Isotropic imaging across spatial scales with axially swept light-sheet microscopy

薄层荧光显微镜 显微镜 计算机科学 光学切片 协议(科学) 纳米技术 荧光显微镜 轴对称性 光激活定位显微镜 光学 材料科学 超分辨显微术 物理 荧光 扫描共焦电子显微镜 病理 医学 替代医学 量子力学
作者
Kevin M. Dean,Tonmoy Chakraborty,Stephan Daetwyler,Jinlong Lin,Gerard Garrelts,Ons M’Saad,Hannahmariam T. Mekbib,Fabian F. Voigt,Martina Schaettin,Esther T. Stoeckli,Fritjof Helmchen,Joerg Bewersdorf,Reto Fiolka
出处
期刊:Nature Protocols [Nature Portfolio]
卷期号:17 (9): 2025-2053 被引量:43
标识
DOI:10.1038/s41596-022-00706-6
摘要

Light-sheet fluorescence microscopy is a rapidly growing technique that has gained tremendous popularity in the life sciences owing to its high-spatiotemporal resolution and gentle, non-phototoxic illumination. In this protocol, we provide detailed directions for the assembly and operation of a versatile light-sheet fluorescence microscopy variant, referred to as axially swept light-sheet microscopy (ASLM), that delivers an unparalleled combination of field of view, optical resolution and optical sectioning. To democratize ASLM, we provide an overview of its working principle and applications to biological imaging, as well as pragmatic tips for the assembly, alignment and control of its optical systems. Furthermore, we provide detailed part lists and schematics for several variants of ASLM that together can resolve molecular detail in chemically expanded samples, subcellular organization in living cells or the anatomical composition of chemically cleared intact organisms. We also provide software for instrument control and discuss how users can tune imaging parameters to accommodate diverse sample types. Thus, this protocol will serve not only as a guide for both introductory and advanced users adopting ASLM, but as a useful resource for any individual interested in deploying custom imaging technology. We expect that building an ASLM will take ~1-2 months, depending on the experience of the instrument builder and the version of the instrument.

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