Abstract
Background: Fusarium verticillioides causes ear rot in maize (Zea mays L.) and accumulation of mycotoxins, that
affect human and animal health. Currently, chemical and agronomic measures to control Fusarium ear rot are not
very effective and selection of more resistant genotypes is a desirable strategy to reduce contaminations. A deeper
knowledge of molecular events and genetic basis underlying Fusarium ear rot is necessary to speed up progress in
breeding for resistance.
Results: A next-generation RNA-sequencing approach was used for the first time to study transcriptional changes
associated with F. verticillioides inoculation in resistant CO441 and susceptible CO354 maize genotypes at 72 hours
post inoculation. More than 100 million sequence reads were generated for inoculated and uninoculated control
plants and analyzed to measure gene expression levels. Comparison of expression levels between inoculated vs.
uninoculated and resistant vs. susceptible transcriptomes revealed a total number of 6,951 differentially expressed
genes. Differences in basal gene expression were observed in the uninoculated samples. CO441 genotype showed
a higher level of expression of genes distributed over all functional classes, in particular those related to secondary
metabolism category. After F. verticillioides inoculation, a similar response was observed in both genotypes, although
the magnitude of induction was much greater in the resistant genotype. This response included higher activation of
genes involved in pathogen perception, signaling and defense, including WRKY transcription factors and jasmonate/
ethylene mediated defense responses. Interestingly, strong differences in expression between the two genotypes were
observed in secondary metabolism category: pathways related to shikimate, lignin, flavonoid and terpenoid biosynthesis
were strongly represented and induced in the CO441 genotype, indicating that selection to enhance these traits is an
additional strategy for improving resistance against F. verticillioides infection.
Conclusions: The work demonstrates that the global transcriptional analysis provided an exhaustive view of genes
involved in pathogen recognition and signaling, and controlling activities of different TFs, phytohormones and secondary
metabolites, that contribute to host resistance against F. verticillioides. This work provides an important source of markers
for development of disease resistance maize genotypes andmay have relevance to study other pathosystems involving
mycotoxin-producing fungi.
Original language | English |
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Title of host publication | Proceedings of the 58th Italian Society of Agricultural Genetics Annual Congress |
Pages | 5.20 |
Publication status | Published - 2014 |
Event | 58° Annual Congress of Società Italiana di Genetica Agraria (SIGA) - Alghero Duration: 15 Sept 2014 → 18 Sept 2014 |
Conference
Conference | 58° Annual Congress of Società Italiana di Genetica Agraria (SIGA) |
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City | Alghero |
Period | 15/9/14 → 18/9/14 |
Keywords
- Fusarium ear rot
- RNA-Seq
- Zea mays
- defense genes