Abstract
Cucumber gray mold caused by Botrytis cinerea is considered one of the most serious cucumber diseases. With the advent of Hi-seq technology, it is possible to study the plant–pathogen interaction at the transcriptome level. To the best of our knowledge, this is the first application of RNA-seq to identify cucumber and B. cinerea differentially expressed genes (DEGs) before and after the plant–pathogen interaction. In total, 248,908,688 raw reads were generated; after removing low-quality reads and those containing adapter and poly-N, 238,341,648 clean reads remained to map the reference genome. There were 3,512 cucumber DEGs and 1,735 B. cinerea DEGs. GO enrichment and KEGG enrichment analysis were performed on these DEGs to study the interaction between cucumber and B. cinerea. To verify the reliability and accuracy of our transcriptome data, 5 cucumber DEGs and 5 B. cinerea DEGs were chosen for RT-PCR verification. This is the first systematic transcriptome analysis of components related to the B. cinerea–cucumber interaction. Functional genes and putative pathways identified herein will increase our understanding of the mechanism of the pathogen–host interaction.
Highlights
Cucumber (Cucumis sativa Linn) belongs to the Cucurbitaceous family and is one of the world’s most economically valuable and nutritional vegetable crops
Control samples had 90.29% of reads mapped to the genome and treated samples had 84.87% mapped to the genome
We identified 3,512 cucumber differentially expressed genes (DEGs) and 1,735 B.cinerea DEGs. After enriching these genes into different Gene Ontology (GO) terms and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways, we investigated which genes or pathways play important roles in the plant—pathogen interaction
Summary
Cucumber (Cucumis sativa Linn) belongs to the Cucurbitaceous family and is one of the world’s most economically valuable and nutritional vegetable crops. It has been widely cultivated worldwide, especially in Southeast Asia [1]. Cucumber gray mold is considered one of the most serious cucumber diseases and is caused by B. cinerea [3]. Besides cucumber, it can infect more than 200 types of plants [4, 5], resulting in serious economic losses. B. cinerea is one of the most comprehensively studied necrotrophic fungal plant pathogens [6] and can attack several plant tissues such as stems, flowers, and leaves; establish a necrotrophic
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