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Genome-wide association analysis and differential expression analysis of resistance to Sclerotinia stem rot in Brassica napus

Authors :
Wei, Lijuan
Jian, Hongju
Lu, Kun
Filardo, Fiona F.
Yin, Nengwen
Liu, Liezhao
Qu, Cunmin
Li, Wei
Du, Hai
Li, Jiana
Wei, Lijuan
Jian, Hongju
Lu, Kun
Filardo, Fiona F.
Yin, Nengwen
Liu, Liezhao
Qu, Cunmin
Li, Wei
Du, Hai
Li, Jiana
Publication Year :
2016

Abstract

Brassica napus is one of the most important oil crops in the world, and stem rot caused by the fungus Sclerotinia sclerotiorum results in major losses in yield and quality. To elucidate resistance genes and pathogenesis-related genes, genome-wide association analysis of 347 accessions was performed using the Illumina 60K Brassica SNP (single nucleotide polymorphism) array. In addition, the detached stem inoculation assay was used to select five highly resistant (R) and susceptible (S) B. napus lines, 48 h postinoculation with S. sclerotiorum for transcriptome sequencing. We identified 17 significant associations for stem resistance on chromosomes A8 and C6, five of which were on A8 and 12 on C6. The SNPs identified on A8 were located in a 409-kb haplotype block, and those on C6 were consistent with previous QTL mapping efforts. Transcriptome analysis suggested that S. sclerotiorum infection activates the immune system, sulphur metabolism, especially glutathione (GSH) and glucosinolates in both R and S genotypes. Genes found to be specific to the R genotype related to the jasmonic acid pathway, lignin biosynthesis, defence response, signal transduction and encoding transcription factors. Twenty-four genes were identified in both the SNP-trait association and transcriptome sequencing analyses, including a tau class glutathione S-transferase (GSTU) gene cluster. This study provides useful insight into the molecular mechanisms underlying the plant's response to S. sclerotiorum.

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1420255236
Document Type :
Electronic Resource