高效的荧光激活原生质体分选(FAPS)和油菜籽(Brassica napus)再生方案

Sareena Sahab, Matthew J Hayden, John Mason, German Spangenberg
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引用次数: 0

摘要

原生质体分选和纯化方法是植物科学基础研究和应用研究中富集细胞亚群的有力工具。荧光激活原生质体分选(FAPS)是一种高效的方法,可根据固有特征(大小和自发荧光)或荧光蛋白的表达来分离特定的原生质体群体。基于 FAPS 的方法最近被用于单细胞纯化,以进行基于单细胞 RNA 测序的转录剖析研究。原生质体分选方法与培养和回收整株植物的能力相结合,为功能基因组学和基因编辑应用增添了价值。富集表达与荧光蛋白连接的核酸酶的细胞可以最大限度地提高基因敲除或基因敲入的编辑效率,并最大限度地减少毒性和脱靶效应。在此,我们报告了油菜原生质体的原生质体制备、无菌细胞分选、培养和下游植物再生方案。该方案可成功应用于所有可再生成整株植物的全能原生质体方法。© 2024 Wiley Periodicals LLC.Basic Protocol 1: Preparation of transfected canola protoplasts for sortingBasic Protocol 2: Fluorescence-activated protoplast sortingBasic Protocol 3: Bead culture of sorted protoplasts and recovery of plantlets.基本方案 1:准备用于分选的转染油菜原生质体基本方案 2:荧光激活的原生质体分选基本方案 3:分选原生质体的珠状培养和小植株的恢复
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An Efficient Fluorescence-Activated Protoplast Sorting (FAPS) and Regeneration Protocol for Canola (Brassica napus)

Protoplast sorting and purification methods are powerful tools enabling the enrichment of cellular subpopulations for basic and applied studies in plant sciences. Fluorescence-activated protoplast sorting (FAPS) is an efficient method to isolate specific protoplast populations based on innate features (size and autofluorescence) or expression of fluorescent proteins. FAPS-based methods have recently been deployed in single-cell purification for single-cell RNA sequencing–based transcriptional profiling studies. Protoplast sorting methods integrated with the ability to culture and recover whole plants add value to functional genomics and gene editing applications. Enriching cells expressing nucleases linked to fluorescent proteins can maximize knockout or knockin editing efficiencies and minimize toxic and off-target effects. Here, we report the protocol for protoplast preparation, sterile cell sorting, culture, and downstream regeneration of plants from canola protoplasts. This protocol can be successfully applied to all totipotent protoplast methods that can regenerate into whole plants. © 2024 Wiley Periodicals LLC.

Basic Protocol 1: Preparation of transfected canola protoplasts for sorting

Basic Protocol 2: Fluorescence-activated protoplast sorting

Basic Protocol 3: Bead culture of sorted protoplasts and recovery of plantlets

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