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CRISPR/Cas9 介导的磷脂酶 C2 敲除番茄植株对灰霉菌的抗性增强。

CRISPR/Cas9-mediated phospholipase C 2 knock-out tomato plants are more resistant to Botrytis cinerea.

机构信息

Instituto de Investigaciones Biológicas, CONICET-Universidad Nacional de Mar del Plata, Mar del Plata, Argentina.

Programa de Tecnología, Valorización e Innovación de Productos Pequeros, Instituto de Investigación y Desarrollo Pesquero-CONICET, Mar del Plata, Argentina.

出版信息

Planta. 2023 May 12;257(6):117. doi: 10.1007/s00425-023-04147-7.

DOI:10.1007/s00425-023-04147-7
PMID:37173533
Abstract

CRISPR/Cas9-mediated Phospholipase C2 knock-out tomato plants are more resistant to Botrytis cinerea than wild-type plants, with less ROS and an increase and reduction of (JA) and (SA)-response marker genes, respectively. Genome-editing technologies allow non-transgenic site-specific mutagenesis of crops, offering a viable alternative to traditional breeding methods. In this study we used CRISPR/Cas9 to inactivate the tomato Phospholipase C2 gene (SlPLC2). Plant PLC activation is one of the earliest responses triggered by different pathogens regulating plant responses that, depending on the plant-pathogen interaction, result in plant resistance or susceptibility. The tomato (Solanum lycopersicum) PLC gene family has six members, named from SlPLC1 to SlPLC6. We previously showed that SlPLC2 transcript levels increased upon xylanase infiltration (fungal elicitor) and that SlPLC2 participates in plant susceptibility to Botrytis cinerea. An efficient strategy to control diseases caused by pathogens is to disable susceptibility genes that facilitate infection. We obtained tomato SlPLC2-knock-out lines with decreased ROS production upon B. cinerea challenge. Since this fungus requires ROS-induced cell death to proliferate, SlPLC2-knock-out plants showed an enhanced resistance with smaller necrotic areas and reduced pathogen proliferation. Thus, we obtained SlPLC2 loss-of-function tomato lines more resistant to B. cinerea by means of CRISPR/Cas9 genome editing technology.

摘要

CRISPR/Cas9 介导的磷脂酶 C2 敲除番茄植物比野生型植物对灰葡萄孢更具抗性,其活性氧(ROS)减少,(JA)和(SA)-响应标记基因分别增加和减少。基因组编辑技术允许对作物进行非转基因的特异性基因突变,为传统的育种方法提供了一种可行的替代方案。在这项研究中,我们使用 CRISPR/Cas9 使番茄的磷脂酶 C2 基因(SlPLC2)失活。植物 PLC 的激活是不同病原体引发的最早反应之一,调节植物的反应,根据植物-病原体的相互作用,导致植物的抗性或易感性。番茄(Solanum lycopersicum)PLC 基因家族有六个成员,分别命名为 SlPLC1 到 SlPLC6。我们之前表明,SlPLC2 的转录水平在木聚糖酶浸润(真菌激发子)时增加,并且 SlPLC2 参与了植物对灰葡萄孢的易感性。控制由病原体引起的疾病的有效策略是使易感性基因失活,从而阻止感染。我们获得了 SlPLC2 敲除的番茄系,其在受到 B. cinerea 挑战时产生的 ROS 减少。由于这种真菌需要 ROS 诱导的细胞死亡来增殖,因此 SlPLC2 敲除植物表现出增强的抗性,坏死面积较小,病原体增殖减少。因此,我们通过 CRISPR/Cas9 基因组编辑技术获得了对 B. cinerea 更具抗性的 SlPLC2 功能丧失型番茄系。

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