Molecular and functional characterization of two RGA type genes in the PdR1b locus for Pierce’s disease resistance in Vitis arizonica/candicans

Abstract

Pierce’s disease is a deadly disease of grapevines caused by the bacterial pathogen Xylella fastidiosa (Xf). A Pierce’s disease resistance locus from Vitis arizonica/candicans b43-17 segregated as a single dominant gene and mapped as PdR1a and PdR1b in two F1 sibling selections. The physical mapping of the PdR1b allele allowed the identification of five ORFs of the Leucine-Rich Repeat Receptor Kinase gene family. Two ORFs: V.ari-RGA14 and V.ari-RGA18 were used to transform embryogenic callus of V. vinifera Chardonnay (CH) and Thompson Seedless (TS) and V. rupestris St George (SG) via Agrobacterium tumefaciens. Regenerated plants were inoculated with Xf under greenhouse conditions. Genetic transformation with RGA14 and 18 did not generate resistance in CH and TS, although some lines of CH showed significantly lower stem bacterial concentration and/or exhibited reduced symptoms. In transgenic SG14, improved regrowth was accompanied with lower bacterial titers and decreased pectin lyase and ß-1,3-glucanase 3 gene expression. The limited effects of the transgenes on PD resistance could be explained by the lack of suitable partners or the presence of susceptibility factors that could not be overcome under these experimental conditions. The involvement of RGA17 in b43-17 resistance to Xf should not be discarded.