Project name: Arabidopsis thaliana

Description: Here we report on the identification of Arabidopsis genes that are induced during compatible but not during incompatible interactions with the downy mildew pathogen Hyaloperonospora arabidopsidis. This set of so-called compatible specific (CS) genes contrasts the large group of defence-associated genes that is differentially expressed during both compatible and incompatible interactions. From the 17 identified CS-genes, 6 belong to the ERF family of transcription factor genes, suggesting that these ERFs have a role during compatibility. The majority of CS-genes are differentially regulated in response to various forms of abiotic stress. In silico analysis of the CS-genes revealed an over-representation of DREB1A/CBF3 binding sites and EveningElement motifs in their promoter regions. The CS-ERFs are closely related to the CBF transcription factors and could potentially bind the DREB1A/CBF3 promoter elements in the CS-genes. Transcript levels of CS-genes peak at 2-3 days post inoculation, when pathogen growth is highest, and decline at later stages of infection. The induction of several CS-genes was found to be isolate-dependant. This suggests that the identified CS-genes could be the direct or indirect targets of downy mildew effector proteins that promote disease susceptibility.Overall design: Compatible interaction - Arabidopsis Ler inoculated with Cala2 compared to Ler with mock inoculation with 3 biological replicates. Each biological replicate is analysed by 4 technical dyeswapped replicates.Incompatible interaction - Arabidopsis Ler inoculated with Waco9 compared to Ler with mock inoculation with 3 biological replicates. Each biological replicate is analysed by 4 technical dyeswapped replicates.

Data type: Transcriptome or Gene expression

Sample scope: Multiisolate

Relevance: ModelOrganism

Release date: 2009-06-10

Last updated: 2009-02-23