Azimzadeh Julien B, Salvi Joshua D
Laboratory of Sensory Neuroscience, The Rockefeller University.
Laboratory of Sensory Neuroscience, The Rockefeller University;
J Vis Exp. 2017 Mar 17(121):55380. doi: 10.3791/55380.
The study of hearing and balance rests upon insights drawn from biophysical studies of model systems. One such model, the sacculus of the American bullfrog, has become a mainstay of auditory and vestibular research. Studies of this organ have revealed how sensory cells hair can actively detect signals from the environment. Because of these studies, we now better understand the mechanical gating and localization of a hair cell's transduction channels, calcium's role in mechanical adaptation, and the identity of hair cell currents. This highly accessible organ continues to provide insight into the workings of hair cells. Here we describe the preparation of the bullfrog's sacculus for biophysical studies on its hair cells. We include the complete dissection procedure and provide specific protocols for the preparation of the sacculus in specific contexts. We additionally include representative results using this preparation, including the calculation of a hair bundle's instantaneous force-displacement relation and measurement of a bundle's spontaneous oscillation.
对听觉和平衡的研究依赖于从模型系统的生物物理研究中获得的见解。其中一个这样的模型,即美国牛蛙的球囊,已成为听觉和前庭研究的支柱。对这个器官的研究揭示了感觉细胞的毛是如何主动检测来自环境的信号的。由于这些研究,我们现在对毛细胞转导通道的机械门控和定位、钙在机械适应中的作用以及毛细胞电流的特性有了更好的理解。这个极易获取的器官继续为了解毛细胞的工作原理提供见解。在这里,我们描述了用于对牛蛙球囊毛细胞进行生物物理研究的标本制备方法。我们包括完整的解剖程序,并提供在特定情况下制备球囊的具体方案。此外,我们还包括使用该标本获得的代表性结果,包括毛束瞬时力-位移关系的计算和毛束自发振荡的测量。