Engineering broad-spectrum resistance to cotton leaf curl disease by CRISPR-Cas9 based multiplex editing in plants.

IF 4.5 2区 农林科学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Gm Crops & Food-Biotechnology in Agriculture and the Food Chain Pub Date : 2021-12-31 Epub Date: 2021-06-14 DOI:10.1080/21645698.2021.1938488
Muhammad Salman Mubarik, Xiukang Wang, Sultan Habibullah Khan, Aftab Ahmad, Zulqurnain Khan, Muhammad Waqas Amjid, Muhammad Khuram Razzaq, Zulfiqar Ali, Muhammad Tehseen Azhar
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引用次数: 12

Abstract

Advances in genome editing technologies have tremendous potential to address the limitations of classical resistance breeding. CRISPR-Cas9 based gene editing has been applied successfully in plants to tolerate virus infections. In this study, we successfully tested CRISPR-Cas9 system to counteract cotton leaf curl disease (CLCuD) caused by whitefly transmitted cotton leaf curl viruses (CLCuVs). We also analyzed the ability of CLCuV to escape the Cas9 endonuclease activity. Targeting overlapping genes of most prevalent CLCuVs with three gRNAs resulted in virus interference, as validated by low virus titer. Furthermore, multiplex CRISPR-Cas9 construct simultaneously targeting six genes of CLCuV, was found more effective to interfere with virus proliferation compared to targeting single region individually. Additionally, transgenic N. benthamiana plants expressing multiple gRNAs simultaneously showed enhanced tolerance against CLCuV infection when compared to wild-type plants. T7 Endonuclease-I (T7EI) assay, showing indels in the CLCuV genome, confirmed the occurrence of double strand breaks (DSBs) in DNA at target sequence induced by Cas9 endonuclease. We observed that targeting CLCuV genome at multiple sites simultaneously resulted in better interference, also with inefficient recovery of altered virus molecules. Next, we tested multiplex construct in cotton to interfere CLCuV infection. We found significant decrease in virus accumulation in cotton leaves co-infiltrated with multiplex cassette and virus compared to cotton leaves infiltrated with virus only. The results demonstrate future use of CRISPR-Cas9 system for engineering virus resistance in crops. Moreover, our results also advocate that resistance to mixed virus infections can be engineered using multiplex genome editing.

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利用基于CRISPR-Cas9的多重编辑技术在植物中构建棉花卷曲病的广谱抗性
基因组编辑技术的进步具有巨大的潜力,可以解决传统抗性育种的局限性。基于CRISPR-Cas9的基因编辑已成功应用于植物耐受病毒感染。在这项研究中,我们成功地测试了CRISPR-Cas9系统对抗由白蝇传播的棉花卷曲病毒(clcuv)引起的棉花卷曲病(CLCuD)。我们还分析了CLCuV逃避Cas9内切酶活性的能力。用三种grna靶向大多数流行的clcuv的重叠基因会导致病毒干扰,这是通过低病毒滴度验证的。此外,同时靶向CLCuV的6个基因的多重CRISPR-Cas9构建比单独靶向单个区域更有效地干扰病毒增殖。此外,与野生型植物相比,同时表达多种grna的转基因benthamiana植物对CLCuV感染的耐受性增强。T7核酸内切酶- i (T7EI)检测显示了CLCuV基因组中的索引,证实了Cas9核酸内切酶诱导的靶序列DNA存在双链断裂(DSBs)。我们观察到,同时在多个位点靶向CLCuV基因组可以产生更好的干扰,但也不能有效地恢复改变的病毒分子。接下来,我们在棉花中测试了多重构建体对CLCuV感染的干扰。我们发现,与只侵染病毒的棉花叶片相比,复合盒和病毒共侵染的棉花叶片的病毒积累量显著减少。研究结果表明,CRISPR-Cas9系统将在未来用于作物的病毒抗性工程。此外,我们的研究结果还表明,可以使用多重基因组编辑来设计对混合病毒感染的抵抗力。
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来源期刊
Gm Crops & Food-Biotechnology in Agriculture and the Food Chain
Gm Crops & Food-Biotechnology in Agriculture and the Food Chain Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
8.10
自引率
10.30%
发文量
22
期刊介绍: GM Crops & Food - Biotechnology in Agriculture and the Food Chain aims to publish high quality research papers, reviews, and commentaries on a wide range of topics involving genetically modified (GM) crops in agriculture and genetically modified food. The journal provides a platform for research papers addressing fundamental questions in the development, testing, and application of transgenic crops. The journal further covers topics relating to socio-economic issues, commercialization, trade and societal issues. GM Crops & Food aims to provide an international forum on all issues related to GM crops, especially toward meaningful communication between scientists and policy-makers. GM Crops & Food will publish relevant and high-impact original research with a special focus on novelty-driven studies with the potential for application. The journal also publishes authoritative review articles on current research and policy initiatives, and commentary on broad perspectives regarding genetically modified crops. The journal serves a wide readership including scientists, breeders, and policy-makers, as well as a wider community of readers (educators, policy makers, scholars, science writers and students) interested in agriculture, medicine, biotechnology, investment, and technology transfer. Topics covered include, but are not limited to: • Production and analysis of transgenic crops • Gene insertion studies • Gene silencing • Factors affecting gene expression • Post-translational analysis • Molecular farming • Field trial analysis • Commercialization of modified crops • Safety and regulatory affairs BIOLOGICAL SCIENCE AND TECHNOLOGY • Biofuels • Data from field trials • Development of transformation technology • Elimination of pollutants (Bioremediation) • Gene silencing mechanisms • Genome Editing • Herbicide resistance • Molecular farming • Pest resistance • Plant reproduction (e.g., male sterility, hybrid breeding, apomixis) • Plants with altered composition • Tolerance to abiotic stress • Transgenesis in agriculture • Biofortification and nutrients improvement • Genomic, proteomic and bioinformatics methods used for developing GM cops ECONOMIC, POLITICAL AND SOCIAL ISSUES • Commercialization • Consumer attitudes • International bodies • National and local government policies • Public perception, intellectual property, education, (bio)ethical issues • Regulation, environmental impact and containment • Socio-economic impact • Food safety and security • Risk assessments
期刊最新文献
Risk-appropriate regulations for gene-editing technologies. An environmental risk assessment of IPD079Ea: a protein derived from Ophioglossum pendulum with activity against Diabrotica spp.In maize. Agricultural chemical use and the rural-urban divide in Canada. Exploring the GMO narrative through labeling: strategies, products, and politics. Cloning and functional analysis of ZmMADS42 gene in maize.
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