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Search Results - neurons

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TLX null; b-gal knock-in mice
TLX null; b-gal knock-in mice INVENTION: Orphan nuclear receptor TLX is expressed in adult mammalian brains and critical in maintaining the proliferative state of neural stem cells. TLX knockout mice display impaired cell proliferation and reduced neural progenitors in neurogenic areas of adult brains. These animals could be used as tools t...
Published: 8/18/2013   |   Inventor(s):  
Keywords(s): Alzheimer's Disease, Evans, Gage, Mouse Models, Neurodegenerative Disorders, Neurons, Parkinson's, Regenerative Medicine, Schizophrenia, Stem Cells
Category(s): Research Reagents, Neurosciences and Ophthalmology, Regenerative Medicine
Understanding Neural Networks: Identifying Monosynaptic Connections
Understanding Neural Networks: Identifying Monosynaptic Connections Brain Mapping: Specific labeling and/or manipulation of neural networks. INVENTION: Ed Callaway has identified a novel method for understanding neural networks by using a synaptic tracer that crosses only one synaptic step, unambiguously identifying cells directly presynap...
Published: 7/12/2013   |   Inventor(s):  
Keywords(s): Callaway, Neurons, Rabies, Transsynaptic Tracer, Viral Tracer
Category(s): Neurosciences and Ophthalmology
New Improved Media: Differentiation, Maintenance, and Electrophysiological Evaluation of Neuronal Cultures
New Improved Media: Differentiation, Maintenance, and Electrophysiological Evaluation of Neuronal Cultures BrainPhys is a novel media which improves differentiation and electrophysiological activity of neurons, supports long-term in vitro culture, mimics physiological conditions of the living brain, and allows for assessment of electrophysiolog...
Published: 7/9/2013   |   Inventor(s):  
Keywords(s): Calcium Signaling, Cell Culture Media, Cell Lines, Neurons, Patch Clamping, Regenerative Medicine, Reprogramming, Stem Cells
Category(s): Neurosciences and Ophthalmology, Regenerative Medicine, Research Reagents
Neural Progenitor Cells Generated from Cord Blood in 1-Step
Neural Progenitor Cells Generated from Cord Blood in 1-Step Development of cord blood induced neural-progenitor cells provides an alternative means to investigate cellular plasticity, drug screening and future cell replacement therapies. INVENTION: Salk Institute scientists have converted cord blood (CB) cells into neuronal progenitor-like cell...
Published: 3/8/2013   |   Inventor(s):  
Keywords(s): Neurons, Regenerative Medicine, Reprogramming, Stem Cells
Category(s): Regenerative Medicine, Neurosciences and Ophthalmology
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