Aim: Evaluation of the genetic variability of stolbur phytoplasma infecting grapevines, bindweeds and vegetables, collected in different central and southern Italian regions. Materials and Results: Phytoplasma isolates belonging to stolbur subgroup 16SrXII‐A were subjected to molecular characterization by polymerase chain reaction/restriction fragment length polymorphism (PCR/RFLP), to investigate two different nonribosomal genes: tuf and vmp1. In grapevines, 32% of samples were infected by tuf‐a type and 68% by tuf‐b type, with different relative incidences in the regions surveyed. All herbaceous samples (bindweeds, tomato, tobacco, pepper, celery) were infected by tuf‐b. The gene vmp1 showed higher polymorphism in grapevines (nine profiles) than herbaceous plants (six) by RFLP analysis, in agreement with nucleotide sequences’ analysis and virtual digestions. Conclusions: The phylogenetic analysis of vmp1 gene sequences supports the RFLP data and demonstrates the accuracy of RFLP for preliminary assessments of genetic diversity of stolbur phytoplasmas and for screening different vmp types. Significance and Impact of the Study: Stolbur represents a serious phytosanitary problem in the areas under investigation, owing to heavy economic losses in infected grapevines and vegetables. Molecular information about the complex genotyping of the vmp1 gene provides useful data towards a better understanding of stolbur epidemiology. Moreover, this study clarifies some different vmp1 genotype classifications of stolbur, providing molecular data in comparison with previous investigations.
Epidemiological surveys were performed in Northern Sardinia (Italy) in a 10-year-old vineyard affected by “Bois noir” disease. Samples collected between May and October 2003 from chlorotic and stunted weeds belonging to 14 different taxonomic groups were indexed molecularly for detection of phytoplasmas. Nested polymerase chain reaction (PCR) assays using primers specific for the phytoplasma 16SrDNA gene showed three of six Calendula arvensis, one of two Solanum nigrum, and one of seven Chenopodium spp. assayed positive. Restriction fragment length polymorphism analyses and sequencing of amplified 16SrDNA fragments identified a putative phytoplasma in the ribosomal subgroup 16SrII-E. Further characterization of the rps3 gene, coding a ribosomal protein, confirmed the identification. However, the weeds and leafhop-per species collected in the vineyard tested negative by PCR assays for the Stolbur phytoplasma, the causal agent of “Bois noir”. This is the first report of a phytoplasma of the 16SrII-E subgroup infecting C. arvensis, S. nigrum, and Chenopodium spp.
Sanitary selection and certification of olive cultivars require sensitive diagnostic methods and effective sanitation protocols. Although much attention has been paid in the past few years to the development of diagnostic tools for reliable virus identification, the need to define a common and standardized diagnostic protocol led to the implementation of a ring test among nine Italian diagnostic laboratories. A one‐step RT‐PCR protocol and different primer sets, targeting the most common olive viruses covered by phytosanitary rules, were tested in each laboratory, using the same batch of positive and healthy controls as well as the same amplification conditions and reaction components. The one‐step RT‐PCR, performed using several specific primer sets, was able efficiently to detect the target viruses in all laboratories. Furthermore, a one‐step RT‐PCR protocol was used successfully for the first time for detection of Tobacco necrosis virus (TNV) and Olive mild mosaic virus (OMMV). Results showed that all target viruses were not uniformly distributed in the canopy, and that at least two subsets of samples must be collected from each plant. This standardized protocol is now being used to produce nuclear stocks for 70 different Italian olive cultivars, in the framework of the national project OLVIVA, which involves 25 national research institutions.
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