Juranić Martina, Nagahatenna Dilrukshi S K, Salinas-Gamboa Rigel, Hand Melanie L, Sánchez-León Nidia, Leong Weng Herng, How Tracy, Bazanova Natalia, Spriggs Andrew, Vielle-Calzada Jean-Philippe, Koltunow Anna M G
Commonwealth Scientific and Industrial Research Organisation (CSIRO) Agriculture and Food, Urrbrae, SA 5064 Australia.
Grupo de Desarrollo Reproductivo y Apomixis, UGA Laboratorio Nacional de Genómica para la Biodiversidad, CINVESTAV Irapuato, Guanajuato, Mexico.
Plant Methods. 2020 Jun 15;16:88. doi: 10.1186/s13007-020-00630-4. eCollection 2020.
The legume cowpea ( L.) is extensively grown in sub-Saharan Africa. Cowpea, like many legumes has proved recalcitrant to plant transformation. A rapid transient leaf assay was developed for testing gene expression and editing constructs prior to stable cowpea transformation, to accelerate cowpea and legume crop improvement.
Attempts to develop a transient protoplast system for cowpea were unsuccessful. Leaflets from plants 3-4 weeks post-germination were age selected to establish a rapid (Agro) infiltration-mediated transient system for efficacy testing of gene expression and CRISPR/Cas9 gene editing constructs. In planta, Agro-infiltration of leaflets with fluorescent expression constructs, resulted in necrosis. By contrast, Agro-infiltration of detached leaflets with an (At) promoter: construct, followed by culture on solid nutrient medium resulted in fluorescence in over 48% of leaf cells. Expression efficiency was leaf age-dependent. Three cowpea meiosis genes were identified for CRISPR/Cas9 gene-editing, with the forward aim of meiosis-knock out for asexual seed induction in cowpea. Constructs were designed and tested containing candidate gene-specific guide RNAs, expressed using either the cowpea or promoters with expression directed by either the 40S ribosomal protein or parsley - promoters. Leaflets were infiltrated with test gene-editing constructs and analytical methods developed to identify gene-specific mutations. A construct that produced mutations predicted to induce functional knockout of in the - meiosis gene was tested for efficacy in primary transgenic cowpea plants using a previously established stable transformation protocol. - mutants were identified, that cytologically phenocopied - mutants previously characterized in and rice. Importantly, a biallelic male and female sterile mutant was identified in primary transgenics, exhibiting the expected defects in 100% of examined male and female meiocytes.
The transient, detached cowpea leaf assay, and supporting analytical methods developed, provide a rapid and reproducible means for testing gene expression constructs, and constructs for inducing mutagenesis in genes involved in both vegetative and reproductive developmental programs. The method and tested editing constructs and components have potential application for a range of crop legumes.
豆科豇豆(Vigna unguiculata (L.) Walp.)在撒哈拉以南非洲广泛种植。豇豆和许多豆科植物一样,已被证明难以进行植物转化。在豇豆稳定转化之前,开发了一种快速瞬时叶片检测方法,用于测试基因表达和编辑构建体,以加速豇豆和豆科作物的改良。
开发豇豆瞬时原生质体系统的尝试未成功。选择发芽后3 - 4周植株的小叶,建立一种快速的农杆菌(Agro)浸润介导的瞬时系统,用于基因表达和CRISPR/Cas9基因编辑构建体的功效测试。在植物体内,用荧光表达构建体对小叶进行农杆菌浸润会导致坏死。相比之下,用一个拟南芥(Arabidopsis thaliana (At))启动子:构建体对离体小叶进行农杆菌浸润,然后在固体营养培养基上培养,超过48%的叶细胞出现荧光。表达效率取决于叶龄。鉴定出三个豇豆减数分裂基因用于CRISPR/Cas9基因编辑,其主要目的是通过敲除减数分裂基因来诱导豇豆产生无性种子。设计并测试了包含候选基因特异性引导RNA的构建体,这些构建体使用豇豆或拟南芥启动子表达,由40S核糖体蛋白或欧芹泛素启动子指导表达。用测试基因编辑构建体浸润小叶,并开发分析方法以鉴定基因特异性突变。使用先前建立的稳定转化方案,在初级转基因豇豆植株中测试了一个预测会诱导减数分裂基因功能敲除的构建体的功效。鉴定出了vum1 - 突变体,其细胞学表型与之前在拟南芥和水稻中鉴定的vum1 - 突变体相似。重要的是,在初级转基因植株中鉴定出了一个双等位基因的雄性和雌性不育突变体,在100%检测的雄性和雌性减数分裂细胞中表现出预期的缺陷。
开发的瞬时离体豇豆叶片检测方法及配套分析方法,为测试基因表达构建体以及诱导参与营养和生殖发育程序的基因突变的构建体,提供了一种快速且可重复的手段。该方法以及经过测试的编辑构建体和组件对一系列豆科作物具有潜在应用价值。
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