Multi-omics approaches define novel aphid effector candidates associated with virulence and avirulence phenotypes.

IF 3.5 2区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY BMC Genomics Pub Date : 2024-11-11 DOI:10.1186/s12864-024-10984-x
Peter Thorpe, Simone Altmann, Rosa Lopez-Cobollo, Nadine Douglas, Javaid Iqbal, Sadia Kanvil, Jean-Christophe Simon, James C Carolan, Jorunn Bos, Colin Turnbull
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Abstract

Background: Compatibility between plant parasites and their hosts is genetically determined {Citation}both interacting organisms. For example, plants may carry resistance (R) genes or deploy chemical defences. Aphid saliva contains many proteins that are secreted into host tissues. Subsets of these proteins are predicted to act as effectors, either subverting or triggering host immunity. However, associating particular effectors with virulence or avirulence outcomes presents challenges due to the combinatorial complexity. Here we use defined aphid and host genetics to test for co-segregation of expressed aphid transcripts and proteins with virulent or avirulent phenotypes.

Results: We compared virulent and avirulent pea aphid parental genotypes, and their bulk segregant F1 progeny on Medicago truncatula genotypes carrying or lacking the RAP1 (Resistance to Acyrthosiphon pisum 1) resistance quantitative trait locus. Differential gene expression analysis of whole body and head samples, in combination with proteomics of saliva and salivary glands, enabled us to pinpoint proteins associated with virulence or avirulence phenotypes. There was relatively little impact of host genotype, whereas large numbers of transcripts and proteins were differentially expressed between parental aphids, likely a reflection of their classification as divergent biotypes within the pea aphid species complex. Many fewer transcripts intersected with the equivalent differential expression patterns in the bulked F1 progeny, providing an effective filter for removing genomic background effects. Overall, there were more upregulated genes detected in the F1 avirulent dataset compared with the virulent one. Some genes were differentially expressed both in the transcriptome and in the proteome datasets, with aminopeptidase N proteins being the most frequent differentially expressed family. In addition, a substantial proportion (27%) of salivary proteins lack annotations, suggesting that many novel functions remain to be discovered.

Conclusions: Especially when combined with tightly controlled genetics of both insect and host plant, multi-omics approaches are powerful tools for revealing and filtering candidate lists down to plausible genes for further functional analysis as putative aphid effectors.

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多组学方法确定了与毒力和无毒表型相关的新型蚜虫效应子候选体。
背景:植物寄生虫与其宿主之间的相容性是由{引文}两种相互作用生物的基因决定的。例如,植物可能携带抗性(R)基因或采取化学防御措施。蚜虫唾液中含有许多分泌到寄主组织中的蛋白质。据预测,这些蛋白质的子集可作为效应物,颠覆或触发宿主免疫。然而,由于组合的复杂性,将特定效应蛋白与毒力或无毒结果联系起来是一项挑战。在这里,我们利用定义的蚜虫和宿主遗传学来检验表达的蚜虫转录本和蛋白质与毒力或无毒表型的共分离:我们比较了带毒和不带毒的豌豆蚜亲本基因型及其在携带或缺乏RAP1(Resistance to Acyrthosiphon pisum 1)抗性数量性状基因座的Medicago truncatula基因型上的大量分离F1后代。结合唾液和唾液腺的蛋白质组学,我们对全身和头部样本进行了差异基因表达分析,从而确定了与毒力或无毒表型相关的蛋白质。宿主基因型的影响相对较小,而大量转录本和蛋白质在亲蚜之间有不同表达,这可能反映了它们在豌豆蚜种群中被划分为不同的生物型。在批量 F1 后代中,与等效差异表达模式交叉的转录本数量较少,这为消除基因组背景效应提供了有效的过滤器。总体而言,在 F1 无毒性数据集中检测到的上调基因多于有毒性数据集。一些基因在转录组和蛋白质组数据集中都有差异表达,其中氨肽酶 N 蛋白是最常见的差异表达家族。此外,相当一部分(27%)唾液蛋白缺乏注释,这表明许多新功能仍有待发现:结论:多组学方法是揭示和筛选候选基因列表的强大工具,尤其是当与昆虫和寄主植物的严格控制遗传学相结合时,这些候选基因可作为推定的蚜虫效应因子进行进一步的功能分析。
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来源期刊
BMC Genomics
BMC Genomics 生物-生物工程与应用微生物
CiteScore
7.40
自引率
4.50%
发文量
769
审稿时长
6.4 months
期刊介绍: BMC Genomics is an open access, peer-reviewed journal that considers articles on all aspects of genome-scale analysis, functional genomics, and proteomics. BMC Genomics is part of the BMC series which publishes subject-specific journals focused on the needs of individual research communities across all areas of biology and medicine. We offer an efficient, fair and friendly peer review service, and are committed to publishing all sound science, provided that there is some advance in knowledge presented by the work.
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