Isolation of Plant Root Nuclei for Single Cell RNA Sequencing

Q1 Agricultural and Biological Sciences Current protocols in plant biology Pub Date : 2020-10-09 DOI:10.1002/cppb.20120

Sandra Thibivilliers, Dirk Anderson, Marc Libault

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引用次数: 25

Abstract

The characterization of the transcriptional similarities and differences existing between plant cells and cell types is important to better understand the biology of each cell composing the plant, to reveal new molecular mechanisms controlling gene activity, and to ultimately implement meaningful strategies to enhance plant cell biology. To gain a deeper understanding of the regulation of plant gene activity, the individual transcriptome of each plant cell needs to be established. Until recently, single cell approaches were mostly limited to bulk transcriptomic studies on selected cell types. Accessing specific cell types required the development of labor-intensive strategies. Recently, single cell sequencing strategies were successfully applied on isolated Arabidopsis thaliana root protoplasts. However, this strategy relies on the successful isolation of viable protoplasts upon the optimization of the enzymatic cocktails required to digest the cell wall and on the compatibility of fragile plant protoplasts with the use of microfluidic systems to generate single cell transcriptomic libraries. To overcome these difficulties, we present a simple and fast alternative strategy: the isolation and use of plant nuclei to access meaningful transcriptomic information from plant cells. This protocol was specifically developed to enable the use of the plant nuclei with 10× Genomics’ Chromium technology partitions technology. Briefly, the plant nuclei are released from the root by chopping into a nuclei isolation buffer before purification by filtration then nuclei sorting. Upon sorting, the nuclei are resuspended in a low divalent ion buffer compatible with the Chromium technology in order to create single nuclei ribonucleic acid-sequencing libraries (sNucRNA-seq). © 2020 Wiley Periodicals LLC.

Basic Protocol 1: Arabidopsis seed sterilization and planting

Basic Protocol 2: Nuclei isolation from Arabidopsis roots

Basic Protocol 3: Fluorescent-activated nuclei sorting (FANS) purification

Support Protocol: Estimation of nuclei density using Countess II automated cell counter

Alternate Protocol 1: Proper growth conditions for Medicago truncatula and Sorghum bicolor

Alternate Protocol 2: Estimation of nuclei density using sNucRNA-seq technology

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植物根核分离及单细胞RNA测序

研究植物细胞和细胞类型之间存在的转录相似性和差异，对于更好地了解组成植物的每个细胞的生物学特性，揭示控制基因活性的新分子机制，并最终实施有意义的策略来提高植物细胞生物学水平具有重要意义。为了更深入地了解植物基因活性的调控，需要建立每个植物细胞的个体转录组。直到最近，单细胞方法大多局限于对选定细胞类型的大量转录组学研究。获取特定的细胞类型需要开发劳动密集型策略。近年来，单细胞测序技术已成功应用于拟南芥根原生质体的分离。然而，这一策略依赖于成功分离有活力的原生质体，优化消化细胞壁所需的酶混合物，以及脆弱的植物原生质体与使用微流控系统生成单细胞转录组文库的兼容性。为了克服这些困难，我们提出了一种简单而快速的替代策略:分离和利用植物细胞核从植物细胞中获取有意义的转录组信息。该方案是专门开发的，以便能够使用10x Genomics的Chromium技术分区技术的植物细胞核。简单地说，植物的细胞核从根部被切到核分离缓冲液中释放出来，然后经过过滤和核分选纯化。分选后，将细胞核重悬在与Chromium技术兼容的低二价离子缓冲液中，以创建单核核糖核酸测序文库(sNucRNA-seq)。©2020 Wiley期刊有限责任公司基本方案1:拟南芥种子消毒和种植基本方案2:从拟南芥根中分离细胞核基本方案3:荧光活化核分选(FANS)纯化支持方案:使用伯爵伯爵II自动细胞计数器估计核密度备用方案1:适当的生长条件为短叶紫花草和高粱双色备用方案2:使用sNucRNA-seq技术估计核密度

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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.