Antoine Peraldi scite author profile

BackgroundFusarium species cause Fusarium head blight (FHB) and other important diseases of cereals. The causal agents produce trichothecene mycotoxins such as deoxynivalenol (DON). The dicotyledonous model species Arabidopsis thaliana has been used to study Fusarium-host interactions but it is not ideal for model-to-crop translation. Brachypodium distachyon (Bd) has been proposed as a new monocotyledonous model species for functional genomic studies in grass species. This study aims to assess the interaction between the most prevalent FHB-causing Fusarium species and Bd in order to develop and exploit Bd as a genetic model for FHB and other Fusarium diseases of wheat.ResultsThe ability of Fusarium graminearum and Fusarium culmorum to infect a range of Bd tissues was examined in various bioassays which showed that both species can infect all Bd tissues examined, including intact foliar tissues. DON accumulated in infected spike tissues at levels similar to those of infected wheat spikes. Histological studies revealed details of infection, colonisation and host response and indicate that hair cells are important sites of infection. Susceptibility to Fusarium and DON was assessed in two Bd ecotypes and revealed variation in resistance between ecotypes.ConclusionsBd exhibits characteristics of susceptibility highly similar to those of wheat, including susceptibility to spread of disease in the spikelets. Bd is the first reported plant species to allow successful infection on intact foliar tissues by FHB-causing Fusarium species. DON appears to function as a virulence factor in Bd as it does in wheat. Bd is proposed as a valuable model for undertaking studies of Fusarium head blight and other Fusarium diseases of wheat.

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T-DNA mutagenesis in Brachypodium distachyon

Thole

Peraldi

Worland

et al. 2011

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During the past decade, Brachypodium distachyon has emerged as an attractive experimental system and genomics model for grass research. Numerous molecular tools and genomics resources have already been developed. Functional genomics resources, including mutant collections, expression/tiling microarray, mapping populations, and genome re-sequencing for natural accessions, are rapidly being developed and made available to the community. In this article, the focus is on the current status of systematic T-DNA mutagenesis in Brachypodium. Large collections of T-DNA-tagged lines are being generated by a community of laboratories in the context of the International Brachypodium Tagging Consortium. To date, >13 000 lines produced by the BrachyTAG programme and USDA-ARS Western Regional Research Center are available by online request. The utility of these mutant collections is illustrated with some examples from the BrachyTAG collection at the John Innes Centre-such as those in the eukaryotic initiation factor 4A (eIF4A) and brassinosteroid insensitive-1 (BRI1) genes. A series of other mutants exhibiting growth phenotypes is also presented. These examples highlight the value of Brachypodium as a model for grass functional genomics.

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Antoine Peraldi

Effects ofPHENYLALANINE AMMONIA LYASE(PAL) knockdown on cell wall composition, biomass digestibility, and biotic and abiotic stress responses inBrachypodium

Brachypodium distachyon: a new pathosystem to study Fusarium head blight and other Fusarium diseases of wheat

T-DNA mutagenesis in Brachypodium distachyon

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