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转录组学和可变剪接分析揭示了玉米自交系B73和Mo17在应对蚜虫侵害时的巨大差异。

Transcriptomics and Alternative Splicing Analyses Reveal Large Differences between Maize Lines B73 and Mo17 in Response to Aphid Infestation.

作者信息

Song Juan, Liu Hui, Zhuang Huifu, Zhao Chunxia, Xu Yuxing, Wu Shibo, Qi Jinfeng, Li Jing, Hettenhausen Christian, Wu Jianqiang

机构信息

Yunnan Key Laboratory for Wild Plant Resources, Department of Economic Plants and Biotechnology, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming, China.

University of the Chinese Academy of Sciences, Beijing, China.

出版信息

Front Plant Sci. 2017 Oct 10;8:1738. doi: 10.3389/fpls.2017.01738. eCollection 2017.

DOI:10.3389/fpls.2017.01738
PMID:29067035
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5641392/
Abstract

Maize ( L.) is a staple crop worldwide with extensive genetic variations. Various insects attack maize plants causing large yield loss. Here, we investigated the responses of maize B73, a susceptible line, and Mo17, a resistant line, to the aphid on metabolite and transcriptome levels. feeding had no effect on the levels of the defensive metabolites benzoxazinoids (Bxs) in either line, and Mo17 contained substantially greater levels of Bxs than did B73. Profiling of the differentially expressed genes revealed that B73 and Mo17 responded to infestation specifically, and importantly, these two lines showed large gene expression differences even without herbivory. Correlation analysis identified four transcription factors (TFs) that might account for the high Bx levels in Mo17. Similarly, genome-wide alternative splicing (AS) analyses indicated that both B73 and Mo17 had temporally specific responses to infestation, and these two lines also exhibited large differences of AS regulation under normal condition, and 340 genes, including 10 TFs, were constantly differentially spliced. This study provides large-scale resource datasets for further studies on the mechanisms underlying maize-aphid interactions, and highlights the phenotypic divergence in defense against aphids among maize varieties.

摘要

玉米(L.)是全球主要作物,具有广泛的遗传变异。多种昆虫侵袭玉米植株,导致产量大幅损失。在此,我们在代谢物和转录组水平上研究了易感品系玉米B73和抗性品系Mo17对蚜虫的反应。取食对这两个品系中防御性代谢物苯并恶嗪类化合物(Bxs)的水平均无影响,且Mo17中Bxs的含量显著高于B73。对差异表达基因的分析表明,B73和Mo17对蚜虫侵染有特异性反应,重要的是,即使没有蚜虫取食,这两个品系也表现出较大的基因表达差异。相关性分析确定了四个可能解释Mo17中高Bx水平的转录因子(TFs)。同样,全基因组可变剪接(AS)分析表明,B73和Mo17对蚜虫侵染都有时间特异性反应,并且这两个品系在正常条件下的AS调控也存在很大差异,有340个基因,包括10个TFs,持续发生差异剪接。本研究为进一步研究玉米-蚜虫相互作用的机制提供了大规模资源数据集,并突出了玉米品种间抗蚜虫的表型差异。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0b54/5641392/0fb6e38f5356/fpls-08-01738-g0011.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0b54/5641392/7c901e7b1cd7/fpls-08-01738-g0009.jpg
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