Transcriptome and allele specificity associated with a 3BL locus for Fusarium crown rot resistance in bread wheat.

Jian Ma,Penghao Wang,Bin Han,Frédéric Choulet,Donald Gardiner,Catherine Feuillet,Qi Feng,Jiri Stiller,Yuming Wei,John M Manners,Qiang Zhao,Chunji Liu,You-Liang Zheng,Colin Cavanagh,Guijun Yan

doi:10.1371/journal.pone.0113309

Abstract

Fusarium pathogens cause two major diseases in cereals, Fusarium crown rot (FCR) and head blight (FHB). A large-effect locus conferring resistance to FCR disease was previously located to chromosome arm 3BL (designated as Qcrs-3B) and several independent sets of near isogenic lines (NILs) have been developed for this locus. In this study, five sets of the NILs were used to examine transcriptional changes associated with the Qcrs-3B locus and to identify genes linked to the resistance locus as a step towards the isolation of the causative gene(s). Of the differentially expressed genes (DEGs) detected between the NILs, 12.7% was located on the single chromosome 3B. Of the expressed genes containing SNP (SNP-EGs) detected, 23.5% was mapped to this chromosome. Several of the DEGs and SNP-EGs are known to be involved in host-pathogen interactions, and a large number of the DEGs were among those detected for FHB in previous studies. Of the DEGs detected, 22 were mapped in the Qcrs-3B interval and they included eight which were detected in the resistant isolines only. The enrichment of DEG, and not necessarily those containing SNPs between the resistant and susceptible isolines, around the Qcrs-3B locus is suggestive of local regulation of this region by the resistance allele. Functions for 13 of these DEGs are known. Of the SNP-EGs, 28 were mapped in the Qcrs-3B interval and biological functions for 16 of them are known. These results provide insights into responses regulated by the 3BL locus and identify a tractable number of target genes for fine mapping and functional testing to identify the causative gene(s) at this QTL.

Highlights

Fusarium pathogens cause two serious diseases in cereals, Fusarium crown rot (FCR) and Fusarium head blight (FHB)
Principal component analysis (PCA) demonstrated that the samples may be separated by the first two components according to the time point and the genotype
RNA sequencing (RNA-seq) analysis was conducted against five sets of near isogenic lines (NILs) for a large-effect locus conferring FCR resistance on chromosome arm 3BL in wheat

Summary

Introduction

Fusarium pathogens cause two serious diseases in cereals, Fusarium crown rot (FCR) and Fusarium head blight (FHB). FHB favours environments with high humidity and temperature It is a sporadic problem in Australia but causes massive annual losses worldwide [2]. The 3BS locus contains a glycosyltransferase gene that has the potential to detoxify the mycotoxin deoxynivalenol which is a virulence factor and this may explain the resistance mechanism [7]. This 3BS QTL does not confer any significant level of resistance to FCR in wheat [8]. Efforts have been made in transforming defence-related genes into susceptible or moderately susceptible wheat varieties to obtain transgenic plants with improved FHB resistance [16,17,18,19]

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Results

Conclusion