Junwoo Suh, Yehe Liu, Jordan Smith, Michiko Watanabe, Andrew M Rollins, Michael W Jenkins
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引用次数: 0
摘要
我们报告了一种与 RNA 荧光原位杂交 (FISH) 成像兼容的单步光学清除方法。此前,我们利用一种名为 "延长成像深度的脂质保留折射率匹配(LIMPID)"的技术,展示了免疫组化和基因报告的显微成像。我们的方案能利用高倍率物镜可靠地生成畸变最小的高分辨率三维(3D)图像,捕捉全装片组织的大视场图像,并支持抗体和 FISH 探针的联合标记。我们还为鹌鹑胚胎定制了 FISH 探针,展示了在不常见的动物模型中制作探针的简易性。此外,我们还使用传统荧光显微镜展示了高质量的三维图像,而无需使用共聚焦或光片显微镜等更先进的深度切片仪器。为了扩大应用范围,我们对 3D-LIMPID-FISH 进行了简化和优化,最大程度降低了入门门槛,并提供了详细的操作规程,帮助用户轻松驾驭三维显微镜。
A Simple and Fast Optical Clearing Method for Whole-Mount Fluorescence In Situ Hybridization (FISH) Imaging.
We report a single-step optical clearing method that is compatible with RNA fluorescence in situ hybridization (FISH) imaging. We previously demonstrated microscopy imaging with immunohistochemistry and genetic reporters using a technique called lipid-preserving refractive index matching for prolonged imaging depth (LIMPID). Our protocol reliably produces high-resolution three-dimensional (3D) images with minimal aberrations using high magnification objectives, captures large field-of-view images of whole-mount tissues, and supports co-labeling with antibody and FISH probes. We also custom-designed FISH probes for quail embryos, demonstrating the ease of fabricating probes for use with less common animal models. Furthermore, we show high-quality 3D images using a conventional fluorescence microscope, without using more advanced depth sectioning instruments such as confocal or light-sheet microscopy. For broader adoption, we simplified and optimized 3D-LIMPID-FISH to minimize the barrier to entry, and we provide a detailed protocol to aid users with navigating the thick and thin of 3D microscopy.
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