Add to ORKGThe extraordinary scope of neuronal plasticity has been appreciated only recently. The neuron is capable not only of altering structure and function quantitatively, but also of undergoing phenotypic transformation under appropriate circumstances. It is now well established from in vivo and in vitro studies that neurons may change transmitters, and thus phenotypes, during a relatively prolonged period of life. This, of course, has raised the possibility that neurons can change a variety of functions and capabilities, and that, for example, recovery after illness or regeneration after injury may be induced by appropriate treatments. In turn, a central issue in understanding the regulation of phenotypic expression in neurons, as well as other ...
The Salk Institute for Biological Studies, Laboratory of Genetics, 10010 North Torrey Pines Road, La...
Animal models of neurodevelopmental disorders have provided invaluable insights into the molecular-,...
The capability of the brain to change functionally in response to sensory experience is most active ...
The extraordinary scope of neuronal plasticity has been appreciated only recently. The neuron is cap...
The extraordinary scope of neuronal plasticity has been appreciated only recently. The neuron is cap...
Morphogenetic proteins are responsible for patterning the embryonic nervous system by enabling cell ...
As the papers in this volume make quite clear, secretory vesicles can contain peptides, proteins, p...
As in the hematopoietic system, the enormous variety of phenotypes in the nervous system arises, in...
Stem cell-derived neurons from various source materials present unique model systems to examine the ...
As in the hematopoietic system, the enormous variety of phenotypes in the nervous system arises, in...
Modifications of neuronal circuits allow the brain to adapt and change with experience. This plastic...
The capability of the brain to change functionally in response to sensory experience is most active ...
The specification of neurotransmitter phenotype is an important aspect of neuronal fate determinatio...
The specification of neurotransmitter phenotype is an important aspect of neuronal fate determinatio...
The specification of neurotransmitter phenotype is an important aspect of neuronal fate determinatio...
The Salk Institute for Biological Studies, Laboratory of Genetics, 10010 North Torrey Pines Road, La...
Animal models of neurodevelopmental disorders have provided invaluable insights into the molecular-,...
The capability of the brain to change functionally in response to sensory experience is most active ...
The extraordinary scope of neuronal plasticity has been appreciated only recently. The neuron is cap...
The extraordinary scope of neuronal plasticity has been appreciated only recently. The neuron is cap...
Morphogenetic proteins are responsible for patterning the embryonic nervous system by enabling cell ...
As the papers in this volume make quite clear, secretory vesicles can contain peptides, proteins, p...
As in the hematopoietic system, the enormous variety of phenotypes in the nervous system arises, in...
Stem cell-derived neurons from various source materials present unique model systems to examine the ...
As in the hematopoietic system, the enormous variety of phenotypes in the nervous system arises, in...
Modifications of neuronal circuits allow the brain to adapt and change with experience. This plastic...
The capability of the brain to change functionally in response to sensory experience is most active ...
The specification of neurotransmitter phenotype is an important aspect of neuronal fate determinatio...
The specification of neurotransmitter phenotype is an important aspect of neuronal fate determinatio...
The specification of neurotransmitter phenotype is an important aspect of neuronal fate determinatio...
The Salk Institute for Biological Studies, Laboratory of Genetics, 10010 North Torrey Pines Road, La...
Animal models of neurodevelopmental disorders have provided invaluable insights into the molecular-,...
The capability of the brain to change functionally in response to sensory experience is most active ...