Using Flow Cytometry to Isolate Maize Meiocytes for Next Generation Sequencing: A Time and Labor Efficient Method

Q1 Agricultural and Biological Sciences

Current protocols in plant biology Pub Date : 2018-05-24 DOI:10.1002/cppb.20068

Pearl Chang, Yu-Fang Tseng, Pao-Yang Chen, Chung-Ju Rachel Wang

引用次数: 6

Abstract

Meiosis is essential during sexual reproduction to generate haploid gametes. Genomic or epigenomic studies of meiosis in multicellular organisms using next-generation sequencing (NGS) methods have been limited because of the difficulty of collecting thousands to millions of meiocytes. Here, we describe a simple protocol to efficiently isolate maize male meiocytes from formaldehyde-fixed samples for NGS techniques that require chemical crosslinking to preserve complex interactions or chromatin architecture. Anthers at desired meiotic stages are selected, fixed with paraformaldehyde, and disrupted using a homogenizer. Cell walls are digested to produce a cell suspension containing small somatic cells and large individual meiocytes. The meiocyte fraction is enriched by size separation with cell strainers and further purified by flow cytometry. From 400 anthers, we can isolate 20,000 meiocytes at 98% purity in 6 to 8 hours. © 2018 by John Wiley & Sons, Inc.

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用流式细胞术分离玉米减数细胞用于下一代测序:一种省时省力的方法

减数分裂在有性生殖过程中产生单倍体配子是必不可少的。使用下一代测序(NGS)方法进行多细胞生物减数分裂的基因组学或表观基因组学研究受到限制，因为难以收集数千到数百万个减数细胞。在这里，我们描述了一种简单的方案，可以有效地从甲醛固定样品中分离玉米雄性减数细胞，用于NGS技术，该技术需要化学交联来保存复杂的相互作用或染色质结构。选择减数分裂阶段所需的花药，用多聚甲醛固定，并用匀浆器破坏。细胞壁被消化，产生含有小体细胞和大的单个减数细胞的细胞悬浮液。减数细胞部分通过细胞过滤器的大小分离富集，并通过流式细胞术进一步纯化。从400个花药中，我们可以在6到8小时内以98%的纯度分离出20,000个减数细胞。©2018 by John Wiley &儿子,Inc。

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来源期刊

Current protocols in plant biology Agricultural and Biological Sciences-Plant Science

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期刊介绍： Sound and reproducible laboratory methods are the foundation of scientific discovery. Yet nuances that are critical for an experiment''s success are not captured in the primary literature but exist only as part of a lab''s oral tradition. Current Protocols in Plant Biology provides reproducible step-by-step instructions for protocols relevant to plant research. Furthermore, Current Protocols content is thoughtfully organized by topic for optimal usage and to maximize contextual knowledge. Quarterly issues allow Current Protocols in Plant Biology to constantly evolve to keep pace with the newest discoveries and developments. Current Protocols in Plant Biology is the comprehensive source for protocols in the multidisciplinary field of plant biology, providing an extensive range of protocols from basic to cutting edge. Coverage includes: Extraction and analysis of DNA, RNA, proteins Chromosome analysis Transcriptional analysis Protein expression Metabolites Plant enzymology Epigenetics Plant genetic transformation Mutagenesis Arabidopsis, Maize, Poplar, Rice, and Soybean, and more.