Imaging mitotic processes in three dimensions with lattice light-sheet microscopy.

IF 2.4 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Chromosome Research Pub Date : 2021-03-01 Epub Date: 2021-03-11 DOI:10.1007/s10577-021-09656-3
Yuko Mimori-Kiyosue
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引用次数: 6

Abstract

There are few technologies that can capture mitotic processes occurring in three-dimensional space with the desired spatiotemporal resolution. Due to such technical limitations, our understanding of mitosis, which has been studied since the early 1880s, is still incomplete with regard to mitotic processes and their regulatory mechanisms at a molecular level. A recently developed high-resolution type of light-sheet microscopy, lattice light-sheet microscopy (LLSM), has achieved unprecedented spatiotemporal resolution scans of intracellular spaces at the whole-cell level. This technology enables experiments that were not possible before (e.g., tracking of growth of every spindle microtubule end and discrimination of individual chromosomes in living cells), thus providing a new avenue for the analysis of mitotic processes. Herein, principles of LLSM technology are introduced, as well as experimental techniques that became possible with LLSM. In addition, issues remaining to be solved for use of this technology in mitosis research, big image data problems, are presented to help guide mitosis research into a new era.

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用点阵光片显微镜成像三维有丝分裂过程。
很少有技术能够以所需的时空分辨率捕获三维空间中发生的有丝分裂过程。由于技术上的限制,我们对自19世纪80年代初开始研究的有丝分裂的理解,在分子水平上对有丝分裂过程及其调控机制的理解仍然不完整。最近开发的一种高分辨率光片显微镜,晶格光片显微镜(LLSM),已经在全细胞水平上实现了前所未有的细胞内空间的时空分辨率扫描。这项技术使以前不可能的实验(例如,跟踪每个纺锤体微管末端的生长和活细胞中单个染色体的区分)成为可能,从而为分析有丝分裂过程提供了新的途径。本文介绍了LLSM技术的原理,以及LLSM使实验技术成为可能。此外,提出了该技术在有丝分裂研究中尚待解决的问题,即大图像数据问题,以帮助指导有丝分裂研究进入一个新的时代。
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来源期刊
Chromosome Research
Chromosome Research 生物-生化与分子生物学
CiteScore
4.70
自引率
3.80%
发文量
31
审稿时长
1 months
期刊介绍: Chromosome Research publishes manuscripts from work based on all organisms and encourages submissions in the following areas including, but not limited, to: · Chromosomes and their linkage to diseases; · Chromosome organization within the nucleus; · Chromatin biology (transcription, non-coding RNA, etc); · Chromosome structure, function and mechanics; · Chromosome and DNA repair; · Epigenetic chromosomal functions (centromeres, telomeres, replication, imprinting, dosage compensation, sex determination, chromosome remodeling); · Architectural/epigenomic organization of the genome; · Functional annotation of the genome; · Functional and comparative genomics in plants and animals; · Karyology studies that help resolve difficult taxonomic problems or that provide clues to fundamental mechanisms of genome and karyotype evolution in plants and animals; · Mitosis and Meiosis; · Cancer cytogenomics.
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