Abstract
Phytoplasmas are wall-less bacteria, with a parasitic life style responsible for numerous plant diseases worldwide. The genomic landscape of phytoplasmas has been scarcely studied. Nevertheless, since the introduction of next generation sequencing technologies, genome wide studies of these pathogens are flourishing and a handful of phytoplasmas genomes are available in public databases. In South America, phytoplasmas from 16SrIII group (X-disease) are the most widely distributed, and only a draft genome from a phytoplasmas 16SrIII-J infected periwinkle from Chile has been generated (Phytoplasma Vc33). Here, in grafting experiments we characterized the phenotypic signatures of an Argentinian daisy derived isolate of a 16SrIII-J phytoplasma (Bellis Virescence Phytoplasma) infecting periwinkle. Moreover, we applied a pipeline for genome wide annotation of the Vc33 genome and identified the effector protein SAP54. We then employed the obtained data to amplify, clone, sequence and characterize a SAP54 orthologue protein of Bellis Virescence Phytoplasma. Structural and phylogenetic analyses suggested that the identified SAP54 is highly conserved, and that its co-divergence among phytoplasma is not directly consistent with the evolutionary trajectories derived from rRNA analyses. The results gathered here could provide the basis for reverse genetics experiments using 16SrIII-J SAP54 proteins to assess their eventual influence in pathogenesis.
