Your search keyword '"Abbà, Simona"' showing total 5 results

1. Lab-scale method for plant-mediated delivery of dsRNAs to phloem-feeding leafhoppers

Author

Rossi, Marika, Ottati, Sara, Bucci, Luca, Fusco, Alessia, Abbà, Simona, Bosco, Domenico, Marzachì, Cristina, and Galetto, Luciana

Published

2024

2. Transcriptional profile of selected flavescence dorée phytoplasma genes during infection of insect vectors and host plants

Author

Galetto, Luciana, Pesando, Massimo, Abbà, Simona, Bodino, Nicola, and Marzachì, Cristina

Published

2023

3. New Viral Sequences Identified in the Flavescence Dorée Phytoplasma Vector Scaphoideus titanus.

Author

Ottati, Sara, Chiapello, Marco, Galetto, Luciana, Bosco, Domenico, Marzachì, Cristina, and Abbà, Simona

Subjects

GRAPES, INSECT communities, VIRUS diversity, VITIS vinifera, RNA viruses, BIOLOGICAL pest control agents, GRAPE diseases & pests

Abstract

(1) Background: The leafhopper Scaphoideus titanus is the primary vector of Flavescence dorée phytoplasma (FDp) in European vineyards. Flavescence dorée is one of the most severely damaging diseases of Vitis vinifera and, consequently, a major threat to grape and wine production in several European countries. Control measures are compulsory, but they mainly involve large-scale insecticide treatments, with detrimental impacts on the environment. One possible solution is to exploit the largely unexplored genetic diversity of viruses infecting S. titanus as highly specific and environmentally benign tools for biological control. (2) Methods: A metatranscriptomic approach was adopted to identify viruses that may infect individuals caught in the wild in both its native (United States) and invasive (Europe) areas. Reverse transcription PCR was used to confirm their presence in RNA pools and explore their prevalence. (3) Results: We described nine new RNA viruses, including members of "Picorna-Calici", "Permutotetra", "Bunya-Arena", "Reo", "Partiti-Picobirna", "Luteo-Sobemo" and "Toti-Chryso" clades. A marked difference in the diversity and abundance of the viral species was observed between the USA population and the European ones. (4) Conclusions: This work represents the first survey to assess the viral community of a phytoplasma insect vector. The possibility to exploit these naturally occurring viruses as specific and targeted biocontrol agents of S. titanus could be the answer to increasing demand for a more sustainable viticulture. [ABSTRACT FROM AUTHOR]

Published

2020

4. Natterin-like and legumain insect gut proteins promote the multiplication of a vector-borne bacterial plant pathogen.

Author

Galetto, Luciana, Lucetti, Giulia, Bucci, Luca, Canuto, Francesca, Rossi, Marika, Abbà, Simona, Vallino, Marta, Parise, Cecilia, Palmano, Sabrina, Manfredi, Marcello, Bosco, Domenico, and Marzachì, Cristina

Subjects

*G protein coupled receptors, *PHYTOPATHOGENIC bacteria, *RNA interference, *PHYTOPLASMA diseases, *PHYTOPATHOGENIC microorganisms

Abstract

Phytoplasmas are phloem-limited plant pathogenic bacteria causing diseases in many plant species. They are transmitted by Hemipteran insect species in a persistent-propagative manner. Phytoplasmas are wall-less, and their membrane proteins are involved in pathogen internalization into host cells. We focused on the immunodominant membrane protein (Imp) of Flavescence dorée phytoplasma (FDp), a grapevine quarantine pest and a major threat to European viticulture. Scaphoideus titanus is the main natural vector of FDp to grapevine, whereas Euscelidius variegatus is commonly used as laboratory vector. Previous works indicated that recombinant Imp of two FDp strains (FD-C and FD-D) selectively interact with gut proteins from vector species rather than those from non-vectors. Here, similar patterns of interacting insect gut proteins were obtained from both vector species, following pull-down with His-tagged FDp Imps. After identification of several targets, four S. titanus and five E. variegatus proteins interacting with Imp were further characterized by measuring expression in different insect tissues and in healthy vs. infected insects. Specific RNAi silencing of two of these vector genes, namely natterin and legumain, resulted in a significant reduction of phytoplasma multiplication in insects upon pathogen acquisition, compared to control insects. Natterin displays a DM9 domain and legumain possesses a signature of G protein receptor, supporting their involvement as FDp Imp receptors. Outcomes of this work are discussed with particular attention devoted to the gain of knowledge on host/pathogen interaction as well as to the potential impact on improvement phytoplasma disease management. • Grapevine Flavescence dorée phytoplasma (FDp) is a severe quarantine plant disease. • Recombinant Imp proteins of FDp-C and D strains interact with insect gut elements. • RNAi silencing of insect natterin and legumain reduces phytoplasma load in vectors. • They have features of protein interaction mediating pathogen colonization of vector. • Natterin and legumain may work as pathogen receptors in gut of insect vectors. [ABSTRACT FROM AUTHOR]

Published

2025

5. Genetic diversity of Flavescence dorée phytoplasmas at vineyard scale.

Author

Rossi, Marika, Pegoraro, Mattia, Ripamonti, Matteo, Abbà, Simona, Beal, Dylan, Giraudo, Alessia, Veratti, Flavio, Malembic-Maher, Sylvie, Salar, Pascal, Bosco, Domenico, and Marzachì, Cristina

Subjects

*GRAPE diseases & pests, *VITIS vinifera, *PHYTOPLASMAS, *GENETIC markers, *VINEYARDS, *INSECT diseases, *CLEMATIS

Abstract

To study the role of wild areas around the vineyards in the epidemiology of flavescence dorée (FD) and track the origin of new foci, two phytoplasma genetic markers, dnaK and malG, were developed for FD phytoplasma (FDp) characterization. The two genes and the vmpA locus were used to genetically characterize FDp populations at seven agroecosystems of a wine-growing Italian region. Vitis vinifera, "gone-wild" V. vinifera and rootstocks, Clematis spp., and Scaphoideus titanus adults were sampled within and outside the vineyards. A range of genotypes infecting the different hosts of the FDp epidemiological cycle was found. Type FD-C isolates were fairly homogeneous compared to type FD-D ones. Most of the FD-D variability was correlated with the malG sequence, and a duplication of this locus was demonstrated for this strain. Coinfection with FD-C and FD-D strains was rare, suggesting possible competition between the two. Similar levels of FDp genetic variation recorded for grapevines or leafhoppers of cultivated and wild areas and co-occurrence of many FDp genotypes inside and outside the vineyards supported the idea of the importance of wild or abandoned Vitis plants and associated S. titanus insects in the epidemiology of the disease. Genetic profiles of FDp found in Clematis were never found in the other hosts, indicating that this species does not take part in the disease cycle in the area. Due to the robustness of analyses using dnaK for discriminating between FD-C and FD-D strains and the high variability of malG sequences, these are efficient markers to study FDp populations and epidemiology at a small geographical scale. IMPORTANCE Flavescence dorée, a threatening disease of grapevine caused by FD phytoplasma (FDp), is distributed within the most important wine-producing areas of Europe and has severe effects on both vineyard productivity and landscape management. FDp is a quarantine pest in Europe, and despite the efforts to contain the pathogen, the disease is still spreading. In this work, new genetic markers for the fine genetic characterization of FDp at local scale are presented. Our findings improve the knowledge of FDp epidemiological cycle and offer the possibility of tracking the route of the FDp infection. In particular, due to its high genetic variability, one of the newly developed markers could be sufficient to track the origin of new infection foci, either from the wild areas or from nurseries. [ABSTRACT FROM AUTHOR]

Published

2019