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Identification of MicroRNAs and Their Targets That Respond to Powdery Mildew Infection in Cucumber by Small RNA and Degradome Sequencing

Xuewen Xu, Cailian Zhong, Min Tan, Ya Song, Xiaohua Qi, Qiang Xu, Xuehao Chen

2020Frontiers in Genetics17 citationsDOIOpen Access PDF

Abstract

and degradome sequencing approaches, 517 and 20 target genes were predicted for the D8 and SSSL508-28 DEMs, respectively. Comparison of the DEM expression profiles with the corresponding mRNA expression profiles obtained in a previous study with the same experimental design identified 60 and three target genes in D8 and SSSL508-28, respectively, which exhibited inverse expression patterns with their respective miRNAs. In particular, five DEMs were located in the substituted segment that contained two upregulated DEMs, Csa-miR172c-3p and Csa-miR395a-3p, in D8 and two downregulated DEMs, Csa-miR395d-3p and Csa-miR398b-3p, in SSSL508-28. One gene encoding L-aspartate oxidase, which was targeted by Csa-miR162a, was also located on the same segment and was specifically downregulated in PM-inoculated D8 leaves. Our results will facilitate the future use of miRNAs in breeding cucumber varieties with enhanced resistance to PM.

Topics & Concepts

Powdery mildewBiologymicroRNASmall RNAIn silicoDeep sequencingGeneGeneticsDNA sequencingRNAGene expressionGene silencingComputational biologyGenomeBotanyPlant Molecular Biology ResearchAdvances in Cucurbitaceae ResearchPlant Disease Resistance and Genetics
Identification of MicroRNAs and Their Targets That Respond to Powdery Mildew Infection in Cucumber by Small RNA and Degradome Sequencing | Litcius