Transposon-tagging identifies novel pathogenicity genes in Fusarium graminearum
Transposon-tagging identifies novel pathogenicity genes in Fusarium graminearum
- Fungal Genetics and Biology, 45(12), p.1552-1561, 2008 .
With the increase of sequenced fungal genomes, high-throughput methods for functional analyses of genes are needed. We assessed the potential of a new transposon mutagenesis tool deploying a Fusarium oxysporum miniature inverted-repeat transposable element mimp1, mobilized by the transposase of impala, a Tc1-like transposon, to obtain knock-out mutants in Fusarium graminearum. We localized 91 mimp1 insertions which showed good distribution over the entire genome. The main exception was a major hotspot on chromosome 2 where independent insertions occurred at exactly the same nucleotide position. Furthermore insertions in promoter regions were over-represented. Screening 331 mutants for sexual development, radial growth and pathogenicity on wheat resulted in 19 mutants (5.7
TRANSPOSON MUTAGENESIS
FUSARIUM GRAMINEARUM
FUNCTIONAL SCREENING
PATHOGENICITY
SEXUAL DEVELOPMENT
With the increase of sequenced fungal genomes, high-throughput methods for functional analyses of genes are needed. We assessed the potential of a new transposon mutagenesis tool deploying a Fusarium oxysporum miniature inverted-repeat transposable element mimp1, mobilized by the transposase of impala, a Tc1-like transposon, to obtain knock-out mutants in Fusarium graminearum. We localized 91 mimp1 insertions which showed good distribution over the entire genome. The main exception was a major hotspot on chromosome 2 where independent insertions occurred at exactly the same nucleotide position. Furthermore insertions in promoter regions were over-represented. Screening 331 mutants for sexual development, radial growth and pathogenicity on wheat resulted in 19 mutants (5.7
TRANSPOSON MUTAGENESIS
FUSARIUM GRAMINEARUM
FUNCTIONAL SCREENING
PATHOGENICITY
SEXUAL DEVELOPMENT