2016 - Fellow of the American Association for the Advancement of Science (AAAS)
1999 - Fellow of Alfred P. Sloan Foundation
Her main research concerns Neuroscience, Neuroplasticity, Neocortex, Dendritic filopodia and Excitatory synapse. The Neuroscience study combines topics in areas such as Anatomy and Developmental plasticity. Her biological study spans a wide range of topics, including Cerebral cortex, Period, gamma-Aminobutyric acid, GABAergic and Visual cortex.
While the research belongs to areas of Neocortex, she spends her time largely on the problem of Inhibitory postsynaptic potential, intersecting her research to questions surrounding Sensory deprivation, Dendritic branch, Visual system and Regulation of gene expression. Excitatory postsynaptic potential and Dendritic spine are closely tied to her Dendritic filopodia research. Her work investigates the relationship between Sensory system and topics such as Cortex that intersect with problems in Cell biology.
Elly Nedivi mainly focuses on Neuroscience, Neuroplasticity, Inhibitory postsynaptic potential, Dendritic spine and Excitatory postsynaptic potential. Her study in Neuroscience focuses on Visual cortex, Sensory system, Neocortex, Cerebral cortex and Synapse. Her Neuroplasticity research integrates issues from Dendritic branch, Period, Developmental plasticity, Interneuron and Regulation of gene expression.
Her study in Inhibitory postsynaptic potential is interdisciplinary in nature, drawing from both Synaptic plasticity and Neuron. The study incorporates disciplines such as Dendrite and Spine in addition to Dendritic spine. Elly Nedivi has researched Excitatory postsynaptic potential in several fields, including Cortex, AMPA receptor and Biological neural network.
Elly Nedivi focuses on Neuroscience, Inhibitory postsynaptic potential, Visual cortex, Sensory system and Dendritic spine. Her study in Neuroplasticity and Synapse is carried out as part of her studies in Neuroscience. Her research in Neuroplasticity intersects with topics in Cerebral cortex, Long-term potentiation, Interneuron and AMPA receptor.
In her study, which falls under the umbrella issue of Inhibitory postsynaptic potential, Neocortex, Myelin and Glutamate receptor is strongly linked to Neuron. Sensory system is closely attributed to Excitatory postsynaptic potential in her research. Her work carried out in the field of Dendritic spine brings together such families of science as Inhibitory cell, Pyramidal cell, Dendrite, Axon initial segment and Pyramidal Neuron.
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Long-term, high-resolution imaging in the mouse neocortex through a chronic cranial window
Anthony Holtmaat;Anthony Holtmaat;Tobias Bonhoeffer;David K Chow;Jyoti Chuckowree.
Nature Protocols (2009)
Numerous candidate plasticity-related genes revealed by differential cDNA cloning
Elly Nedivi;Dana Hevroni;Dorit Naot;David Israeli.
Clustered Dynamics of Inhibitory Synapses and Dendritic Spines in the Adult Neocortex
Jerry L. Chen;Katherine L. Villa;Katherine L. Villa;Jae Won Cha;Peter T.C. So.
Spine Dynamics: Are They All the Same?
Kalen P. Berry;Elly Nedivi;Elly Nedivi.
The Function of Activity-Regulated Genes in the Nervous System
Sven Loebrich;Elly Nedivi.
Physiological Reviews (2009)
Dynamic Remodeling of Dendritic Arbors in GABAergic Interneurons of Adult Visual Cortex
Wei-Chung Allen Lee;Hayden Huang;Guoping Feng;Joshua R Sanes.
PLOS Biology (2005)
Promotion of Dendritic Growth by CPG15, an Activity-Induced Signaling Molecule
Elly Nedivi;Gang Yi Wu;Hollis T. Cline.
Structural basis for the role of inhibition in facilitating adult brain plasticity
Jerry L Chen;Walter C. Lin;Walter C. Lin;Jae Won Cha;Peter T. C. So.
Nature Neuroscience (2011)
Hippocampal plasticity involves extensive gene induction and multiple cellular mechanisms
Dana Hevroni;Amir Rattner;Marsha Bundman;Doron Lederfein.
Journal of Molecular Neuroscience (1998)
Inhibitory Synapses Are Repeatedly Assembled and Removed at Persistent Sites In Vivo.
Katherine L. Villa;Katherine L. Villa;Kalen P. Berry;Kalen P. Berry;Jaichandar Subramanian;Jae Won Cha.
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