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CRISPR/Cas9诱导大麦假定ENGase基因中的可遗传基因组片段缺失和小插入缺失

Heritable Genomic Fragment Deletions and Small Indels in the Putative ENGase Gene Induced by CRISPR/Cas9 in Barley.

作者信息

Kapusi Eszter, Corcuera-Gómez Maria, Melnik Stanislav, Stoger Eva

机构信息

Department of Applied Genetics and Cell Biology, University of Natural Resources and Life SciencesVienna, Austria.

出版信息

Front Plant Sci. 2017 Apr 25;8:540. doi: 10.3389/fpls.2017.00540. eCollection 2017.

DOI:10.3389/fpls.2017.00540
PMID:28487703
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5404177/
Abstract

Targeted genome editing with the CRISPR/Cas9 system has been used extensively for the selective mutation of plant genes. Here we used CRISPR/Cas9 to disrupt the putative barley ( cv. "Golden Promise") endo--acetyl-β-D-glucosaminidase (ENGase) gene. Five single guide RNAs (sgRNAs) were designed for different target sites in the upstream part of the ENGase coding region. Targeted fragment deletions were induced by co-bombarding selected combinations of sgRNA with wild-type cas9 using separate plasmids, or by co-infection with separate cultures. Genotype screening was carried out in the primary transformants (T0) and their T1 progeny to confirm the presence of site-specific small insertions and deletions (indels) and genomic fragment deletions between pairs of targets. Cas9-induced mutations were observed in 78% of the plants, a higher efficiency than previously reported in barley. Notably, there were differences in performance among the five sgRNAs. The induced indels and fragment deletions were transmitted to the T1 generation, and transgene free (sgRNA:cas9 negative) genome-edited homozygous ENGase knock outs were identified among the T1 progeny. We have therefore demonstrated that mutant barley lines with a disrupted endogenous ENGase and defined fragment deletions can be produced efficiently using the CRISPR/Cas9 system even when this requires co-transformation with multiple plasmids by bombardment or -mediated transformation. We confirm the specificity and heritability of the mutations and the ability to efficiently generate homozygous mutant T1 plants.

摘要

CRISPR/Cas9系统介导的靶向基因组编辑已被广泛用于植物基因的选择性突变。在此,我们使用CRISPR/Cas9破坏了假定的大麦(品种“金色承诺”)内切β-D-氨基葡萄糖苷酶(ENGase)基因。针对ENGase编码区上游的不同靶位点设计了5个单向导RNA(sgRNA)。通过将sgRNA的选定组合与野生型cas9使用单独的质粒共轰击,或通过单独培养物的共感染来诱导靶向片段缺失。在初级转化体(T0)及其T1子代中进行基因型筛选,以确认位点特异性小插入和缺失(indel)以及靶标对之间基因组片段缺失的存在。在78%的植株中观察到了Cas9诱导的突变,效率高于先前在大麦中报道的。值得注意的是,5个sgRNA的表现存在差异。诱导的indel和片段缺失传递到了T1代,并且在T1子代中鉴定出了无转基因(sgRNA:cas9阴性)的基因组编辑纯合ENGase敲除植株。因此,我们证明了即使需要通过轰击或介导的转化与多个质粒共转化,使用CRISPR/Cas9系统也能高效产生具有破坏的内源性ENGase和确定片段缺失的突变大麦品系。我们证实了突变的特异性和遗传性以及高效产生纯合突变T1植株的能力。

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