The cellular and molecular basis of somatosensory neuron development
Primary somatosensory neurons convey salient information about our external environment and internal state to the CNS, allowing us to detect, perceive, and react to a wide range of innocuous and noxious stimuli. Pseudo-unipolar in shape, and among the largest (longest) cells of most mammals, dorsal...
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| Veröffentlicht in: | Neuron (Cambridge, Mass.) Mass.), 2021-12, Vol.109 (23), p.3736-3757 |
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| creator | Meltzer, Shan Santiago, Celine Sharma, Nikhil Ginty, David D. |
| description | Primary somatosensory neurons convey salient information about our external environment and internal state to the CNS, allowing us to detect, perceive, and react to a wide range of innocuous and noxious stimuli. Pseudo-unipolar in shape, and among the largest (longest) cells of most mammals, dorsal root ganglia (DRG) somatosensory neurons have peripheral axons that extend into skin, muscle, viscera, or bone and central axons that innervate the spinal cord and brainstem, where they synaptically engage the central somatosensory circuitry. Here, we review the diversity of mammalian DRG neuron subtypes and the intrinsic and extrinsic mechanisms that control their development. We describe classical and contemporary advances that frame our understanding of DRG neurogenesis, transcriptional specification of DRG neurons, and the establishment of morphological, physiological, and synaptic diversification across somatosensory neuron subtypes.
Meltzer et al. describe classical and contemporary advances that frame modern thinking of somatosensory neuron development, from neurogenesis and transcriptional specification of the somatosensory neuron subtypes to the acquisition of their mature morphological, physiological, and synaptic properties. |
| doi_str_mv | 10.1016/j.neuron.2021.09.004 |
| format | Article |
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| title | The cellular and molecular basis of somatosensory neuron development |
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