Unknown,Transcriptomics,Genomics,Proteomics

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RNA-seq Analysis of RFX1-dependent Genes in Fusarium graminearum Z-3639


ABSTRACT: Fusarium graminearum is a major pathogen of Fusarium head blight in wheat, barley, and rice, as well as ear rot and stalk rot in maize. Regulatory Factor X (RFX) transcription factors are well-conserved in animals and fungi, but their functions are diverse, ranging from DNA-damage response to ciliary gene regulation. We investigated the role of the sole RFX transcription factor, RFX1, in F. graminearum. Deletion of rfx1 resulted in multiple defects in hyphal growth, conidiation, virulence, and sexual development. Deletion mutants of rfx1 were more sensitive to various types of DNA damage than the wild-type strain. Septum formation was inhibited and micronuclei were produced in the rfx1 deletion mutants. The results of the neutral comet assay demonstrated that disruption of rfx1 function caused spontaneous DNA double-strand breaks. To understand regulatory mechanisms of rfx1 in F. graminearum, we obtained and analyzed genome-wide transcription profiles generated from the RNA-sequencing data of the wild-type and M-NM-^Trfx1 strains. RNA-sequencing-based transcriptomic analysis revealed that RFX1 suppressed the expression of many genes, including genes for the repair of DNA damage. 2 samples examined: mycelia harvested 24 h after inoculation of wild-type conidia in complete medium; mycelia harvested 32 h after inoculation of M-NM-^Trfx1 conidia in complete medium

ORGANISM(S): Fusarium graminearum

SUBMITTER: Hokyoung Son 

PROVIDER: E-GEOD-52198 | biostudies-arrayexpress |

REPOSITORIES: biostudies-arrayexpress

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Publications

Transcription factor RFX1 is crucial for maintenance of genome integrity in Fusarium graminearum.

Min Kyunghun K   Son Hokyoung H   Lim Jae Yun JY   Choi Gyung Ja GJ   Kim Jin-Cheol JC   Harris Steven D SD   Lee Yin-Won YW  

Eukaryotic cell 20140124 3


The survival of cellular organisms depends on the faithful replication and transmission of DNA. Regulatory factor X (RFX) transcription factors are well conserved in animals and fungi, but their functions are diverse, ranging from the DNA damage response to ciliary gene regulation. We investigated the role of the sole RFX transcription factor, RFX1, in the plant-pathogenic fungus Fusarium graminearum. Deletion of rfx1 resulted in multiple defects in hyphal growth, conidiation, virulence, and sex  ...[more]

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