A splicing variant of EDS1 from Vitis vinifera forms homodimers but no heterodimers with PAD4

Enhanced Disease Susceptibility 1 (EDS1), a key component of microbe-triggered immunity and effector-triggered immunity in most higher plants, forms functional heterodimeric complexes with its homologs Phytoalexin Deficient 4 (PAD4) or Senescence-associated Gene 101 (SAG101). Here, the crystal structure of VvEDS1^Nterm , the N-terminal domain of EDS1 from Vitis vinifera, is reported, representing the first structure of an EDS1 entity beyond the model plant Arabidopsis thaliana. VvEDS1^Nterm has an α/β-hydrolase fold, is similar to the N-terminal domain of A. thaliana EDS1 and forms stable homodimers in solution as well as in crystals. These VvEDS1^Nterm homodimers are spatially incompatible with heterodimers with PAD4 or SAG101, they explain why VvEDS1^Nterm does not interact with V. vinifera PAD4 according to gel filtration, and they serve as a guide to develop a plausible, albeit experimentally not verified model of full-length EDS1. VvEDS1^Nterm is a splicing variant comprising two of three exons of the VvEDS1 gene. It originates from a naturally occurring mRNA, in which the first of two introns was removed while the second one containing a stop codon close to the exon/intron border was retained. This is a potential case of intron retention and the first report of this phenomenon in the context of EDS1. Its biological significance has not yet been clarified, nor has the question if a VvEDS1^Nterm protein with a specific function can occur under physiological conditions.