AI Article Synopsis
- The organ of Corti in the cochlea contains hair and supporting cells organized for sound detection with a tonotopic gradient.
- The text details a dissection method that allows for visual analysis of the cochlea's cellular structure using techniques like immunostaining and confocal microscopy, particularly beneficial for studying cell loss and gene expression.
- The method can be adapted for different ages of mice and rats, including a technique for preparing the organ of Corti into three intact cochlear turns for research purposes.
Article Abstract
The organ of Corti, housed in the cochlea of the inner ear, contains mechanosensory hair cells and surrounding supporting cells which are organized in a spiral shape and have a tonotopic gradient for sound detection. The mouse cochlea is approximately 6 mm long and often divided into three turns (apex, middle, and base) for analysis. To investigate cell loss, cell division, or mosaic gene expression, the whole mount or surface preparation of the cochlea is useful. This dissection method allows visualization of all cells within the organ of Corti when combined with immunostaining and confocal microscopy to image cells at different planes in the z-axis. Multiple optical cross-sections can also be obtained from these z-stack images. In addition, the whole mount dissection method can be used for scanning electron microscopy, although a different fixation method is needed. Here, we present a method to isolate the organ of Corti as three intact cochlear turns (apex, middle, and base). This method can be used for mice ranging from one week of age through adulthood and differs from the technique used for neonatal samples where calcification of the cochlea is incomplete. A slightly modified version can be used for dissection of the rat cochlea. We also demonstrate a procedure for immunostaining with fluorescently tagged antibodies.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4780967 | PMC |
| http://dx.doi.org/10.3791/53561 | DOI Listing |
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