De Novo Transcriptome Analysis of Plant Pathogenic Fungus Myrothecium roridum and Identification of Genes Associated with Trichothecene Mycotoxin Biosynthesis.

Wei Ye,Saini Li,Weimin Zhang,Zilei Huang,Muzi Zhu,Taomei Liu,Haohua Li

doi:10.3390/ijms18030497

Abstract

Myrothecium roridum is a plant pathogenic fungus that infects different crops and decreases the yield of economical crops, including soybean, cotton, corn, pepper, and tomato. Until now, the pathogenic mechanism of M. roridum has remained unclear. Different types of trichothecene mycotoxins were isolated from M. roridum, and trichothecene was considered as a plant pathogenic factor of M. roridum. In this study, the transcriptome of M. roridum in different incubation durations was sequenced using an Illumina Hiseq 2000. A total of 35,485 transcripts and 25,996 unigenes for M. roridum were obtained from 8.0 Gb clean reads. The protein–protein network of the M. roridum transcriptome indicated that the mitogen-activated protein kinases signal pathway also played an important role in the pathogenicity of M. roridum. The genes related to trichothecene biosynthesis were annotated. The expression levels of these genes were also predicted and validated through quantitative real-time polymerase chain reaction. Tri5 gene encoding trichodiene synthase was cloned and expressed, and the purified trichodiene synthase was able to catalyze farnesyl pyrophosphate into different kinds of sesquiterpenoids.Tri4 and Tri11 genes were expressed in Escherichia coli, and their corresponding enzymatic properties were characterized. The phylogenetic tree of trichodiene synthase showed a great discrepancy between the trichodiene synthase from M. roridum and other species. Our study on the genes related to trichothecene biosynthesis establishes a foundation for the M. roridum hazard prevention, thus improving the yields of economical crops.

Highlights

Myrothecium roridum is a plant pathogenic fungus widespread in the soils of tropical and subtropical regions
PCR and sequencing were performed to confirm the results of the transcriptome analysis. quantitative real-time polymerase chain reaction (qRT-PCR) analysis results revealed that Tri5 gene showed the highest expressed level, Tri12, Tri6 genes took the second and the third positions, respectively. These results demonstrated the important role of Tri5 gene in the biosynthesis of trichothecene mycotoxins
The expression levels of genes related to the trichothecene biosynthesis were analyzed, and several genes related to the biosynthesis of trichothecene were cloned and expressed

Summary

Introduction

Myrothecium roridum is a plant pathogenic fungus widespread in the soils of tropical and subtropical regions. M. roridum infects different economical crops, including soybean, eggplant, pepper, tomato, and cotton, decreasing their yields [1]. Elucidating the molecular mechanism for the pathogenicity of M. roridum by transcriptome sequencing is necessary to facilitate the prevention of diseases caused by M. roridum. Genes related to trichothecene mycotoxin biosynthesis in M. roridum including Tri, Tir and Tri were identified. This is the first attempt to characterize the complete transcriptome of M. roridum and reveal genes related to trichothecene mycotoxin biosynthesis, which would provide a useful theoretical guide for the hazard prevention of M. roridum toward economical crops. The elucidation of genes related to trichothecene mycotoxin biosynthesis establishes a foundation for the prevention of crop diseases caused by M. roridum

Sequencing and De Novo Assembly

Materials and Methods

KEGG Pathway Analysis and Predicted CDS

Quantitative Real-Time Polymerase Chain Reaction Analysis

Identification of SSRs

Conclusions