Downy mildew resistance and genetic variability in a wild rocket germplasm collection

One hundred accessions of a core collection of Diplotaxis tenuifolia (L.) DC. and Eruca spp. were screened at seedling stage for resistance to downy mildew. Accessions tested at the seedling stage were assigned to 0-6 interaction phenotypes. All cultivated rocket (Eruca spp.) accessions exhibited a resistant (R) response both in cotyledons and in young leaves. The wild rocket (D. tenuifolia) accessions exhibited higher susceptibility in cotyledons than in the 1st and 2nd leaves, with 16 and 47 accessions classified as resistant or partially resistant (PR) in the cotyledon and in leaves stages, respectively. Only three wild rocket accessions displayed an R phenotype in cotyledons and leaves. The most frequent response in cotyledons vs. leaves was the highly susceptible/susceptible (HS/S) combination (33 accessions), followed by the S/PR combination (18 accessions). A significant correlation (r = 0.917, P < .000) was observed between the disease index in cotyledons and leaves. The molecular markers analyses revealed a wide genetic distance between Diplotaxis and Eruca, which gather in two clearly separated species clusters. The molecular variability is accompanied by a wide diversity of interactions with the pathogen isolate. The closest similarities among D. tenuifolia accessions were found in accessions provided by the same breeding company. Future studies will be focused on two main objectives: (a) the assessment of the accessions behavior that have evidenced an R/R, S/PR, and HS/PR cotyledon and leaf response under greenhouse or field production and (b) the genome mapping of genetic features that provide downy mildew resistance.

Automated summary

One hundred accessions of Diplotaxis tenuifolia and Eruca spp. were screened for resistance to downy mildew. Cultivated rocket accessions showed a resistant response, while wild rocket accessions exhibited higher susceptibility in cotyledons. There was a significant correlation between disease index in cotyledons and leaves. Molecular markers analysis revealed genetic distance between Diplotaxis and Eruca, along with diverse interactions with the pathogen. Future studies will focus on evaluating different responses under greenhouse or field production and genome mapping of downy mildew resistance-related genetic features.