幼鱼斑马鱼后外侧线传入神经元的组织和生理学。
Organization and physiology of posterior lateral line afferent neurons in larval zebrafish.
机构信息
The Whitney Laboratory for Marine Bioscience-Department of Biology, St Augustine, FL, USA.
出版信息
Biol Lett. 2010 Jun 23;6(3):402-5. doi: 10.1098/rsbl.2009.0995. Epub 2010 Feb 24.
Abstract
The lateral line system of larval zebrafish can translate hydrodynamic signals from the environment to guide body movements. Here, I demonstrate a spatial relationship between the organization of afferent neurons in the lateral line ganglion and the innervation of neuromasts along the body. I developed a whole cell patch clamp recording technique to show that afferents innervate multiple direction-sensitive neuromasts, which are sensitive to low fluid velocities. This work lays the foundation to integrate sensory neuroscience and the hydrodynamics of locomotion in a model genetic system.
摘要
幼鱼的侧线系统可以将环境中的水动力信号转化为引导身体运动的信息。在这里,我展示了侧线神经节中传入神经元的组织与身体上神经丘的神经支配之间的空间关系。我开发了一种全细胞膜片钳记录技术,证明传入神经支配多个方向敏感的神经丘,这些神经丘对低流速的流体敏感。这项工作为在模型遗传系统中整合感觉神经科学和运动水动力学奠定了基础。
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