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Remote control of induced dopaminergic neurons in parkinsonian rats
Maria Teresa Dell'Anno
,
Massimiliano Caiazzo
, Damiana Leo
, Elena Dvoretskova
, Lucian Medrihan
, Gaia Colasante
, Serena Giannelli
, Ilda Theka
, Giovanni Russo
, Liudmila Mus
, Gianni Pezzoli
, Raul R. Gainetdinov
, Fabio Benfenati
, Stefano Taverna
, Alexander Dityatev
, Vania Broccoli
UIPS - Utrecht Institute for Pharmaceutical Sciences
Institute of Genetics and Biophysics A. Buzzati-Traverso
Swiss Federal Institute of Technology Lausanne
Research output
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Keyphrases
Remote Control
100%
Induced Dopaminergic Neurons
100%
Parkinsonian Rats
100%
Parkinson's Disease
50%
Cell Replacement
33%
Replacement Approach
33%
DREADD
33%
Therapeutic Potential
16%
Beneficial Effects
16%
Direct Conversion
16%
Pharmacogenetics
16%
Cell-based
16%
Spontaneous Excitatory Postsynaptic Current (sEPSC)
16%
Dopamine Release
16%
Somatic Cells
16%
Genetic Basis
16%
Physiological Needs
16%
Substantial Reduction
16%
Cellular Signaling
16%
Neural Tissue
16%
Parkinson's Disease Model
16%
Living Animals
16%
Functional Properties
16%
Drug Dependence
16%
Motor Symptoms
16%
Cell Therapy
16%
Neuronal Activity
16%
Neuronal Cells
16%
Skin Fibroblasts
16%
Neuron Activation
16%
Functional Neurons
16%
Direct Reprogramming
16%
Neuronal Subtypes
16%
Real-time Control
16%
Cell Modeling
16%
Excitable Membrane
16%
Phenotypic Characteristics
16%
Neuroscience
Dopaminergic Neuron
100%
Parkinson's Disease
66%
Receptor
33%
Designer Drug
33%
In Vivo
16%
Dopaminergic
16%
Cell Signaling
16%
Reprogramming
16%
Neuronal Activity
16%
Dopamine Release
16%
Excitable Membrane
16%
Transgene
16%
Cell Therapy
16%
Somatic Cell
16%
Fibroblast
16%
Biochemistry, Genetics and Molecular Biology
Dopaminergic
100%
Genetics
14%
Animal Models
14%
Transgene
14%
Animal Disease Model
14%
Neuronal Activity
14%
Reprogramming
14%
Pharmacogenetics
14%
Dopamine Release
14%
Excitable Membrane
14%
Somatic Cell
14%
Fibroblast
14%