); Neurodegenerative disease(0+1); Biomarker(0+1); Neuroprotection(0+1); Injury(1+0); Photoreceptor(1+0); Frequency(1+0); Muscle(1+0); Vascular network(1+0); Imaging(0+1); Optical(1+0); V2(1+0);
【模式生物】Stem Cell(6+1); Human(6+0); Rat(2+0);
【方法技术】Behavior(2+0); Model(1+0); Mathematics(1+0);
【简述】
【研究论文】Science(7); Nature Communications(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ben A. BarresAlena Bartakova, Jonathan Hertz, Alexander Kreymerman, Sahil H. Shah, Noelia J. Kunzevitzky, Darcie Leann Moore, Raul G. Corredor, Ephraim F. Trakhtenberg, Praseeda Venugopalan, Yuanli Duan, Evan G. Cameron, Kun-Che Chang, Joana M Galvao, Xin Xia, Satoshi YokotaYears: 2018; Recipients: Goldberg, Jeffrey L; Code: T32; Title/Keywords: Stanford Vision Training Program@ Stanford University; Matching Score: 1000719Prof.
Princeton061009Princeton, NJ, USAJoshua Shaevitz

Princeton
【研究方向】Optical(5+2); Structure(2+2); Body(2+2); Adhesion(3+0); Dynamics(3+0); Transcription(2+0); Stress(1+1); Membrane(1+0); Adaptation(1+0); Object(1+0); Imaging(1+0);
【模式生物】C. elegans(1+0);
【方法技术】Microscopy(5+3); Model(3+1); Protein(0+1); Behavior(1+0); Simulation(0+1);
【简述】Systems and Circuits
【研究论文】Nature(2); Science(1); Cell(4);
【综述】Physical Review(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Steven M. BlockGordon BermanYears: 2018 — 2019; Recipients: Bialek, William (co-PI) [⬀] Murthy, Mala [⬀] Pillow, Jonathan William (co-PI) [⬀] Shaevitz, Joshua W; Code: R01; Title/Keywords: Dissecting Sensorimotor Pathways Underlying Social Interactions: Models, Circuits, and Behavior@ Princeton University; Matching Score: 1004679Prof.
UCLA011013Los Angeles, CA, USACarla M. Koehler

UCLA
【研究方向】Disease(0+2);
【模式生物】
【方法技术】Protein(0+2); Biochemistry(0+1); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USARichard E Dolmetsch

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

UCLA
【研究方向】Pediatric(0+2); Development(0+1); Neurology(0+1); Psychiatry(0+1); Tumor(0+1);
【模式生物】Stem Cell(0+5);
【方法技术】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
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
Stanford002003Palo Alto, CA, USADavid Christopher Sussillo

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.
Columbia006008New York, NY, USAGerard Karsenty

Columbia
【研究方向】Development(9+0); Regulation(4+0); Energy metabolism(4+0); Differentiation(3+0); Embryo(2+0); Muscle(2+0); Mutant(1+0); 5-HT(1+0); Proliferation(1+0); Disease(1+0); Adaptation(1+0); Reaching(1+0); Exercise(1+0); Metabolism(1+0); Hypothalamus(1+0);
【模式生物】Mouse(5+0);
【方法技术】Gene(3+0); Protein(1+0);
【简述】
【研究论文】Nature(4); Science(1); Cell(10);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yu Shi, Tiffany Zee, Munevver P. MakinistogluYears: 2019; Recipients: Karsenty, Gerard; Code: R01; Title/Keywords: Muscle Regulation of Bone Function@ Columbia University Health Sciences; Matching Score: 1063114Prof.
NYU015028New York, NY, USAJorge Ghiso

NYU
【研究方向】Alzheimer's disease(3+1); Disease(2+1); ApoE(0+3); Transgenic(2+0); Pathogenesis(0+2); Therapy(2+0); Alzheimer's(2+0); APP(0+2); Form(0+2); Receptor(0+1); Development(0+1); Disorder(0+1); Neurodegenerative disorder(0+1); Aging(1+0); Abeta(1+0); Cognition(0+1); Memory(0+1); Cerebrovascular(0+1); Vessel(0+1);
【模式生物】Mouse(2+0); Human(1+0);
【方法技术】Gene(1+4); Protein(1+3); In vivo(0+2); Model(2+0); Bioinformatics(1+0);
【简述】Molecular pathogenesis of protein folding disorders, especially Alzheimer's Disease
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Farron L. McInteeYears: 2015 — 2016; Recipients: Ghiso, Jorge A; Code: R21; Title/Keywords: Insights Into the Brain Clearance Mechanisms of Oligomeric Beta-Amyloid Species@ New York University School of Medicine; Matching Score: 0.958Prof.
Stanford002003Palo Alto, CA, USALars Steinmetz

Stanford
【研究方向】Transcription(5+2); Disease(1+6); Regulation(2+1); Cell line(3+0); Development(1+1); Cell cycle(2+0); Modulation(0+1); Microglia(1+0); Cell lineage(1+0); Environment(0+1); Frequency(1+0); Learning(0+1); Metabolism(1+0); Dynamics(1+0); Engineering(0+1); Pons(1+0); Evolutionary(1+0);
【模式生物】Human(6+1); Stem Cell(1+0);
【方法技术】Gene(4+6); Protein(1+0); Microarray(1+0); Model(0+1);
【简述】
【研究论文】Nature(8); Cell(3); Nature Neuroscience(1); PNAS(2);
【综述】Nature Reviews Genetics(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
017678Prof.
JHU010012Baltimore, MD, USAErnst Niebur

JHU
【研究方向】Attention(0+3); Vision(0+2); Structure(0+1); Neural Circuit(0+1); Cognition(0+1); Sense(0+1); Somatosensory(0+1);
【模式生物】Primate(0+1);
【方法技术】Model(0+3); Behavior(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, USADean Mobbs

CalTech
【研究方向】Social(0+3); Emotion(0+1); Dynamics(0+1); Evolutionary(0+1);
【模式生物】Human(0+1);
【方法技术】Behavior(0+2); Computation(0+2); Model(0+1); Theory(0+1);
【简述】Social, Computational and Affective Neuroscience; Neuroecology and Neurophilosophy
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Allan Reiss, Ray J. Dolan, Chris FrithXin Sui, Oriel FeldmanHall, Moos Peeters, Song QiYears: 2017 — 2019; Recipients: Mobbs, Dean; Code: P50; Title/Keywords: Project 3 - the Neurobiology of Social Decision-Making: Social Inference and Context@ California Institute of Technology; Matching Score: 0.901Assist Prof.
NYU015028New York, NY, USAYoussef Zaim Wadghiri

NYU
【研究方向】Disease(1+9); Imaging(4+1); Infection(0+2); Transgenic(0+1); Development(0+1); Cell fate(0+1); Neurodegenerative disease(0+1); Pathology(0+1); Therapy(0+1); Alzheimer's(0+1); Alzheimer's disease(0+1); Prion diseases(0+1); Tumor(0+1); Depth(0+1); Cerebrovascular(1+0);
【模式生物】Human(1+7); Mouse(0+7); Stem Cell(0+2);
【方法技术】MRI(2+8); Model(1+7); Gene(1+1); In vivo(1+1); Anatomy(0+1);
【简述】Micro-MRI of small animal models of human diseases
【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, USAChris Garcia

Stanford
【研究方向】Receptor(7+7); LTD(4+0); Peptide(1+1); Structure(2+0); Disease(1+1); Sclerosis(2+0); Engineering(1+1); Regulation(1+0); Membrane(0+1); Development(0+1); Environment(0+1); Disorder(0+1); Therapy(1+0); Cell therapy(1+0); Hormone(0+1);
【模式生物】Human(2+1);
【方法技术】Protein(0+1);
【简述】
【研究论文】Nature(5); Science(2); Cell(11); PNAS(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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.
Harvard001001Boston, MA, USAKristina Simonyan

Harvard
【研究方向】Speech(6+9); Dystonia(8+3); Motor(4+1); Parkinson's disease(2+2); Imaging(1+3); Motor cortex(3+1); Dopamine(3+0); Movement disorder(0+3); Language(1+2); Development(0+2); CNS(2+0); Disorder(1+1); Cognition(1+1); Sense(2+0); Neural network(1+1); Neuroimaging(1+1); Basal ganglia(2+0); Regulation(1+0); Synaptic Plasticity(1+0); Disease(1+0); Neurology(1+0); Somatosensory(1+0); Motor control(0+1); Execution(0+1); Context(0+1); Intention(0+1); Attention(0+1); Knowledge(1+0); Metabolism(1+0); Machine learning(0+1); Reinforcement learning(1+0); Methodology(0+1); Diffusion tensor imaging(1+0); Connection(1+0); S1(1+0); White matter(1+0);
【模式生物】Human(9+2); Monkey(3+0); Rat(1+0); Bird(1+0);
【方法技术】Model(1+2); fMRI(2+0); TMS(2+0); Gene(1+0); In vivo(1+0); Behavior(1+0); Electrophysiology(1+0); PET(1+0); Computation(0+1); Algorithm(1+0);
【简述】Neurobiology of Speech Motor Control
【研究论文】
【综述】Annals Of Neurology(1); Current Opinion In Neurobiology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002203Assoc Prof.
JHU010012Baltimore, MD, USAGul Dolen MD,

JHU
【研究方向】Social(0+7); Autism(0+5); Reward(0+4); Social behavior(0+4); Neuromodulation(0+2); Synaptic Plasticity(0+2); Cognition(0+2); Regulation(0+1); Neuropeptide(0+1); Development(0+1); Disease(0+1); Disorder(0+1); Therapy(0+1); Psychiatric disorder(0+1); Addiction(0+1); Schizophrenia(0+1); Neural Circuit(0+1); Social cognition(0+1); Evolutionary(0+1);
【模式生物】Mouse(0+2); Human(0+1); Primate(0+1);
【方法技术】Behavior(0+3); Optogenetics(0+2); Model(0+2); Gene(0+1); Electrophysiology(0+1); Computation(0+1);
【简述】Developmental Neuroscience; Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; Cellular + Molecular Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
NIH-NICHD??Bethesda, MD, USAKatie Drerup

NIH-NICHD
【研究方向】Development(6+3); Axon(6+3); Axonal transport(2+2); Motor(0+4); Disease(0+3); Regulation(1+1); Receptor(2+0); Neural Circuit(0+2); Body(0+2); Plasticity(1+0); Differentiation(1+0); Trafficking(1+0); Mitochondria(1+0); Degeneration(0+1); Pathology(0+1); Form(0+1); Auditory(1+0); Reaching(0+1); Aggression(1+0); Dynamics(1+0);
【模式生物】Zebrafish(7+2); Human(0+1);
【方法技术】Gene(3+2); In vivo(3+0); Protein(1+1); Microscopy(1+0);
【简述】Unit on Neuronal Cell Biology
【研究论文】Cell(7); JNS(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000288
UCLA011013Los Angeles, CA, USALinda M. Liau

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

UCLA
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, 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.
NYU015028New York, NY, USAYadin Dudai

NYU
【研究方向】Learning and memory(0+1);
【模式生物】
【方法技术】
【简述】Mechanisms of learning and memory
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Seymour BenzerAmir Bahar, Kobi Ben-Barak, Diego Berman, Mark Eisenberg, Orit Furman, Raphael Lamprecht, Rachel Ludmer, Noam Meiri, Avi Mendelsohn, Uri Nili, Sara Orgad, Kobi Rosenblum, Rina Schul, Rivka Sherman-Gold, Yoram Yovel, Joseph D. Buxbaum, Gabriel Corfas, Noa Ofen, Jimmy R. Stehberg, Tali Kobilo-Moav, Efrat Furst, Noga Cohen, Matthieu Guitton, Aline DesmedtProf.
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.
Stanford002003Palo Alto, CA, USAAlbert Wu

Stanford
【研究方向】HIV(3+0); Disease(2+0); Therapy(2+0); Infection(2+0); Development(1+0);
【模式生物】Human(1+0);
【方法技术】Virus(1+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
050906Assist Prof.
UCSD011017San Diego, CA, USAW. Marie Campana

UCSD
【研究方向】Injury(0+7); Receptor(0+4); Neuropathic pain(0+4); Development(0+3); Regeneration(0+3); Therapeutics(0+3); PNS(0+2); Sense(0+2); Pain(0+2); Modulation(0+1); Gap junction(0+1); Glia(0+1); Pathology(0+1); Neuroinflammation(0+1); Spinal Cord Injury(0+1); Knowledge(0+1); Imaging(0+1);
【模式生物】
【方法技术】Protein(0+1); Biochemistry(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular; Systems
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAJohn Krystal

Yale
【研究方向】Disorder(0+1); Therapy(0+1); Psychiatry(0+1); Depression(0+1); Schizophrenia(0+1); Stress(0+1); Neuroimaging(0+1);
【模式生物】
【方法技术】Computation(0+1);
【简述】Alcoholism; Drug Therapy; Genetics; Neurobiology; Psychiatry; Schizophrenia; Stress Disorders, Post-Traumatic; Veterans; Neuroimaging.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USADavi Geiger

NYU
【研究方向】Vision(8+1); Machine(5+0); Intelligence(4+0); Learning(0+1); Artificial intelligence(1+0); Neural network(1+0); Robot(1+0);
【模式生物】
【方法技术】Computation(0+1); Theory(1+0);
【简述】Computational vision and learning
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
005146Assoc Prof.
UCSF003015San Francisco, CA, USAAllan Basbaum

UCSF
【研究方向】Pain(0+9); Development(0+3); CNS(0+3); Injury(0+3); Receptor(0+2); Transgenic(0+1); Glutamate(0+1); TRP channel(0+1); Embryo(0+1); Axon(0+1); Sense(0+1); Attention(0+1); V1(0+1); A1(0+1);
【模式生物】Mouse(0+3);
【方法技术】Behavior(0+2); Channel(0+1); Tracing(0+1); Pharmacology(0+1);
【简述】The Neurobiological Basis of Pain and its Control
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAJoseph Caprioli

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, USAShiNung Ching

WUSTL
【研究方向】Engineering(2+2); Consciousness(3+0); Rhythm(2+0); Anesthesia(2+0); APP(2+0); Dynamics(1+1); Seizure(1+0); Disease(1+0); Neural Circuit(1+0); Systems Neuroscience(1+0); Metabolism(1+0); Optical imaging(1+0); Machine(1+0);
【模式生物】Rat(1+0); Rodent(1+0);
【方法技术】Model(7+0); EEG(4+0); Theory(1+2); Optogenetics(1+0); Computation(1+0);
【简述】The interface between systems and control engineering, neuroscience and neural medicine
【研究论文】JNS(2);
【综述】Current Opinion In Neurobiology(2); Physical Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001552Assist Prof.
Stanford002003Palo Alto, CA, USANicholas Ouellette

Stanford
【研究方向】Structure(4+1); Dynamics(4+1); Chaos(3+0); Anesthesia(2+0); Environment(1+1); Consciousness(1+0); Signal processing(0+1); Engineering(0+1); Imaging(0+1);
【模式生物】Bird(1+1); Human(1+0);
【方法技术】Behavior(0+2); EEG(2+0); Model(1+1); Simulation(1+1); Mathematics(0+1); Statistics(1+0);
【简述】
【研究论文】Science(1);
【综述】Physical Review(11);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002473Assoc Prof.
Columbia006008New York, NY, USAMark Ansorge

Columbia
【研究方向】Development(5+11); 5-HT(6+9); Emotion(4+4); Disorder(1+4); Psychiatric disorder(0+5); Transporter(2+2); mPFC(2+2); Environment(0+3); Anxiety(0+3); Depression(0+3); Cognition(2+1); Structure(0+2); Disease(0+2); Psychiatry(2+0); Inhibitory control(2+0); PFC(0+2); Hippocampus(0+2); Raphe(0+2); Regulation(0+1); Dopamine(1+0); Synapse(0+1); Dysfunction(1+0); Therapeutics(1+0); Autism(0+1); Schizophrenia(0+1); Learning and memory(0+1); Causality(0+1); Aggression(1+0); Basal ganglia(1+0); VTA(1+0);
【模式生物】Mouse(5+4); Human(0+2);
【方法技术】Behavior(1+4); Gene(0+4); Model(0+3); Anatomy(0+2); Optogenetics(1+1); Pharmacology(1+0);
【简述】models of Psychiatric Disorders; Neurobiology of Learning and Memory; Synapses and Circuits;
【研究论文】Science(1); JNS(5);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Anne C KrokAssist Prof.
Stanford002003Palo Alto, CA, USADaniel Spielman

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

UCSD
【研究方向】Development(0+3); Dynamics(0+2); Machine learning(0+2); Regulation(0+1); Structure(0+1); Anesthesia(0+1); Form(0+1); Spectral(0+1); Signal processing(0+1);
【模式生物】Human(0+2); Mouse(0+1);
【方法技术】Computation(0+5); Gene(0+2); Model(0+2); Electrophysiology(0+1);
【简述】 Cellular & Developmental; Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
NYU015028New York, NY, USAHenry Rusinek

NYU
【研究方向】Imaging(9+1); Aging(8+0); Disease(5+0); Alzheimer's disease(5+0); Cognition(5+0); Neurology(4+0); Psychiatry(3+0); Finger(2+0); Metabolism(2+0); Structure(0+1); Development(0+1); Alzheimer's(1+0); Tau(1+0); Stroke(1+0); Schizophrenia(1+0); Contrast(1+0); Body(0+1); Frequency(1+0); Learning(1+0); Knowledge(0+1); Diffusion MRI(1+0); Temporal lobe(1+0);
【模式生物】Human(1+1);
【方法技术】MRI(10+0); PET(2+1); Model(0+3); Gene(1+0); fMRI(1+0);
【简述】Modeling and analysis of biomedical systems
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
018869Prof.
UCLA011013Los Angeles, CA, USAJohn C. Mazziotta

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
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
UCLA011013Los Angeles, CA, USANelson B. Freimer

UCLA
【研究方向】Disorder(0+4); Psychiatry(0+2); Bipolar(0+1); Depression(0+1); Schizophrenia(0+1); Metabolism(0+1); Cardiovascular(0+1);
【模式生物】Non-human primate(0+2); Human(0+2); Primate(0+1);
【方法技术】Gene(0+6); 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, USANeville Sanjana

NYU
【研究方向】Engineering(4+0); Knockout(2+0); Transcription(1+0); Disease(1+0); Therapy(1+0); Hypoxia(1+0); Tumor(1+0); Schizophrenia(1+0);
【模式生物】Mouse(2+0); Human(1+0);
【方法技术】Gene(1+1); Model(1+0);
【简述】Bioengineering, genomics, and cancer biology
【研究论文】Nature(5); Science(4); Cell(2); Neuron(1); JNS(1); Nature Methods(1);
【综述】Nature Reviews Genetics(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
008326Assist Prof.
WUSTL009032Saint Louis, MO, USAJeffrey Milbrandt

WUSTL
【研究方向】Axon(0+5); Degeneration(0+3); Glial cell(0+2); Development(0+2); Neurodegenerative disease(0+2); Metabolism(0+2); Regulation(0+1); Neurodegenerative disorder(0+1); Pathology(0+1); Psychiatric disorder(0+1); Autism(0+1); Parkinson's disease(0+1); Addiction(0+1); Engineering(0+1); Methodology(0+1);
【模式生物】Mouse(0+1);
【方法技术】Gene(0+1); In vivo(0+1); Model(0+1);
【简述】Axonal degeneration, regulation of myelination, neuronal energetics and mitochondrial function in neuropathy and neurodegenerative disease
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Robert H. Baloh, Rakesh Nagarajan, Nam H. Le, Jeffrey A. Magee, Eric L. Snyder, Bin Zhang, Craig A. Press, Andreu Viader, Sungsu Kim, William James BuchserYears: 2018; Recipients: Milbrandt, Jeffrey D; Code: R01; Title/Keywords: Jun O-Glcnacylation Regulates Schwann Cell Injury Response@ Washington University; Matching Score: 0.958Prof.
JHU010012Baltimore, MD, USAMarilyn Albert

JHU
【研究方向】Cognition(0+6); Neurodegenerative disorder(0+3); Aging(0+3); Disease(0+2); Episodic memory(0+2); Structure(0+1); Memory(0+1); Learning(0+1); Temporal lobe(0+1); Entorhinal cortex(0+1); Hippocampus(0+1); Medial Temporal Lobe(0+1);
【模式生物】
【方法技术】MRI(0+2); Gene(0+1);
【简述】Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USABarbara Ehrlich

Yale
【研究方向】Disease(0+3); Regulation(0+2); Receptor(0+1); Imaging(0+1);
【模式生物】
【方法技术】Channel(0+1); Electrophysiology(0+1); Pharmacology(0+1);
【简述】Calcium; Polycystic Kidney Diseases; Pharmacology; Physiology; Hermeneutics.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USACarol M. Troy

Columbia
【研究方向】Disease(5+3); Regulation(0+4); Stroke(0+4); Degeneration(0+3); Synaptic Plasticity(2+0); Dysfunction(0+2); Transgenic(1+0); Development(1+0); Cell cycle(1+0); Axon(0+1); Dendrite(1+0); Spine(1+0); Lissencephaly(1+0); Alzheimer's disease(1+0); APP(1+0); Tau(1+0); Parkinson's disease(0+1); Neuroprotection(1+0); Cognition(0+1); Memory(1+0); Blood brain barrier(0+1);
【模式生物】Mouse(2+3); Rodent(0+2); Human(0+1);
【方法技术】Model(2+7); Protein(2+1); In vivo(0+2);
【简述】Neural Degeneration and Repair; Neurobiology of Disease; Regulation of the neurovascular unit;
【研究论文】Cell(1); Neuron(2); JNS(4); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael L. ShelanskiThomas J. Davidson, Nsikan E. AkpanYears: 2017 — 2018; Recipients: Troy, Carol M; Code: R03; Title/Keywords: Generation of Caspase-9 Cell Specific Inducible Knockout Mice For the Study of Mechanisms of Cerebral Edema@ Columbia University Health Sciences; Matching Score: 1Prof.
Yale014011New Haven, CT, USAAngeliki Louvi

Yale
【研究方向】Development(0+2); Disease(0+2); Microcephaly(0+2); Disorder(0+1); Pathogenesis(0+1); Developmental Disorder(0+1); Cerebrovascular(0+1);
【模式生物】
【方法技术】Gene(0+1);
【简述】Brain; Microcephaly; Morphogenesis; Nervous System Diseases; Neurosurgery; Hemangioma, Cavernous, Central Nervous System; CADASIL; Diseases.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAJustus Verhagen

Yale
【研究方向】Perception(0+3); Taste(0+2); Olfaction(0+1); Optical imaging(0+1); Olfactory bulb(0+1);
【模式生物】Rodent(0+2); Human(0+1);
【方法技术】Model(0+1);
【简述】Neural Pathways; Neurobiology; Smell; Taste; Optical Imaging; Optogenetics.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIDCR??Bethesda, MD, USAAshok Kulkarni

NIH-NIDCR
【研究方向】Pain(3+3); Receptor(4+1); Development(3+2); Disease(2+3); Inflammatory pain(0+3); Disorder(2+0); Tumor(0+2); CRISPR/Cas9(1+0); Environment(1+0); Inflammation(0+1); Schizophrenia(1+0); Vision(1+0); Body(0+1); Social(1+0);
【模式生物】Mouse(3+1); Human(1+0); Stem Cell(1+0);
【方法技术】Gene(0+3); Behavior(2+0); Channel(1+0); Computation(1+0);
【简述】Functional Genomics Section and Gene Transfer Core
【研究论文】Cell(9);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000279
JHU010012Baltimore, MD, USAKathleen E. Cullen

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

Stanford
【研究方向】Pediatric(9+0); Imaging(7+0); Disease(3+0); Perinatal(2+0); Respiratory(1+0);
【模式生物】
【方法技术】MRI(5+0); Anatomy(2+0);
【简述】
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
Stanford002003Palo Alto, CA, USASanjiv Sam Gambhir

Stanford
【研究方向】Imaging(11+5); Therapy(0+3); Tumor(3+0); Translation(2+0); Development(1+1); Metabolism(2+0); Optical(1+1); Dopamine(1+0); Disease(1+0); Pathology(1+0); Psychiatry(1+0); Depression(1+0); Retrieval(1+0); Gastrointestinal(1+0); Engineering(1+0);
【模式生物】Human(2+0); Mouse(1+0);
【方法技术】PET(2+1); In vivo(2+0); Model(1+1); Protein(1+0); In vitro(0+1); Cell culture(1+0); MRI(1+0); fMRI(1+0);
【简述】
【研究论文】Nature(3); Cell(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
WUSTL009032Saint Louis, MO, USAMichael Simon Avidan

WUSTL
【研究方向】Anesthesia(0+1); Cognition(0+1); Pain(1+0); Sleep(1+0);
【模式生物】
【方法技术】
【简述】His research interests include intraoperative awareness, postoperative cognitive alteration, brain monitoring during surgery, and postoperative outcomes.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
NIH-NIDA??Bethesda, MD, USASatoshi Ikemoto

NIH-NIDA
【研究方向】Reward(11+0); Dopamine(8+0); Nucleus accumbens(7+0); VTA(6+0); Dopamine neuron(5+0); Cocaine(4+0); Amphetamine(3+0); Raphe(3+0); Receptor(2+0); GABAA receptor(2+0); Vision(2+0); Appetitive(2+0); Aversive(2+0); Ventral striatum(2+0); Olfactory tubercle(2+0); Substantia nigra(2+0); Glutamate(1+0); Amino acid(1+0); Neuropeptide(1+0); GABA(1+0); D2 receptor(1+0); Structure(1+0); Oscillation(1+0); Psychiatry(1+0); Nicotine(1+0); Olfaction(1+0); Learning(1+0); Acquisition(1+0); Memory Consolidation(1+0); Motivation(1+0); Basal ganglia(1+0);
【模式生物】Rat(9+0);
【方法技术】Behavior(10+0); Theory(2+0); Anatomy(1+0); Ultrasonic(1+0); Pharmacology(1+0);
【简述】
【研究论文】Nature Neuroscience(1); Neuron(1); JNS(3);
【综述】Review(4); Brain Research Reviews(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jaak Panksepp, William  J McBride, Roy WiseAaron D Z Tan, Andrew J. Kesner, Hassiba Beldjoud, Thomas C. JhouRoy WiseYears: 2018; Recipients: Ikemoto, Satoshi; Code: ZIA; Title/Keywords: Neural Mechanisms Involved in the Development of Addiction-Like Symptoms@ National Institute On Drug Abuse; Matching Score: 1007275
Stanford002003Palo Alto, CA, USASuzanne Tharin

Stanford
【研究方向】Development(1+8); Spine(5+0); Spinal Cord Injury(0+5); Differentiation(1+1); Regeneration(0+2); Axon(2+0); Motor Neuron(0+2); Regulation(1+0); Presynaptic organization(1+0); Cell line(1+0); Timing(1+0); Motivation(0+1); Imaging(1+0);
【模式生物】Human(0+1); C. elegans(1+0);
【方法技术】Protein(1+0);
【简述】
【研究论文】Cell(2); Neuron(2);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jeffrey D. MacklisAssist Prof.
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, USAMark Horowitz

Stanford
【研究方向】Memory(2+0); Encoding(2+0); Dynamics(2+0); Neural network(2+0); Axon(1+0); Axonal transport(1+0); Timing(1+0); Inference(1+0); Signal processing(1+0); Imaging(1+0);
【模式生物】
【方法技术】Model(3+0); Behavior(1+0); Microscopy(1+0);
【简述】
【研究论文】Neuron(1); Nature Communications(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Robert DuttonMichael D. Smith, Hema A. Kapadia, William F. Ellersick, Gu-yeon Wei, Daniel K. Weinlader, Evelina F. Yeung, Ronald Ho, Jaeha Kim, Jeffrey M. Solomon, Azita Emami-Neyestanak, David J. Lie, Dean Liu, Ken Mai, Vladimir Stojanovic, Bennett Wilburn, Elad Alon, Hae-Chang Lee, Samuel Palermo, Vicky W. Wong, Amir Amirkhany, Francois Labonte, Dinesh Patil, James A. Weaver, Amin Firoozshahian, Alexandre Solomatnikov, Shahar KvatinskyYears: 2016 — 2019; Recipients: Horowitz, MarkPoulson, Jack (co-PI) [⬀] ; Code: N/A; Title/Keywords: Shf: Medium: Prism: Platform For Rapid Investigation of Efficient Scientific-Computing & Machine-Learning@ Stanford University; Matching Score: 1051664Prof.
UW021010Seattle, WA, USADianne Lattemann 

UW
【研究方向】CNS(0+4); Regulation(0+3); Dopamine neuron(0+2); Metabolism(0+2); Neuroendocrine(0+2); Modulation(0+1); Motor(0+1); Food Intake(0+1); Body Weight(0+1); Hormone(0+1); Autonomic(0+1);
【模式生物】Rat(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
Harvard001001Boston, MA, USADaniel Polley

Harvard
【研究方向】Auditory(14+5); Plasticity(3+5); Auditory cortex(6+1); Sense(5+0); Development(2+1); Disorder(2+1); Perception(1+2); Transporter(2+0); GABA(2+0); Therapy(2+0); Auditory processing(2+0); Speech(1+1); Imaging(0+2); Optical imaging(2+0); A1(2+0); Basal forebrain(0+2); Regulation(1+0); Modulation(1+0); Glutamate(1+0); GABAA receptor(1+0); Potassium channel(1+0); Synapse(1+0); Fragile X(1+0); Neural Circuit(1+0); Multisensory(1+0); Perceptual learning(1+0); Temporal processing(1+0); Associative learning(1+0); Neural codes(1+0); Dynamics(1+0); Thalamus(0+1);
【模式生物】Mouse(6+1); Human(0+1); Rat(1+0);
【方法技术】Gene(5+0); In vivo(3+0); Protein(1+0); Channel(1+0); Psychophysics(0+1); Electrophysiology(0+1); EEG(0+1); Optogenetics(0+1); Pharmacology(1+0); Computation(0+1);
【简述】Neuromodulation and plasticity in the auditory system
【研究论文】Nature Communications(6); Curr Biol.(2);
【综述】Current Opinion In Neurobiology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ron D. Frostig, Michael M. MerzenichAnna Chambers, Ariel Edward Hight, Jonathon Paul Whitton, Kameron Kjelleren Clayton, Christopher Spankovich, Wei Guo, Meenakshi M Asokan, Amanda Clause, Ross S. Williamson, Pooja Balaram, Aravindakshan Parthasarathy, Vivek KhatriYears: 2018 — 2019; Recipients: Polley, Daniel B.; Code: R01; Title/Keywords: Corticofugal Circuits For Active Listening@ Massachusetts Eye and Ear Infirmary; Matching Score: 0.909003590Assoc Prof.
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.
NIH-NIMH??Bethesda, MD, USAHugo Tejeda

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

Stanford
【研究方向】Receptor(7+4); Adhesion(2+3); Disease(4+1); Trafficking(2+2); Dendrite(3+1); Transcription(2+0); Therapy(2+0); Transgenic(1+0); Regulation(0+1); Development(1+0); Differentiation(0+1); CNS(1+0); Pathology(1+0); Pathogenesis(1+0); Inflammation(1+0); Tumor(1+0); Body(0+1); Memory(1+0); Art(0+1); Metabolism(1+0); Vessel(0+1);
【模式生物】Human(3+0); Mouse(2+0);
【方法技术】Model(3+1); In vivo(3+0); Gene(0+1);
【简述】
【研究论文】Nature(4); Cell(2); PNAS(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Irving L. WeissmanHailing Sun, Richard A. Warnock, Brian A. Zabel, Carrie N. Arnold, Tracy L. Staton, Aida HabtezionYears: 2008; Recipients: Butcher, Eugene C; Code: U19; Title/Keywords: Protective Mechanisms Against Pandemic Respiratory Virus@ Stanford University; Matching Score: 0.958081467Prof.
UCSF003015San Francisco, CA, USAMatthew State

UCSF
【研究方向】Psychiatric disorder(0+3); Development(0+2); Developmental Disorder(0+1); Autism(0+1); Schizophrenia(0+1);
【模式生物】
【方法技术】Gene(0+4);
【简述】Genetics and genomics of developmental neuropsychiatric disorders
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USARichard Gardner

UW
【研究方向】
【模式生物】
【方法技术】
【简述】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
UCSD011017San Diego, CA, USAVivian Y.H. Hook

UCSD
【研究方向】Peptide(0+8); Neurotransmitter(0+7); Neuropeptide(0+5); Regulation(0+4); Knowledge(0+2); Cell line(0+1); Disease(0+1); Alzheimer's disease(0+1); Hormone(0+1);
【模式生物】
【方法技术】Protein(0+2); Biochemistry(0+1); Cell culture(0+1); Model(0+1);
【简述】 Clinical
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIMH??Bethesda, MD, USAPeter A Bandettini

NIH-NIMH
【研究方向】Imaging(8+3); Vision(4+0); Neurology(3+0); Methodology(0+3); BOLD signal(3+0); Modulation(2+0); Systems Neuroscience(2+0); Dynamics(2+0); Synchrony(1+0); Psychiatry(1+0); Cognition(1+0); Depth(0+1); Object(1+0); Frequency(1+0); Attention(1+0); Decision making(1+0); Working memory(1+0); Social(1+0); Language(1+0); Emotion(1+0); Sleep(1+0); Metabolism(0+1); Blood flow(0+1); Neural network(1+0); Resting state(1+0); Auditory cortex(1+0); Inferotemporal (IT) cortex(1+0);
【模式生物】Human(13+0); Monkey(1+0);
【方法技术】fMRI(20+4); MRI(9+6); In vivo(1+0); Model(1+0); Data analysis(1+0);
【简述】
【研究论文】Neuron(1); JNS(1); Nature Communications(2);
【综述】Review(2); Annals Of Neurology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
R Scott Hinks, James S. Hyde, Bruce RosenDan Kelley, Douglas Ruff, Colin W. Hoy, Misaya Misaki, Natalia Petridou, Raphael Kaplan, Patrick Frost Bellgowan, Rasmus M. Birn, Anthony Boemio, Emily S. Finn, Daniel Handwerker, David C. Knight, Nikolaus Kriegeskorte, Misaya Misaki, Kevin J. Murphy, James Patterson, Ziad S. Saad, Zhi Yang, Chia-Yueh Carlton Chu, Hauke R. Heekeren, Wen-Ming Luh, Sean Marrett, Jerzy BodurkaLeslie Ungerleider, Merage GhaneYears: 2007 — 2018; Recipients: Bandettini, Peter; Code: Z01ZIC; Title/Keywords: Functional Mri Core Facility@ National Institute of Mental Health; Matching Score: 0.915032339
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.
UCSD011017San Diego, CA, USABruce A. Hamilton

UCSD
【研究方向】Development(0+4); Disease(0+3); Differentiation(0+2); Disorder(0+2); Amino acid(0+1); Structure(0+1); Vesicle(0+1); Transcription(0+1); Proliferation(0+1); Cell cycle(0+1); Degeneration(0+1); Cerebellum(0+1);
【模式生物】Human(0+4); Mouse(0+3);
【方法技术】Gene(0+6); Biochemistry(0+1); Virus(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAJamie D. Feusner

UCLA
【研究方向】Neuroimaging(0+4); Disorder(0+2); Psychiatry(0+2); Body(0+2); Therapy(0+1); Emotion(0+1);
【模式生物】
【方法技术】Biochemistry(0+1); Psychophysics(0+1); EEG(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, USAEinar Sigurdsson

NYU
【研究方向】Alzheimer's disease(7+0); Pathology(5+0); Tau(5+0); Transgenic(4+0); Disease(2+1); Alzheimer's(3+0); Cognition(3+0); Peptide(2+0); Tauopathies(2+0); Imaging(2+0); Neurology(1+0); Degeneration(0+1); Therapy(1+0); Age-related(0+1);
【模式生物】Mouse(11+0); Rat(2+0);
【方法技术】Model(6+0); Protein(2+0); MRI(2+0); In vivo(1+0); In vitro(1+0); Behavior(1+0);
【简述】Age-related degenerative diseases
【研究论文】JNS(5);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
011867Prof.
Stanford002003Palo Alto, CA, USAJulia Salzman

Stanford
【研究方向】Environment(4+0); Development(3+0); Regulation(1+1); Differentiation(1+0); Reprogramming(1+0); Embryo(1+0); Motor(1+0); Dynamics(1+0);
【模式生物】Human(13+0);
【方法技术】Gene(3+0); Virus(3+0); Model(3+0); Computation(0+1); Statistics(1+0);
【简述】
【研究论文】Science(1); Cell(1); PLoS Biol.(1); eLife(2);
【综述】Review(2); Nature Reviews Genetics(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2016 — 2021; Recipients: Salzman, Julia; Code: N/A; Title/Keywords: Career: Dissecting the Biogenesis and Function of Circular Rna in Simple Eukaryotes@ Stanford University; Matching Score: 1003562Assist Prof.
UW021010Seattle, WA, USAJing Zhang

UW
【研究方向】Parkinson's disease(0+7); Movement disorder(0+2); Dopamine(0+1); Pathogenesis(0+1); Cognition(0+1); Body(0+1); Substantia nigra(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
Harvard001001Boston, MA, USADavid Ginty

Harvard
【研究方向】Touch(5+6); Receptor(5+1); Transcription(6+0); Sense(3+3); Development(2+3); Regulation(3+0); Membrane(2+0); Plasticity(0+2); Synapse(1+1); Dysfunction(1+1); Neural Circuit(0+2); Neurotrophin(1+0); Ion Channel(0+1); Structure(1+0); Glia(0+1); Axon growth(1+0); Axon guidance(1+0); Axon(1+0); Trafficking(1+0); Dendrite(1+0); Disorder(0+1); Degeneration(1+0); Autism(0+1); Perception(0+1); Self-motion(1+0); Body(1+0); Somatosensory(0+1); Pain(1+0); Neuropathic pain(0+1); Circadian clock(1+0); Homeostatic(1+0); Cardiovascular(1+0); Encoding(1+0); Imaging(0+1); Connection(0+1); Internal capsule(1+0); Suprachiasmatic nucleus(1+0);
【模式生物】Mouse(3+3);
【方法技术】Gene(3+3); Behavior(3+1); Protein(2+0); Model(1+1); In vivo(1+0); In vitro(0+1); Electrophysiology(0+1); Microscopy(1+0);
【简述】The functional organization of neural circuits underlying the perception of touch
【研究论文】Nature Neuroscience(1); Neuron(2);
【综述】Review(2); Annual Review Of Neuroscience(1); Nature Reviews Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Edward R. Seidel, Michael E. Greenberg, John WagnerSreyan Chowdhury, Christopher M. Davenport, Alexis Andrie Toliver, Brian A. Pierchala, Yang Zheng, Nicole L. Neubarth, Mark W. Springel, Qiyu Zhang, Erica G. Rowe Urquhart, Sohyun Ahn, Andrew A. Pieper, Xiaozhong Qian, Haihong Ye, Amar Sahay, Bonnie E. Lonze, Larry Zweifel, Natalia O. Glebova, Janna Merte, Sasrutha R. Wickramasinghe, Coryse St. Hillaire, Michael Rutlin, Caitlin Engelhard, Lishi Li, Ling Bai, Victoria E. Abraira, Chenghua Gu, Rejji Kuruvilla, Brendan Peltonen Lehnert, Kevin M. Wright, Qingguang Jiang, Amanda L. Zimmerman, Alan J. Emanuel, Shan Meltzer, Christopher D. Deppmann, Wenqin LuoYears: 2016 — 2018; Recipients: Ginty, David D; Code: R35; Title/Keywords: Elucidating Cutaneous Mechanosensory Circuits, From Development to Disease@ Harvard Medical School; Matching Score: 1025521Prof.
Stanford002003Palo Alto, CA, USAGraham Creasey

Stanford
【研究方向】Spinal Cord Injury(13+1); Neurology(2+0); Brain injury(2+0); Muscle(2+0); Development(1+0); Dysfunction(1+0); Motor(1+0); Exercise(1+0); Reflex(1+0); Autonomic(1+0); Respiratory(1+0); Engineering(1+0);
【模式生物】Human(1+0); Rat(1+0);
【方法技术】Electrical stimulation(5+0); Model(1+0);
【简述】
【研究论文】
【综述】Review(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
NIH-NIDCD??Bethesda, MD, USABechara Kachar

NIH-NIDCD
【研究方向】Hair cell(7+4); Sense(3+3); Structure(5+0); Auditory(2+3); Membrane(3+0); Form(3+0); Vestibular(0+3); Receptor(1+1); Synapse(2+0); Morphology(2+0); Encoding(2+0); Neurotransmitter(1+0); Transporter(1+0); Ion Channel(1+0); Vesicle(1+0); Development(1+0); Self-renewal(1+0); CNS(1+0); Motor(1+0); Imaging(0+1);
【模式生物】Mouse(4+0); Human(1+0);
【方法技术】Gene(2+0); Protein(1+1); Microscopy(1+1); Channel(1+0); Model(1+0);
【简述】
【研究论文】Cell(5); JNS(2); Nature Communications(5); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Thomas S. ReeseDon ColingYears: 2012 — 2018; Recipients: Kachar, Bechara; Code: ZIA; Title/Keywords: Structural and Molecular Basis of Transduction in Auditory Sensory Organs@ Deafness & Other Communication Disorders; Matching Score: 1017131
Stanford002003Palo Alto, CA, USAManpreet K Singh

Stanford
【研究方向】Disorder(12+6); Psychiatry(7+3); Bipolar(6+1); Depression(5+2); Pediatric(2+3); Neuroimaging(0+4); Development(0+2); Cognition(1+1); Regulation(0+1); NMDA receptor(1+0); Differentiation(1+0); Neurology(1+0); Therapy(1+0); Alzheimer's disease(1+0); Cognitive Control(0+1); Social(1+0); Emotion(0+1); Sleep(1+0); Neuroendocrine(0+1); Hormone(1+0); Stress(0+1); White matter(1+0);
【模式生物】
【方法技术】Behavior(4+0); Pharmacology(0+2); Gene(0+1);
【简述】
【研究论文】Nature(1); Science(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
Stanford002003Palo Alto, CA, USAAndrew Gentles

Stanford
【研究方向】Tumor(4+0); Disease(2+1); Receptor(2+0); Development(2+0); Amino acid(1+0); Differentiation(1+0); Reprogramming(1+0); Concept(1+0); Metabolism(1+0); Dynamics(1+0); Machine learning(1+0); Imaging(1+0); Evolutionary(1+0);
【模式生物】Human(9+1); Stem Cell(7+0);
【方法技术】Gene(4+0); Computation(1+1); Protein(1+0); MRI(1+0); Microarray(1+0); Model(1+0); Bioinformatics(1+0);
【简述】
【研究论文】Cell(5); PLOS Computational Biology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
007122Assist Prof.
WUSTL009032Saint Louis, MO, USATerrance T. Kummer

WUSTL
【研究方向】Brain injury(6+13); Injury(3+4); Axon(1+4); Differentiation(4+0); Neuromuscular(4+0); Trauma(0+4); Degeneration(0+3); Hemorrhage(1+2); Neurotransmitter(2+0); Synapse(2+0); Diffusion tensor imaging(0+2); Imaging(1+1); Membrane(1+0); Seizure(1+0); Development(0+1); Synaptogenesis(1+0); Disease(0+1); Neurology(1+0); Pathology(0+1); Therapeutics(0+1); Therapy(0+1); Aging(0+1); Cognition(0+1); Form(0+1); Body(0+1); Consciousness(1+0); Emotion(0+1); Dynamics(1+0); Diffusion MRI(1+0); Connection(0+1);
【模式生物】Human(0+2); Mouse(2+0);
【方法技术】Model(2+1); MRI(1+1); EEG(1+0);
【简述】Understanding the mechanisms underlying neuronal trauma and degeneration during and following acute brain injury
【研究论文】Cell(2);
【综述】Current Opinion In Neurobiology(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Joshua R. SanesYears: 2018; Recipients: Kummer, Terrance T; Code: R21; Title/Keywords: Unbiased High Content Screening For Novel Synaptotoxic Substances in Human Alzheimer's Disease Brain Lysates@ Washington University; Matching Score: 1000697Assist Prof.
UCSD011017San Diego, CA, USAMiles Wilkinson

UCSD
【研究方向】Development(0+4); Regulation(0+2); Neuronal differentiation(0+2); Self-renewal(0+1); Cell line(0+1); Cell fate(0+1); Neural differentiation(0+1); Developmental Disorder(0+1); Autism(0+1); Schizophrenia(0+1);
【模式生物】Mouse(0+4); Human(0+3); Stem Cell(0+2);
【方法技术】Biochemistry(0+1); Behavior(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-NICHD??Bethesda, MD, USAMark A. Stopfer

NIH-NICHD
【研究方向】Olfaction(7+1); Sense(2+4); Neural Circuit(3+1); Synapse(2+0); Antennal lobe(2+0); Gap junction(1+0); Development(1+0); Environment(0+1); Decision making(1+0); Neural encoding(1+0); Mushroom body(1+0); Olfactory tract(1+0);
【模式生物】Drosophila(4+0);
【方法技术】Channel(1+0); Anatomy(0+1); Behavior(0+1); Electrophysiology(0+1); Optogenetics(0+1); Computation(0+1);
【简述】Section on Sensory Coding and Neural Ensembles
【研究论文】Neuron(2); JNS(3); Nature Communications(1); Curr Biol.(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Tom Carew, Gilles LaurentAlejandra Boronat Garcia, Rose Ong, Baraniharad Raman, Kazumichi Shimizu, Alejandra Boronat Garcia, Felice A. Dunn, Yu-Shan Hung, Iori Ito Namekawa, Nobuaki Tanaka, Nitin Gupta, Takaaki Miyazaki, Zane N. Aldworth, Subhasis Ray, Joby JosephYears: 2005 — 2018; Recipients: Stopfer, Mark A; Code: Z01ZIA; Title/Keywords: Sensory Coding by Ensembles of Neurons.@ Child Health and Human Development; Matching Score: 0.912
Stanford002003Palo Alto, CA, USAGerald Grant

Stanford
【研究方向】Pediatric(12+0); Development(5+0); Brain injury(5+0); Trauma(4+0); Epilepsy(2+0); Therapy(2+0); Tumor(1+1); Planning(2+0); Intention(2+0); Seizure(1+0); Microglia(1+0); Psychiatry(1+0); Biomechanics(1+0); Concept(1+0); Engineering(1+0); Methodology(1+0); Imaging(1+0); Temporal lobe(1+0);
【模式生物】
【方法技术】Model(4+0); MRI(1+0); Behavior(1+0); Algorithm(1+0);
【简述】
【研究论文】PNAS(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2018 — 2019; Recipients: Camarillo, David [⬀] Grant, Gerald Arthur; Code: R24; Title/Keywords: Disseminating a Validated Mouthguard Sensor to Investigate the Effect of Head Impacts On Brain Health@ Stanford University; Matching Score: 0.958001954Prof.
UCLA011013Los Angeles, CA, USAJames T. McCracken

UCLA
【研究方向】Disorder(0+4); Psychiatry(0+4); Cognition(0+2); Psychiatric disorder(0+1); ADHD(0+1); Autism(0+1); Anxiety(0+1); Cognitive Control(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, USABeth Darnall

Stanford
【研究方向】Pain(34+26); Development(3+1); Therapy(0+2); Opioids(2+0); Cognition(0+2); Learning(1+1); Context(0+2); Structure(1+0); CNS(0+1); Trauma(0+1); Addiction(1+0); Sense(0+1); Perception(0+1); Pain perception(0+1);
【模式生物】
【方法技术】Behavior(1+3); Model(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: 2015 — 2018; Recipients: Darnall, Beth DeniseMackey, Sean C [⬀] ; Code: R01; Title/Keywords: Single Session Pain Catastrophizing Treatment: Comparative Efficacy & Mechanisms@ Stanford University; Matching Score: 0.958Assoc Prof.
UCSD011017San Diego, CA, USAEric Halgren

UCSD
【研究方向】Cognition(0+9); Face(0+3); Seizure(0+2); Memory(0+2); Context(0+2); Encoding(0+2); Imaging(0+2); Temporal lobe(0+2); Medial Temporal Lobe(0+2); Modulation(0+1); Rhythm(0+1); Epilepsy(0+1); Therapy(0+1); Psychiatric disorder(0+1); Spectral(0+1); Retrieval(0+1); Episodic memory(0+1); Attention(0+1); Knowledge(0+1); Emotion(0+1); Sleep(0+1); Dynamics(0+1); Hippocampus(0+1);
【模式生物】Human(0+4);
【方法技术】fMRI(0+4); MEG(0+4); MRI(0+1); Behavior(0+1); EEG(0+1); PET(0+1);
【简述】 Systems; Cognitive, Behavioral & Psychopharmacology; Clinical
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAHeidi M Feldman

Stanford
【研究方向】Development(8+10); Language(6+8); White matter(7+5); Comprehension(4+0); Disorder(0+3); Structure(2+0); Cognition(0+2); Speech(1+1); Plasticity(0+1); Neurology(1+0); ADHD(1+0); Autism(0+1); Injury(0+1); Eye Movement(1+0); Learning(0+1); Attention(0+1); Decision making(1+0); Executive function(1+0); Social(0+1); Sleep(1+0); Diffusion MRI(1+0); Imaging(0+1); Cerebellar peduncles(1+0); Cerebellum(1+0);
【模式生物】Human(2+1);
【方法技术】Behavior(3+1); MRI(1+1); fMRI(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Lila R. GleitmanRan Liu, Katie Travis, Laura HF BardeYears: 2012 — 2016; Recipients: Feldman, Heidi M; Code: R01; Title/Keywords: Poor Reading in Preterms: Neural Basis, Prediction, & Response to Intervention@ Stanford University; Matching Score: 1Prof.
UCLA011013Los Angeles, CA, USAStephen Caldwell Cannon

UCLA
【研究方向】Ion Channel(0+2); Disease(0+2); Muscle(0+2); Mutant(0+1); Disorder(0+1);
【模式生物】Human(0+2); Mouse(0+1);
【方法技术】Channel(0+1); Computation(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
NYU015028New York, NY, USALarry Maloney

NYU
【研究方向】Perception(0+1); Vision(0+1); Planning(0+1); Decision making(0+1);
【模式生物】
【方法技术】
【简述】Visual perception, decision making and movement planning
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCLA011013Los Angeles, CA, USAWendy Walwyn

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

NIH-NHGRI
【研究方向】Down Syndrome(1+6); Development(3+3); Translation(4+0); Therapy(0+4); Stress(0+3); Neurogenesis(0+2); Neuroinflammation(0+2); Cognition(0+2); Learning and memory(0+2); Synaptic Plasticity(0+1); Transcription(0+1); Cell cycle(0+1); Neuronal differentiation(0+1); Environment(0+1); Synaptogenesis(0+1); Disease(1+0); Disorder(0+1); Fragile X(0+1); Inflammation(0+1); Tumor(0+1); Adaptation(1+0); Body(0+1); Neuroethics(1+0); Knowledge(0+1); Sexual differentiation(0+1);
【模式生物】Human(2+3); Mouse(1+1);
【方法技术】Gene(2+5); Model(2+1); Behavior(1+0); Microarray(0+1);
【简述】Prenatal Genomics & Therapy Section
【研究论文】Cell(1); JNS(2);
【综述】Review(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000037
Stanford002003Palo Alto, CA, USATing-Ting Huang

Stanford
【研究方向】Pain(9+0); Cognition(7+0); Neurogenesis(4+0); Stress(4+0); Injury(3+0); Memory(2+0); Transgenic(0+1); Knockout(0+1); Regulation(1+0); Receptor(1+0); Development(1+0); CNS(1+0); Embryo(1+0); Neurology(1+0); Degeneration(0+1); Pathology(1+0); Therapy(1+0); Psychiatry(1+0); Inflammation(1+0); Tumor(1+0); Alcohol(1+0); Anxiety(1+0); Learning and memory(1+0);
【模式生物】Mouse(4+1); Rat(1+0);
【方法技术】Model(4+0); Gene(0+1); Biochemistry(1+0); Biophysics(1+0); In vitro(0+1);
【简述】
【研究论文】Cell(1); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2007 — 2011; Recipients: Huang, Ting-Ting; Code: R01; Title/Keywords: Oxidative Stress and Hepatocellular Carcinoma@ Palo Alto Veterans Instit For Research; Matching Score: 0.909Assoc Prof.
UCLA011013Los Angeles, CA, USADean V. Buonomano

UCLA
【研究方向】Learning(0+2); Temporal processing(0+2); Dynamics(0+2); Cognition(0+1); Sense(0+1); Perception(0+1); Learning and memory(0+1); Speech(0+1); Music(0+1); Neural dynamics(0+1);
【模式生物】Human(0+2);
【方法技术】Computation(0+5); In vitro(0+1); Psychophysics(0+1); Electrophysiology(0+1); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
UCLA011013Los Angeles, CA, USAShimon Weiss

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, USALynn Enquist

Princeton
【研究方向】Infection(15+9); Axon(9+2); PNS(0+8); Membrane(1+3); CNS(0+4); Neural Circuit(2+2); Imaging(4+0); Embryo(0+2); Axonal transport(2+0); Disease(0+2); Pathogenesis(0+2); Sense(1+1); Autonomic(1+1); Mutant(0+1); Modulation(1+0); Trafficking(1+0); Attention(0+1); Dynamics(1+0); Suprachiasmatic nucleus(1+0);
【模式生物】Mouse(2+2); Rodent(1+2); Human(1+1); Rat(0+2);
【方法技术】Virus(28+24); Protein(7+3); Tracing(2+4); In vivo(4+1); Gene(0+4); In vitro(3+0); Model(1+2); Biochemistry(0+1); MRI(1+0);
【简述】Systems and Circuits
【研究论文】Cell(5); Neuron(1); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
S. Gaylen Bradley, Anna Marie Skalka, Robert A. WeisbergToh Hean Ch'ng, Amy Doris Brideau, Rebecca Lynn Sparks-Thissen, Mark Tomishima, Maria Cristina da Silva, Tony Del Rio, Neelanjana Ray, Toh H. Ch'ng, LeighAnne M. Olsen, Alla Brukman, Dusica Curanovic, Tal Kramer, Andrea E. Granstedt, Anthony E. Ambrosini, Greg A. Smith, Moriah L. Szpara, Esteban A. EngelHassana OyiboYears: 2009 — 2010; Recipients: Card, John Patrick (co-PI) [⬀] Enquist, Lynn W.Wang, Samuel Sheng-Hung (co-PI) [⬀] ; Code: RC1; Title/Keywords: Viral Brainbow: Tracing Brain Circuits With Connection Order Specificity@ Princeton University; Matching Score: 1Prof.
JHU010012Baltimore, MD, USAPeter Holland

JHU
【研究方向】Learning(0+2); Associative learning(0+2); Attention(0+2); Environment(0+1); Neural Circuit(0+1); Cognition(0+1); Motivation(0+1); Amygdala(0+1); Hypothalamus(0+1);
【模式生物】Human(0+1); Rodent(0+1);
【方法技术】Computation(0+2); Behavior(0+1);
【简述】Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USALiam Paninski

Columbia
【研究方向】Imaging(3+1); Cognition(2+0); Inference(2+0); Neural encoding(2+0); Decoding(2+0); Cognitive neuroscience(1+0); Sense(0+1); Vision(1+0); Retina(1+0); Photoreceptor(1+0); Motor(1+0); Brain-Machine Interface(1+0); Encoding(1+0); Neural dynamics(1+0); Methodology(0+1); Motor cortex(1+0); Primary motor cortex (M1)(1+0);
【模式生物】
【方法技术】Model(7+0); Computation(3+0); Theory(1+2); Statistics(0+2);
【简述】Brain Imaging; Theoretical Neuroscience; Sensory Physiology ;
【研究论文】Nature(3); Neuron(1); JNS(2); Neural Computation(1); NIPS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John P. Donoghue, Eero P. Simoncelli, Eero P. SimoncelliTim Machado, Sean Escola, Gary S. Escola, Kamiar RahnamaRad, Alexandro D. Ramirez, Carl Smith, Maxim Nikitchenko, David B. Pfau, Gonzalo E. Mena, Yashar Ahmadian, Quentin Huys, Pengcheng Zhou, Eizaburo DoiE. J. Chichilnisky, Kianoush Nazarpour, Dawen CaiYears: 2018; Recipients: Paninski, Liam M; Code: U19; Title/Keywords: Data Science Resource Core@ Columbia University Health Sciences; Matching Score: 0.958012157Prof.
UCLA011013Los Angeles, CA, USAJennifer S. Labus

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

Princeton
【研究方向】Dopamine(4+0); Learning(4+0); Reinforcement learning(4+0); Striatum(4+0); Cognition(3+0); Decision making(2+1); 5-HT(2+0); Associative learning(2+0); Neural network(2+0); Disorder(1+0); Psychiatry(1+0); Psychiatric disorder(0+1); Parkinson's(1+0); Depression(1+0); Perception(1+0); Planning(1+0); Spatial navigation(0+1); Attention(1+0); Reward(1+0); Stress(1+0); Encoding(1+0); Bayesian(1+0); Machine learning(0+1);
【模式生物】Human(6+1);
【方法技术】Computation(3+2); Behavior(3+1); Theory(2+0); Model(1+0); Data analysis(1+0);
【简述】Human Neuroscience
【研究论文】Nature(2); Nature Neuroscience(1); Neuron(2); JNS(2); Cerebral Cortex(1);
【综述】Trends In Neurosciences(1); Current Opinion In Neurobiology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Mark Gluck, David Touretzky, Peter DayanYoel Sanchez Araujo, Sarah A. Hutter, Oliver M Vikbladh, Dylan Alexander Simon, Nicholas J Gustafson, Aaron M. Bornstein, Hanneke EM den Ouden, Steve Fleming, Jian Li, Ross Otto, Hang Zhang, Ida Momennejad, Marcelo Gomes Mattar, Sam J. GershmanNina Galbraith Curley, Song Qi, G. Elliott WimmerYears: 2018 — 2021; Recipients: Daw, Nathaniel; Code: N/A; Title/Keywords: Crcns Research Proposal: Collaborative Research: Prioritization of Memory Reactivation For Decision-Making@ Princeton University; Matching Score: 0.915016526Prof.
NYU015028New York, NY, USADmitry Rinberg

NYU
【研究方向】Olfaction(12+0); Perception(2+0); Receptor(1+0); Structure(1+0); Development(1+0); APP(1+0); Systems Neuroscience(1+0); Sense(0+1); Frequency(1+0); Aversive(1+0); Dynamics(1+0); Neural dynamics(1+0);
【模式生物】Mouse(3+0); Human(1+0);
【方法技术】Behavior(1+0);
【简述】Sensory information processing in the behaving animal
【研究论文】Nature(3); Cell(1); Nature Neuroscience(2); Neuron(2); JNS(3); Nature Communications(1);
【综述】Physical Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Hanan Davidowitz, Alan GelperinSasha Devore, Matt C. Smear, Rodney Philip O'Connor, Roman ShustermanThomas Bozza, Itamar Kahn, David A. Markowitz, Yevgeniy Borisovich SirotinYears: 2018; Recipients: Babadi, Behtash (co-PI) [⬀] Chialvo, Dante RFellin, TommasoHisted, Mark HKanold, Patrick O (co-PI) [⬀] Losert, Wolfgang (co-PI) [⬀] Maunsell, John Hr [⬀] Panzeri, Stefano Vt (co-PI) [⬀] Plenz, Dietmar (co-PI) [⬀] Rinberg, DmitryShoham, Shy (co-PI) [⬀] ; Code: U19; Title/Keywords: Readout and Control of Spatiotemporal Neuronal Codes For Behavior@ University of Chicago; Matching Score: 0.954001671Assoc Prof.
Stanford002003Palo Alto, CA, USAReinhold Dauskardt

Stanford
【研究方向】Adhesion(4+0); Structure(2+0); Plasticity(2+0); Fatigue(2+0); Environment(1+0); APP(1+0); Temperature(1+0); Stress(1+0); Engineering(1+0);
【模式生物】Human(1+0);
【方法技术】Behavior(1+0);
【简述】
【研究论文】Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
012516Prof.
Stanford002003Palo Alto, CA, USAW E Moerner

Stanford
【研究方向】Imaging(7+3); Dynamics(3+1); Environment(0+3); Optical(0+3); Mutant(1+0); Structure(0+1); Membrane(1+0); Sense(0+1); Body(1+0); Morphology(1+0);
【模式生物】
【方法技术】Microscopy(7+1); Protein(4+2); Behavior(0+6); Biophysics(1+0); Model(0+1); Theory(0+1);
【简述】
【研究论文】Nature(2); Cell(2); Nature Communications(2); PNAS(3);
【综述】Review(2); Physical Review(1); Chemical Reviews(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UW021010Seattle, WA, USARamkumar Sabesan

UW
【研究方向】Disorder(0+1); Neural Circuit(0+1); Sense(0+1);
【模式生物】
【方法技术】
【简述】Behavioral Neuroscience; Neural Circuits; Sensory Systems; 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
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.
Yale014011New Haven, CT, USAJeffery Kocsis

Yale
【研究方向】CNS(0+4); Regeneration(0+3); Ion Channel(0+2); Transplantation(0+2); Axon(0+2); Neurology(0+1); Demyelinating(0+1); Injury(0+1); Spinal Cord Injury(0+1); Sclerosis(0+1);
【模式生物】Non-human primate(0+2); Rodent(0+2); Stem Cell(0+2); Primate(0+1);
【方法技术】Electrophysiology(0+1); Model(0+1);
【简述】Central Nervous System; Ion Channels; Nerve Regeneration; Neurology; Neurosciences; Spinal Cord; Spinal Cord Injuries; Veterans; Cell Transplantation.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAJulio Fernandez

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

NIH-NINDS
【研究方向】Development(9+8); Hormone(12+0); Olfaction(8+1); Embryo(5+0); Neuroendocrinology(4+0); Transgenic(1+1); Regulation(0+2); GABA(2+0); Potassium channel(2+0); Reproduction(1+1); Neurology(2+0); GnRH cell(0+2); Neuropeptide(1+0); Peptide(0+1); Intracellular signaling(0+1); Neurogenesis(0+1); Cell line(0+1); Differentiation(0+1); CNS(1+0); Axon(0+1); Dysfunction(1+0); Sense(1+0); Muscle(1+0); Exploration(1+0); Metabolism(0+1); Neuroendocrine(0+1); Vessel(1+0); Dynamics(0+1); Imaging(0+1);
【模式生物】Mouse(6+1); Rat(4+0); Human(1+0);
【方法技术】Model(1+3); In vitro(2+0); Gene(1+0); Protein(1+0); Histochemistry(0+1); Behavior(0+1); Electrophysiology(0+1);
【简述】Cellular and Developmental Neurobiology Section
【研究论文】Cell(2);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harold GainerGiovanna Guerrero, Carol Taylor-Burds, Bruce Ian Hutchins006527
Yale014011New Haven, CT, USATamas Horvath

Yale
【研究方向】Metabolism(0+2); Neuroendocrine(0+2); Regulation(0+1); Membrane(0+1); Synaptic Plasticity(0+1); Mitochondria(0+1); Disorder(0+1); Neuroprotection(0+1);
【模式生物】
【方法技术】Gene(0+1); Electrophysiology(0+1);
【简述】Neuroendocrinology; Obesity; Physiology.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAJames Zou

Stanford
【研究方向】HIV(2+0); Learning(2+0); Regulation(1+0); Amino acid(1+0); Structure(1+0); Membrane(1+0); Transcription(1+0); Oscillation(1+0); Development(1+0); Environment(1+0); Branching(1+0); Therapy(1+0); Infection(1+0); Spectral(1+0); Artificial intelligence(1+0); Neural network(1+0);
【模式生物】Human(6+0); Mouse(1+0);
【方法技术】Gene(4+0); Virus(3+0); Protein(2+0); Model(2+0); Theory(1+0); Data analysis(1+0); Statistics(1+0);
【简述】
【研究论文】Nature(3); Cell(1); Nature Communications(2); Nature Methods(1); PNAS(1); PLoS Biol.(1);
【综述】Physical Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
006649Assist Prof.
Stanford002003Palo Alto, CA, USAPaul George

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

NIH-NIDDK
【研究方向】Hypothalamus(4+4); Memory(3+2); Food Intake(2+2); Modulation(3+0); Reward(3+0); Sleep(3+0); Metabolism(2+1); Receptor(2+0); Energy homeostasis(1+1); Cognition(0+2); Appetitive(1+1); Homeostatic(0+2); Neural network(0+2); Mushroom body(2+0); Dopamine(1+0); GABA(1+0); Synapse(0+1); Disorder(0+1); Neural Circuit(1+0); Pain(1+0); Olfaction(1+0); Taste(1+0); Learning(0+1); Learning and memory(0+1); Long-term memory(1+0); Acquisition(0+1); Consolidation(1+0); Memory Consolidation(1+0); Body temperature(1+0); Water balance(1+0); Neuroendocrinology(1+0); Hormone(1+0); PFC(1+0); mPFC(1+0); Amygdala(1+0); Nucleus accumbens(1+0); Paraventricular nucleus(1+0); Arcuate nucleus(1+0);
【模式生物】Drosophila(6+0); Human(0+3); Mouse(2+0); Rodent(0+1);
【方法技术】Behavior(5+6); Gene(2+3); Protein(1+0); In vivo(1+0); In vitro(1+0); Optogenetics(1+0);
【简述】Diabetes, Endocrinology, and Obesity Branch
【研究论文】Cell(2); Nature Neuroscience(2); Neuron(6); JNS(2); Curr Biol.(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003982
NYU015028New York, NY, USADavid Levine

NYU
【研究方向】Learning(2+0); Dynamics(2+0); Neurology(0+1); Cerebrovascular(0+1);
【模式生物】
【方法技术】Model(4+0); Theory(2+0);
【简述】Cerebrovascular neurology
【研究论文】Science(1);
【综述】Review(7);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
C. Miller Fisher, Raymond D. AdamsAaron Samuel Geller020543Prof.
WUSTL009032Saint Louis, MO, USAArye Nehorai

WUSTL
【研究方向】Signal processing(13+2); Speech(5+0); Music(2+0); Machine learning(0+1); Engineering(1+0);
【模式生物】
【方法技术】Model(1+2); Gene(0+1); MRI(0+1); Microscopy(1+0); MEG(0+1);
【简述】Quantitative statistical signal processing and imaging
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
021791Prof.
MIT005002Boston, MA, USAShimon Ullman

MIT
【研究方向】Vision(0+17); Object(0+4); Development(0+1); Environment(1+0); Perception(0+1); Object recognition(0+1); Face(0+1); Learning(1+0); Context(1+0); Machine(0+1); Visual cortex(0+1);
【模式生物】Human(0+5);
【方法技术】Model(2+2); Computation(0+2); Theory(0+1);
【简述】
【研究论文】NIPS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David MarrSharon Gilad, Amir Shmuel, Doron Shoham, Demetri Terzopoulos, Avidan Akerib, Moshe Bar, Dror Zur, Eran Borenstein, Evgeniy Bart, Sharon Gilaie-Dotan, Dan LeviTomaso A. PoggioYears: 1989 — 1996; Recipients: Richards, Whitman (co-PI) [⬀] Grimson, EricUllman, Shimon; Code: N/A; Title/Keywords: Image Partitioning and Selection in Man and Machine Vision@ Massachusetts Institute of Technology; Matching Score: 0.939Prof.
Columbia006008New York, NY, USAJoriene C. De Nooij

Columbia
【研究方向】Sense(3+0); Transcription(2+0); Ion Channel(1+0); Differentiation(0+1); Neuropathic pain(1+0); Muscle(1+0);
【模式生物】Stem Cell(0+1);
【方法技术】Protein(1+0); Channel(1+0); Model(0+1);
【简述】Sensory neuron specification and differentiation ; Cellular/Molecular/Developmental Neuroscience; Proprioception ; Stem cell biology; Peripheral neuropathy/Disease modeling;
【研究论文】Nature Neuroscience(1); Neuron(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
JHU010012Baltimore, MD, USAConor McMeniman

JHU
【研究方向】Disease(0+6); Infection(0+3); Neural Circuit(0+3); Olfaction(0+2); Receptor(0+1); Sense(0+1); Perception(0+1); Knowledge(0+1); Imaging(0+1);
【模式生物】Human(0+3);
【方法技术】Behavior(0+2); Virus(0+1);
【简述】Cellular + Molecular Neuroscience; Neural Circuits, Ensembles + Connectomes; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAVittorio Sebastiano

Stanford
【研究方向】Development(8+2); Pluripotent stem cells(8+2); Reprogramming(4+0); Embryo(2+1); Self-renewal(2+0); Differentiation(1+1); Reproduction(2+0); CRISPR/Cas9(1+0); Knockout(1+0); Transporter(1+0); Membrane(1+0); Plasticity(0+1); Transcription(1+0); Cell line(1+0); Disease(1+0); Therapy(1+0); Infection(1+0); Finger(1+0); Muscle(1+0); Acquisition(0+1); Timing(1+0); Cardiovascular(1+0);
【模式生物】Stem Cell(39+6); Human(18+1); Mouse(4+0);
【方法技术】Gene(3+0); In vitro(2+0); Model(2+0); Virus(1+0); Cell culture(1+0);
【简述】
【研究论文】Nature(3); Science(3); Nature Communications(2); Nature Methods(1); Nature structural & molecular biology(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
005706Assist Prof.
JHU010012Baltimore, MD, USATom Lloyd MD,

JHU
【研究方向】Axon(0+4); Disease(0+4); Motor Neuron(0+4); Axonal transport(0+2); Degeneration(0+2); Mutant(0+1); Vesicle(0+1); Development(0+1); Dendrite(0+1); Mitochondria(0+1); Neurodegenerative disease(0+1); Sclerosis(0+1); Body(0+1);
【模式生物】Drosophila(0+1);
【方法技术】Model(0+3); Gene(0+2); Protein(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
NIH-NINDS??Bethesda, MD, USAQuan Yuan

NIH-NINDS
【研究方向】Plasticity(4+2); Dendrite(2+4); Structural plasticity(1+4); Vision(2+3); Homeostatic(0+5); Regulation(1+2); Development(2+1); 5-HT(2+0); Receptor(2+0); Differentiation(2+0); Transplantation(2+0); Imaging(1+1); Optical(0+2); Acetylcholine receptor(1+0); Muscarinic(1+0); Structure(1+0); Membrane(1+0); Proliferation(1+0); Branching(1+0); Synaptogenesis(1+0); Pathogenesis(1+0); Therapy(1+0); Aging(1+0); Ischemia(1+0); Hypoxia(1+0); Injury(1+0); Tumor(1+0); Photoreceptor(1+0); Adaptation(1+0); Contrast(0+1); Body(1+0); Frequency(1+0); Aggression(1+0); Circadian(1+0); Entrainment(1+0); Stress(1+0); Engineering(1+0);
【模式生物】Drosophila(6+3); Mouse(5+0); Human(1+0); C. elegans(1+0); Stem Cell(1+0);
【方法技术】Gene(1+5); In vivo(2+1); Model(2+0); Protein(1+0); In vitro(1+0); Anatomy(0+1); Behavior(0+1);
【简述】Dendrite Morphogenesis and Plasticity Unit
【研究论文】Cell(4);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000987
WUSTL009032Saint Louis, MO, USATammie L.S. Benzinger

WUSTL
【研究方向】Disease(10+6); Imaging(8+1); Aging(1+2); Pathology(2+0); Tau(2+0); Biomarker(2+0); Diffusion tensor imaging(0+2); Axon(0+1); Neurology(1+0); Brain injury(0+1); Trauma(0+1); Tumor(0+1); Sclerosis(0+1); Pediatric(0+1); Depression(0+1); Acquisition(0+1); Neuroimaging(1+0);
【模式生物】
【方法技术】PET(4+2); MRI(2+2);
【简述】the integration of MRI and PET using simultaneous acquisition (combined PET-MRI scanning) in both Alzheimer’s disease and brain tumor research
【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, USABo Wang

Stanford
【研究方向】Membrane(1+0); Dynamics(1+0); Engineering(1+0); Imaging(1+0);
【模式生物】Stem Cell(4+0); Human(1+0);
【方法技术】
【简述】
【研究论文】Nature(3); eLife(1);
【综述】Physical Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yousheng Shu, Carlos LoisYears: 2018 — 2019; Recipients: Wang, Bo [⬀] ; Code: K01; Title/Keywords: The Role of Lpcat3 and Phospholipid Remodeling in Intestinal Homeostasis@ University of California Los Angeles; Matching Score: 0.936001717Assist Prof.
Stanford002003Palo Alto, CA, USAAlexander Dunn

Stanford
【研究方向】Sense(4+3); Touch(4+1); Development(2+2); Motor(0+4); Adhesion(3+0); Disease(0+3); Stress(3+0); Environment(0+2); Body(0+2); Dynamics(2+0); Engineering(1+1); Differentiation(0+1); Therapy(0+1); Tumor(1+0); Pain(0+1); Exercise(0+1); Muscle(0+1); Knowledge(0+1); Imaging(0+1);
【模式生物】Stem Cell(0+3); Human(0+2); C. elegans(2+0); Zebrafish(1+0);
【方法技术】Protein(1+3); Behavior(1+0); Microscopy(0+1);
【简述】
【研究论文】Nature(2); Science(1); Cell(2); Nature Communications(1); Nature structural & molecular biology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harry Barkus GrayYears: 2016 — 2018; Recipients: Dunn, Alexander RWeis, William I (co-PI) [⬀] ; Code: R01; Title/Keywords: Molecular Mechanisms Underlying Force Sensing At Intercellular Junctions@ Stanford University; Matching Score: 1003879Assoc Prof.
UW021010Seattle, WA, USAWilliam Spain

UW
【研究方向】Consciousness(0+6); Contrast(0+4); Form(0+4); Auditory(0+4); Membrane(0+2); Disease(0+2); Frequency(0+2); Motor(0+2); Learning(0+2); Timing(0+2); Art(0+2); Connection(0+2);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USADavid Schneider

NYU
【研究方向】Auditory(8+0); LIP(2+0); Modulation(1+0); Structure(1+0); Sense(1+0); Vision(1+0); Spectral(1+0); Natural sound(1+0); Motor(1+0); Learning(1+0); Auditory cortex(1+0); Amygdala(1+0);
【模式生物】Monkey(2+0); Primate(1+0); Songbird(1+0);
【方法技术】Behavior(1+1); Computation(2+0); Model(2+0); Anatomy(1+0);
【简述】Circuit and cellular mechanisms for sensation and behavior
【研究论文】Nature(2); Neuron(1); JNS(5); PLoS Biol.(1); NIPS(1);
【综述】Annual Review Of Neuroscience(1); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Sarah M. Woolley, Richard D. MooneyYears: 2009 — 2012; Recipients: Schneider, David Michael [⬀] ; Code: F31; Title/Keywords: Discrimination of Communication Sounds in Auditory Scenes@ Columbia Univ New York Morningside; Matching Score: 0.908000956Assist Prof.
UCSD011017San Diego, CA, USAKristin K Baldwin

UCSD
【研究方向】Neural Circuit(0+3); Olfaction(0+3); Clone(0+2); Development(0+1); Neurodegenerative disease(0+1); Sense(0+1); Emotion(0+1); Imaging(0+1);
【模式生物】Mouse(0+2); Human(0+1);
【方法技术】Gene(0+1); Biochemistry(0+1); Behavior(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
JHU010012Baltimore, MD, USAPankaj Jay Pasricha MD

JHU
【研究方向】Visceral pain(0+3); Disease(0+2); Disorder(0+2); Inflammation(0+2); Neurotransmitter(0+1); Ion Channel(0+1); Translation(0+1); Therapy(0+1); Sense(0+1); Knowledge(0+1); Gastrointestinal(0+1);
【模式生物】Stem Cell(0+2);
【方法技术】
【简述】Developmental Neuroscience; Cellular + Molecular Neuroscience; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAY Joyce Liao PhD

Stanford
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
Stanford002003Palo Alto, CA, USAStanley N Cohen

Stanford
【研究方向】Transcription(2+1); Disease(0+3); Modulation(2+0); Environment(1+1); Mutant(1+0); Regulation(1+0); Membrane(1+0); Degeneration(0+1); Ataxias(0+1); Infection(1+0); Sclerosis(0+1);
【模式生物】Human(1+1); Mouse(1+0);
【方法技术】Gene(2+1); Protein(3+0); Virus(1+0); Behavior(1+0);
【简述】
【研究论文】Science(1); Cell(2); PNAS(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
CAS-ION??Shanghai, ChinaShu-Jia Zhu

CAS-ION
【研究方向】NMDA receptor(12+2); Receptor(0+9); Glutamate receptor(5+1); Structure(2+3); Modulation(3+1); Synaptic Transmission(0+3); Dynamics(2+1); AMPA receptor(0+2); Membrane(1+1); Learning and memory(2+0); Encoding(2+0); Neurotransmitter(0+1); Glutamate(1+0); Ligand gated ion channel(0+1); GABAB receptor(0+1); Ion Channel(0+1); Plasticity(0+1); Disease(0+1); Dysfunction(0+1); Therapy(0+1); Psychiatric disorder(0+1); Alzheimer's disease(0+1); Parkinson's disease(0+1); Depression(0+1); Schizophrenia(0+1); Memory(0+1); Retrieval(0+1); Exploration(0+1);
【模式生物】Human(3+0); Mouse(2+0); Rat(1+0);
【方法技术】Pharmacology(1+2); Gene(1+0); Channel(0+1); Electrophysiology(0+1); Microarray(1+0); Computation(0+1);
【简述】Structure-Function Studies of Synaptic Proteins
【研究论文】Cell(1); JNS(1); Nature structural & molecular biology(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000434Investigator
NYU015028New York, NY, USAChandra Sen

NYU
【研究方向】Development(4+0); Planning(2+0); Neurology(1+0);
【模式生物】
【方法技术】MRI(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
000342Prof.
UCSD011017San Diego, CA, USADennis D.M. O'Leary

UCSD
【研究方向】Development(0+2); Vision(0+2); Connection(0+2); Embryo(0+1); Neurodegenerative disease(0+1); Parkinson's disease(0+1); Injury(0+1); Perception(0+1); Retina(0+1); Reasoning(0+1); Motor cortex(0+1); Visual cortex(0+1);
【模式生物】
【方法技术】Gene(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
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
Harvard001001Boston, MA, USATodd E. Anthony

Harvard
【研究方向】Stress(0+5); Development(2+1); Disorder(0+2); Anxiety(1+1); Imaging(0+2); Receptor(1+0); Structure(0+1); Plasticity(0+1); Glial cell(1+0); Glia(1+0); CNS(1+0); Disease(0+1); Psychiatric disorder(0+1); Depression(0+1); Post-traumatic stress disorder(0+1); Motor(1+0); Attention(0+1); Social behavior(0+1); Metabolism(1+0); Amygdala(1+0); Hypothalamus(1+0);
【模式生物】Human(1+1); Mouse(1+1);
【方法技术】Behavior(0+6); Gene(2+3); Protein(1+0); Tracing(1+0); Electrophysiology(0+1); Pharmacology(0+1); Model(1+0);
【简述】Genetic dissection of neural circuits that control stress-induced behavioral states
【研究论文】Cell(1); Nature Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Nathaniel Heintz, David J. AndersonYears: 2006 — 2008; Recipients: Anthony, Todd Erryl; Code: F32; Title/Keywords: Connections and Function of Reproductive Neural Circuits@ California Institute of Technology; Matching Score: 0.904Assist Prof.
Stanford002003Palo Alto, CA, USALorene Nelson

Stanford
【研究方向】Sclerosis(18+2); Neurology(18+0); Parkinson's disease(6+1); Disease(6+0); Hemorrhage(4+0); Environment(3+0); Development(1+1); Movement disorder(2+0); Stroke(2+0); Alcohol(2+0); Epilepsy(1+0); Disorder(0+1); Neurodegenerative disorder(0+1); Aging(1+0); Alzheimer's disease(1+0); APP(1+0); Dystonia(1+0); Cognition(1+0); Migraine(0+1); Sleep(1+0); Connection(1+0);
【模式生物】Human(1+0);
【方法技术】MRI(1+0); Behavior(1+0); Algorithm(1+0);
【简述】
【研究论文】
【综述】Review(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jimmy T. Efird, Rita A. Popat, Annette Langer-GouldYears: 2015 — 2017; Recipients: Nelson, Lorene M; Code: R01; Title/Keywords: Antecedent Medical Conditions and Medications: Associations With the Risk and Prognosis Als@ Stanford University; Matching Score: 0.958009398Assoc Prof.
CAS-ION??Shanghai, ChinaZheng Ye

CAS-ION
【研究方向】Parkinson's disease(9+2); Cognition(2+7); Comprehension(7+0); Cognitive Control(1+4); Semantic(5+0); Language(4+0); Neural network(4+0); Structure(3+0); Executive function(0+3); Reward(3+0); 5-HT(2+0); Dysfunction(0+2); Psychiatry(2+0); Executive control(2+0); Imaging(1+1); Neuroimaging(2+0); Neurotransmitter(0+1); Neuromodulation(0+1); Monoamine(0+1); Dopamine(0+1); Translation(0+1); Environment(0+1); Disease(1+0); Therapy(0+1); Body(0+1); Vestibular(1+0); Motor(0+1); Planning(0+1); Speech(1+0); Reasoning(0+1); Basal ganglia(0+1); Subthalamic nucleus(0+1);
【模式生物】Human(4+0);
【方法技术】Behavior(1+2); fMRI(3+0); Electrophysiology(0+1); Theory(1+0);
【简述】Cognitive Control
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001212Investigator
Stanford002003Palo Alto, CA, USAMichael Lin

Stanford
【研究方向】Imaging(9+0); Optical(6+0); Transcription(3+0); Development(2+1); Dynamics(3+0); Receptor(2+0); Engineering(1+1); Transgenic(1+0); NMDA receptor(1+0); Membrane(1+0); Intracellular signaling(1+0); Neurogenesis(1+0); Cell cycle(1+0); Glial differentiation(1+0); Differentiation(1+0); Axon guidance(1+0); Synapse formation(1+0); Disease(0+1); Respiratory(1+0);
【模式生物】Mouse(2+0);
【方法技术】Protein(5+0); In vivo(3+0); Gene(2+0); Virus(2+0); Biochemistry(1+0); Microscopy(1+0); Model(0+1);
【简述】
【研究论文】Nature(1); Science(1); Cell(7); Nature Neuroscience(1); Nature Communications(1); Nature Methods(3); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael E. Greenberg, Roger Y. TsienLinlin Z. Fan, Xiaozhe DingLu Chen, Thomas Clandinin, Hyung Joon Kim, Douglas S. Kim, Ryohei Yasuda, Tal LavivYears: 2019; Recipients: Lin, Michael Z. [⬀] Lin, Michael Z. [⬀] ; Code: R21; Title/Keywords: Noninvasive Bioluminescent Imaging of Neuronal Activity in Freely Behaving Animals@ Stanford University; Matching Score: 1015174Assoc Prof.
Princeton061009Princeton, NJ, USADiana Tamir

Princeton
【研究方向】Social(13+0); Cognition(5+0); Cognitive neuroscience(2+0); Psychiatry(1+0); Schizophrenia(1+0); Memory(1+0); Decision making(1+0); Social cognition(1+0); Inference(1+0); Emotion(1+0); Social behavior(1+0); Imaging(1+0);
【模式生物】Human(0+1);
【方法技术】Behavior(2+0); Model(2+0); Simulation(2+0); MRI(1+0); fMRI(1+0);
【简述】Human Neuroscience
【研究论文】Science(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Cameron S. Carter, Jason Mitchell001065Assist Prof.
Stanford002003Palo Alto, CA, USALiqun Luo

Stanford
【研究方向】Olfaction(6+12); Development(8+7); Dendrite(3+7); Axon(3+5); PNS(0+4); Neural Circuit(2+2); Regulation(2+0); Receptor(0+2); Spine(2+0); Degeneration(2+0); Form(0+2); Mushroom body(1+1); 5-HT(1+0); Vesicle(1+0); Plasticity(1+0); Structural plasticity(1+0); Neural lineage(1+0); Axon growth(1+0); Branching(1+0); Synapse(0+1); Disease(1+0); Disorder(0+1); Tumor(1+0); Contrast(0+1); Antennal lobe(0+1); Memory(1+0); Learning and memory(0+1); Retrieval(1+0); Social(1+0); Aversive(1+0); Reward(1+0); Mating(0+1); Parental behavior(1+0); Imaging(0+1); Connection(0+1); Auditory cortex(1+0); Hippocampus(1+0); Olfactory bulb(0+1); VTA(1+0); Raphe(1+0);
【模式生物】Drosophila(10+0); Mouse(2+5); Human(0+1);
【方法技术】Gene(5+6); Tracing(2+0); Behavior(1+1); Model(1+1); In vivo(0+1); Anatomy(0+1); Two-photon calcium imaging(0+1); Optogenetics(0+1); Ultrasonic(1+0);
【简述】
【研究论文】Nature(5); Science(3); Cell(2); Nature Neuroscience(1); Neuron(5); Nature Communications(1); PNAS(1);
【综述】Review(2); Nature Reviews Neuroscience(1); Trends In Neurosciences(1); Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Kalpana White, Yuh Nung JanAlexander M. Chan, Cindy D Liu, Vardhan S. Dani, Eric D. Hoopfer, William Jinsoo Joo, William E. Allen, Jiefu Li, Ethan B Richman, Chuanyun Xu, Ethan K. Scott, Gregory S X E Jefferis, Ryan Jefferson Watts, Elizabeth C. Marin, Takaki Komiyama, J Sebastian Espinosa, Maria L Spletter, Weizhe Hong, Liang Liang, Chen Ran, David Cheng-Hao Wang, Laura Anne DeNardo, Simon Hippenmeyer, Wei-Hsiang Huang, Justus M. Kebschull, Tzumin Lee, Tongchao Li, Kazunari Miyamichi, Bosiljka Tasic, Hui Zong, Vincenzo Favaloro, Tim Mosca, Lindsay A. Schwarz, Jing Ren, Jan H. Lui, Boxuan Simen Zhao, Oren Schuldiner, Christopher J. PotterXing WeiYears: 2018 — 2019; Recipients: Luo, Liqun; Code: R01; Title/Keywords: Neuromodulation of Brain States@ Stanford University; Matching Score: 1027914Prof.
Stanford002003Palo Alto, CA, USALes Dorfman

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

WUSTL
【研究方向】Receptor(10+2); Sense(5+4); Itch(6+1); Ion Channel(3+3); Membrane(4+1); Neurology(2+0); Inflammation(1+1); Gastrointestinal(1+1); Dynamics(2+0); Modulation(1+0); Amino acid(1+0); Peptide(1+0); TRP channel(1+0); Synaptic Transmission(1+0); Environment(0+1); Pain(0+1); Neuropathic pain(1+0); Touch(1+0); Muscle(1+0);
【模式生物】Mouse(2+0); Rat(1+0); C. elegans(1+0);
【方法技术】Channel(4+0); Optogenetics(1+1); Gene(1+0); Biochemistry(1+0); Behavior(0+1); Electrophysiology(0+1); Pharmacology(0+1);
【简述】Neuroimmune mechanisms of sensory processing at barrier surfaces
【研究论文】Nature(1); Science(1); Cell(1); Nature Neuroscience(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003714Assoc Prof.
NIH-NIMH??Bethesda, MD, USARobert B. Innis

NIH-NIMH
【研究方向】Imaging(7+3); Receptor(3+1); Blood flow(3+0); Transporter(2+0); Tau(0+2); Signal transduction(0+1); Epilepsy(1+0); Microglia(0+1); Development(0+1); Disease(1+0); Neurology(1+0); Psychiatry(1+0); Psychiatric disorder(0+1); Aging(1+0); Alzheimer's disease(1+0); Biomarker(1+0); Neuroinflammation(1+0); Temporal lobe(1+0);
【模式生物】Human(3+5); Monkey(5+0); Mouse(3+0); Rodent(2+1); Primate(0+1);
【方法技术】PET(10+4); Protein(8+4); In vivo(0+2); Pharmacology(1+1); Gene(0+1); Model(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAGwenn Garden

UW
【研究方向】Microglia(0+3); Disease(0+3); Pathogenesis(0+3); Environment(0+2); Neuroprotective(0+2); Neuroprotection(0+2); Injury(0+2); Cerebellum(0+2); Mutant(0+1); Knockout(0+1); Structure(0+1); CNS(0+1); Disorder(0+1); Neurodegenerative disease(0+1); Degeneration(0+1); Stress(0+1); Basal ganglia(0+1);
【模式生物】Mouse(0+2); Human(0+1);
【方法技术】Behavior(0+2); Model(0+2); Gene(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
MIT005002Boston, MA, USAEmilio Bizzi

MIT
【研究方向】Motor(5+9); Muscle(4+6); Motor control(2+3); Motor learning(2+2); Posture(2+0); Language(0+2); Structure(0+1); CNS(0+1); Neurology(1+0); Stroke(1+0); Adaptation(1+0); Vestibular(0+1); Finger(0+1); Execution(1+0); Memory(1+0); Consolidation(1+0); Dynamics(1+0); Imaging(0+1); Motor cortex(1+0); Primary motor cortex (M1)(1+0);
【模式生物】Monkey(5+3); Human(4+1); Rat(0+2); Primate(1+0);
【方法技术】Behavior(2+4); Model(0+3); Microstimulation(0+2); Computation(1+1); Gene(0+1); Theory(0+1);
【简述】Motor Control and Motor Learning; Combination of Motor Primitives
【研究论文】Nature(1); Science(3); Nature Neuroscience(2); Neuron(1); JNS(3);
【综述】Brain Research Reviews(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Giuseppe Moruzzi, Edward Vaughan EvartsIahn Cajigas, Helene G. Moorman, Christopher G. Atkeson, Max Berniker, Yoky Matsuoka, Joseph McIntyre, Joseph S. Perkell, Jinsook Roh, Javid Sadr, Thomas A. Zeffiro, Jinsook Roh, Tamar Flash, Matthew C. Tresch, Andrea d'Avella, Camillo Padoa-Schioppa, Simon A. Overduin, Alessandro D'Ausilio, Vincent Chi Kwan Cheung, Andrew Garmory Richardson, Rob Ajemian, Simon F. Giszter, Theodore E. Milner, Pietro Morasso, Ferdinando A. Mussa-Ivaldi, Reza Shadmehr, Peter Thier, Vincent Chi Kwan Cheung, Vittorio Caggiano, Terence Sanger, Andrea d'Avella, Wasim Q. MalikYears: 2013 — 2014; Recipients: Bizzi, Emilio; Code: N/A; Title/Keywords: Crcns 2013 Pi Meeting At Massachusetts Institute of Technology@ Massachusetts Institute of Technology; Matching Score: 1027242Prof.
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
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.
Harvard001001Boston, MA, USAAnna Greka

Harvard
【研究方向】Disease(8+6); Ion Channel(2+7); Therapy(2+1); Imaging(0+2); Regulation(1+0); Modulation(1+0); Receptor(0+1); Structure(1+0); Membrane(0+1); Development(0+1); Therapeutics(1+0); Channelopathies(0+1); Injury(1+0); Tumor(1+0); Muscle(0+1); Stress(1+0); Blood flow(1+0); Cardiovascular(0+1); White matter(1+0);
【模式生物】Human(2+1);
【方法技术】Electrophysiology(0+3); Model(1+2); Gene(0+2); Protein(2+0); Channel(0+1); Cell culture(0+1);
【简述】Ion channels and calcium signaling in health and disease
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David E. ClaphamAssist Prof.
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, USAMark P. Mattson

JHU
【研究方向】Neurodegenerative disorder(0+11); Age-related(0+6); Aging(0+5); Degeneration(0+4); Dysfunction(0+4); Stroke(0+4); Plasticity(0+2); Disorder(0+2); Cognition(0+2); Metabolism(0+2); Hippocampus(0+2); Substantia nigra(0+2); Transgenic(0+1); Mutant(0+1); Cytokine(0+1); Glutamate receptor(0+1); Neurogenesis(0+1); Disease(0+1); Pathogenesis(0+1); Alzheimer's disease(0+1); Parkinson's disease(0+1); Injury(0+1); Vision(0+1); Body(0+1); Motor(0+1); Learning and memory(0+1); Knowledge(0+1); Stress(0+1);
【模式生物】Rat(0+2); Mouse(0+2); Human(0+1);
【方法技术】Model(0+11); Gene(0+2); Biochemistry(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
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.
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
Stanford002003Palo Alto, CA, USAMatthew Jackson

Stanford
【研究方向】Social(19+0); Structure(4+0); Learning(4+0); Dynamics(3+0); Execution(1+0); Engineering(1+0);
【模式生物】
【方法技术】Theory(8+0); Model(4+0); Behavior(3+0); Statistics(2+0);
【简述】
【研究论文】Science(2); PNAS(1);
【综述】Review(8);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
031135Prof.
Yale014011New Haven, CT, USADylan Gee

Yale
【研究方向】Development(0+6); Disorder(0+2); Environment(0+1); Anxiety(0+1); Neural Circuit(0+1); Knowledge(0+1); Emotion(0+1); Early-life stress(0+1); Connection(0+1);
【模式生物】
【方法技术】Gene(0+1); Behavior(0+1);
【简述】.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAYi Cui

Stanford
【研究方向】Imaging(5+0); Development(2+0); Environment(2+0); Structure(1+0); Tumor(1+0); Body(1+0); Temperature(1+0);
【模式生物】
【方法技术】MRI(3+0); Model(3+0); Virus(1+0);
【简述】
【研究论文】Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001144Prof.
Stanford002003Palo Alto, CA, USAJaimie Henderson

Stanford
【研究方向】Neurology(7+0); Parkinson's disease(7+0); Brain-Computer Interface(6+1); Epilepsy(4+1); Engineering(5+0); Therapy(3+1); Disease(2+1); Translation(2+0); Neural Circuit(2+0); Brain-Machine Interface(2+0); Dynamics(2+0); Imaging(2+0); Optical(2+0); Substantia nigra(2+0); Oscillation(1+0); Rhythm(1+0); Seizure(1+0); Development(0+1); Psychiatry(1+0); Movement disorder(0+1); Pain(0+1); Frequency(1+0); Motor(1+0); Diffusion MRI(1+0); Motor cortex(1+0); Temporal lobe(1+0); Putamen(1+0); Thalamus(1+0);
【模式生物】Human(4+0); Monkey(1+0); Primate(1+0);
【方法技术】DBS(11+0); Gene(3+0); MRI(2+0); LFP(2+0); Behavior(1+0); Electrical stimulation(1+0);
【简述】
【研究论文】Science(1); Nature Methods(1); eLife(2);
【综述】Annals Of Neurology(2); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Paul Nuyujukian, Sergey Stavisky, Eun Young Choi, Chethan Pandarinath, Matthew G. MacDougall, Cynthia A. Chestek, Vikash Gilja, Beata JarosiewiczYears: 2015 — 2016; Recipients: Butson, Christopher R (co-PI) [⬀] Giacino, Joseph ThomasHenderson, Jaimie MMachado, Andre GuelmanSchiff, Nicholas D [⬀] ; Code: UH3; Title/Keywords: Central Thalamic Stimulation For Traumatic Brain Injury@ Weill Medical Coll of Cornell Univ; Matching Score: 0.907008666Prof.
UW021010Seattle, WA, USARichard Palmiter 

UW
【研究方向】Taste(0+3); Encoding(0+2); Peptide(0+1); Neural Circuit(0+1); Itch(0+1); Pain(0+1); Fear(0+1); Innate behavior(0+1); Temperature(0+1); Water balance(0+1);
【模式生物】Mouse(0+2);
【方法技术】Gene(0+2); Protein(0+1); Virus(0+1); Model(0+1);
【简述】Behavioral Neuroscience
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIMH??Bethesda, MD, USALee E. Eiden

NIH-NIMH
【研究方向】Stress(5+0); Hypothalamus(3+0); Brain injury(2+0); Morphology(2+0); Neuroendocrine(2+0); Energy metabolism(2+0); Modulation(1+0); Dopamine receptor(1+0); Vesicle(1+0); Synaptic Transmission(1+0); Plasticity(1+0); Synapse(1+0); Disease(1+0); Therapy(1+0); Psychiatry(1+0); ApoE(1+0); Neuroinflammation(1+0); Anxiety(1+0); Depression(1+0); Neural Circuit(1+0); Contrast(1+0); Emotion(1+0); Motivation(1+0); Homeostatic(1+0); HPA axis(1+0); Steroid(1+0); Dynamics(1+0); CA1(1+0); Amygdala(1+0); Locus coeruleus(1+0);
【模式生物】Mouse(3+0); Rat(1+0);
【方法技术】Protein(4+0); In vivo(2+0); Behavior(2+0); Gene(1+0);
【简述】
【研究论文】Cell(10);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSF003015San Francisco, CA, USAKira Poskanzer

UCSF
【研究方向】Optical(0+2); Glial cell(0+1); Synapse(0+1); Microcircuit(0+1);
【模式生物】Mouse(0+1);
【方法技术】Electrophysiology(0+1);
【简述】Astrocytic and neuronal function in the cortical microcircuit
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAJ. Anthony Movshon

NYU
New York, NY, USA
【研究方向】Vision(0+2); Development(0+1);
【模式生物】
【方法技术】
【简述】Vision and visual development
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
NIH-NINR??Bethesda, MD, USAKatherine G. Meilleur

NIH-NINR
【研究方向】Muscle(2+4); Disease(2+2); Neuromuscular(2+1); Receptor(1+1); Disorder(2+0); Motor(2+0); Fatigue(1+1); Ion Channel(0+1); Calcium channel(0+1); Structure(1+0); Translation(1+0); Therapeutics(0+1); Injury(0+1); Sclerosis(1+0); Frequency(1+0); Motor Neuron(1+0);
【模式生物】
【方法技术】Gene(2+1); Protein(1+2); Channel(0+2); In vivo(0+1); In vitro(0+1); Model(0+1);
【简述】Neuromuscular Symptoms Unit
【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
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
UCSD011017San Diego, CA, USAStefan Leutgeb

UCSD
【研究方向】Memory(0+5); Synaptic Plasticity(0+2); Learning(0+2); Hippocampus(0+2); Neurodegenerative disorder(0+1); Sense(0+1); Long-term memory(0+1); Knowledge(0+1); Encoding(0+1);
【模式生物】
【方法技术】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
UCSF003015San Francisco, CA, USAChristoph Schreiner

UCSF
【研究方向】Auditory(0+6); Speech(0+4); Perception(0+2); Modulation(0+1); Plasticity(0+1); Environment(0+1); Object(0+1); Frequency(0+1); Spectral(0+1); Language(0+1); Music(0+1); Exploration(0+1); Encoding(0+1); Thalamus(0+1);
【模式生物】Human(0+1); Primate(0+1);
【方法技术】Behavior(0+2); Psychophysics(0+2); Electrophysiology(0+1); Computation(0+1); Model(0+1);
【简述】Representation of Complex Signals in the Central Auditory System
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAMelissa J. Sharpe

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, USAJessica Treisman

NYU
【研究方向】Vision(0+1);
【模式生物】Drosophila(0+1);
【方法技术】
【简述】Pattern formation in the Drosophila visual system
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gerald M. RubinProf.
Stanford002003Palo Alto, CA, USAMichael Greicius

Stanford
【研究方向】Alzheimer's disease(5+1); Imaging(4+1); Cognition(4+0); Pain(4+0); Neurology(3+0); Decoding(3+0); Resting state(3+0); Disease(2+0); Disorder(1+1); Psychiatry(2+0); Psychiatric disorder(2+0); Aging(2+0); Alzheimer's(2+0); Memory(1+1); Consciousness(2+0); Modulation(1+0); Structure(1+0); Structural plasticity(1+0); Development(1+0); Neurodegenerative disease(1+0); Pathogenesis(0+1); ApoE(1+0); Parkinson's(1+0); Anxiety(1+0); Depression(1+0); Systems Neuroscience(1+0); Cognitive neuroscience(1+0); Sense(1+0); Learning(1+0); Executive control(1+0); Cognitive Control(1+0); Social(1+0); Reward(1+0); Sleep(1+0); Metabolism(1+0); Neuroimaging(1+0); Machine(1+0); Connection(1+0); Cingulate cortex(1+0); Thalamus(1+0);
【模式生物】Human(3+1);
【方法技术】MRI(4+0); Gene(2+0); fMRI(2+0); PET(1+0); Computation(1+0);
【简述】
【研究论文】Neuron(2); 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
Sepideh Sadaghiani, Nolan R. WilliamsYears: 2018; Recipients: Greicius, Michael D; Code: R01; Title/Keywords: The Stanford Extreme Phenotypes in Alzheimer's Disease (Step Ad) Cohort@ Stanford University; Matching Score: 1030271Assoc Prof.
Harvard001001Boston, MA, USAIsaac Chiu

Harvard
【研究方向】Pain(9+9); Inflammation(11+3); Sense(5+8); Itch(3+5); Disease(1+4); Infection(3+2); Receptor(1+3); Injury(4+0); Neuropeptide(3+0); Respiratory(0+3); Somatosensory(2+0); Transgenic(1+0); Glia(0+1); Microglia(1+0); Cell cycle(1+0); Transplantation(1+0); Trafficking(1+0); Synapse(1+0); Therapeutics(1+0); Therapy(1+0); Neuroprotective(1+0); Neuroprotection(1+0); Sclerosis(1+0); Inflammatory pain(1+0); Neuropathic pain(0+1); Stress(0+1); Cardiovascular(1+0); Gastrointestinal(0+1);
【模式生物】Mouse(3+0); Human(1+0);
【方法技术】Model(4+0); Gene(0+1); Protein(1+0); In vitro(1+0); Cell culture(0+1); Pharmacology(0+1);
【简述】Neuro-immune Mechanisms of Pain and Inflammation
【研究论文】Cell(4); Neuron(1); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Clifford Woolf, Tom ManiatisPingchuan MaYears: 2017 — 2018; Recipients: Chiu, Isaac Ming-ChengWessels, Michael R; Code: R01; Title/Keywords: Pain and Neuro-Immune Signaling in S. Pyogenes Pathogenesis@ Harvard Medical School; Matching Score: 0.958003484Assist Prof.
Harvard001001Boston, MA, USADavid Paul

Harvard
【研究方向】Gap junction(8+6); Astrocyte(3+0); Knowledge(3+0); Electrical synapse(0+2); Glia(0+2); Disease(1+1); Demyelinating(0+2); Transgenic(1+0); Knockout(1+0); Signal transduction(0+1); Modulation(1+0); Receptor(0+1); Ion Channel(0+1); Structure(0+1); Membrane(0+1); Transcription(1+0); Glial cell(0+1); Development(0+1); Embryology(1+0); Neuroprotection(1+0); Depression(1+0); Retina(0+1); Photoreceptor(0+1); Adaptation(1+0); Form(1+0); Body(1+0); Social(1+0); Encoding(0+1); Dynamics(1+0); Imaging(0+1); Connection(1+0); White matter(1+0);
【模式生物】Rat(3+0); Mouse(2+0);
【方法技术】Protein(3+0); Biochemistry(2+0); Anatomy(1+1); Gene(1+0); Channel(0+1); Psychophysics(0+1); Microscopy(1+0);
【简述】Intercellular Communication
【研究论文】Cell(3); Nature Neuroscience(1); JNS(2);
【综述】Review(6); Nature Reviews Molecular Cell Biology(1); Annual Review Of Biochemistry(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Daniel A. GoodenoughMichael R. Deans, Bruce M. AltevogtYears: 2010 — 2011; Recipients: Paul, David L; Code: R01; Title/Keywords: Connexin Molecular Biology in the Lens and Ciliary Epithelium@ Harvard Medical School; Matching Score: 1095451Prof.
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
UW021010Seattle, WA, USADavid Gire

UW
【研究方向】Sense(0+6); Environment(0+4); Structure(0+2); Development(0+2); Neurodegenerative disorder(0+2); Therapeutics(0+2); Neural Circuit(0+2); Imaging(0+2);
【模式生物】
【方法技术】Behavior(0+10); Electrophysiology(0+2); Optogenetics(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, USAHolger Knaut

NYU
【研究方向】Development(9+2); Sense(4+4); Cell migration(2+3); Embryo(0+4); Muscle(0+4); Regulation(3+0); Form(0+3); Receptor(2+0); Structure(0+2); Plasticity(2+0); Disease(2+0); Neurotoxicity(2+0); Face(0+2); Knowledge(0+2); Vessel(2+0); Mutant(1+0); Translation(1+0); Environment(1+0); Axon(1+0); Olfaction(1+0); Dynamics(1+0); Imaging(0+1); Evolutionary(1+0);
【模式生物】Zebrafish(9+1);
【方法技术】In vivo(1+3); Gene(2+1); Model(0+2); Protein(1+0); In vitro(1+0);
【简述】In vivo analysis of processes that shape complex structures in zebrafish
【研究论文】Nature(3); Cell(7); Nature Neuroscience(1); Neuron(1); Curr Biol.(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002451Assist Prof.
Columbia006008New York, NY, USALivio Pellizzoni

Columbia
【研究方向】Motor Neuron(2+10); Disease(0+7); Regulation(0+5); Disorder(0+2); Motor(2+0); Muscle(0+2); Knowledge(0+2); Development(1+0); Differentiation(1+0); Synapse(0+1); Neurodegenerative disease(0+1); Neurodegenerative disorder(0+1); Degeneration(0+1); Pathology(0+1); Dysfunction(0+1); Vulnerability(1+0); Sclerosis(0+1); Motor control(0+1); Methodology(0+1);
【模式生物】Human(1+2); Drosophila(1+0); Stem Cell(1+0);
【方法技术】Gene(0+7); Protein(1+1); Model(1+1); In vivo(0+1);
【简述】RNA biology; RNA processing; motor neuron biology and diseases; molecular mechanisms of neurodegeneration; synapses and circuits; cellular/molecular/developmental neuroscience;
【研究论文】Science(1); Cell(2); Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Darrick K. LiYears: 2017 — 2018; Recipients: Pellizzoni, Livio; Code: R21; Title/Keywords: The Role of P38 Mapk Activation in Spinal Muscular Atrophy@ Columbia University Health Sciences; Matching Score: 1Assoc Prof.
NIH-NICHD??Bethesda, MD, USAAjay Chitnis

NIH-NICHD
【研究方向】Development(23+3); Neurogenesis(1+5); Imaging(6+0); Cell fate(2+1); Embryo(2+1); Transgenic(1+1); Structure(2+0); Differentiation(2+0); Sense(0+2); Hair cell(1+1); Motor Neuron(1+1); Morphology(0+2); 5-HT(1+0); Transcription(0+1); Trafficking(0+1); Neurology(1+0); Photoreceptor(1+0); Depth(1+0); Form(0+1); Body(0+1); Circadian clock(1+0); Dynamics(0+1);
【模式生物】Zebrafish(17+6); Xenopus(3+0); Drosophila(1+1);
【方法技术】Gene(1+5); Computation(0+3); Microscopy(2+0); Model(0+2); Protein(1+0);
【简述】
【研究论文】Cell(3); Neuron(1); PLoS Biol.(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John Y. Kuwada, Chris Kintner, Wolfgang DrieverDamian E. Dalle Nogare, Motoyuki Itoh, Cheol-Hee Kim, Gali PragYears: 2013 — 2018; Recipients: Chitnis, Ajay B; Code: ZIA; Title/Keywords: Building the Posterior Lateral Line System in Zebrafish Embryos@ Child Health and Human Development; Matching Score: 1009006
UCSD011017San Diego, CA, USAGulcin Pekkurnaz

UCSD
【研究方向】Metabolism(0+6); Mitochondria(0+2); Neurotransmitter(0+1); Development(0+1); Disease(0+1); Neurodegenerative disease(0+1); Dysfunction(0+1); Form(0+1);
【模式生物】Mouse(0+1);
【方法技术】Biochemistry(0+2); Protein(0+1); Cell culture(0+1); Microscopy(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
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
Columbia006008New York, NY, USAYaakov Stern

Columbia
【研究方向】Cognition(12+7); Disease(9+2); Alzheimer's disease(9+2); Neurology(9+0); Aging(2+5); Pathology(0+2); Psychiatry(2+0); Age-related(1+1); Alzheimer's(2+0); Stroke(2+0); Concept(2+0); Imaging(0+2); Disorder(1+0); Depression(1+0); Object(1+0); Frequency(1+0); Exercise(0+1); Working memory(1+0); Executive control(1+0); Neural network(1+0); Neuroimaging(0+1);
【模式生物】
【方法技术】Behavior(1+1); Theory(2+0); Algorithm(1+1);
【简述】Cognitive Experimental and Neuroimaging Studies in Aging and Dementia; Brain Imaging; Neuropsychology;
【研究论文】
【综述】Annals Of Neurology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Arjun Kumar, Angeliki Tsapanou, Teal Eich, Eleanna Varangis, David PredovanJason BrandtYears: 2016 — 2018; Recipients: Habeck, Christian GeorgStern, Yaakov; Code: RF1; Title/Keywords: Exploring Cognitive Aging Using Refernce Ability Neural Networks@ Columbia University Health Sciences; Matching Score: 1089863Prof.
Harvard001001Boston, MA, USAAravinthan Samuel

Harvard
【研究方向】Sense(3+2); Neural Circuit(3+1); Imaging(2+1); Modulation(2+0); Receptor(2+0); Olfaction(2+0); Motor(2+0); Navigation(1+1); Regulation(1+0); Glutamate receptor(1+0); Structure(0+1); Plasticity(1+0); Differentiation(1+0); Environment(0+1); Synapse(0+1); Memory(1+0); Temperature(0+1); Neuroendocrine(1+0);
【模式生物】C. elegans(8+1); Drosophila(6+0);
【方法技术】Behavior(1+3); Microscopy(2+1); Computation(0+2); Channel(1+0); Model(0+1);
【简述】Sensory and Behavioral Neuroscience
【研究论文】Neuron(5); Nature Communications(3); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Howard C. Berg, Venkatesh N. MurthyJeffrey W. Brown, Risa Kawai, Jess Kanwal, Damon A. Clark, Linjiao Luo, Andrew M. Leifer, Elizabeth A. Kane, Katrin Vogt, Quan Wen, Ashley R. Carter, Mason Klein, Guangwei Si, Marc H. Gershow, Christopher J. TaboneSimon G. Sprecher, Paul A. Garrity, Daniel R. BergerYears: 2019; Recipients: Garrity, Paul [⬀] Samuel, Aravinthan D.; Code: R01; Title/Keywords: Molecular and Cellular Determits of Drosophila Larva Thermotaxis@ Brandeis University; Matching Score: 0.922Prof.
Harvard001001Boston, MA, USAVadim Bolshakov

Harvard
【研究方向】Fear(5+9); Amygdala(4+2); Memory(2+3); Schizophrenia(4+0); Modulation(3+0); Neural Circuit(1+2); Learning(2+1); NMDA receptor(2+0); Synaptic Plasticity(2+0); Psychiatry(2+0); Anxiety(1+1); Extinction(2+0); Knockout(1+0); Knockin(1+0); Receptor(0+1); GABAA receptor(1+0); Ion Channel(0+1); Neuroplasticity(1+0); Pluripotent stem cells(1+0); Synapse(0+1); Disease(0+1); Alzheimer's disease(1+0); Finger(1+0); Memory Consolidation(1+0); Reconsolidation(1+0); Retrieval(0+1); Inhibitory control(1+0); Innate behavior(0+1); Encoding(1+0); Neural network(0+1); Connection(1+0); Dentate gyrus(1+0);
【模式生物】Mouse(7+0); Stem Cell(5+0); Human(1+0); Rat(1+0);
【方法技术】Gene(2+3); Behavior(2+2); Electrophysiology(0+3); Optogenetics(1+2); Model(3+0); Tracing(0+1);
【简述】Cellular and network-level mechanisms of innate and learned fear
【研究论文】JNS(4); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Steven A. SiegelbaumIvan Goussakov, Yiran Gu, Yan Li, Natalia Luchkina, Ryong-Moon Shin, Evgeny Tsvetkov, Keith Tully, Kyungjoon Park, Jun-Hyeong Cho, Sodikdjon A. Kodirov, Marat MukhamedyarovElif EnginProf.
Stanford002003Palo Alto, CA, USAPeter G Maxim

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
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, USASaket Navlakha

UCSD
【研究方向】Cell fate(0+1); Environment(0+1); Metabolism(0+1);
【模式生物】
【方法技术】Computation(0+3);
【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, USAStephen J Smith

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

NIH-NIDCD
【研究方向】Hair cell(11+4); CA2(0+7); Sense(4+2); Vesicle(0+3); Development(0+3); Imaging(1+2); Synapse(1+1); Auditory(1+1); TRP channel(1+0); Vesicle fusion(0+1); Transcription(1+0); Mitochondria(0+1); Disease(1+0); Injury(1+0); Tumor(1+0); Touch(1+0); Vestibular(0+1); Timing(1+0); Optical imaging(0+1);
【模式生物】Zebrafish(11+3); Human(2+0); C. elegans(2+0); Mouse(1+0);
【方法技术】In vivo(2+3); Model(2+1); Gene(1+0); Protein(1+0); Electrophysiology(0+1); Microscopy(0+1); Pharmacology(0+1);
【简述】
【研究论文】Cell(7); Nature Neuroscience(1); JNS(2); Nature Communications(1); eLife(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
William R. Schafer, Teresa NicolsonSuna Li
Stanford002003Palo Alto, CA, USALawrence Steinman

Stanford
【研究方向】Sclerosis(8+2); Disease(6+1); Receptor(4+0); Therapy(3+1); Neuroinflammation(3+0); Peptide(2+0); Nicotine(2+0); Transporter(1+0); Cytokine(1+0); Epilepsy(1+0); Dendrite(1+0); Pathogenesis(0+1); Demyelinating(1+0); Inflammation(1+0); Infection(1+0); Injury(1+0); Muscle(1+0); Neuroimmunology(1+0);
【模式生物】Mouse(2+0); Human(1+0);
【方法技术】Protein(3+0); Model(3+0); Gene(2+0); Virus(1+0); Microarray(0+1);
【简述】
【研究论文】Nature(2); Science(3); Nature Neuroscience(1); PNAS(5);
【综述】Review(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jason J. DeVoss, Eun M. Hur, May Htwe HanYears: 2011 — 2012; Recipients: Christakos, Sylvia SSteinman, Lawrence; Code: R21; Title/Keywords: Vitamin D and the Immune System@ Univ of Med/Dent of Nj-Nj Medical School; Matching Score: 0.907059840Prof.
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.
UCSF003015San Francisco, CA, USASusanna Rosi

UCSF
【研究方向】Neuroinflammation(0+9); Injury(0+7); Cognition(0+7); Brain injury(0+3); Synaptic Plasticity(0+2); Transcription(0+1); CNS(0+1); Disease(0+1); Pathogenesis(0+1); Dysfunction(0+1); Aging(0+1); Memory(0+1); Stress(0+1);
【模式生物】
【方法技术】Model(0+4);
【简述】Brain Injury, Neuroinflammation and Cognitive Function
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
JHU010012Baltimore, MD, USAValina Dawson

JHU
【研究方向】LRRK2(0+9); Parkinson's disease(0+3); Development(0+2); Mitochondria(0+2); Disease(0+2); Dysfunction(0+2); Neurotoxicity(0+2); Trauma(0+2); Transgenic(0+1); Mutant(0+1); Knockout(0+1); Glutamate(0+1); NMDA receptor(0+1); Differentiation(0+1); Environment(0+1); Pluripotent stem cells(0+1); Embryo(0+1); Neurodegenerative disease(0+1); Neurodegenerative disorder(0+1); Therapeutics(0+1); Neuroprotection(0+1); Cellular death(0+1); Stroke(0+1); Toxic injury(0+1); Form(0+1); Body(0+1); Art(0+1); Striatum(0+1);
【模式生物】Stem Cell(0+11); Human(0+6); Mouse(0+2);
【方法技术】Protein(0+5); Gene(0+4); Biochemistry(0+1); Cell culture(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, USADennis Dacey

UW
【研究方向】Vision(0+3); Retina(0+3); Color(0+2); Morphology(0+1); Encoding(0+1);
【模式生物】Human(0+4); Macaque(0+2); Non-human primate(0+1); Monkey(0+1); Primate(0+1);
【方法技术】Model(0+2); Biophysics(0+1); In vitro(0+1); 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
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.
NIH-NIMH??Bethesda, MD, USAEllen Leibenluft

NIH-NIMH
【研究方向】Psychiatry(12+0); Disorder(7+4); Anxiety(4+1); Attention(3+2); Emotion(3+1); Bipolar(3+0); Cognition(1+2); Face(2+1); Amygdala(3+0); Development(1+1); Pediatric(1+1); Social(2+0); Neuroimaging(0+2); Modulation(1+0); Therapy(0+1); ADHD(0+1); Autism(1+0); Depression(0+1); Schizophrenia(1+0); Systems Neuroscience(0+1); Cognitive neuroscience(1+0); Form(0+1); Finger(1+0); Cognitive Control(0+1); Fear(1+0); Reward(1+0); Imaging(0+1); PFC(1+0); Nucleus accumbens(1+0);
【模式生物】
【方法技术】fMRI(1+5); Behavior(1+2); MRI(0+1);
【简述】
【研究论文】Nature(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David PagliaccioYears: 2018; Recipients: Leibenluft, Ellen; Code: ZIA; Title/Keywords: The Pathophysiology and Treatment of Children With Severe Irritability Zia Mh002786-17@ National Institute of Mental Health; Matching Score: 0.982026254
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.
Columbia006008New York, NY, USAJane Dodd

Columbia
【研究方向】Development(4+2); Axon(1+4); Differentiation(1+2); Signaling molecule(0+2); Receptor(1+0); Transcription(1+0); Neuronal differentiation(0+1); Environment(0+1); Axon guidance(1+0); Synaptogenesis(0+1); Disease(1+0); Sense(0+1); Navigation(0+1); Connection(1+0);
【模式生物】
【方法技术】Protein(1+0); In vitro(0+1); Behavior(1+0);
【简述】Synapses and Circuits; Cell Specification and Differentiation; Axon Pathfinding and Synaptogenesis; Cellular/Molecular/Developmental Neuroscience;
【研究论文】Science(1); Cell(1); Neuron(3);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Thomas M. Jessell, Stephen KufflerAlison L. Dell, Paola Bovolenta, Marysia Placzek, Cliff Hume, Samantha ButlerYears: 2015 — 2016; Recipients: Dodd, Jane; Code: R21; Title/Keywords: Trans-Synaptic Tracing of Developing Somatosensory Circuits@ Columbia University Health Sciences; Matching Score: 1Prof.
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
UCLA011013Los Angeles, CA, USALindsay De Biase

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, 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
UCLA011013Los Angeles, CA, USABarnett A. Schlinger

UCLA
【研究方向】Steroid(0+6); Hormone(0+2); Neurotransmitter(0+1); Modulation(0+1); Receptor(0+1); Ion Channel(0+1); Plasticity(0+1); Transcription(0+1); CNS(0+1); Neural Circuit(0+1);
【模式生物】Bird(0+1); Songbird(0+1);
【方法技术】Behavior(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USADouglas R. Galasko

UCSD
【研究方向】Body(0+5); Alzheimer's disease(0+3); Tau(0+3); Disorder(0+2); Cognition(0+2); Form(0+2); Neurodegenerative disorder(0+1); Alzheimer's(0+1); Dementias(0+1);
【模式生物】
【方法技术】Protein(0+4); Gene(0+2);
【简述】 Clinical
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
CAS-ION??Shanghai, ChinaChun Xu

CAS-ION
【研究方向】Context(1+17); Extinction(0+6); Regulation(0+5); Anxiety(1+4); Cognition(0+5); Sense(0+5); Neural Circuit(1+3); Perception(0+4); Associative learning(1+3); Fear(1+3); Encoding(0+4); Imaging(0+4); Hippocampus(0+4); Plasticity(2+0); Sensory experience(0+2); Disorder(0+2); Therapy(0+2); Memory(1+1); Learning(0+2); GABAB receptor(1+0); Membrane(1+0); Environment(0+1); Synapse(1+0); Post-traumatic stress disorder(0+1); Vision(0+1); Form(0+1); Olfaction(0+1); Auditory(0+1); Learning and memory(0+1); Retrieval(1+0); Spatial navigation(0+1); Place cell(0+1); Language(0+1); Aversive(0+1); PFC(0+1); mPFC(0+1); CA2(0+1); Amygdala(0+1); Bed nucleus(1+0);
【模式生物】Primate(0+4); Non-human primate(0+2); Human(0+2); Rodent(0+2); Mouse(0+1);
【方法技术】Behavior(0+5); Optogenetics(0+3); Tracing(0+2); Gene(1+0); Anatomy(0+1); Electrophysiology(0+1); fMRI(0+1); Model(0+1); Mathematics(0+1);
【简述】Neurobiology of Context and Behavior
【研究论文】Nature(1); Cell(1); Nature Neuroscience(2); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000318Investigator
UW021010Seattle, WA, USAPeter Detwiler

UW
【研究方向】Signal transduction(0+6); Vision(0+4); Receptor(0+2); Perception(0+2); Photoreceptor(0+2); Adaptation(0+2); Optical(0+2);
【模式生物】
【方法技术】Protein(0+4); 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
NIH-NIDDK??Bethesda, MD, USACarson C. Chow

NIH-NIDDK
【研究方向】Dynamics(7+0); Transcription(2+0); Receptor(1+0); Plasticity(1+0); Synchrony(1+0); Environment(1+0); Inflammation(1+0); Memory(1+0); Learning(1+0); Body Weight(1+0); Metabolism(1+0); Hormone(1+0); Steroid(1+0); Spiking Neural Network(1+0); Imaging(1+0);
【模式生物】Human(1+0); Stem Cell(1+0);
【方法技术】Gene(6+0); Computation(5+0); Model(5+0); Theory(2+0); Channel(1+0);
【简述】
【研究论文】Cell(3); eLife(2);
【综述】Physical Review(3); Nature Reviews Genetics(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Nancy KopellStephen J. Gotts, Yixin Guo, Eric J. Hildebrand, Rukmini KumarRichard C. Gerkin, Farzad FarkhooiYears: 2007 — 2018; Recipients: Chow, Carson C.; Code: Z01ZIA; Title/Keywords: Modeling and Data Analysis of Obesity, Insulin Resistance, and Diabetes@ Diabetes, Digestive, Kidney Diseases; Matching Score: 0.907011852
Stanford002003Palo Alto, CA, USALeanne Williams

Stanford
【研究方向】Psychiatry(18+1); Disorder(7+11); Depression(10+1); Anxiety(7+3); Schizophrenia(7+0); Amygdala(7+0); Emotion(6+0); Imaging(2+4); Cognition(5+0); Fear(5+0); Stress(4+0); Translation(0+3); Vision(3+0); Face(3+0); Aging(2+0); Trauma(2+0); Bipolar(2+0); Neural Circuit(1+1); Attention(0+2); Social(2+0); Neuroimaging(2+0); Dopamine(1+0); Structure(1+0); Synchrony(1+0); Therapy(1+0); Biomarker(1+0); Post-traumatic stress disorder(1+0); Cognitive neuroscience(1+0); Executive function(1+0); Cognitive Control(1+0); Connection(0+1); Cingulate cortex(1+0); ACC(1+0); Caudate(1+0); White matter(1+0);
【模式生物】Human(6+2);
【方法技术】Model(1+5); Behavior(2+3); Gene(1+3); fMRI(2+0); Computation(0+2); MRI(1+0); TMS(1+0);
【简述】
【研究论文】JNS(1); PNAS(1);
【综述】Review(2); Brain Research Reviews(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Danielle C Mathersul, Carlos G Correa, Arielle S KellerYears: 2017 — 2018; Recipients: Williams, Leanne; Code: P50; Title/Keywords: Project 4@ Stanford University; Matching Score: 1024791Prof.
NIH-NIAAA??Bethesda, MD, USASteven S. Vogel

NIH-NIAAA
【研究方向】Pain(19+0); Development(4+0); Disorder(4+0); Receptor(3+0); Spine(3+0); Therapy(3+0); Cognition(2+0); Body(2+0); Musculoskeletal pain(2+0); Machine(2+0); Amino acid(1+0); Structure(1+0); Membrane(1+0); Synapse(1+0); Dysfunction(1+0); Anxiety(1+0); Depression(1+0); Exercise(1+0); Fear(1+0); Optical(1+0); CA2(1+0);
【模式生物】Mouse(1+0);
【方法技术】Protein(3+0); Behavior(2+0);
【简述】
【研究论文】Nature(1); Cell(2);
【综述】Review(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Hagan P. Bayley, James H. Schwartz, Joshua ZimmerbergChristopher ThalerYears: 2007 — 2018; Recipients: Vogel, Steven S; Code: Z01ZIA; Title/Keywords: Fret Imaging of Protein-Protein Interactions Inside Living Cells@ Alcohol Abuse and Alcoholism; Matching Score: 0.903001445
Stanford002003Palo Alto, CA, USAGiles W Plant

Stanford
【研究方向】Transplantation(7+5); Glia(10+0); Spinal Cord Injury(7+3); Regeneration(7+1); Therapy(7+1); Olfaction(8+0); Axon(5+1); Neurology(5+0); Development(4+0); Receptor(3+0); Vision(3+0); Peptide(1+1); Glial cell(1+1); Differentiation(0+2); Engineering(2+0); Neurotrophin(1+0); Pluripotent stem cells(0+1); CNS(1+0); Embryo(0+1); Sense(1+0); Retina(1+0); Form(1+0); Motor(1+0);
【模式生物】Rat(12+1); Stem Cell(4+5); Human(2+3); Mouse(2+1); Primate(1+0);
【方法技术】Gene(6+1); Model(3+1); In vitro(1+1); Behavior(2+0); In vivo(0+1); Ex vivo(1+0); Cell culture(0+1); Anatomy(1+0); Multi-electrode(0+1); Microscopy(0+1); Optogenetics(0+1);
【简述】
【研究论文】Science(1); Cell(4); PNAS(1);
【综述】Current Opinion In Neurobiology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
004202Assoc Prof.
Harvard001001Boston, MA, USA Gabriel Kreiman

Harvard
【研究方向】Vision(14+3); Object(5+0); Visual cortex(5+0); Timing(4+0); Temporal lobe(3+1); Medial Temporal Lobe(3+1); Cognition(2+0); Object recognition(2+0); Memory(1+1); Learning(1+1); Episodic memory(1+1); Decoding(2+0); Inferotemporal (IT) cortex(2+0); Plasticity(1+0); Transcription(1+0); Dendrite(1+0); Neural Circuit(0+1); Learning and memory(0+1); Memory Consolidation(0+1); Sequence learning(1+0); Context(0+1); Cognitive Control(1+0); Category(1+0); Consciousness(1+0); Imagery(1+0); Predictive coding(1+0); Dynamics(1+0); Neural dynamics(1+0); Artificial intelligence(0+1); Machine(0+1); PFC(1+0);
【模式生物】Human(16+1); Macaque(2+0); Primate(1+0); Mouse(1+0);
【方法技术】Computation(2+2); Model(2+2); Gene(2+1); Protein(2+0); Theory(2+0); Behavior(0+1); Microarray(1+0); LFP(1+0);
【简述】 Visual object recognition: computational models and neurophysiological mechanisms
【研究论文】JNS(1); Nature Communications(2);
【综述】Nature Reviews Neuroscience(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Christof Koch, Mark Konishi, Tomaso A. PoggioBill Lotter, Joseph Olson, Hanlin Tang, Zihao Xu, Yigal Agam, Arjun K. Bansal, Calin Buia, Kendra Burbank, Martin Hemberg, Leyla Isik, Radhika Madhavan , Thomas Miconi, rajamanickam murugan, Farnaz Sharif, Jedediah M. Singer, Camille Gomez-Laberge, Seyed-Mahdi Khaligh-Razavi, Frederico Augusto Casarsa de Azevedo, William S. Anderson , Malena Espanol, Hesheng LiuRichard T. Born, Chou P. HungYears: 2017 — 2018; Recipients: Kreiman, Gabriel; Code: R21; Title/Keywords: Neural Circuits For Cognitive Control@ Children's Hospital Corporation; Matching Score: 0.976013851Prof.
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
Princeton061009Princeton, NJ, USACarlos Brody

Princeton
【研究方向】Cognition(0+4); Vision(0+3); Short-term memory(1+2); Synchrony(2+0); Decision making(1+1); Reward(0+2); Oscillation(1+0); Sense(0+1); Perception(0+1); Contrast(0+1); Olfaction(1+0); Memory(0+1); Learning(1+0); Context(0+1); Working memory(1+0); Music(0+1); Knowledge(0+1); Imaging(1+0); PFC(1+0);
【模式生物】Rat(2+7); Human(2+0); Primate(0+1); Rodent(0+1);
【方法技术】Behavior(0+6); Computation(2+3); Model(1+2); Anatomy(0+1); Electrophysiology(0+1); Theory(0+1);
【简述】Systems and Circuits ; Theory and Computation
【研究论文】Nature(2); Science(2); Neuron(2); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John J. Hopfield, Ranulfo RomoMax Bialek, Daniel J. O'Shea, Marius Pachitariu, Chunyu Ann Duan, Jonathan Kopecky, Kevin J. Miller, Shraddha S. Pai, Alex Piet, Diksha Gupta, Bingni Wen Brunton, Athena Akrami, Adrian Gopnik Bondy, Timothy D. Hanks, Charles D. Kopec, Benjamin Scott, Michael Yartsev, Christian K. Machens, Jeffrey C. Erlich, Christine M. Constantinople, Marino Pagan, Lucas Pinto, Brian D. DePasquale, Thomas Zhihao Luo, Emily Jane Dennis, Maxim NikitchenkoDavid A. MarkowitzYears: 2017 — 2018; Recipients: Brody, Carlos D; Code: U19; Title/Keywords: Perturbations and Behavior@ Princeton University; Matching Score: 1Prof.
UCLA011013Los Angeles, CA, USANancy L. Wayne

UCLA
【研究方向】Regulation(0+1); Environment(0+1); Reproduction(0+1); Neuroendocrine(0+1); Neuroendocrinology(0+1);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USASharona Gordon

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

NIH-NIMH
【研究方向】Reward(8+4); Vision(2+5); Motivation(1+4); Neural codes(0+4); Memory(1+1); Acquisition(2+0); Short-term memory(2+0); Inferotemporal (IT) cortex(2+0); D2 receptor(0+1); Disorder(0+1); Therapy(0+1); Perception(0+1); Attention(0+1); Decision making(1+0); Categorization(1+0); Decoding(0+1); Imaging(1+0); OFC(1+0); Temporal lobe(0+1); Caudate(1+0); Dorsal striatum(0+1); Dorsal raphe nucleus(1+0);
【模式生物】Monkey(12+1); Human(2+0); Primate(1+0);
【方法技术】Computation(1+2); Behavior(0+2); PET(1+0); Model(0+1); Algorithm(0+1);
【简述】Section on Neural Coding and Computation (SNCC) Laboratory of Neurospsychology (LN)
【研究论文】Nature Neuroscience(1); JNS(8); Nature Communications(1); eLife(1);
【综述】Trends In Neurosciences(2); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles F Barlow, Robert H. WurtzMichael Ortiz Rios, Michael Ortiz-Rios, Emad Eskandar, Sebastien Bouret, Timothy J. Gawne, Peter Latham, Sabrina Ravel, Yasuko Sugase-Miyamoto, Andrew M. Clark, Eric M. Bowman, Michael Oram, Alexander Lerchner, Giancarlo La Camera, Takafumi Minamimoto, Munetaka ShidaraLance M. OpticanYears: 1992 — 2018; Recipients: Richmond, Barry J; Code: Z01ZIA; Title/Keywords: Neural Mechanisms of Motivation and Reward@ National Institute of Mental Health; Matching Score: 0.94
Yale014011New Haven, CT, USAAlex Kwan

Yale
【研究方向】Neural Circuit(0+3); Psychiatric disorder(0+2); Cognition(0+2); PFC(0+2); Schizophrenia(0+1); Sense(0+1); Contrast(0+1); Context(0+1); Decision making(0+1); Executive function(0+1); Stress(0+1); Imaging(0+1); Motor cortex(0+1); Supplementary motor cortex(0+1); mPFC(0+1);
【模式生物】Mouse(0+3); Rodent(0+1);
【方法技术】Behavior(0+3); Gene(0+1); Electrophysiology(0+1); Microscopy(0+1); Two-photon calcium imaging(0+1); Optogenetics(0+1); Computation(0+1); Model(0+1);
【简述】Decision Making; Depressive Disorder; Electrophysiology; Microscopy, Fluorescence; Schizophrenia; Prefrontal Cortex; Executive Function.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USADavid Brook

NYU
【研究方向】
【模式生物】
【方法技术】
【简述】Etiology and consequences of psychopathology and drug and tobacco use
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCSF003015San Francisco, CA, USADaniel L. Minor

UCSF
【研究方向】Ion Channel(0+8); Membrane(0+2); Development(0+2); Cardiovascular(0+2); Machine(0+2);
【模式生物】
【方法技术】Channel(0+10); Protein(0+2); In vivo(0+2);
【简述】Structural and Mechanistic Studies of Ion Channels and Ion Channel Regulation
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
MIT005002Boston, MA, USASrdjan Ostojic

MIT
【研究方向】Dynamics(3+0); Recurrent Neural Network(2+0); Neural network(2+0); Synaptic Plasticity(1+0); Synapse(1+0); Context(1+0); Timing(1+0); Morphology(1+0); Spiking Neural Network(1+0); PFC(1+0); Amygdala(1+0);
【模式生物】Primate(1+0);
【方法技术】Computation(5+0); Model(3+0);
【简述】
【研究论文】Nature(1); Nature Neuroscience(1); Neuron(3); JNS(3); PLOS Computational Biology(3);
【综述】Physical Review(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stefano Fusi, Nicolas Brunel, Vincent Hakim001146Prof.
WUSTL009032Saint Louis, MO, USAGustav Akk

WUSTL
【研究方向】Receptor(5+2); Ion Channel(0+3); Modulation(1+1); Ligand gated ion channel(0+2); Membrane(0+2); GABA(1+0); Nicotinic acetylcholine receptor(0+1); Acetylcholine receptor(0+1); Embryo(0+1);
【模式生物】Human(0+1); Xenopus(0+1);
【方法技术】Pharmacology(4+0); Channel(0+1); Electrophysiology(0+1);
【简述】Function and modulation of transmitter-gated ion channels
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Anthony AuerbachSampurna ChakrabartiYears: 2014 — 2019; Recipients: Akk, Gustav; Code: R01; Title/Keywords: Synergistic Actions of Intravenous Anesthetics@ Washington University; Matching Score: 1Assoc Prof.
UW021010Seattle, WA, USAKathleen Millen

UW
【研究方向】Development(0+18); Cerebellum(0+6); Structure(0+4); Disease(0+4); Mutant(0+2); Embryo(0+2); Autism(0+2); Cognition(0+2); Sense(0+2); Perception(0+2); Motor(0+2); Posture(0+2); Emotion(0+2);
【模式生物】Human(0+10); Mouse(0+10);
【方法技术】Gene(0+3); Model(0+2);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAItzhak Fried

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

CAS-ION
【研究方向】Disorder(1+8); Imaging(4+5); Disease(0+6); Epilepsy(4+0); Neurology(3+0); Metabolism(3+0); Blood flow(3+0); Diffusion MRI(0+3); Therapy(0+2); Schizophrenia(2+0); Contrast(2+0); Somatosensory(2+0); Reward(0+2); Neural network(0+2); Axon(0+1); Pathogenesis(0+1); Psychiatric disorder(0+1); Anxiety(0+1); Post-traumatic stress disorder(0+1); Neural Circuit(0+1); Sense(0+1); Vision(1+0); Frequency(0+1); Planning(0+1); Attention(0+1); Consciousness(1+0); Concept(0+1); Dynamics(1+0); Machine learning(0+1); Resting state(1+0); Neuroimaging(0+1); Optical(1+0); Visual cortex(1+0); V1(1+0); Temporal lobe(1+0); White matter(0+1);
【模式生物】Primate(1+5); Monkey(2+3); Human(0+4); Non-human primate(0+1);
【方法技术】MRI(4+11); fMRI(3+4); Model(2+3); Gene(1+3); In vivo(1+1); LFP(2+0); Theory(2+0); Anatomy(1+0); Electrophysiology(0+1); Computation(0+1); Simulation(0+1);
【简述】Brain Imaging
【研究论文】Neuron(1); JNS(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ravi S. Menon, Anna W. RoeWeilong Yi, Wang Zhiwei000564Investigator
UCLA011013Los Angeles, CA, USABrian J. Koos

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, USAFrederick Lenz MD

JHU
【研究方向】Sense(0+4); Movement disorder(0+2); Pain(0+2); Attention(0+2); Thalamus(0+2); Structure(0+1); Membrane(0+1); Plasticity(0+1); Synchrony(0+1); Epilepsy(0+1); CNS(0+1); Motor(0+1);
【模式生物】Human(0+4);
【方法技术】LFP(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, USADeborah M Gordon

Stanford
【研究方向】Social(5+0); Regulation(4+0); Evolutionary(1+1); Dopamine(1+0); Environment(1+0); Morphology(1+0); Stress(1+0); Dynamics(1+0);
【模式生物】Human(3+0);
【方法技术】Behavior(16+2); Gene(3+0); Computation(1+0); Algorithm(1+0);
【简述】
【研究论文】Nature(1); Cell(2); PLoS Biol.(2); PLOS Computational Biology(1);
【综述】Annual Review Of Neuroscience(1); Annual Review Of Entomology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
John R. GreggMark J F Brown, Nathan J. Sanders, Nicole E. Heller, Megan E. Frederickson, Sevan SuniYears: 2017 — 2020; Recipients: Gordon, Deborah; Code: N/A; Title/Keywords: Chs: Small: Collaborative Proposal: Understanding and Improving Implicit Coordination in Peer Production Networks@ Stanford University; Matching Score: 0.915010541Prof.
WUSTL009032Saint Louis, MO, USAJosh L. Morgan

WUSTL
【研究方向】Imaging(2+2); Neural Circuit(2+1); Vision(1+1); Development(1+0); Synapse formation(1+0); Thalamus(1+0);
【模式生物】Mouse(1+0);
【方法技术】In vivo(1+0);
【简述】Use advanced cellular imaging techniques to investigate how neurons organize themselves into image processing circuits
【研究论文】Nature(1); Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
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
UW021010Seattle, WA, USAJames Brinkley

UW
【研究方向】Knowledge(0+2); Structure(0+1); Signal processing(0+1);
【模式生物】Human(0+1);
【方法技术】Neuroinformatics(0+2); Computation(0+1); Model(0+1); 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
Columbia006008New York, NY, USAKevin Ochsner

Columbia
【研究方向】Emotion(18+10); Cognition(18+0); Social(8+4); Regulation(9+0); Cognitive neuroscience(5+0); Social cognition(1+3); Imaging(1+2); Neuroimaging(3+0); Amygdala(3+0); Schizophrenia(2+0); Context(1+1); Cognitive Control(2+0); Social behavior(0+2); PFC(2+0); Development(1+0); Disorder(1+0); Psychiatry(1+0); Psychiatric disorder(0+1); Alcohol(1+0); Systems Neuroscience(0+1); Memory(1+0); Retrieval(1+0); Inference(1+0); Aversive(1+0); Reinforcement learning(1+0); mPFC(1+0);
【模式生物】Human(3+0);
【方法技术】Behavior(0+5); fMRI(3+0); Model(2+1);
【简述】Brain Imaging ; Neural bases of emotion, self-control and social behavior ; Cognitive/Systems Neuroscience ; Models of Psychiatric Disorders ;
【研究论文】Science(3); Nature Neuroscience(1); Neuron(1); Cerebral Cortex(1);
【综述】Review(2); Annual Review Of Neuroscience(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Marie T. Banich, Stephen Kosslyn, Daniel Schacter, John D.E. Gabrieli, Daniel T. Gilbert, James GrossRebecca Elise Balter, Richard B. Lopez, Chukwudi A. Onyemekwu, Sonja Schmer-Galunder, Jochen Weber, Sam J. Gershman, Brent L. Hughes, Matthew L. Davidson, Peter E. Mende-Siedlecki, Erik Christopher Nook, Catherine Insel, Jamil Zaki, Rebecca E. Martin, Jenny M. Porter, Joshua Ian Davis, Hedy Kober, Bryan T. Denny, Jennifer A. Silvers, Noga Cohen, Kim Montgomery, Ajay B. Satpute, Nasir H. Naqvi, Laura Martin Braunstein, Ethan F. Kross, Andreas OlssonLisa Feldman BarrettYears: 2004; Recipients: Ochsner, Kevin; Code: N/A; Title/Keywords: Social Cognitive Neuroscience Preconference For Spsp, January 2004@ Columbia University; Matching Score: 0.915035679Prof.
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, 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.
JHU010012Baltimore, MD, USAMichael Caterina MD,

JHU
【研究方向】Pain(0+4); Knockout(0+1); Receptor(0+1); Ion Channel(0+1); Disease(0+1); Nociception(0+1); Neuropathic pain(0+1); Pain perception(0+1);
【模式生物】Human(0+2); Mouse(0+1);
【方法技术】Channel(0+2); Behavior(0+2); Model(0+2); Gene(0+1);
【简述】Developmental Neuroscience; Cellular + Molecular Neuroscience; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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
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.
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.
WUSTL009032Saint Louis, MO, USAMaria S. Remedi

WUSTL
【研究方向】Metabolism(6+2); Cell cycle(3+0); Therapy(3+0); Transgenic(2+0); Proliferation(2+0); Mutant(1+0); Regulation(1+0); Membrane(0+1); Gap junction(1+0); Disease(0+1); Disorder(0+1); Channelopathies(1+0); HIV(1+0); Muscle(0+1); Context(0+1);
【模式生物】Mouse(7+0); Human(2+1); Rodent(1+0);
【方法技术】Model(2+0); Gene(1+0); Channel(1+0); In vivo(1+0);
【简述】Channels: diabetes, obesity and brain disorders
【研究论文】Cell(10); PLoS Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001727Assist Prof.
JHU010012Baltimore, MD, USAEric Young

JHU
【研究方向】Auditory(0+4); Neural Circuit(0+2); Cognition(0+1); Perception(0+1); Frequency(0+1); Interneuron(0+1); Speech(0+1);
【模式生物】
【方法技术】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
Stanford002003Palo Alto, CA, USAJose Humberto Blanchet Mancilla

Stanford
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assoc Prof.
Yale014011New Haven, CT, USAMarina Picciotto

Yale
【研究方向】Signaling molecule(0+1); Nicotinic acetylcholine receptor(0+1); Acetylcholine receptor(0+1); Intracellular signaling(0+1); Disease(0+1); Disorder(0+1); Psychiatry(0+1); Addiction(0+1); Nicotine(0+1); Depression(0+1); Learning(0+1);
【模式生物】Mouse(0+1);
【方法技术】Behavior(0+4); Gene(0+2); Anatomy(0+1); Pharmacology(0+1);
【简述】Behavior and Behavior Mechanisms; Mental Disorders; Child Psychiatry; Nervous System Diseases; Neurobiology; Neurosciences; Nicotine; Pharmacology.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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.
UCSD011017San Diego, CA, USASteven A. Hillyard

UCSD
【研究方向】Vision(0+9); Attention(0+8); Object(0+3); Spatial attention(0+3); Environment(0+2); Cognition(0+2); Perception(0+1); Color(0+1); Frequency(0+1); Memory(0+1); Imaging(0+1); Neuroimaging(0+1); Visual cortex(0+1);
【模式生物】Human(0+1);
【方法技术】Anatomy(0+1); MRI(0+1); Behavior(0+1); Electrophysiology(0+1); EEG(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, USADavid Drover

Stanford
【研究方向】Anesthesia(6+0); Neuroprotection(2+0); Pediatric(2+0); Body(0+2); Consciousness(2+0); Sleep(2+0); Development(0+1); Transplantation(1+0); Disease(1+0); Depression(1+0); Retina(1+0); Depth(1+0); Vessel(1+0); Respiratory(1+0); Imaging(1+0);
【模式生物】Human(1+0);
【方法技术】EEG(3+0); Pharmacology(2+1); Model(2+0);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Stanford002003Palo Alto, CA, USAMark Krasnow

Stanford
【研究方向】Development(6+1); Branching(4+0); Regulation(1+0); Receptor(1+0); Reprogramming(1+0); Trafficking(1+0); Disease(0+1); Neural Circuit(0+1); Form(1+0); Olfaction(1+0); Muscle(1+0); Social(1+0);
【模式生物】Mouse(4+0); Drosophila(4+0); Stem Cell(2+2); Primate(1+0);
【方法技术】Gene(2+1); Model(1+1); Behavior(1+0);
【简述】
【研究论文】Nature(8); Science(6); Cell(3);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Nicholas R. Cozzarelli, David S. HognessDaria Elisabeth Siekhaus, Russell Van Gelder, Gerard Manning, Katherine Shim, Nam Kyoung Cho, Stephanie Jewel Toering, Farhad Bryan Imam, Barry L. Lubarsky, Walter Patrick Devine, Boaz Pirie Levi, Elizabeth Danhwa Chao, Lesley A. Jarvis, Ross J. Metzger, Stefan Luschnig, Mark M. Metzstein, Eric Johnson, Michael J. Galko, Amin S. GhabrialYears: 2009 — 2015; Recipients: Krasnow, Mark A; Code: U01; Title/Keywords: Interrogation of Individual Cells to Identify Progenitor Cells and Their Niches@ Stanford University; Matching Score: 0.958Prof.
UCLA011013Los Angeles, CA, USADebora B. Farber

UCLA
【研究方向】Vision(0+5); Retina(0+2); Regulation(0+1); Development(0+1); Disease(0+1);
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSF003015San Francisco, CA, USABruce Conklin

UCSF
【研究方向】Disease(0+11); Therapy(0+4); Motor Neuron(0+2); Engineering(0+2); CRISPR/Cas9(0+1); Pluripotent stem cells(0+1); Pathology(0+1); Knowledge(0+1); Decoding(0+1);
【模式生物】Human(0+4); Stem Cell(0+4);
【方法技术】Gene(0+12); Model(0+7); Microscopy(0+1); Computation(0+1);
【简述】Decoding and Repairing Genetic Disease
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USANatalie L Rasgon

Stanford
【研究方向】Disorder(12+2); Psychiatry(4+4); Bipolar(6+0); Depression(6+0); Trauma(3+0); Hormone(1+2); Biomarker(2+0); Cognition(2+0); Body(2+0); Neuroendocrine(0+2); Neuroendocrinology(0+2); Imaging(1+1); Dopamine(1+0); Neurology(1+0); Pathology(0+1); Therapy(0+1); Aging(0+1); Alzheimer's disease(1+0); Perinatal(1+0);
【模式生物】
【方法技术】Behavior(3+3);
【简述】
【研究论文】Science(2); PNAS(1); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Stanford002003Palo Alto, CA, USARachel Manber

Stanford
【研究方向】Sleep(24+0); Depression(14+0); Therapy(13+0); Cognition(9+0); Disorder(7+0); Psychiatry(5+0); Development(2+0); Anxiety(2+0); Psychiatric disorder(1+0); Bipolar(1+0); Pain(0+1); Context(1+0); Steroid(1+0);
【模式生物】
【方法技术】Behavior(12+0); Model(2+0); Theory(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
Years: 2018; Recipients: Manber, Rachel; Code: R01; Title/Keywords: Rct of the Effectiveness of Stepped-Care Sleep Therapy in General Practice (Resting)@ Stanford University; Matching Score: 1013850Prof.
Stanford002003Palo Alto, CA, USAMerritt Maduke

Stanford
【研究方向】Membrane(6+3); Transporter(4+1); Dynamics(0+5); Ion Channel(2+2); Chloride(4+0); Structure(0+3); Modulation(0+1); Potassium channel(1+0); Disease(0+1); Cardiovascular(0+1); Engineering(0+1);
【模式生物】
【方法技术】Protein(2+2); Channel(4+0); Ultrasonic(2+1); Electrophysiology(0+2); Model(2+0); Biochemistry(1+0);
【简述】
【研究论文】Cell(1); Neuron(1); Nature structural & molecular biology(1); PNAS(2); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Anita M. Engh, Gilbert MartinezYears: 2017; Recipients: Baccus, Stephen A (co-PI) [⬀] Butts-Pauly, Kim ButtsKhuri-Yakub, Butrus T (co-PI) [⬀] Maduke, Merritt C; Code: R01; Title/Keywords: Broadband Pvdf Membrane Hydrophone Equipment Supplement to R01 Eb019005@ Stanford University; Matching Score: 0.958Assoc Prof.
Columbia006008New York, NY, USALarry Abbott

Columbia
【研究方向】Sense(2+4); Neural network(3+3); Olfaction(2+1); Dynamics(2+1); Synaptic Plasticity(0+2); Motor(1+1); Spiking Neural Network(2+0); Recurrent Neural Network(2+0); Mushroom body(2+0); Ion Channel(1+0); HCN(1+0); Structure(1+0); Plasticity(1+0); STDP(1+0); Signal propagation(0+1); Degeneration(1+0); Neural Circuit(0+1); Systems Neuroscience(0+1); Perception(0+1); Motor Neuron(1+0); Learning and memory(0+1); Grid cell(1+0); Associative learning(1+0); Encoding(0+1); Chaos(1+0);
【模式生物】Drosophila(1+0); C. elegans(1+0);
【方法技术】Model(3+3); Computation(1+3); Theory(1+1); Mathematics(0+2); Behavior(1+0); Simulation(0+1);
【简述】Theoretical Neuroscience; Cognitive/Systems Neuroscience; Computation and Theory; Neurobiology of Learning and Memory;
【研究论文】Nature(5); Cell(1); Neuron(6); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Howard J. SchnitzerDaniel J. Needleman, Andrew JP Fink, Frances Chance, Sean Luo, Kanaka Rajan, Clifton Rumsey, Kamal Sen, David Sussillo, Carl van Vreeswijk, Greg Wayne, Patrick Kaifosh, Emilio Salinas, Mark S. Goldman, Sen Song, Hamid Reza Maei, Patrick J. Drew, Christian D. Swinehart, Tim Vogels, Joseph D. Monaco, Evan S. Schaffer, Qing Yuan, Saul Kato, Ann Kennedy, Brian D. DePasquale, Claudia Clopath, Vladimir Itskov, Taro Toyoizumi, Pablo Esteban Jercog, Guangyu Yang, Wulfram Gerstner, Jonathan E. Peelle, Xaq Pitkow, Omri Barak, Sean EscolaEve Marder, Sacha B. Nelson, Gordon Pipa, Stefano Fusi038412Prof.
NYU015028New York, NY, USARobert Baker

NYU
【研究方向】Development(4+2); Vestibular(0+3); Motor(0+3); Neurology(2+0); Methodology(2+0); Modulation(1+0); Synchrony(1+0); Cell line(0+1); Cell lineage(0+1); Embryo(1+0); Embryology(0+1); Pathology(1+0); Vision(0+1); Eye Movement(0+1); Motor learning(0+1); Reflex(1+0); Imaging(1+0); Comparative anatomy(0+1);
【模式生物】Zebrafish(2+1); Mouse(0+1); Bird(0+1);
【方法技术】Anatomy(1+2); In vivo(1+1); Gene(0+1); In vitro(0+1); Behavior(0+1);
【简述】Cranial motor systems in vertebrates
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Rodolfo R. LlinásAngel M. Pastor, Eckhard Friauf, Emre R. Aksay, Owen G. Debowy, Joshua P. Bassett, James C. Beck, Craig Evinger, Paul J. May, Robert A. McCrea, Jose M. Delgado-Garcia, Erwin IdouxDavid SchoppikYears: 2007 — 2014; Recipients: Baker, Robert G; Code: R01; Title/Keywords: Eye Movement: Physiological Organization@ New York University School of Medicine; Matching Score: 0.958000720Emeritus
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
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.
WUSTL009032Saint Louis, MO, USAKeiko Hirose

WUSTL
【研究方向】Hair cell(3+2); Motor(5+0); Muscle(4+0); Receptor(3+0); Mutant(2+0); Structure(2+0); Neurology(2+0); Inflammation(0+2); Toxic injury(2+0); Development(1+0); Regeneration(1+0); Degeneration(0+1); Therapy(0+1); Injury(0+1); Trauma(1+0); Sense(1+0);
【模式生物】Mouse(4+0);
【方法技术】Microscopy(2+0); Protein(1+0);
【简述】Innate immunity in the inner ear and its influence on inner ear fluid homeostasis and hair cell degeneration
【研究论文】Nature(2); Cell(5);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
001625Assoc 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.
NYU015028New York, NY, USABenjamin Sadock

NYU
【研究方向】
【模式生物】
【方法技术】
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Stanford002003Palo Alto, CA, USAChristopher Lowe

Stanford
【研究方向】Development(12+1); Transcription(3+0); Adhesion(3+0); Evolutionary(3+0); Context(2+0); Membrane(1+0); Body(1+0);
【模式生物】
【方法技术】Gene(2+0);
【简述】
【研究论文】Nature(3); Cell(1); PNAS(1); Curr Biol.(3); PLoS Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
003610Assoc Prof.
Stanford002003Palo Alto, CA, USAHongjie Dai

Stanford
【研究方向】Imaging(9+0); Alcohol(2+0); Engineering(2+0); Receptor(1+0); Regeneration(1+0); Disease(1+0); Disorder(1+0); Therapy(1+0); Infection(1+0); Tumor(1+0); Muscle(1+0); Hormone(1+0);
【模式生物】
【方法技术】Virus(1+0);
【简述】
【研究论文】Science(1); Nature Communications(2); PNAS(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000186Prof.
Stanford002003Palo Alto, CA, USARichard J Reimer

Stanford
【研究方向】Transporter(4+7); Disease(3+8); Neurotransmitter(0+6); Glutamate(4+1); Disorder(0+5); Membrane(1+3); Imaging(3+1); Vesicle(1+1); Epilepsy(1+1); Development(2+0); Metabolism(1+1); Modulation(1+0); Amino acid(1+0); GABA(0+1); GABAA receptor(1+0); Glia(0+1); CNS(1+0); Trafficking(1+0); Degeneration(0+1); Pathology(0+1); Psychiatric disorder(0+1); Pediatric(1+0); Encoding(0+1);
【模式生物】Drosophila(1+0);
【方法技术】Model(3+1); Pharmacology(1+2); Gene(0+2); Protein(1+0); Biochemistry(1+0);
【简述】
【研究论文】Neuron(3); JNS(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Robert H. EdwardsHiroaki TaniYears: 2007 — 2010; Recipients: Reimer, Richard J; Code: R01; Title/Keywords: Pathophysiology of Lysosomal Free Sialic Acid Storage Disorders@ Stanford University; Matching Score: 1Assoc Prof.
NYU015028New York, NY, USAJeffrey Wisoff

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

CAS-ION
【研究方向】Imaging(0+4); Resting state(2+1); Neuroplasticity(2+0); Disorder(0+2); Stress(2+0); PFC(2+0); mPFC(2+0); Claustrum(2+0); Structure(1+0); Development(0+1); Sense(0+1); Acquisition(0+1); Neural network(1+0); Engineering(0+1); Methodology(0+1); Neuroimaging(1+0); Optical(0+1); Optical imaging(0+1);
【模式生物】Rat(16+0); Rodent(2+1); Non-human primate(0+2); Human(2+0); Mouse(2+0); Primate(0+1);
【方法技术】fMRI(8+4); MRI(1+3); Optogenetics(2+1); Gene(2+0); Behavior(0+2); Electrophysiology(0+1); Model(0+1);
【简述】Comparative Neuroimaging
【研究论文】JNS(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
000697Investigator
NYU015028New York, NY, USACristina Savin

NYU
【研究方向】Working memory(2+0); Plasticity(1+0); Homeostatic plasticity(1+0); Structural plasticity(1+0); Seizure(1+0); Synapse(1+0); Microcircuit(1+0); Neural Circuit(0+1); Sense(1+0); Memory(1+0); Learning(1+0); Learning and memory(0+1); Retrieval(1+0); Encoding(1+0); Dynamics(1+0); Spiking Neural Network(1+0); Neural network(1+0); CA3(1+0);
【模式生物】
【方法技术】Computation(7+1); Model(2+0); Statistics(1+0); Algorithm(1+0);
【简述】Computational neuroscience, learning and memory, neural circuits
【研究论文】Neuron(1); PLOS Computational Biology(3); Neural Computation(1); NIPS(5);
【综述】Current Opinion In Neurobiology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jochen Triesch000327Assist Prof.
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.
UW021010Seattle, WA, USADavid G. Cook

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

UCSD
【研究方向】Plasticity(0+5); Axon(0+3); Regeneration(0+2); Degeneration(0+2); Aging(0+2); Alzheimer's disease(0+2); Spinal Cord Injury(0+2); Structure(0+1); Development(0+1); Therapy(0+1); Injury(0+1); Learning(0+1); Learning and memory(0+1); Basal forebrain(0+1);
【模式生物】Primate(0+2); Rodent(0+2);
【方法技术】Model(0+4); Gene(0+1); Biochemistry(0+1); Anatomy(0+1); Electrophysiology(0+1);
【简述】 Cellular & Developmental; Biochemistry & Molecular; Systems; Clinical
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAGregory J. Zipfel

WUSTL
【研究方向】Stroke(8+1); Hemorrhage(4+1); Cerebrovascular(3+1); Peptide(2+1); Disease(1+2); Ischemia(2+1); Transgenic(2+0); Dysfunction(2+0); Therapeutics(0+2); Brain injury(2+0); Dynamics(2+0); Regulation(1+0); Glutamate(1+0); Potassium channel(1+0); CNS(1+0); Neurology(1+0); Alzheimer's(1+0); Alzheimer's disease(1+0); Tau(1+0); Injury(1+0); Cognition(1+0); Imaging(1+0);
【模式生物】Human(2+0); Mouse(2+0);
【方法技术】Protein(2+0); Channel(1+0); In vivo(1+0); In vitro(1+0);
【简述】Mechanisms and novel therapeutics for cerebral amyloid angiopathy and cerebral vasospasm
【研究论文】Nature(1); Science(1); Cell(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Ananth K. VellimanaYears: 2015 — 2018; Recipients: Zipfel, Gregory J; Code: R25; Title/Keywords: Washington University Neurosurgery Resident Research Education Program@ Washington University; Matching Score: 1008385Assoc Prof.
UCSF003015San Francisco, CA, USAScott Baraban

UCSF
【研究方向】Epilepsy(0+4); Development(0+2); Cell therapy(0+2); CRISPR/Cas9(0+1); Mutant(0+1); Structure(0+1); Membrane(0+1); Seizure(0+1); Transplantation(0+1); CNS(0+1); Embryo(0+1); Disease(0+1); Form(0+1); Imaging(0+1); Optical imaging(0+1);
【模式生物】Zebrafish(0+5); Human(0+1); Stem Cell(0+1);
【方法技术】Gene(0+6); Electrophysiology(0+3); Protein(0+1); In vivo(0+1); In vitro(0+1); Behavior(0+1); Microarray(0+1); Optogenetics(0+1); Pharmacology(0+1); Model(0+1);
【简述】Neurobiology of Epilepsy
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USASreeganga Chandra

Yale
【研究方向】Synapse(0+7); Alpha-synuclein(0+4); Neurodegenerative disease(0+3); Parkinson's disease(0+3); Receptor(0+1); Disease(0+1); Neurodegenerative disorder(0+1); Pathology(0+1); Aging(0+1); Body(0+1);
【模式生物】Mouse(0+1);
【方法技术】Gene(0+5); Protein(0+2);
【简述】Neurology; Neuronal Ceroid-Lipofuscinoses; Parkinson Disease; Synapses; Receptors, Presynaptic; Neurodegenerative Diseases.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USAMaarten Reith

NYU
【研究方向】Transporter(4+9); Dopamine(8+2); Receptor(3+3); Cocaine(1+5); Monoamine(0+4); Parkinson's disease(2+1); Regulation(0+2); Chemical neuroscience(2+0); Development(0+2); Neuroprotective(2+0); Neuroprotection(2+0); Addiction(0+2); Reward(0+2); Neurotransmitter(0+1); 5-HT(0+1); Dopamine receptor(0+1); Structure(0+1); Trafficking(0+1); Disorder(0+1); Therapeutics(1+0); Drugs of Abuse(0+1); Depression(0+1); Attention(1+0);
【模式生物】Human(0+2);
【方法技术】Pharmacology(3+0); Model(0+2); Gene(0+1); Behavior(0+1);
【简述】Neurotransmitters, transporters, and addiction
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
UCSD011017San Diego, CA, USANeal R. Swerdlow

UCSD
【研究方向】Psychiatry(0+5); Disorder(0+3); Schizophrenia(0+3); Regulation(0+2); Huntington's disease(0+1); Neural Circuit(0+1); Cognition(0+1); Nucleus accumbens(0+1);
【模式生物】Human(0+2); Rodent(0+1);
【方法技术】Behavior(0+2); Model(0+2);
【简述】 Cognitive, Behavioral & Psychopharmacology
【研究论文】
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAW. Mark Saltzman

Yale
【研究方向】Tumor(0+1);
【模式生物】
【方法技术】
【简述】.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USAHarvey J. Karten

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

Stanford
【研究方向】Amino acid(3+0); Disease(2+1); Evolutionary(1+1); Ion Channel(1+0); Structure(1+0); Color(1+0); Frequency(1+0); Metabolism(1+0); Dynamics(1+0); Machine learning(1+0); Artificial intelligence(1+0); Machine(1+0);
【模式生物】Human(10+2);
【方法技术】Gene(9+3); Bioinformatics(3+0); Protein(1+0); Computation(1+0); Model(1+0); Statistics(1+0);
【简述】
【研究论文】Nature(1); Science(2); Cell(1); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Bao-ming Li, Christos Constantinidis, Bruno B. Averbeck, Christos Constantinidis001092Prof.
Harvard001001Boston, MA, USAChenghua Gu

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

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.
UW021010Seattle, WA, USABillie Swalla

UW
【研究方向】
【模式生物】
【方法技术】Gene(0+2);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USADavid M. Holtzman

WUSTL
【研究方向】Tau(2+8); Pathology(2+5); Metabolism(0+6); Disease(2+2); ApoE(1+3); CNS(0+3); Pathogenesis(1+2); Cognition(1+1); Sleep(1+1); Transgenic(0+1); Knockout(0+1); Regulation(0+1); Modulation(1+0); Receptor(1+0); Peptide(0+1); Vesicle(0+1); Synapse(0+1); Dysfunction(0+1); Abeta(1+0); Injury(0+1); Circadian clock(1+0); Dynamics(1+0); Neuroimaging(0+1); Connection(0+1);
【模式生物】Mouse(2+1); Human(0+2);
【方法技术】In vivo(3+2); Protein(0+2); Model(1+1); Gene(0+1); In vitro(1+0);
【简述】Cellular and Molecular studies of Alzheimer’s disease
【研究论文】Science(1); Neuron(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
William C. MobleyJohn R. Cirrito, Tim West, Suzanne E. Schindler (Wahrle), Jae-Eun Kang Miller, Adam W. Bero, Joseph M. Castellano, Rebecca J. Craig-Schapiro, Jacob M. Basak, Randall Bateman, Jungsu Kim, Philip B. Verghese, Richard E. Hartman, Richard J. Perrin, Miranda M. Lim, Yo-El S. JuYears: 2017 — 2018; Recipients: Holtzman, David M.; Code: P01; Title/Keywords: Regional, Synaptic, Cellular Modulation of Abeta Metabolism@ Washington University; Matching Score: 1Prof.
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, USAArnold R. Kriegstein

UCSF
【研究方向】Glial cell(0+2); Embryo(0+2); Epilepsy(0+1); Neurogenesis(0+1); Regeneration(0+1); Disease(0+1); Disorder(0+1); Therapy(0+1); Autism(0+1); Schizophrenia(0+1); Evolutionary(0+1);
【模式生物】Stem Cell(0+7); Human(0+4); Rodent(0+1);
【方法技术】Gene(0+1);
【简述】Neural Stem Cells and Embryonic Cortical Development
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAMelissa Scala

Stanford
【研究方向】Therapy(1+0); Infection(1+0); Perinatal(1+0); Pediatric(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.
CAS-ION??Shanghai, ChinaCheng-Yu Li

CAS-ION
【研究方向】Neural Circuit(1+3); Learning(1+3); Working memory(2+2); Olfaction(1+2); mPFC(0+3); Memory(0+2); Decision making(0+2); Synaptic Plasticity(1+0); Synapse(1+0); Cognition(0+1); Planning(0+1); Associative learning(1+0); PFC(0+1); Entorhinal cortex(1+0); CA1(1+0);
【模式生物】Mouse(3+2);
【方法技术】Optogenetics(0+3); Behavior(0+1); Electrophysiology(0+1); fMRI(1+0);
【简述】Functional Neural Circuitry
【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
Shumin Duan, Mu-Ming Poo, Chien-Ping Wu, Yang DanDing Liu, Jia Zhu000572Senior Investigator
JHU010012Baltimore, MD, USARonald Schnaar

JHU
【研究方向】Axon(0+4); Receptor(0+1); Membrane(0+1); Regeneration(0+1); Knowledge(0+1);
【模式生物】
【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
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
CalTech072006Pasadena, CA, USAViviana Gradinaru

CalTech
【研究方向】Optical(6+0); Neural Circuit(3+0); Development(0+2); Engineering(0+2); Structure(1+0); Axon(0+1); Disorder(0+1); Parkinson's disease(1+0); Neuroinflammation(1+0); Cocaine(1+0); Anxiety(1+0); Depression(0+1); Motor(1+0); Retrieval(1+0); Reward(1+0); Dynamics(1+0); Amygdala(1+0);
【模式生物】
【方法技术】Optogenetics(4+2); Protein(0+2); Behavior(0+2); Gene(1+0); In vivo(1+0); In vitro(1+0); fMRI(1+0); Model(1+0);
【简述】Brain circuits, optogenetics, behavior, protein engineering, technology development for neuroscience
【研究论文】Nature(6); Science(2); Cell(5); Nature Neuroscience(1); JNS(1); Nature Methods(1);
【综述】Nature Reviews Drug Discovery(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Paul H. Patterson, Erin M. Schuman, Karl DeisserothRyan Cho, Xiaozhe Ding, Xinhong Chen, Collin Challis, Rosemary C. Challis, Min Jee Jang, J. Elliott Robinson, Lindsay R. BremnerYears: 2018; Recipients: Gradinaru, Viviana; Code: RF1; Title/Keywords: Noninvasive Gene Delivery For Monitoring and Perturbing Cell Types and Circuits in Transgenic and Non-Transgenic Animals@ California Institute of Technology; Matching Score: 1010471Assist Prof.
UCSF003015San Francisco, CA, USALi Gan

UCSF
【研究方向】Microglia(0+5); Glia(0+2); Neurodegenerative disease(0+2); Aging(0+2); Development(0+1); Regeneration(0+1); Disease(0+1); Imaging(0+1); Hippocampus(0+1);
【模式生物】Stem Cell(0+6); Human(0+1); Mouse(0+1);
【方法技术】Protein(0+4); Gene(0+1); Behavior(0+1); Electrophysiology(0+1);
【简述】Cellular and Molecular Pathways in Neurodegeneration
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USARalph Nixon

NYU
【研究方向】Disease(6+0); Alzheimer's disease(5+0); Neurodegenerative disease(2+1); Degeneration(2+0); Pathology(2+0); Peptide(1+0); Neurology(1+0); Neurodegenerative disorder(1+0); Therapy(0+1); Down Syndrome(1+0); APP(1+0); Tau(1+0); ApoE(1+0); Form(1+0);
【模式生物】Mouse(1+0);
【方法技术】Model(2+0); In vivo(1+0); Microscopy(1+0);
【简述】Cellular mechanisms and therapy of neurodegenerative disease
【研究论文】Nature(1); Science(1); Cell(3); Neuron(3); JNS(2);
【综述】Trends In Neurosciences(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Seonil Kim, Ju-hyun Lee, Paul Marshall MathewsYears: 2005 — 2008; Recipients: Nixon, Ralph A.; Code: P01; Title/Keywords: In Vivo Proteolysis and Axonal Transport in Tauopathy@ New York State Psychiatric Institute; Matching Score: 0.939041144Prof.
UCLA011013Los Angeles, CA, USADaniel H.S. Silverman

UCLA
【研究方向】Imaging(0+2); Alzheimer's disease(0+1);
【模式生物】
【方法技术】Pharmacology(0+2); Biochemistry(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USAValeria Cavalli

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

NYU
【研究方向】Receptor(4+0); Disease(2+0); Imaging(2+0); Knockout(1+0); Disorder(1+0); Dysfunction(1+0); Aging(1+0); Age-related(1+0); Alzheimer's disease(0+1); Ischemia(1+0); Cardiovascular(1+0);
【模式生物】Mouse(1+0);
【方法技术】Protein(1+0); Model(1+0);
【简述】RAGE involvement in diabetes and Alzheimer's disease
【研究论文】Cell(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Stanford002003Palo Alto, CA, USADr Gerald R Popelka

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

WUSTL
【研究方向】Development(3+2); Sense(0+2); Knockout(1+0); Plasticity(0+1); Transcription(1+0); Transplantation(1+0); Embryo(1+0); Injury(0+1); Face(1+0); Somatosensory(0+1);
【模式生物】Stem Cell(2+0); Rat(1+0); Mouse(1+0); Rodent(0+1);
【方法技术】Model(0+1);
【简述】Molecular mechanisms of mammalian sensory system development, plasticity and repair
【研究论文】Cell(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
CAS-ION??Shanghai, ChinaYan-Gang Sun

CAS-ION
【研究方向】Itch(12+8); Pain(14+0); Sense(2+9); Hypothalamus(9+0); Arcuate nucleus(9+0); Neural Circuit(2+4); Synaptic Transmission(5+0); Thalamus(2+3); Thalamic reticular nucleus(5+0); Modulation(2+2); Inflammation(4+0); Opioids(4+0); Regulation(3+0); Receptor(3+0); Inflammatory pain(3+0); Peptide receptor(2+0); Calcium channel(2+0); Plasticity(1+1); Synaptic Plasticity(2+0); Development(2+0); Synapse(2+0); Disorder(0+2); Descending control(2+0); Reward(2+0); Signal processing(0+2); Periaqueductal gray(2+0); Dorsal raphe nucleus(2+0); Peptide(1+0); Dysfunction(0+1); Autism(0+1); Schizophrenia(0+1); Perception(0+1); Reaching(0+1); Memory(1+0); Learning(0+1); Social(0+1); Fear(1+0); Dynamics(1+0); Connection(1+0); Tuberomammillary nucleus(1+0); VTA(1+0);
【模式生物】Rat(12+0); Mouse(4+0);
【方法技术】Behavior(0+2); Gene(0+1); Electrophysiology(0+1); Optogenetics(0+1); Pharmacology(0+1);
【简述】Neural Circuit and Sensory Processing
【研究论文】Science(2); Cell(1); Nature Neuroscience(1); Neuron(2); JNS(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael BeierleinLi Zhou, Li Zhou001832Investigator
UCSF003015San Francisco, CA, USAMercedes Paredes

UCSF
【研究方向】Development(0+5); Developmental Disorder(0+2); Frontal lobe(0+2); Neuropeptide(0+1); Peptide(0+1); Transcription(0+1); Epilepsy(0+1); Embryo(0+1); Pathology(0+1); Psychiatric disorder(0+1); Cognition(0+1); Interneuron(0+1); PFC(0+1);
【模式生物】Human(0+5); Macaque(0+1);
【方法技术】Model(0+1); Theory(0+1);
【简述】Late Cortical Neuron Development in the Human Brain and Neurodevelopmental Disorders
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USACharles Marmar

NYU
【研究方向】Post-traumatic stress disorder(1+1); Disorder(1+0); Anxiety(1+0); Depression(1+0); Form(1+0); Stress(1+0);
【模式生物】
【方法技术】fMRI(1+0);
【简述】Diagnosis and treatment of post-traumatic stress disorder
【研究论文】Science(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Nnamdi PoleYears: 2018; Recipients: Marmar, Charles R; Code: P01; Title/Keywords: Leveraging Biomarkers For Personalized Treatment of Alcohol Use Disorder Comorbid With Ptsd@ New York University School of Medicine; Matching Score: 0.958Prof.
Stanford002003Palo Alto, CA, USADavid C Yeomans

Stanford
【研究方向】Pain(10+22); Therapy(3+5); Brain injury(5+0); Headache(4+0); Sodium channel(2+1); Anesthesia(1+1); Neural Circuit(2+0); Imaging(1+1); Modulation(1+0); Cytokine(0+1); Neuropeptide(0+1); Receptor(1+0); Peptide(0+1); Development(0+1); Environment(0+1); Disorder(1+0); Biomarker(0+1); Vision(1+0); Body(0+1); Migraine(1+0); Neuropathic pain(1+0); Concept(1+0); Metabolism(1+0); Encoding(0+1); Signal processing(1+0); Methodology(0+1); Optical(1+0);
【模式生物】Rat(6+0); Human(0+4); Rodent(0+3); Monkey(0+2); Mouse(1+0);
【方法技术】Gene(2+3); Model(4+0); fMRI(0+2); Channel(1+0); Virus(0+1); MRI(0+1); Electrophysiology(0+1); Pharmacology(1+0); Theory(1+0);
【简述】
【研究论文】Nature(1); Science(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Charles J. Vierck, Jr., Herbert K. ProudfitYears: 2007 — 2009; Recipients: Yeomans, David Clifford; Code: R01; Title/Keywords: Chronic Compression of the Trigeminal Ganglia@ Stanford University; Matching Score: 1Assoc Prof.
Stanford002003Palo Alto, CA, USACraig Levin

Stanford
【研究方向】Imaging(8+5); Disease(0+2); Optical(2+0); Modulation(1+0); Development(0+1); Form(0+1); Spectral(0+1); Acquisition(0+1); Timing(1+0); Engineering(1+0);
【模式生物】Human(0+1);
【方法技术】PET(13+0); In vivo(0+1); MRI(1+0); Model(0+1); Algorithm(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2017 — 2018; Recipients: Levin, Craig S; Code: R01; Title/Keywords: Technologies to Drastically Boost Photon Sensitivity For Brain-Dedicated Pet@ Stanford University; Matching Score: 0.958Prof.
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.
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.
Yale014011New Haven, CT, USADana Small

Yale
【研究方向】Taste(0+3); Motivation(0+3); Reward(0+3); Addiction(0+2); Multisensory integration(0+2); Stress(0+2); Imaging(0+2); Neuroimaging(0+2); Dopamine(0+1); Disorder(0+1); Psychiatry(0+1); Nicotine(0+1); Cognition(0+1); Chemical sense(0+1);
【模式生物】Human(0+1);
【方法技术】Psychophysics(0+3); fMRI(0+3); Behavior(0+2); MRI(0+1);
【简述】Dopamine; Motivation; Neurophysiology; Obesity; Psychophysics; Stress, Psychological; Neuroimaging; Psychiatry and Psychology.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCLA011013Los Angeles, CA, USAAnne M. Andrews

UCLA
【研究方向】5-HT(0+6); Anxiety(0+3); Transporter(0+2); Neurotransmitter(0+1); Chemical neuroscience(0+1); Development(0+1); Disease(0+1); Disorder(0+1); Psychiatry(0+1); Depression(0+1); Learning and memory(0+1); Stress(0+1);
【模式生物】Human(0+2); Mouse(0+2);
【方法技术】Gene(0+2); Protein(0+1); Biochemistry(0+1); In vivo(0+1); 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
Yale014011New Haven, CT, USAIfat Levy

Yale
【研究方向】Decision making(0+3); Cognition(0+1); Cognitive neuroscience(0+1); Reward(0+1); Basal ganglia(0+1);
【模式生物】Human(0+1);
【方法技术】Behavior(0+4); MRI(0+2);
【简述】Basal Ganglia; Behavior and Behavior Mechanisms; Central Nervous System; Cerebral Cortex.
【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.
UCSD011017San Diego, CA, USANicholas Schork

UCSD
【研究方向】Disease(0+3); Development(0+1); Bipolar(0+1); Schizophrenia(0+1); Cardiovascular(0+1); Methodology(0+1);
【模式生物】Human(0+1);
【方法技术】Data analysis(0+3); Gene(0+1); Biochemistry(0+1); Bioinformatics(0+1);
【简述】 Biochemistry & Molecular
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NYU015028New York, NY, USARobert Cancro

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

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

NYU
【研究方向】Alcohol(11+5); Development(1+4); HIV(1+4); Addiction(3+1); Music(1+3); Context(0+3); Disorder(1+0); Infection(0+1); Cannabinoids(0+1); Cocaine(1+0); Opioids(1+0); Drug dependence(0+1); Perception(0+1); Intention(1+0); Social(0+1); Concept(0+1); Sexual behavior(0+1);
【模式生物】Human(1+1);
【方法技术】Behavior(2+5); Model(4+1); Data analysis(0+2); Theory(1+0);
【简述】Large-scale study data analysis and tracking
【研究论文】
【综述】Review(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Perry N. HalkitisYears: 2015 — 2019; Recipients: Palamar, Joseph J; Code: K01; Title/Keywords: Development of a Rapid Survey to Detect Use of New and Emerging Drugs@ New York University School of Medicine; Matching Score: 1002198Assist Prof.
NYU015028New York, NY, USAJay Nierenberg

NYU
【研究方向】Schizophrenia(10+0); Psychiatry(7+0); Depression(6+0); White matter(6+0); Disorder(4+0); Imaging(3+0); Alcohol(2+0); Cocaine(2+0); Cognition(2+0); Glutamate(1+0); Seizure(1+0); Microglia(1+0); Development(1+0); Neurology(1+0); Psychiatric disorder(0+1); Biomarker(1+0); Vision(1+0); Learning and memory(1+0); Cognitive Control(1+0); Semantic(1+0); Body Weight(1+0); Hormone(1+0); Neuroimaging(0+1); Angular gyrus(1+0); Perirhinal cortex(1+0); Basal forebrain(1+0);
【模式生物】
【方法技术】MRI(4+0); Gene(3+0); Behavior(1+0); fMRI(1+0); Model(1+0);
【简述】Neuroimaging of neurodegenerative and psychiatric disorders
【研究论文】JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002050Assist Prof.
Yale014011New Haven, CT, USAAvram Holmes

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

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

NIH-NICHD
【研究方向】Development(4+2); Transgenic(3+1); Neural Circuit(3+0); Photoreceptor(3+0); Modulation(1+1); Embryo(1+1); Sense(2+0); Auditory(1+1); Motor(1+1); Navigation(1+1); Raphe(2+0); Mutant(1+0); Structure(1+0); Schizophrenia(0+1); Retina(0+1); Adaptation(1+0); Form(0+1); Spatial orientation(1+0); Circadian(1+0); Metabolism(1+0); Decoding(0+1); Imaging(1+0); Optical(0+1); Pineal gland(1+0);
【模式生物】Zebrafish(26+3); Human(1+0);
【方法技术】Behavior(7+6); Gene(3+3); Model(3+0); Protein(2+0); Anatomy(1+1); Biochemistry(1+0); Computation(0+1);
【简述】
【研究论文】Cell(1); JNS(1); Curr Biol.(1); eLife(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Orly Reiner, Michael GranatoEric Horstick, Sadie A. BergeronYears: 2009 — 2018; Recipients: Burgess, Harold; Code: ZIA; Title/Keywords: Neuronal Circuits Controlling Behavior: Genetic Analysis in Zebrafish@ Child Health and Human Development; Matching Score: 0.915001815
NYU015028New York, NY, USAAravinda Chakravarti

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

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, USAAmy Bastian

JHU
【研究方向】Movement disorder(0+3); Disease(0+2); Learning(0+2); Environment(0+1); Stroke(0+1); Neural Circuit(0+1); Cognition(0+1); Adaptation(0+1); Reaching(0+1); Motor control(0+1); Muscle(0+1); Robot(0+1); Cerebellum(0+1);
【模式生物】Human(0+1);
【方法技术】Computation(0+1);
【简述】Systems, Cognitive + Computational Neuroscience; Neural Circuits, Ensembles + Connectomes; Neurobiology of Disease; .
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
NIH-NIMH??Bethesda, MD, USAMark H. Histed

NIH-NIMH
【研究方向】Vision(5+0); Visual cortex(3+0); Sense(0+2); Contrast(2+0); Synchrony(1+0); Systems Neuroscience(1+0); Contrast perception(1+0); Motor(0+1); Eye Movement(1+0); Saccade(1+0); Planning(1+0); Interneuron(1+0); Learning(1+0); Working memory(1+0); Imaging(0+1); PFC(1+0); V1(1+0); Striatum(1+0);
【模式生物】Mouse(3+1); Primate(1+0);
【方法技术】Behavior(2+1); Microstimulation(3+0); Computation(1+1); In vivo(0+1); Psychophysics(1+0); Electrophysiology(0+1); Optogenetics(0+1); Model(1+0);
【简述】Unit on Neural Computation and Behavior
【研究论文】Cell(1); Neuron(3); JNS(2); PLoS Biol.(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Earl K. Miller, R Clay Reid, John HR MaunsellAndrew M. Mckinney, Bradley C. AkitakeVincent Bonin
NYU015028New York, NY, USAOrrin Devinsky

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

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

UCSD
【研究方向】Alcohol(0+8); Drugs of Abuse(0+6); Neuropeptide(0+3); Synaptic Transmission(0+3); Synapse(0+3); GABA(0+2); Development(0+2); Drug dependence(0+2); Stress(0+2); Amygdala(0+2); Structure(0+1); Disorder(0+1); Therapy(0+1); Neuroinflammation(0+1); Addiction(0+1); Cocaine(0+1); Nicotine(0+1); Opioids(0+1); Cognition(0+1); Emotion(0+1); Connection(0+1); PFC(0+1); Central nucleus(0+1); Stria terminalis(0+1); Bed nucleus(0+1); VTA(0+1);
【模式生物】
【方法技术】Behavior(0+5); Electrophysiology(0+1); 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
Stanford002003Palo Alto, CA, USAAndrew Ng

Stanford
【研究方向】Learning(8+0); Machine learning(7+0); Reinforcement learning(2+0); Spectral(1+0); Language(1+0); Semantic(1+0); Sparse coding(1+0); Neural network(1+0); Regularization(1+0); Robot(1+0);
【模式生物】
【方法技术】Model(2+0); Algorithm(1+0);
【简述】
【研究论文】NIPS(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
115383Prof.
Stanford002003Palo Alto, CA, USAKaren J Parker

Stanford
【研究方向】Autism(12+2); Social(7+7); Stress(12+1); Development(8+1); Disorder(5+1); Psychiatry(6+0); Anxiety(4+0); Depression(3+0); Hormone(3+0); Regulation(2+0); Neuropeptide(0+2); Receptor(2+0); Plasticity(2+0); Disease(2+0); Vulnerability(2+0); Developmental Disorder(2+0); Biomarker(2+0); Social cognition(0+2); Emotion(2+0); Social behavior(1+1); Neuroendocrine(2+0); Transporter(1+0); Dopamine(1+0); 5-HT(1+0); ACTH(1+0); Neurology(1+0); Fragile X(1+0); Aging(1+0); Tumor(0+1); Pediatric(0+1); Adaptation(1+0); Face(1+0); Consolidation(1+0); Concept(1+0); Circadian(1+0); Homeostatic(1+0);
【模式生物】Monkey(7+5); Primate(4+1); Non-human primate(2+1); Human(1+1); Marmoset(0+1);
【方法技术】Behavior(8+2); Model(3+1); Gene(2+1);
【简述】
【研究论文】Science(2); PNAS(1);
【综述】Annals Of Neurology(1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Theresa M. Lee, David LyonsJesus E. Madrid, Dean Carson, Joshua A. Herrington, Ozge Oztan, Valentina Sclafani, Catherine Talbot, Debra S. KarhsonYears: 2017 — 2019; Recipients: Hardan, Antonio Youssef (co-PI) [⬀] Parker, Karen J.; Code: R01; Title/Keywords: Intranasal Vasopressin Treatment in Children With Autism@ Stanford University; Matching Score: 1004870Assoc Prof.
UCLA011013Los Angeles, CA, USAAllan D. Wu

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

NYU
【研究方向】Auditory cortex(4+0); Modulation(2+0); Dendrite(2+0); GABA(1+0); Membrane(1+0); Development(1+0); Depression(1+0); Auditory(1+0); Auditory processing(1+0); Frequency(1+0); Motor cortex(1+0); A1(1+0);
【模式生物】Rat(2+0); Mouse(2+0);
【方法技术】In vitro(2+0); Statistics(1+0);
【简述】Functional interactions of neurons in a network
【研究论文】Nature(1); Science(1); Nature Neuroscience(3); Neuron(2); JNS(7);
【综述】Annual Review Of Neuroscience(1); Current Opinion In Neurobiology(1); Physical Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Eberhard E. Fetz, Edwin W. Rubel, Bert Sakmann, William J. SpainHysell V. Oviedo, Max Schiff, Frances Chance, Jaime de la Rocha, Brent Doiron, Hideyuki Cateau, Anne-Marie M. Oswald, Jérémie BarralYears: 2014 — 2015; Recipients: Reyes, Alex DRinzel, John M; Code: R21; Title/Keywords: Synaptic Integration With Replacement, Virtual Dendrites Modeled in Real-Time@ New York University; Matching Score: 1005831Prof.
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
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.
Yale014011New Haven, CT, USAStephen Strittmatter

Yale
【研究方向】Disease(0+3); Alzheimer's disease(0+3); Receptor(0+2); Plasticity(0+2); Axon(0+2); Injury(0+2); Connection(0+2); Signal transduction(0+1); Peptide(0+1); Synapse(0+1); Pathology(0+1); Stroke(0+1); Spinal Cord Injury(0+1); Form(0+1); Motor Neuron(0+1); Memory(0+1); Imaging(0+1);
【模式生物】Mouse(0+2);
【方法技术】Gene(0+2); In vivo(0+1); Anatomy(0+1); Behavior(0+1); Electrophysiology(0+1);
【简述】Alzheimer Disease; Axons; Dementia; Spinal Cord Injuries; Motor Neuron Disease; Regenerative Medicine.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USASean Megason

Harvard
【研究方向】Development(9+5); Imaging(8+4); Dynamics(6+1); Embryo(2+2); Membrane(3+0); Form(1+1); Transgenic(0+1); Receptor(1+0); Vesicle(1+0); Glia(0+1); Neurogenesis(1+0); Cell fate(0+1); Regeneration(1+0); CNS(1+0); Embryology(0+1); Contrast(1+0); Object(1+0); Hair cell(1+0); Spectral(1+0); Morphology(1+0); Encoding(1+0);
【模式生物】Zebrafish(8+3); Human(2+0);
【方法技术】Gene(6+1); Microscopy(4+2); Model(4+2); Computation(1+1); Tracing(1+0); Mathematics(0+1);
【简述】Development of the spinal cord and inner ear using in toto imaging in zebrafish
【研究论文】Cell(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Andrew P. McMahonYears: 2018; Recipients: Klein, Allon MosheMegason, Sean G; Code: R01; Title/Keywords: Mapping the Signaling Landscape of Vertebrate Development At Single Cell Resolution@ Harvard Medical School; Matching Score: 0.934002472Assoc Prof.
UCSD011017San Diego, CA, USAJohn Serences

UCSD
【研究方向】Sense(0+5); Perception(0+4); Cognition(0+2); Environment(0+1); Form(0+1); Object(0+1); Memory(0+1); Decision making(0+1); Working memory(0+1); Neuroimaging(0+1);
【模式生物】
【方法技术】Behavior(0+4); Psychophysics(0+1); Computation(0+1); Model(0+1);
【简述】 Systems; Cognitive, Behavioral & Psychopharmacology; Computational
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USALawrence B. Salkoff

WUSTL
【研究方向】Potassium channel(3+4); Ion Channel(0+4); Regulation(1+1); Transgenic(0+1); Neurotransmitter(0+1); Structure(0+1); Epilepsy(0+1); Development(0+1); Environment(0+1); Disease(0+1); Hypoxia(0+1); Learning and memory(0+1); Hormone(0+1); Evolutionary(0+1);
【模式生物】Human(0+2); Mouse(1+0); Rodent(0+1); Drosophila(0+1); C. elegans(0+1);
【方法技术】Gene(1+1); Behavior(0+2); Channel(1+0); Electrophysiology(0+1);
【简述】How ion channels function in physiology and behavior
【研究论文】Nature(2); Neuron(1); JNS(1); PNAS(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Alex Yuan, Gloria L. Fawcett, Gonzalo BudelliYears: 2016 — 2019; Recipients: Magleby, Karl L (co-PI) [⬀] Salkoff, Lawrence B; Code: R01; Title/Keywords: Testing a Novel Push-Pull Mechanism For Ca2+-Dependent Coupling in Bk Channels@ Washington University; Matching Score: 1Prof.
UCLA011013Los Angeles, CA, USAMirella Dapretto

UCLA
【研究方向】Autism(0+6); Development(0+3); Psychiatry(0+3); Language(0+2); Imaging(0+2); Neuroimaging(0+1);
【模式生物】
【方法技术】fMRI(0+2); Gene(0+1); MRI(0+1); Behavior(0+1);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAAida Habtezion

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

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

Yale
【研究方向】Cognition(0+3); Development(0+1); Psychiatry(0+1); Language(0+1); Knowledge(0+1); Methodology(0+1); Evolutionary(0+1);
【模式生物】Non-human primate(0+5); Human(0+4); Primate(0+4);
【方法技术】
【简述】Primates; Psychiatry and Psychology.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAPallavi Gopal

Yale
【研究方向】Neurodegenerative disease(0+1); Degeneration(0+1); Sclerosis(0+1);
【模式生物】
【方法技术】
【简述】Amyotrophic Lateral Sclerosis; Autopsy; Cell Biology; Neurons; Ribonucleoproteins; Neurodegenerative Diseases; RNA Transport; Frontotemporal Lobar Degeneration; TDP-43 Proteinopathies.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Harvard001001Boston, MA, USABernat Kocsis

Harvard
【研究方向】Oscillation(5+3); Theta rhythm(7+1); Hippocampus(4+2); PFC(1+3); Structure(1+2); Schizophrenia(2+1); Dorsal raphe nucleus(3+0); Raphe(3+0); Receptor(2+0); Rhythm(0+2); Disease(0+2); Psychiatry(2+0); NMDA receptor(1+0); Synchrony(0+1); Disorder(0+1); Neurology(1+0); Cognition(0+1); Sense(1+0); Body(1+0); Olfaction(0+1); Respiratory rhythm(0+1); Spatial navigation(0+1); Working memory(0+1); Sleep(1+0); mPFC(1+0); limbic system(1+0); Basal forebrain(1+0); Olfactory bulb(0+1); Thalamus(0+1); VTA(1+0);
【模式生物】Rat(6+0); Human(1+1); Rodent(0+2);
【方法技术】Model(1+3); Pharmacology(2+1); Electrophysiology(1+0); Mathematics(0+1);
【简述】Forebrain oscillations in rodent models of psychiatric diseases
【研究论文】Neuron(1); JNS(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gerard Lincoln Gebber, Vladimir O. Samoilov, Robert P. VertesViktor Varga, Lionel S. DahanYears: 2014 — 2018; Recipients: Ding, MingzhouKocsis, Bernat; Code: R01; Title/Keywords: Spatiotemporal Network Dynamics in a Rat Model of Schizophrenia@ Beth Israel Deaconess Medical Center; Matching Score: 0.922004880Assoc Prof.
Stanford002003Palo Alto, CA, USANirao Shah

Stanford
【研究方向】Social(1+2); Social behavior(3+0); Aggression(3+0); Hypothalamus(3+0); Mating(2+0); Metabolism(2+0); Dopamine(1+0); GABA(1+0); Receptor(1+0); Development(1+0); Pluripotent stem cells(1+0); Embryo(1+0); Anxiety(1+0); Neural Circuit(1+0); Learning(1+0); Innate behavior(1+0); Sexual differentiation(1+0); Hormone(0+1);
【模式生物】Stem Cell(2+0); Drosophila(1+0);
【方法技术】Gene(4+1); Behavior(2+2); Virus(1+0);
【简述】
【研究论文】Cell(2); Nature Neuroscience(1); Neuron(4); JNS(1);
【综述】Current Opinion In Neurobiology(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David J. Anderson, Richard AxelOsama Ahmed, Jennifer K. Coats, Scott A. Juntti, Melody Wu, Cindy F. Yang, Eleanor J. Fraser, Michael C. Chiang, Elizabeth K. Unger, Devanand S. Manoli, Taehong Yang, Jessica A. Porter, Jessica Tollkuhn, Daniel W. Bayless, Sayaka Komano-Inoue, Gabriel L. McKinsey, Joseph R KnoedlerYears: 2016 — 2019; Recipients: Bales, Karen L. (co-PI) [⬀] Shah, Nirao Mahesh; Code: R01; Title/Keywords: Molecular and Neural Networks Underlying Social Attachment@ University of California, San Francisco; Matching Score: 1Prof.
CalTech072006Pasadena, CA, USARichard Andersen

CalTech
【研究方向】Intention(0+5); Decision making(0+4); Planning(0+3); Cognition(0+2); Form(0+2); Blood flow(0+2); Imaging(0+2); PPC(0+2); Development(0+1); Sense(0+1); Vision(0+1); Body(0+1); Motor(0+1); Eye Movement(0+1); Neuroprosthetics(0+1); Muscle(0+1); Attention(0+1); Intelligence(0+1); Concept(0+1); Artificial intelligence(0+1); Robot(0+1); Motor cortex(0+1); Premotor cortex(0+1);
【模式生物】Monkey(0+5); Human(0+3);
【方法技术】fMRI(0+3); MRI(0+2); Anatomy(0+1); Behavior(0+1);
【简述】Vision, Neuroprosthetics, Action Planning, Decision Making
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Michael M. Merzenich, Vernon MountcastleDaniel Baldauf, Aaron P. Batista, Robert Martyn Bracewell, Hilary Glidden, Asha Iyer, Chiang-Shan Ray Li, Jennifer F. Linden, Matthew J. Nelson, Ralph Mitchell Siegel, Stefan Treue, Tamara A. Knutsen, Boris Revechkis, Michael Graziano, Pietro Mazzoni, Maneesh Sahani, John S. Pezaris, Alexander Grunewald, David J. Dubowitz, Grant H. Mulliken, Michael Campos, Rajan Bhattacharyya, Chess Stetson, David C. Bradley, Peter Brotchie, Yale E. Cohen, He Cui, James W. Gnadt, Arnulf B.A. Graf, Bradley Greger, Kenneth L. Grieve, Masud Husain, Eun Jung J. Hwang, Igor Kagan, Sam Musallam, Ning Qian, Rodrigo Quian Quiroga, Philip N. Sabes, Peter Thier, Elizabeth Torres, Melanie Wilke, Ying Shi, Sumner L Norman, Shabtai Barash, Lawrence H. Snyder, Krishna V. Shenoy, Brian D. Corneil, Hansjörg Scherberger, Christopher A. Buneo, Bijan Pesaran, Alexander Gail, Axel Lindner, Lindsay R. Bremner, Xoana G. Troncoso, James J. BonaiutoHiroshi Ando, Joseph FX DeSouzaYears: 2017 — 2018; Recipients: Andersen, Richard A; Code: P50; Title/Keywords: Project 4 - the Neurobiology of Social Decision-Making: Social Inference and Context@ California Institute of Technology; Matching Score: 1042393Prof.
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
Stanford002003Palo Alto, CA, USAPeter Tass

Stanford
【研究方向】Plasticity(2+0); Axon(2+0); Dendrite(2+0); Synapse(2+0); Frequency(2+0); Neuromodulation(1+0); Structure(1+0); Oscillation(1+0); Disease(1+0); Disorder(1+0); Therapy(1+0); Parkinson's disease(1+0); Movement disorder(1+0); Entrainment(1+0); Chaos(1+0);
【模式生物】
【方法技术】DBS(3+0); Computation(2+0); Model(1+0);
【简述】
【研究论文】Neuron(2); PLOS Computational Biology(1);
【综述】Physical Review(2); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Stanford002003Palo Alto, CA, USARuss B Altman

Stanford
【研究方向】Therapeutics(7+0); Knowledge(3+2); Structure(1+3); Disease(2+0); Receptor(1+0); Development(1+0); Tumor(1+0); Depression(1+0); Learning(1+0); Context(0+1); Language(0+1); Causality(1+0); Bayesian(1+0); Dynamics(0+1); Machine learning(0+1);
【模式生物】Human(2+0);
【方法技术】Gene(8+1); Pharmacology(8+0); Computation(3+2); Bioinformatics(4+0); Microarray(2+0); Protein(0+1); Model(1+0); Simulation(0+1);
【简述】
【研究论文】Science(3); Nature Communications(1); PLOS Computational Biology(2);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
036446Prof.
NIH-NIDCD??Bethesda, MD, USADoris K. Wu

NIH-NIDCD
【研究方向】Development(3+2); Hair cell(4+0); Regulation(2+0); Transcription(2+0); Transgenic(0+1); Neurogenesis(1+0); Cell cycle(1+0); Differentiation(1+0); Sense(1+0); Auditory(1+0); Timing(1+0); Respiratory(1+0); Encoding(1+0);
【模式生物】Mouse(3+1); Human(1+0); Zebrafish(1+0);
【方法技术】Gene(1+0); Protein(1+0); Model(0+1);
【简述】
【研究论文】Nature(1); Cell(1); JNS(2); eLife(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Brad N. BuranYears: 1994 — 2018; Recipients: Wu, Doris; Code: Z01ZIA; Title/Keywords: Molecular Basis For the Morphogenesis of the Inner Ear@ Deafness & Other Communication Disorders; Matching Score: 0.915
UW021010Seattle, WA, USAJane Sullivan

UW
【研究方向】Synaptic Transmission(0+5); Disease(0+3); Dysfunction(0+2); Cognition(0+2); Membrane(0+1);
【模式生物】Rodent(0+2);
【方法技术】Protein(0+2); Electrophysiology(0+2); Pharmacology(0+2); Model(0+2);
【简述】Cell and Molecular Neuroscience; Excitable Membranes and Synaptic Transmission
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
CAS-ION??Shanghai, ChinaHai-Shan Yao

CAS-ION
【研究方向】Vision(13+9); OFC(0+9); V1(4+5); Visual cortex(6+2); Associative learning(0+4); Sense(0+3); Decision making(0+3); Plasticity(2+0); Neural Circuit(0+2); Contrast(2+0); Motor cortex(0+2); Supplementary motor cortex(0+2); PFC(0+2); MeCP2(1+0); Synaptic Plasticity(1+0); Environment(0+1); Sensory experience(0+1); Perception(0+1); Frequency(1+0); Spectral(1+0); Context(0+1); Reward(0+1); Connection(1+0); PPC(0+1); Basal ganglia(0+1); Striatum(0+1); Dorsal striatum(0+1);
【模式生物】Mouse(3+4); Human(0+1); Primate(0+1);
【方法技术】Behavior(1+11); Model(2+1); Computation(0+2); In vivo(0+1); In vitro(0+1); Multi-electrode(0+1); Optogenetics(0+1); Statistics(1+0);
【简述】Visual Neurophysiology
【研究论文】Nature Neuroscience(1); Neuron(3); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Chao-Yi Li, Yang DanChen Song, Feng Wang, Cheng Chen, Kefei Liu, Minghai Long, Dinghong Zhang, Lian Zheng, Wenhui Qiao, Zhongchao Tan, Cheng Wang, Yingjie Zhu000744Senior Investigator
JHU010012Baltimore, MD, USAFeng-Quan Zhou

JHU
【研究方向】Regeneration(0+14); Development(0+13); Axon(0+13); CNS(0+6); Axon growth(0+5); Regulation(0+3); Disorder(0+3); Environment(0+2); Disease(0+2); Imaging(0+2); 5-HT(0+1); Structure(0+1); Membrane(0+1); Neurogenesis(0+1); PNS(0+1); Dendrite(0+1); Neurodegenerative disease(0+1); Autism(0+1); Injury(0+1); Sclerosis(0+1); Schizophrenia(0+1); Cognition(0+1); Sense(0+1); Form(0+1); Morphology(0+1); Dynamics(0+1); Connection(0+1);
【模式生物】Mouse(0+3);
【方法技术】Gene(0+5); In vivo(0+3); Model(0+2); Protein(0+1); In vitro(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
CalTech072006Pasadena, CA, USAAnima Anandkumar

CalTech
【研究方向】Learning(12+0); Machine learning(3+4); Structure(2+0); Spectral(2+0); Development(0+1); Cognition(1+0); Bayesian(1+0); Neural network(1+0);
【模式生物】
【方法技术】Model(9+4); Theory(4+0); Statistics(1+1); Algorithm(1+0);
【简述】Large-scale machine learning, non-convex optimization and high-dimensional statistics
【研究论文】NIPS(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
004661Prof.
Harvard001001Boston, MA, USAAdam Cohen

Harvard
【研究方向】Membrane(1+8); Imaging(6+2); Optical(3+2); Ion Channel(1+1); Structure(1+1); Neural Circuit(2+0); Engineering(0+2); Transgenic(1+0); Receptor(0+1); NMDA receptor(1+0); Epilepsy(0+1); Glia(0+1); Disease(0+1); Object(1+0); Pain(0+1); Motor Neuron(1+0); Free-energy(0+1);
【模式生物】Human(1+1); Mouse(1+1); Stem Cell(1+0);
【方法技术】Electrophysiology(5+2); Protein(4+2); Optogenetics(5+0); Microscopy(1+1); Pharmacology(2+0); In vitro(0+1); Computation(0+1); Model(1+0);
【简述】Optical electrophysiology and neuronal biophysics
【研究论文】Nature Neuroscience(1); Neuron(1); JNS(4);
【综述】Physical Review(2); Curr Opin Chem Biol. (1); Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
006036Prof.
UCSD011017San Diego, CA, USARichard Buxton

UCSD
【研究方向】Blood flow(0+3); Metabolism(0+2); Blood oxygen level dependent(0+2); Energy metabolism(0+1); Imaging(0+1);
【模式生物】Human(0+1);
【方法技术】MRI(0+3); fMRI(0+2); Model(0+2); Mathematics(0+1);
【简述】 Clinical
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
WUSTL009032Saint Louis, MO, USATimothy M. Miller

WUSTL
【研究方向】Neurodegenerative disease(0+3); Tau(2+0); Sclerosis(1+1); Astrocyte(1+0); CNS(1+0); Dysfunction(1+0); Therapy(0+1); Dementias(0+1); Inflammation(0+1); Motor Neuron(1+0); Muscle(1+0);
【模式生物】Mouse(2+0);
【方法技术】In vivo(1+1); Model(2+0); Protein(0+1);
【简述】Mechanisms of neurodegeneration and targeted therapies for neurodegenerative diseases
【研究论文】Science(1); Neuron(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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, USADidier Hodzic

WUSTL
【研究方向】Development(2+2); Transgenic(1+1); Cell migration(2+0); CNS(0+2); Disease(1+1); Photoreceptor(2+0); Connection(2+0); Regulation(1+0); Pathology(0+1); Retina(1+0); Form(0+1); Face(1+0);
【模式生物】Mouse(4+2); Human(0+2);
【方法技术】Model(1+1); Electrophysiology(0+1); Microscopy(0+1);
【简述】Role of LINC complexes (Linkers of the Nucleoskeleton to the Cytoskeleton) in nucleokinesis and neuronal migration
【研究论文】Cell(5); PNAS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Assist Prof.
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.
JHU010012Baltimore, MD, USAMary Ann Wilson

JHU
【研究方向】Glutamate receptor(0+3); Development(0+3); Amino acid(0+2); Plasticity(0+2); Environment(0+2); Injury(0+2); Toxic injury(0+2); Neurotransmitter(0+1); Neurodegenerative disease(0+1); Vulnerability(0+1); Parkinson's disease(0+1); Trauma(0+1); Sense(0+1); Somatosensory(0+1); S1(0+1);
【模式生物】Rodent(0+2);
【方法技术】Model(0+2);
【简述】.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Columbia006008New York, NY, USAVincent P. Ferrera

Columbia
New York, NY, USA
【研究方向】FEF(5+0); Attention(1+3); Reward(0+3); Caudate(2+0); Systems Neuroscience(0+1); Cognition(0+1); Sense(0+1); Vision(0+1); Face(0+1); Context(0+1); Decision making(0+1); Categorization(1+0); Imaging(0+1); PFC(0+1); Visual cortex(0+1); Basal ganglia(0+1);
【模式生物】Monkey(3+0); Non-human primate(2+0); Human(2+0); Primate(1+0);
【方法技术】Behavior(0+1);
【简述】Cognitive/Systems Neuroscience; Systems and Circuits;
【研究论文】Nature Neuroscience(1); Neuron(1); JNS(4);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Hugh R. Wilson, Stephen G. Lisberger, John HR MaunsellMarianna Yanike, Ioan Opris, Puiu  F. Balan, Franco PestilliCaitlin E. ShureYears: 2018; Recipients: Ferrera, Vincent PTerrace, Herbert S. (co-PI) [⬀] ; Code: R01; Title/Keywords: Implicit Serial Learning in Monkeys and Humans@ Columbia University Health Sciences; Matching Score: 1Prof.
WUSTL009032Saint Louis, MO, USAMartha W. Bagnall

WUSTL
【研究方向】Vestibular(9+1); Microcircuit(3+2); Motor(2+2); Memory(4+0); Transgenic(2+0); Synaptic Transmission(2+0); Plasticity(2+0); Development(2+0); Sense(0+2); Motor control(1+1); Cerebellum(2+0); Structure(0+1); Synaptic Plasticity(1+0); Synapse(1+0); Sensory-motor transformation(0+1); Reflex(1+0); Long-term memory(1+0); Connection(0+1); Cerebellar nuclei(1+0);
【模式生物】Mouse(3+0); Zebrafish(3+0);
【方法技术】Protein(3+0); Behavior(1+2); Computation(0+1);
【简述】Microcircuitry of sensory-motor transformations in the zebrafish
【研究论文】Science(1); Neuron(6); JNS(6); 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
Tom Carew, Sascha du Lac, Massimo Scanziani, David McLeanSaul Bello-RojasYears: 2018; Recipients: Bagnall, Martha W; Code: R01; Title/Keywords: Synaptic Computations in Central Vestibular Neurons@ Washington University; Matching Score: 1001010Assist Prof.
NYU015028New York, NY, USALiina Pylkkanen

NYU
【研究方向】Language(7+1); Cognition(5+0); Cognitive neuroscience(2+0); Vision(2+0); Form(2+0); Syntax(1+1); Category(2+0); Visual cortex(2+0); Temporal lobe(2+0); Structure(1+0); Object(1+0); Frequency(1+0); Timing(1+0); Semantic(0+1); Comprehension(1+0); Angular gyrus(1+0);
【模式生物】Human(0+1);
【方法技术】MEG(7+0); Behavior(1+0);
【简述】The neural bases of syntax and semantic combinations for human language
【研究论文】Science(2); JNS(2); Cerebral Cortex(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Alec MarantzChristine Boylan, Jayden Ziegler, Eytan Zweig, Lisa Levinson, Jon R. Brennan, Suzanne Dikker, Hugh Rabagliati, Doug K. Bemis, Kimberly A. LeikenYears: 2018 — 2020; Recipients: Kim, Songhee (co-PI) [⬀] Pylkkanen, Liina; Code: N/A; Title/Keywords: Doctoral Dissertation Research: Neural Bases of Semantic Composition in the Verb Phrase@ New York University; Matching Score: 1005868Prof.
UCSF003015San Francisco, CA, USAGraeme Davis

UCSF
【研究方向】Homeostatic(0+8); Neural Circuit(0+5); Regulation(0+4); Development(0+4); Disease(0+4); Synapse formation(0+3); Synapse(0+3); Neural excitability(0+2); Modulation(0+2); Synaptic Transmission(0+2); Degeneration(0+2); Signaling molecule(0+1); Ion Channel(0+1); Glia(0+1); Neurodegenerative disease(0+1); Neuromuscular(0+1); Sense(0+1); Connection(0+1);
【模式生物】Human(0+1); Drosophila(0+1);
【方法技术】Gene(0+4); Channel(0+1); In vivo(0+1); Electrophysiology(0+1);
【简述】Synapse Formation, Growth and Plasticity
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAGordon Wetzstein

Stanford
【研究方向】Vision(5+0); Imaging(4+0); Environment(1+0); Perception(1+0); Sparse coding(1+0);
【模式生物】
【方法技术】Computation(4+0); Microscopy(1+0);
【简述】
【研究论文】Nature Methods(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2018 — 2021; Recipients: Bailenson, Jeremy (co-PI) [⬀] Wetzstein, Gordon; Code: N/A; Title/Keywords: Fw-Htf: Collaborative Research: Enhancing Human Capabilities Through Virtual Personal Embodied Assistants in Self-Contained Eyeglasses-Based Augmented Reality (Ar) Systems@ Stanford University; Matching Score: 1004026Assist Prof.
Princeton061009Princeton, NJ, USAAlexander Todorov

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

UCLA
【研究方向】Engineering(0+2); Brain-Machine Interface(0+1); Dynamics(0+1); Machine learning(0+1);
【模式生物】
【方法技术】Computation(0+2);
【简述】
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Stanford002003Palo Alto, CA, USAThomas Dee

Stanford
【研究方向】Social(1+0);
【模式生物】Human(1+0);
【方法技术】
【简述】
【研究论文】
【综述】Review(3);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Prof.
Stanford002003Palo Alto, CA, USALaramie Duncan

Stanford
【研究方向】Disorder(5+0); Psychiatry(5+0); Schizophrenia(5+0); Psychiatric disorder(1+1); Stress(2+0); Glia(1+0); Environment(0+1); Disease(1+0); Trauma(1+0); Bipolar(1+0); Context(1+0); Social(1+0); Inference(1+0); Metabolism(1+0);
【模式生物】Human(2+0);
【方法技术】Gene(14+3); Computation(0+1);
【简述】
【研究论文】Nature(2); Science(6);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Erik G. WillcuttAssist Prof.
NIH-NINDS??Bethesda, MD, USACarsten G Bönnemann

NIH-NINDS
【研究方向】Disorder(1+3); Neuromuscular(0+3); Development(2+0); Disease(2+0); Pathogenesis(0+2); Muscle(1+1); Regulation(1+0); Sodium channel(1+0); Axon(0+1); Therapeutics(0+1); Therapy(1+0); Pediatric(1+0); Pain(1+0); Touch(1+0); Oral motor(1+0); Fatigue(1+0); Motor Neuron(1+0); Knowledge(0+1);
【模式生物】Human(3+1); Mouse(1+0);
【方法技术】Gene(1+6); Model(2+2); Channel(1+0);
【简述】Neuromuscular and Neurogenetic Disorders of Childhood Section
【研究论文】Cell(2); Neuron(1); Nature Communications(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UW021010Seattle, WA, USAOlivia Bermingham-McDonogh

UW
【研究方向】Receptor(0+10); Development(0+8); Regeneration(0+4); Auditory(0+4); Hair cell(0+4); Knockout(0+2); Transcription(0+2); Sense(0+2);
【模式生物】Mouse(0+4); Bird(0+2);
【方法技术】Gene(0+4);
【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, 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.
NIH-NINDS??Bethesda, MD, USAAlan P. Koretsky

NIH-NINDS
【研究方向】Imaging(5+4); Somatosensory(4+0); Plasticity(3+0); Oscillation(2+0); Sense(2+0); Olfaction(2+0); Metabolism(0+2); Optical imaging(1+1); Regulation(0+1); Structure(0+1); Neurodegenerative disease(1+0); Alzheimer's disease(1+0); APP(1+0); Injury(1+0); Neural Circuit(1+0); Contrast(1+0); Form(1+0); Resting state(1+0); CA2(1+0); Olfactory bulb(1+0); Pituitary gland(1+0);
【模式生物】Mouse(2+2); Rat(2+0);
【方法技术】MRI(5+2); In vivo(2+1); Gene(0+1); Anatomy(1+0); Tracing(1+0); fMRI(1+0); Model(1+0);
【简述】Laboratory of Functional and Molecular Imaging
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Thomas L. James, Melvin P. Klein, Michael W. WeinerJason Tucciarone, Robia G. Pautler, Afonso C. Silva, Tom C. Hu, Ichio Aoki, Erik M. Shapiro, Xin Yu, Ben Porter, John A. Detre, Carolyn Wan-hsun Wu, Emily PetrusYears: 2011; Recipients: Koretsky, Alan; Code: ZIA; Title/Keywords: Frontotemporal Dementias@ Neurological Disorders and Stroke; Matching Score: 0.915
WUSTL009032Saint Louis, MO, USAHarrison W. Gabel

WUSTL
【研究方向】MeCP2(6+3); Development(3+1); Rett Syndrome(2+2); Disease(0+3); Neural Circuit(3+0); Regulation(0+2); Disorder(0+2); Body(2+0); Receptor(0+1); Ion Channel(0+1); Plasticity(0+1); Transcription(1+0); Adhesion(0+1); Pathology(0+1); Dysfunction(0+1); Autism(0+1); APP(1+0);
【模式生物】C. elegans(7+0); Human(1+2); Mouse(0+1); Bird(1+0);
【方法技术】Gene(9+3); Protein(0+1); Behavior(1+0); Model(0+1);
【简述】Exploration of functions for neuron-specific regulators of gene expression, leveraging genes and mechanisms implicated in human neurologic disease to point us toward critical pathways in the brain.
【研究论文】Nature(4); Science(3); Cell(3); Neuron(1); JNS(2); Nature structural & molecular biology(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gary Ruvkun, Michael E. GreenbergYears: 2019; Recipients: Gabel, Harrison W; Code: R01; Title/Keywords: Mechanisms of Epigenetic Regulation in Nervous System Development@ Washington University; Matching Score: 0.957004031Assist Prof.
NIH-NINDS??Bethesda, MD, USAMark Hallett

NIH-NINDS
【研究方向】Movement disorder(3+5); Membrane(7+0); Imaging(3+2); Neuroimaging(3+2); Disease(3+1); Dystonia(1+3); Neurology(3+0); Parkinson's disease(2+1); Axon(2+0); Injury(2+0); Sense(1+1); Motor learning(1+1); Motor control(0+2); Motor cortex(1+1); Primary motor cortex (M1)(1+1); Mutant(1+0); Neuromodulation(1+0); Receptor(0+1); Plasticity(1+0); Disorder(1+0); Pathology(1+0); Pathogenesis(1+0); Psychiatry(1+0); Tau(1+0); Auditory(1+0); Voluntary Movement(0+1); Execution(0+1); Gait(1+0); Reflex(1+0); Muscle(1+0); Speech(1+0); Sleep(1+0); Resting state(0+1); Connection(1+0); PFC(0+1); Postcentral gyrus(0+1); Globus pallidus(1+0); Subthalamic nucleus(1+0); Cerebellar vermis(0+1);
【模式生物】Human(3+4); Mouse(2+0); Monkey(1+0);
【方法技术】TMS(3+2); Electrophysiology(3+0); fMRI(0+3); MRI(0+2); Gene(1+0); Biochemistry(1+0); EEG(0+1); PET(0+1); DBS(1+0); Model(1+0);
【简述】Human Motor Control Section
【研究论文】Nature(1);
【综述】Review(2);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
David C. MarsdenMichael A. Dimyan, Rachel Wurzman, Demelio Alejandro Urbano, Codrin I. Lungu, Lewis A. Wheaton, Anke Karabanov, Oluwole O. Awosika, Khalaf Bushara, Robert Chen, Leonardo G. Cohen, Maire Pierre Deiber, Kenji Kansaku, Alvaro Pascual-Leone, Abraham Zangen, Joshua Benjamin Ewen, Joaquim Pereira Brasil-Neto, Fatta B. Nahab, Peter T. Lin, Sahana N. Kukke, Rohan Khera, Traian Popa, Sabine Meunier, Zhen NiYears: 2007 — 2018; Recipients: Hallett, Mark; Code: Z01ZIA; Title/Keywords: Therapy of Movement Disorders@ Neurological Disorders and Stroke; Matching Score: 1003768
NIH-NIDA??Bethesda, MD, USABrandon Harvey

NIH-NIDA
【研究方向】Transgenic(3+0); Receptor(2+0); Parkinson's disease(2+0); HIV(2+0); CRISPR/Cas9(1+0); Microglia(1+0); Transplantation(1+0); Psychiatry(1+0); Aging(1+0); Age-related(1+0); Neuroprotective(1+0); Neuroprotection(1+0); Stroke(1+0); Injury(1+0); Cocaine(1+0); Kinematics(1+0); Learning(1+0); Reward(1+0); Dorsal striatum(1+0); Ventral pallidum(1+0); Hypothalamus(1+0); VTA(1+0); Substantia nigra(1+0);
【模式生物】Rat(7+0);
【方法技术】Model(3+0); In vitro(1+0); Behavior(1+0);
【简述】
【研究论文】Science(1); Neuron(1); JNS(1); Curr Biol.(1);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Howard J. Federoff, Barry J. HofferDavid J. ReinerYears: 2018; Recipients: Harvey, Brandon; Code: ZIA; Title/Keywords: Cellular Mechanisms of Neuronal Dysfunction@ National Institute On Drug Abuse; Matching Score: 0.915
UCSD011017San Diego, CA, USAMichael W. Kalichman

UCSD
【研究方向】Cognition(0+1); Engineering(0+1);
【模式生物】
【方法技术】Behavior(0+1);
【简述】 Cognitive, Behavioral & Psychopharmacology
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Yale014011New Haven, CT, USAStephen Waxman

Yale
【研究方向】Pain(0+15); Sodium channel(0+6); Sclerosis(0+5); Ion Channel(0+4); Neurology(0+4); Spinal Cord Injury(0+4); Neuropathic pain(0+4); Sense(0+2); Regulation(0+1); Pluripotent stem cells(0+1); CNS(0+1); Disease(0+1); Therapy(0+1); Stroke(0+1); Reasoning(0+1); Emotion(0+1); Encoding(0+1); Imaging(0+1);
【模式生物】Human(0+5); Stem Cell(0+2);
【方法技术】Gene(0+5); Model(0+5); Channel(0+4); Electrophysiology(0+2); Pharmacology(0+1);
【简述】Axons; Electrophysiology; Ion Channels; Multiple Sclerosis; Neurology; Neurosciences; Sodium Channels; Stroke.
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
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.
NIH-NICHD??Bethesda, MD, USAR. Douglas Fields

NIH-NICHD
【研究方向】Development(2+5); Spine(4+0); Cognition(4+0); Structure(1+2); Glia(0+3); Plasticity(0+2); Intracellular signaling(0+2); Proliferation(0+2); Differentiation(0+2); Learning and memory(0+2); Regulation(1+0); Receptor(1+0); Synaptic Plasticity(0+1); LTP(0+1); Synaptogenesis(0+1); Synapse remodeling(0+1); Disease(0+1); Neurology(1+0); Therapy(1+0); Alzheimer's disease(1+0); Parkinson's disease(1+0); Injury(0+1); Vision(1+0); Reasoning(1+0); Metabolism(1+0); Imaging(0+1);
【模式生物】
【方法技术】Gene(0+2); In vitro(2+0); Virus(1+0); In vivo(0+1); Electrophysiology(0+1); Two-photon calcium imaging(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, USAOliver Hobert

Columbia
【研究方向】Development(18+2); Transcription(5+0); Differentiation(4+1); Cell fate(4+0); Axon(3+1); Regulation(3+0); Receptor(3+0); Embryo(2+0); Axon guidance(2+0); Synaptogenesis(1+1); Finger(2+0); Interneuron(2+0); Transgenic(1+0); Mutant(1+0); Neurotransmitter(1+0); Synaptic Transmission(1+0); Neurogenesis(1+0); Environment(0+1); Branching(1+0); Neuromuscular(1+0); Hypoxia(1+0); Olfaction(1+0); Motor Neuron(1+0);
【模式生物】C. elegans(45+2);
【方法技术】Gene(8+2); Protein(5+0); Behavior(3+1); Model(0+1);
【简述】Synapses and Circuits; Cell Specification and Differentiation; Neurogenetics; Axon Pathfinding and Synaptogenesis; Cellular/Molecular/Developmental Neuroscience;
【研究论文】Nature(8); Science(2); Cell(8); Neuron(9); Nature Methods(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Gary RuvkunKristin Tessmar-Raible, Tatiana Popovitchenko, Hannes Bulow, Ephraim L. Tsalik, Sarah L. Chang, Nehal A. Mehta, Adam S. Wenick, Katherine L. Berry, Thomas Boulin, John F. Etchberger, Eileen B. Flowers, Christopher O. Ortiz, M. M. O'Meara, Sumeet Sarin, Enkelejda Bashllari, Andrew D. Goldsmith, Heidi Kay Smith, Feifan Zhang, Vincent Bertrand, Nuria Flames, Roger Pocock, Chen Wang, Steven J. CookJon T. Pierce-ShimomuraYears: 2018 — 2019; Recipients: Hobert, Oliver; Code: R21; Title/Keywords: A Nervous System-Wide Analysis of C. Elegans Homeobox Gene Function@ Columbia Univ New York Morningside; Matching Score: 0.939015781Prof.
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.
NYU015028New York, NY, USAEmily Balcetis

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

【研究论文】Science(5);
【综述】Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
002928Assoc Prof.
Columbia006008New York, NY, USAEdmund Au

Columbia
【研究方向】Interneuron(1+2); Differentiation(0+2); Disease(0+2); Disorder(0+2); Synaptic Transmission(1+0); Oscillation(0+1); Epilepsy(0+1); Development(0+1); Neurogenesis(1+0); Cell line(0+1); Cell lineage(0+1); Environment(0+1); Microcircuit(0+1); Psychiatric disorder(0+1); Autism(0+1); Schizophrenia(0+1); Olfaction(1+0); Timing(0+1); Attention(0+1);
【模式生物】Stem Cell(1+5);
【方法技术】Model(0+2); In vitro(0+1);
【简述】Cell Lineage Specification ; Neuronal Migration ; Synaptic Specificity; Models of Psychiatric Illness ;
【研究论文】Nature(1); Nature Neuroscience(1); Neuron(1); JNS(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
A Jane Roskams, Gord J. FishellAssist Prof.
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.
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
UCLA011013Los Angeles, CA, USABarbara J. Knowlton

UCLA
【研究方向】Psychiatry(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, USAJames Trudell

Stanford
【研究方向】Receptor(9+0); Alcohol(7+1); Modulation(4+0); Glycine receptor(4+0); Ligand gated ion channel(2+1); Ion Channel(2+1); GABAA receptor(2+0); Chemical neuroscience(2+0); Disorder(2+0); Amino acid(1+0); Potassium channel(1+0); Structure(0+1); Anesthesia(0+1); Development(1+0); Therapeutics(1+0); A2(1+0);
【模式生物】Human(2+0); Mouse(1+0);
【方法技术】Pharmacology(4+0); Model(2+1); Channel(1+0); Behavior(1+0); Computation(0+1); Theory(0+1);
【简述】
【研究论文】
【综述】Pharmacological Review(1);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Years: 2013 — 2017; Recipients: Trudell, James Robert; Code: R01; Title/Keywords: Defining Alcohol Binding Sites in Ligand-Gated Ion Channels@ Stanford University; Matching Score: 0.958Prof.
UCSF003015San Francisco, CA, USAStephen Hauser

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

UCSD
【研究方向】Cognition(0+2); Structure(0+1); Rhythm(0+1); Attention(0+1); Aggression(0+1); Circadian(0+1); Sleep(0+1); Neural network(0+1); Optical imaging(0+1);
【模式生物】Drosophila(0+3);
【方法技术】Behavior(0+6); Gene(0+4); Biochemistry(0+1);
【简述】 Biochemistry & Molecular; Systems; Cognitive, Behavioral & Psychopharmacology
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
UCSD011017San Diego, CA, USADavid P. Salmon

UCSD
【研究方向】Cognition(0+8); Semantic(0+7); Alzheimer's disease(0+6); Memory(0+6); Body(0+5); Disorder(0+4); Parkinson's disease(0+3); Vision(0+3); Attention(0+3); Knowledge(0+3); Structure(0+2); Disease(0+2); Degeneration(0+2); Huntington's disease(0+2); Concept(0+2); Alzheimer's(0+1); Parkinson's(0+1); Motor(0+1); Learning(0+1); Acquisition(0+1); Executive function(0+1);
【模式生物】Human(0+1);
【方法技术】Behavior(0+1);
【简述】 Cognitive, Behavioral & Psychopharmacology; Clinical
【研究论文】
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
MIT005002Boston, MA, USAKen Wexler

MIT
【研究方向】Language(1+14); Language acquisition(2+1); Development(1+1); Learning(0+2); Acquisition(2+0); Structure(0+1); Plasticity(0+1); Autism(0+1); Syntax(0+1); Morphology(0+1); Comprehension(1+0);
【模式生物】Human(0+1);
【方法技术】Computation(0+3); Theory(0+3); 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
Prof.
NYU015028New York, NY, USASteven Galetta

NYU
【研究方向】Neurology(3+0); Disorder(0+1); Sclerosis(0+1); Vision(0+1);
【模式生物】
【方法技术】
【简述】Treatment of double vision, multiple sclerosis (MS), neuro-ophthalmology, and optic nerve disorders
【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
Prof.
NIH-NIMH??Bethesda, MD, USAMario A Penzo

NIH-NIMH
【研究方向】Amygdala(9+0); Fear(7+0); Thalamus(4+0); Receptor(3+0); Synaptic Transmission(2+0); Neuroprotective(2+0); Neuroprotection(2+0); Anxiety(2+0); Extended amygdala(2+0); Basal ganglia(2+0); Locus coeruleus(2+0); LTD(1+0); Dysfunction(1+0); Psychiatry(1+0); Depression(1+0); Interneuron(1+0); Memory(0+1); PFC(1+0);
【模式生物】Mouse(1+0);
【方法技术】Behavior(3+0);
【简述】Unit on the Neurobiology of Affective Memory
【研究论文】Nature(2); Nature Neuroscience(2); JNS(7);
【链接】机构网站, NeuroTree, 谷歌学术, 微软学术, PubMed
Jose Luis Pena000682
WUSTL009