RESUMO
In August 2013, potato plants (Solanum tuberosum) cv. Banba displaying symptoms resembling those caused by Candidatus Phytoplasma solani (potato stolbur phytoplasma) were observed in a 2-ha field in the area of the Peripheral Unit of Drama (northern Greece). The plants were 10 weeks old and their symptoms included reddening and upward rolling of leaflets, reduced size of leaves, shortened internodes, and aerial tuber formation. Incidence of affected plants was estimated to be 40% in the field. Four symptomatic potato plants were collected for laboratory testing of possible phytoplasma infection. From each of these four plants, total DNA was extracted from mid veins of reddish leaflets from apical shoot parts and of leaflets emerging from aerial tubers, using a phytoplasma enrichment procedure (1). A nested PCR using the phytoplasma universal 16S rRNA primer pairs: P1/P7 followed by R16F2n/R16R2 (3) amplified the expected ~1.2-kb 16S rDNA fragment in all four symptomatic potato plants. No amplification was observed with DNA similarly extracted from leaflets of asymptomatic potato plants of the same variety collected from an apparently healthy crop. One of the four 1.2-kb nested 16S rDNA PCR products was gel purified, cloned into the pGEM-T-easy plasmid vector (Promega, Madison, WI), and sequenced by Beckman Coulter Genomics (United Kingdom). At least twofold coverage per base position of the cloned PCR product was achieved. BLAST analysis showed that the obtained sequence of the PCR 16S rDNA product was: i) 100% identical to several GenBank sequences of Ca. P. solani strains, including strains detected previously in Greece infecting tomato (GenBank Accession No. JX311953) and Datura stramonium (HE598778 and HE598779), and ii) 99.7% similar to that of the Ca. P. solani reference strain STOL11 (AF248959). Furthermore, analysis by iPhyClassifier software showed that the virtual restriction fragment length polymorphism (RFLP) pattern of the sequenced PCR 16S rDNA product is identical (similarity coefficient 1.00) to the reference pattern of the 16SrXII-A subgroup (AF248959). The sequence of this PCR product was deposited in NCBI GenBank database under the accession no. KJ810575. The presence of the stolbur phytoplasma in all four symptomatic potato plants examined was further confirmed by nested PCR using the stolbur-specific STOL11 primers (3) targeting non-ribosomal DNA. Based on the observed symptoms in the field and laboratory molecular examinations, we concluded that the potato plants were infected by a Ca. P. solani related strain. The stolbur disease has been previously reported in Greece affecting tomato (2,5) and varieties of D. stramonium (4). To our knowledge, this is the first report of a Ca. P. solani related strain infecting a potato crop in Greece. As northern Greece is a center of potato production, the source of this pathogen is to be investigated. References: (1) U. Ahrens and E. Seemuller. Phytopathology 82:828, 1992. (2) A. S. Alivizatos. Pages 945-950 in: Proceedings of the 7th International Conference of Plant Pathogenic Bacteria. Academiai Kiado, Budapest, Hungary, 1989. (3) J. Jovic et al. Bull. Insectol. 64:S83, 2011. (4) L. Lotos et al. J. Plant Pathol. 95:447, 2013. (5) E. Vellios and F. Lioliopoulou. Bull. Insectol. 60:157, 2007.
RESUMO
The bacterial family Enterobacteriaceae is notable for its well studied human pathogens, including Salmonella, Yersinia, Shigella, and Escherichia spp. However, it also contains several plant pathogens. We report the genome sequence of a plant pathogenic enterobacterium, Erwinia carotovora subsp. atroseptica (Eca) strain SCRI1043, the causative agent of soft rot and blackleg potato diseases. Approximately 33% of Eca genes are not shared with sequenced enterobacterial human pathogens, including some predicted to facilitate unexpected metabolic traits, such as nitrogen fixation and opine catabolism. This proportion of genes also contains an overrepresentation of pathogenicity determinants, including possible horizontally acquired gene clusters for putative type IV secretion and polyketide phytotoxin synthesis. To investigate whether these gene clusters play a role in the disease process, an arrayed set of insertional mutants was generated, and mutations were identified. Plant bioassays showed that these mutants were significantly reduced in virulence, demonstrating both the presence of novel pathogenicity determinants in Eca, and the impact of functional genomics in expanding our understanding of phytopathogenicity in the Enterobacteriaceae.