晶格层光片显微镜:以高时空分辨率对分子和胚胎进行成像。
Lattice light-sheet microscopy: imaging molecules to embryos at high spatiotemporal resolution.
机构信息
Janelia Research Campus, Howard Hughes Medical Institute, Ashburn, VA 20147, USA.
Coleman Technologies, Incorporated, Newtown Square, PA 19073, USA.
出版信息
Science. 2014 Oct 24;346(6208):1257998. doi: 10.1126/science.1257998. Epub 2014 Oct 23.
Abstract
Although fluorescence microscopy provides a crucial window into the physiology of living specimens, many biological processes are too fragile, are too small, or occur too rapidly to see clearly with existing tools. We crafted ultrathin light sheets from two-dimensional optical lattices that allowed us to image three-dimensional (3D) dynamics for hundreds of volumes, often at subsecond intervals, at the diffraction limit and beyond. We applied this to systems spanning four orders of magnitude in space and time, including the diffusion of single transcription factor molecules in stem cell spheroids, the dynamic instability of mitotic microtubules, the immunological synapse, neutrophil motility in a 3D matrix, and embryogenesis in Caenorhabditis elegans and Drosophila melanogaster. The results provide a visceral reminder of the beauty and the complexity of living systems.
摘要
虽然荧光显微镜为观察活标本的生理学提供了一个至关重要的窗口,但许多生物过程太脆弱、太小或发生得太快,以至于现有的工具无法清晰地看到。我们从二维光学晶格中制作了超薄的光片,使我们能够以亚秒级的时间间隔、在衍射极限及以外的分辨率对数百个体积的三维(3D)动力学进行成像。我们将其应用于跨越四个空间和时间量级的系统,包括干细胞球体中单转录因子分子的扩散、有丝分裂微管的动态不稳定性、免疫突触、中性粒细胞在 3D 基质中的运动以及秀丽隐杆线虫和黑腹果蝇的胚胎发生。结果提供了一个生动的提醒,让我们看到了生命系统的美丽和复杂性。
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