Multiple R genes and phenolic compounds synthesis involved in the durable resistance to Phytophthora infestans in potato cv. Cooperation 88

Q1 Agricultural and Biological Sciences Agri Gene Pub Date : 2018-06-01 DOI:10.1016/j.aggene.2018.04.001
Dahai Hao , Jie Yang , Weibiao Long , Jing Yi , Peter VanderZaag , Canhui Li
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引用次数: 6

Abstract

Late blight (LB), Phytophthora infestans (PI) as pathogen, is the most devastating disease limiting potato production globally. In the Tropic highlands it can reduce yields by >50%. Cooperation-88 (C88) is a potato variety with high levels of durable resistance to PI, even after being widely grown for over 20 years. To more fully understand the mechanism of the resistance to PI of this variety, we inoculated detached leaves of young C88 plants with PI isolate XA-4 (super race with vir 1–11). Samples of one day post pathogen inoculation (1 dpi), 3 dpi, 5 dpi and control treated with sterile water were collected and frozen with liquid nitrogen. Transcriptomes of these 4 samples were sequenced by the next-generation sequencing platform Illumina Hiseq 2000. Totally ~68 M clean reads were obtained. With the genome of S. phureja clone DM1–3 516R44 as reference, these clean reads were processed by GO analysis, KEGG pathway enrichment analysis and differential expression analysis. PI inoculation of C88 leaves resulted in the following: a) in the 3 pathogen inoculated samples, 3950 were differentially regulated compared to those in the control; c) at 1 dpi increased expression genes were nearly double the number of decreased expression genes; d) 665 genes were differentially expressed in every treatments; e) gene expression levels in photosynthesis and the chloroplast were mostly diminished. The high durable late blight resistance C88 is composed of: a) 344 expressed R genes; b) 9 pathogenesis-related genes, particularly osmotin gene and endochitinase gene expressions increased dramatically with PI inoculation; c) thirty genes for phenolic compounds synthesis expressions increased with PI inoculation from small to large multiples compared to the control; and d) R genes need pathogenesis proteins and phenolic compounds to have superior durable resistance to PI.

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马铃薯对疫霉持久抗性的多个R基因和酚类化合物合成88年合作
马铃薯晚疫病(LB)是马铃薯生产中最具破坏性的病害。在热带高地,它能使产量减少50%。“合作-88”(cooperative -88,简称C88)是一个马铃薯品种,即使在广泛种植20多年后,仍具有高水平的持久抗PI能力。为了更充分地了解该品种对PI的抗性机制,我们将PI分离物XA-4(具有vir 1-11的超级小种)接种于C88幼苗离体叶片上。采集病原接种后1天(1 dpi)、3 dpi、5 dpi和对照,用无菌水处理,液氮冷冻。利用新一代测序平台Illumina Hiseq 2000对4个样本的转录组进行测序。共获得~68 M个干净读数。以S. phureja克隆DM1-3 516R44基因组为参照,对这些clean reads进行GO分析、KEGG通路富集分析和差异表达分析。对C88叶片进行PI接种,结果如下:a) 3种病原菌接种样品中,有3950种病原菌与对照有差异调控;C)在1 dpi时,表达增加的基因数量几乎是表达减少基因数量的两倍;D) 665个基因在各处理中差异表达;E)光合作用和叶绿体中基因表达量大部分减少。高耐久抗晚疫病C88由344个表达R基因组成;b) 9个致病相关基因,尤其是渗透素基因和几丁质内质酶基因的表达量随着接种PI显著增加;c)与对照相比,接种PI后30个酚类化合物合成基因的表达量由小倍数增加到大倍数;d) R基因需要致病蛋白和酚类化合物才能对PI具有优异的持久抗性。
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Agri Gene
Agri Gene Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
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期刊介绍: Agri Gene publishes papers that focus on the regulation, expression, function and evolution of genes in crop plants, farm animals, and agriculturally important insects and microorganisms. Agri Gene strives to be a diverse journal and topics in multiple fields will be considered for publication so long as their main focus is on agriculturally important organisms (plants, animals, insects, or microorganisms). Although not limited to the following, some examples of potential topics include: Gene discovery and characterization. Genetic markers to guide traditional breeding. Genetic effects of transposable elements. Evolutionary genetics, molecular evolution, population genetics, and phylogenetics. Profiling of gene expression and genetic variation. Biotechnology and crop or livestock improvement. Genetic improvement of biological control microorganisms. Genetic control of secondary metabolic pathways and metabolic enzymes of crop pathogens. Transcription analysis of beneficial or pest insect developmental stages Agri Gene encourages submission of novel manuscripts that present a reasonable level of analysis, functional relevance and/or mechanistic insight. Agri Gene also welcomes papers that have predominantly a descriptive component but improve the essential basis of knowledge for subsequent functional studies, or which provide important confirmation of recently published discoveries provided that the information is new.
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