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6. UNRAVELING THE REGULATION OF FLAVONOID PRODUCTION IN GLOBE ARTICHOKE: ISOLATION AND CHARACTERIZATION OF THE FLAVONOL REGULATOR CCMYB12

Author

BLANCO E., SABETTA W.*1, DANZI D., NEGRO D., PASSERI V.**2, MORGESE A., DE LISI A., PAOLOCCI F., and SONNANTE G.

Subjects
flower colour, fungi, food and beverages, flavonoid biosynthesis, healthy compounds, R2R3-MYB, artichoke
Abstract

Flavonoids, a well-studied group of secondary metabolites, are known to exhibit health promoting effects such as antioxidant capacities, anti-cancer and anti-inflammatory activity. The globe artichoke [Cynara cardunculus var. scolymus (L.) Fiori] is a natural functional food rich in bioactive phenolic compounds, including flavonoids, and in fibers (inulin) and minerals. To study the regulation of flavonoid biosynthesis, a R2R3-MYB transcription factor, CcMYB12, was isolated from artichoke leaves. Phylogenetic analysis showed that this protein belongs to the MYB subgroup 7 (flavonolspecific MYB), which includes Arabidopsis AtMYB12, grapevine VvMYBF1, and tomato SlMYB12. CcMYB12 transcripts were detected specifically in artichoke immature inflorescence and young leaves. Electrophoretic mobility shift assays (EMSAs) revealed that recombinant CcMYB12 protein is able to bind to canonical AC element, a DNA binding site ubiquitously present in the promoters of genes encoding flavonol biosynthetic enzymes. Arabidopsis and tobacco plants overexpressing CcMYB12 protein were generated and characterized. Finally, by targeted metabolic and molecular analyses, we show that the ectopic expression of CcMYB12 in Arabidopisis and tobacco plants promotes flavonol biosynthesis at expenses of anthocyanins

Published
2018

7. Genetic characterization of grape genotypes from Apulia and synonymies in other Mediterranean regions

Author

di Rienzo V., Fanelli V., Sabetta W., Gadaleta S., Miazzi M.M., Sion S., Pirolo C., La Notte P., and Montemurro C.

Subjects
vitis vinifera, grapevine identification, microsatellites
Abstract

Currently Apulia region accounts about 59 winegrape cultivars authorised for growing, including historical varieties. The existence of autochthonous minor varieties in the region has been recognized and is recently at the centre of a program aiming to their recovery and their further exploitation for commercial use. In the present study, 87 traditional, autochthonous and minor Apulian grapevine accessions were examined for their genetic profiles. Among them, 64 unique genotypes were found. Synonyms among Apulian genotypes and Italian varieties cultivated in Apulia or other Italian regions were identified by searching for genetic matching in different molecular database publicly available and through bibliographic search with published genetic data. The main goal of the current study was to identify, characterise and catalogue local germplasm rich of economical and historical significance.

Published
2018

8. Italian Variety Club, a research and innovation network for the genetic improvement of table grapes

Author

Pirolo C., Sabetta W., Roseti V., Fortunato A., Montemurro C., Bottalico G., Catalano L., La Notte P., Savino V.N., and Fideghelli C.

Subjects
breeding program, seedless varieties progenies, table grape
Abstract

The ambitious idea for the development of new tablegrape seedless varieties, suitable for growing in the Mediterranean basin and highly competitive on the international markets, has recently led to the foundation (in 2015) of the Italian Variety Club (IVC) a network of 17 enterprises and 2 research Institutions in Southern Italy. This synergic collaboration among private companies and researchers aims to develop and transfer varietal and technical innovation to the growers and to strengthen the Italian table grape supply chain merging high quality products and sustainable agriculture. The breeding program is organized in different interconnected activities such as: "seed x seedless" varieties and "seedless x seedless" varieties controlled crosses, involving Apulian traditional genotypes and élite cultivars; F1seedling production with molecular marker assisted selection (MAS) for an early identification of seedless genotypes; in vitro embryo culture; plant evaluation under field conditions. In the coming years the activities of varietal description and official registration, Patent protection, and establishment of stock fields will be initiated. As result of the 3-year activities, the progenies of 75 "seed x seedless" varieties crosses, 28 "seedless x seedless" varieties crosses and 12 crosses involving germplasm with resistance traits have been obtained and analysed and the field evaluation begun. With regard to progenies derived from "seedless x seedless" varieties crosses, the average embryogenesis percentages (no. of germinated embryos/no. of cultivated ovules) was about 8-9%, varying according to the parents used. Following the extensive use of MAS about 40% of each "seed x seedless" varieties progeny carried allele associated to seedless locus. Actually about 6,000 new genotypes are grown in the first selection field, while further 6,000 seedless plants are going to be planted within 2018.

Published
2018

14. A Simple and Rapid Method for Genomic DNA Extraction and Microsatellite Analysis in Tree Plants.

Author

Spadoni, A., Sion, S., Gadaleta, S., Savoia, M. A., Piarulli, L., Fanelli, V., Di Rienzo, V., Taranto, F., Miazzi, M. M., Montemurro, C., and Sabetta, W.

Abstract

A new and optimized protocol, here called 6hDNA (i.e. a genomic DNA obtained by a six-hour extraction method), has been developed based on the traditional Cetyl-TrimethylAmmonium Bromide (CTAB) method. It allows a fast and easy isolation of genomic DNA from plant species, especially from those with high polyphenol and polysaccharide contents. Co-precipitation of polysaccharides was avoided by adding higher concentrations of selective precipitants of nucleic acid, CTAB 3% (w/v) and sodium chloride (NaCl) (1.42M). PolyVinylPyrrolidone (PVP) 1% (w/v) was applied to remove polyphenols as PCR inhibitors. Proteins were degraded by treatments of chloroform:isoamyl alchol (24:1) and phenol:chloroform:isoamyl alchol (25:24:1) and removed by centrifugation from plant extracts. The yield of total DNA from leaves of Vitis vinifera, Citrus sinensis and Olea europaea ranged from 42 to 980 ng μL-1 with A260/A280 ratio values between 1.6 and 2.06. The purity and integrity of the obtained DNA guarantees successful downstream applications including PCR and microsatellite markers. The use of lyophilized plant material and the reduced time of the total procedure make this new 6hDNA protocol more convenient when compared to the most common DNA isolation protocols, such as: "Doyle and Doyle", "Lodhi", "Li", or those using the DNAzol reagent and the Nucleospin Plant Minikit. [ABSTRACT FROM AUTHOR]

Published
2019

15. CYCLIC NUCLEOTIDES IN BIOTIC STRESS SIGNALLING IN PLANT: FIRB PROJECT OUTLINES

Author

SABETTA W., DEPINTO M.C., VANDELLE E., BELLIN D., LOCATO V., TISI A., FINCATO P., COSTA A., and BLANCO E.

Subjects
cGMP, plant signalling transduction, cAMP
Abstract

Plant cyclic nucleotides (cGMP and cAMP) have been reported to be involved in several physiological processes, but the mechanisms of action and the following signal transduction events, are still poorly characterized. The main object of the 2010 FIRB project is the study of cyclic nucleotide roles in signalling events following biotic stress in Arabidopsis thaliana. For this aim transgenic plants with altered levels of both cGMP and cAMP, have been generated. Specifically, plants over-expressing a mammalian guanylate cyclase (GC) or a phosphodiesterase (PDE) to alter the cGMP levels, and plants over-expressing a chimeric protein namely "cAMP-sponge" (cAS), to buffer the cAMP, were produced. Moreover, in order to measure both in vivo and in vitro the cNMP levels and dynamics, different approaches have been followed: i) production of transgenic lines expressing genetically encoded FRET-based probes (EPACs and Red-cGES) and ii) set up of alpha screen technology for plant tissue. To gain insight into the inter-relationships of cNMPs and other second messengers in the plant signalling events, we then crossed the plants with altered levels of cNMPs with Arabidopsis transgenic lines expressing the genetically encoded probes Cameleon (for in vivo Ca2+ detection) and roGFP2 (for in vivo detection of redox potential). In Arabidopsis, it has been reported that Ca2+, redox status and cNMPs play important signalling roles in response to the avirulent attack of Pseudomonas syringae. Our preliminary results, using Cameleon and roGFP2 wild type plants, showed a transient increase of both Ca2+ and oxidation status upon avirulent attack of Pseudomonas syringae. Biochemical analyses confirmed that both Glutathione and Ascorbate pools were more oxidized upon such attack. In order to study if and how the cNMPs play a role in the regulation of Ca2+ and redox status similar experiments will be performed with the different generated lines with altered levels of cNMPs. Finally, to understand if the altered levels of cNMPs can affect gene expression in response to the considered pathogen attack, a transcriptomic and proteomic characterization of the transgenic lines will be performed. Following this multidisciplinary approach, the understanding of the specific biological responses regulated by cAMP and cGMP and the downstream signalling events actually represents a big challenge in plants

Published
2014

16. INSIGHT INTO THE REGULATION OF FLAVONOID BIOSYNTHESIS IN ARTICHOKE: ISOLATION OF MYB TRANSCRIPTION FACTORS

Author

BLANCO E., SABETTA W., DANZI D., MORGESE A., and SONNANTE G.

Subjects
fungi, food and beverages
Abstract

Polyphenols are important constituents of food products of plant origin and represent major antioxidants in our diet, since endogenous defense mechanisms are inadequate for the complete prevention of oxidative damage. The most abundant types of polyphenols found in the human diet are flavonoids, most often conjugated as glycosides. Among different sources of dietary antioxidants, artichoke extracts are particularly rich in bioavailable poliphenolic compounds as flavonoids and are important for their marked antioxidative potential and cancer chemopreventive properties. The understanding of flavonoids biosynthesis and its regulation in artichoke is essential to enhance the levels of these bioactive molecules in plants used as food. The biosynthetic pathway leading to the accumulation of flavonoids has been elucidated using genetic and biochemical information from many plant species (parsley, maize, petunia, Antirrhinum species, Arabidopsis, apple and grapevine) and has been recently studied in artichoke, where several enzymes directly involved in the early steps of the biosynthesis of flavonoids have been isolated and characterized, but little is still known on the regulation of these genes. The fine regulation of flavonoids accumulation is achieved by combinatorial actions of transcription factors (TF) belonging to various classes, among which MYB TF. Two putative artichoke MYB TF genes were isolated from a BAC library and were sequenced using Illumina technology. Sequencing allowed the structural characterization of coding and promoter regions of both genes, which showed a high similarity to MYB TF of other plant species (e.g. Arabidopsis, tomato). A phylogenetic analysis of putative MYB factors showed that the two artichoke sequences cluster together in a group including MYB factors from other species involved in the pathway of flavonols and proanthocyanidin biosynthesis. Heterologous expression in bacteria to study protein/DNA interactions and quantitative real-time PCR have been performed to gain insights into the molecular mechanism of polyphenols regulation in this edible plant, contributing to future progress in the study of polyphenols accumulation.

Published
2014

18. INVESTIGATION ON THE ROLE OF cAMP IN PLANTS USING THE 'cAMP-SPONGE'

Author

SABETTA W., SGOBBA A., VIGGIANO L., DE PINTO M.C., and BLANCO E.

Abstract

Cyclic AMP is a well known second messenger involved in different cellular responses in all living organisms. In higher plants, its role as second messenger has been widely debated, due to its low content and to the difficulty of measuring it. However, its natural occurrence and the existence of adenylyl-cyclases and cAMP phosphodiesterases, that constitute the on-off switches needed for its action as second messenger, have been demonstrated. Data accumulated in the last three decades show the involvement of cAMP in several processes of higher plants, including cell cycle regulation, growth and reorientation of the pollen tube, seed germination and defense responses. However little is known on the mechanisms involved in the cAMP-dependent signal transduction in plants. To shed light on cAMP role in plant signaling pathways, Arabidopsis plants, whose genome has been completely sequenced, and tobacco Bright Yellow-2 (BY-2) cells, that are highly synchronizable, have been chosen as model systems. For this purpose, both Arabidopsis plants and tobacco BY-2 cells were transformed with the "cAMP-sponge", a non invasive tool able to selectively reduce cAMP concentration (Lefkimmiatis et al, 2009). The cAMP-sponge is composed of two high-affinity cAMP binding domains of the regulatory subunits I beta of human protein kinase A (PKARIbeta) that specifically bind cAMP and not cGMP. The construct containing the cAMP-sponge in frame with the reporter gene mCherry were mobilized into TBY-2 cells and Arabidopsis via A. tumefaciens-mediated transformation. Transgenic TBY-2 calli and Arabidopsis plants were selected in the presence of appropriate antibiotics, and several independent transgenic lines were obtained. Trans-gene integration and its expression in Arabidospsis and tobacco transformed lines were verified by PCR, RT-PCR and immunoblotting analyses. The low levels of cAMP negatively affected the growth of TBY-2 cells whereas no distinctive phenotype was observed in Arabidobsis plants. However, a stress condition was evidenced for both tobacco BY-2 cells and Arabidopsis plants, as shown by the alteration of their cellular redox state, analysed by ascorbate and glutathione measurements.

Published
2012

19. Polyphenolic compounds in artichoke varieties and regulation of their synthesis in artichoke

Author

Blanco E., Negro D., Sabetta W., De Lisi A., Sarli G., and Sonnante G.

Subjects
food and beverages
Abstract

Polyphenols are widespread constituents of plants that have been used in the treatment of diseases for centuries. The current growing interest in dietary plants has led to renewed attention on artichoke, because of its high polyphenolic content. Polyphenolic artichoke extracts have surprising pharmacological and biochemical effects, such as a marked antioxidative potential and cancer chemopreventive properties. Hence, there is considerable interest in improving our understanding of polyphenol biosynthesis and its regulation in artichoke, to enhance the levels of these bioactive molecules in plants used as food, starting from the evaluation of phenolic content of different genotypes. A combination of genetic and biochemical analyses was used to help identifying genes involved in the accumulation of polyphenols and characterizing different artichoke varietal types diffused in the Mediterranean region by polyphenolic content. Six traditionally cultivated varieties of artichoke (Mola, Tondo di Paestum, Sant'Erasmo, Bianco di Ostuni, Blanca de Tudela and Violet de Provence) were selected, and qualitative and quantitative evaluations of phenolic profile were carried out on different artichoke tissues (three bract orders and receptacle of flower heads and leaves) in several developmental stages, by HPLC and mass spectrometry analyses. Our results show that polyphenols content mainly depend on the genotype and part of the plants. Total polyphenols were more abundant in leaves than in heads, while cynarin and chlorogenic acid (CGA) were the most abundant hydroxycinnammates (mainly in capitula). The fine regulation of biosynthetic pathway leading to the accumulation of phenylpropanoids is achieved by combinatorial actions of transcription factors (TF) belonging to various classes, among which MYB TF. Two putative MYB TF genes were isolated from artichoke (Tondo di Paestum and Locale di Mola), which showed a high similarity to MYB12 TF of other plant species (e.g. Arabidopsis, tomato). These genes were over-expressed under UV-light stress conditions. Total polyphenols content will be measured in artichoke tissues to possibly confirm correlation of the artichoke MYB factors with accumulation of these compounds. Heterologous expression in bacteria and quantitative real-time PCR are being performed to gain insights into the molecular mechanism of polyphenols regulation in this edible plant, contributing to future progress in the study of polyphenols accumulation.

Published
2012

24. Single nucleotide polymorphism (SNP) diversity in an olive germplasm collection

Author

Nunzio D’Agostino, Monica Marilena Miazzi, Enzo Perri, Cinzia Montemurro, Valentina Fanelli, V. Di Rienzo, Samanta Zelasco, Francesca Taranto, Stefano Pavan, W. Sabetta, Taranto, F., D'Agostino, N., Pavan, S., Fanelli, V., Di Rienzo, V., Sabetta, W., Miazzi, M. M., Zelasco, S., Perri, E., and Montemurro, C.

Subjects
0106 biological sciences, 0301 basic medicine, Germplasm, Genetics, Genetic diversity, media_common.quotation_subject, Single-nucleotide polymorphism, Horticulture, Biology, 01 natural sciences, Genome, Single nucleotide polymorphism, 03 medical and health sciences, 030104 developmental biology, Genetic marker, SNP, Genotyping-by-sequencing, Olea europaea, Gene, 010606 plant biology & botany, Diversity (politics), media_common
Published
2018
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25. Chemical and Molecular Characterization of Crude Oil Obtained by Olive-Pomace Recentrifugation

Author

Valentina di Rienzo, Wilma Sabetta, Francesco Caponio, Antonella Pasqualone, Cinzia Montemurro, Valentina Fanelli, Carmine Summo, Vito Michele Paradiso, Pasqualone, A., Di Rienzo, V., Sabetta, W., Fanelli, V., Summo, C., Paradiso, V. M., Montemurro, C., and Caponio, F.

Subjects
Chromatography, Article Subject, Moisture, Chemistry, Size-exclusion chromatography, Pomace, 04 agricultural and veterinary sciences, General Chemistry, Crude oil, 040401 food science, Hydrolytic degradation, lcsh:Chemistry, 0404 agricultural biotechnology, lcsh:QD1-999, Olive oil
Abstract

In oil-mills, olive-pomace recentrifugation is a common way to reduce pomace moisture and, at the same time, to recover the oil therein. According to current rules, the obtained oil is defined as “crude olive-pomace oil.” The aim of this work is to verify the effect of recentrifugation on specific chemical and molecular parameters of the crude olive-pomace oil, by comparing it with the corresponding virgin olive oil obtained from the same olive lots. In particular, the following were considered: (i) the polar compounds of the oils that include compounds originated from oxidative and hydrolytic degradation, analyzed by high-performance size exclusion chromatography (HPSEC), and (ii) the profile of DNA microsatellite molecular markers that was analyzed by using the High Resolution Melting (HRM) technique. The obtained results evidenced the significantly higher hydrolytic degradation of crude olive-pomace oil, compared with the corresponding virgin olive oil, but at an extent unlikely able to allow the detection of fraudulent admixtures with virgin olive oils. In addition, the findings demonstrated the feasibility of the application of the HRM analysis of DNA microsatellites to crude olive-pomace oil, able to reveal the alteration of the declared varietal profile of a virgin olive oil sample by simply checking the HRM curve profiles.

Published
2016

26. Varietal identification in pasta through an SSR-based approach: a case study.

Author

Fanelli V, Dellino M, Taranto F, De Giovanni C, Sabetta W, De Vita P, and Montemurro C

Subjects
Reproducibility of Results, Edible Grain, Italy, Triticum genetics, Triticum chemistry, Flour analysis
Abstract

Background: Pasta is a worldwide popular Italian food made exclusively of durum wheat. The choice of variety to be used to produce pasta is at the discretion of the producer based on the peculiar characteristics of each cultivar. The availability of analytical approaches for the tracking of specific varieties along the productive chain is becoming increasingly important to authenticate the pasta products and distinguish between fraudulent activities and cross-contaminations during the production process. Among the different methods, molecular approaches based on DNA markers are the most used for these purposes because of their ease of use and high reproducibility., Results: In the present study, we used an easy simple sequence repeats-based method to identify the durum wheat varieties used to produce 25 samples of semolina and commercial pasta comparing their molecular profile with those of the four varieties declared by the producer and other 10 durum wheat cultivars commonly used in pasta production. All of the samples showed the expected molecular profile; however, most of them present also a foreign allele indicating a possible cross-contamination. Moreover, we evaluated the accuracy of the proposed approach through the analysis of 27 hand-made mixtures with increasing amounts of a specific contaminant variety, allowing the estimation of the limit of detection of 5% (w/w)., Conclusion: We demonstrated the feasibility of the proposed method and its effectiveness in the detection of not declared varieties when these are present in a percentage equal to or higher than 5%. © 2023 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry., (© 2023 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.)

Published
2023
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27. Biodiversity Evaluation and Preservation of Italian Stone Fruit Germplasm (Peach and Apricot) in Southern Italy.

Author

Savoia MA, Del Faro L, Turco A, Fanelli V, Venerito P, Montemurro C, and Sabetta W

Abstract

The Prunus genus encompasses a group of economically important and closely related crops, sharing an essentially common genome and, thereby, a high level of conserved and transferable microsatellite (SSR) loci. In Southern Italy, many of the local and/or neglected varieties are abandoned and at risk of extinction due to the high degree of urbanization and agricultural intensification, despite their value as genetic resources for crop improvement. This research aimed to genetically and morphologically characterize the traditional apricot ( P. armenica ) and peach ( P. persica ) germplasms collected in old family orchards. Most of the official descriptor categories were scored, thus revealing a rather high level of phenotypic variation in both collections. Genetic data allowed the discovery of diversity masked by morphological traits. Genotyping in 15 and 18 SSRs, eight of which were transferable across both species, showed an average polymorphic informativeness (PIC) of 0.44 and 0.59 for apricot and peach, respectively, and a total of 70 and 144 alleles. A reliable identification of each genotype was achieved, and the presence of possible mislabeling and/or erroneous denominations was solved. These results are encouraging for the valorization of the still poorly explored Italian Prunus germplasm, with significant economic consequences for bioresource conservation and management.

Published
2023
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28. "Good Wine Makes Good Blood": An Integrated Approach to Characterize Autochthonous Apulian Grapevines as Promising Candidates for Healthy Wines.

Author

Sabetta W, Centrone M, D'Agostino M, Difonzo G, Mansi L, Tricarico G, Venerito P, Picardi E, Ceci LR, Tamma G, Caponio F, Montemurro C, and Volpicella M

Subjects
Caco-2 Cells, Fruit chemistry, Humans, Phenols analysis, Phenols metabolism, Plant Extracts metabolism, Plant Extracts pharmacology, Vitis metabolism, Wine analysis
Abstract

Wine production represents an ancient human activity and one of the most economically important markets in Europe. Moreover, the health effects of grapes and related products have been largely demonstrated, and mostly depend on their richness in bioactive molecules such as flavonoid and non-flavonoid phenolic compounds. Italy has the highest global wine production and provides one of the richest grapevine germplasm in the Mediterranean area. In this paper, our attention was focused on the evaluation of the total phenol and anthocyanin content in five autochthonous Apulian grapevine cultivars, in both wines and their non-alcoholic extracts. Moreover, the potential antioxidant effects of the non-alcoholic wine extracts on the cell viability of Caco-2 and HeLa carcinoma cell lines were tested. Finally, for the most promising autochthonous selected cultivars (Negramaro, Nero di Troia and Susumaniello), comparative transcriptomic analysis in berries was performed using high-throughput sequencing technology., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published
2022
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29. The Relevance of Discovering and Recovering the Biodiversity of Apulian Almond Germplasm by Means of Molecular and Phenotypic Markers.

Author

Savoia MA, Del Faro L, Venerito P, Gaeta L, Palasciano M, Montemurro C, and Sabetta W

Abstract

Almond cultivation has great traditional and economic relevance in Southern Italy, especially in the Apulia region, where almond trees feature an ample and ancient varietal richness. To contrast the loss of plant genetic erosion and to safeguard the available bioresources, as well as to reinforce the local production, the regional Re.Ge.Fru.P. project aimed to re-evaluate, identify, and characterize the Apulian almond germplasm that is still uncharacterized and not jet studied using a dual (genetic and morphological) approach. Collection was conducted in the regional territory of 187 among the most widespread and minor or marginalized genotypes that were molecularly fingerprinted by means of 18 nuclear microsatellites (simple sequence repeats, SSRs). The high number of scored alleles reflected the great level of diversification within the Apulian germplasm, as also confirmed by neighbor joining and structure analysis, that clearly distinguished different genotype clusters. The phenotypic characterization using 17 morphological and phenological descriptors mirrored the genetic results, revealing a high degree of variability. The morphological traits with the best discriminatory ability were nut ventral suture, shell softness and shape and petal color. This work emphasizes the importance of recovering the genetic variability of Apulian almond germplasm, and the need to promote added value and enhance the local agri-food economy.

Published
2022
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30. Bioactive Potential of Minor Italian Olive Genotypes from Apulia, Sardinia and Abruzzo.

Author

Sabetta W, Mascio I, Squeo G, Gadaleta S, Flamminii F, Conte P, Di Mattia CD, Piga A, Caponio F, and Montemurro C

Abstract

This research focuses on the exploration, recovery and valorization of some minor Italian olive cultivars, about which little information is currently available. Autochthonous and unexplored germplasm has the potential to face unforeseen changes and thus to improve the sustainability of the whole olive system. A pattern of nine minor genotypes cultivated in three Italian regions has been molecularly fingerprinted with 12 nuclear microsatellites (SSRs), that were able to unequivocally identify all genotypes. Moreover, some of the principal phenolic compounds were determined and quantified in monovarietal oils and the expression levels of related genes were also investigated at different fruit developmental stages. Genotypes differed to the greatest extent in the content of oleacein (3,4-DHPEA-EDA) and total phenols. Thereby, minor local genotypes, characterized by stable production and resilience in a low-input agro-system, can provide a remarkable contribution to the improvement of the Italian olive production chain and can become very profitable from a socio-economic point of view.

Published
2021
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31. A TILLING by sequencing approach to identify induced mutations in sunflower genes.

Author

Fanelli V, Ngo KJ, Thompson VL, Silva BR, Tsai H, Sabetta W, Montemurro C, Comai L, and Harmer SL

Subjects
Computational Biology, Gene Library, Genetic Loci, High-Throughput Nucleotide Sequencing, Mutagenesis, Point Mutation, Polymorphism, Single Nucleotide, Crops, Agricultural genetics, Genome, Plant, Helianthus genetics, Plant Breeding methods, Reverse Genetics methods
Abstract

The Targeting Induced Local Lesions in Genomes (TILLING) technology is a reverse genetic strategy broadly applicable to every kind of genome and represents an attractive tool for functional genomic and agronomic applications. It consists of chemical random mutagenesis followed by high-throughput screening of point mutations in targeted genomic regions. Although multiple methods for mutation discovery in amplicons have been described, next-generation sequencing (NGS) is the tool of choice for mutation detection because it quickly allows for the analysis of a large number of amplicons. The aim of the present work was to screen a previously generated sunflower TILLING population and identify alterations in genes involved in several important and complex physiological processes. Twenty-one candidate sunflower genes were chosen as targets for the screening. The TILLING by sequencing strategy allowed us to identify multiple mutations in selected genes and we subsequently validated 16 mutations in 11 different genes through Sanger sequencing. In addition to addressing challenges posed by outcrossing, our detection and validation of mutations in multiple regulatory loci highlights the importance of this sunflower population as a genetic resource.

Published
2021
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32. Functional conservation of the grapevine candidate gene INNER NO OUTER for ovule development and seed formation.

Author

di Rienzo V, Imanifard Z, Mascio I, Gasser CS, Skinner DJ, Pierri CL, Marini M, Fanelli V, Sabetta W, Montemurro C, and Bellin D

Abstract

Seedlessness represents a highly appreciated trait in table grapes. Based on an interesting case of seedless fruit production described in the crop species Annona squamosa, we focused on the Vitis vinifera INNER NO OUTER (INO) gene as a candidate. This gene encodes a transcription factor belonging to the YABBY family involved in the determination of abaxial identity in several organs. In Arabidopsis thaliana, this gene was shown to be essential for the formation and asymmetric growth of the ovule outer integument and its mutation leads to a phenotypic defect of ovules and failure in seed formation. In this study, we identified in silico the V. vinifera orthologue and investigated its phylogenetic relationship to INO genes from other species and its expression in different organs in seeded and seedless varieties. Applying cross-species complementation, we have tested its functionality in the Arabidopsis ino-1 mutant. We show that the V. vinifera INO successfully rescues the ovule outer integument growth and seeds set and also partially complements the outer integument asymmetric growth in the Arabidopsis mutant, differently from orthologues from other species. These data demonstrate that VviINO retains similar activity and protein targets in grapevine as in Arabidopsis. Potential implications for grapevine breeding are discussed.

Published
2021
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33. Serendipitous In Situ Conservation of Faba Bean Landraces in Tunisia: A Case Study.

Author

Babay E, Khamassi K, Sabetta W, Miazzi MM, Montemurro C, Pignone D, Danzi D, Finetti-Sialer MM, and Mangini G

Subjects
Agriculture methods, Crops, Agricultural genetics, Genetic Markers genetics, Genetic Variation genetics, Genotype, Microsatellite Repeats genetics, Tunisia, Vicia faba genetics, Vicia faba growth & development
Abstract

Cultivation of faba bean ( Vicia faba L.) in Tunisia is largely based on improved varieties of the crop. However, a few farmers continue to produce local cultivars or landraces. The National Gene Bank of Tunisia (NGBT) recently launched a collection project for faba bean landraces, with special focus on the regions of the North West, traditionally devoted to cultivating grain legumes, and where around 80% of the total national faba bean cultivation area is located. The seed phenotypic features of the collected samples were studied, and the genetic diversity and population structure analyzed using simple sequence repeat markers. The genetic constitution of the present samples was compared to that of faba bean samples collected by teams of the International Center for Agricultural Research in the Dry Areas (ICARDA) in the 1970s in the same region, and stored at the ICARDA gene bank. The results of the diversity analysis demonstrate that the recently collected samples and those stored at ICARDA largely overlap, thus demonstrating that over the past 50 years, little genetic change has occurred to the local faba bean populations examined. These findings suggest that farmers serendipitously applied international best practices for in situ conservation of agricultural crops., Competing Interests: The authors declare that they have no competing interests for this research.

Published
2020
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34. Re.Ger.O.P.: An Integrated Project for the Recovery of Ancient and Rare Olive Germplasm.

Author

Miazzi MM, di Rienzo V, Mascio I, Montemurro C, Sion S, Sabetta W, Vivaldi GA, Camposeo S, Caponio F, Squeo G, Difonzo G, Loconsole G, Bottalico G, Venerito P, Montilon V, Saponari A, Altamura G, Mita G, Petrontino A, Fucilli V, and Bozzo F

Abstract

The olive tree is one of the most important economic, cultural, and environmental resources for Italy, in particular for the Apulian region, where it shows a wide diversity. The increasing attention to the continuous loss of plant genetic diversity due to social, economic and climatic changes, has favored a renewed interest in strategies aimed at the recovery and conservation of these genetic resources. In the frame of a project for the valorization of the olive Apulian biodiversity (Re.Ger.O.P. project), 177 minor genotypes were recovered in different territories of the region. They were submitted to morphological, molecular, technological and phytosanitary status analysis in comparison with reference cultivars, then they were propagated and transferred in an ex situ field. All the available information was stored in an internal regional database including photographic documentation and geographic position. The work allowed obtaining information about the genetic diversity of Apulian germplasm, to clarify cases of homonymy and synonymy, to check the sanitary status, and to identify candidate genotypes useful both to set up breeding programs and to enrich the panel of olive cultivars available to farmers for commercial exploitation., (Copyright © 2020 Miazzi, di Rienzo, Mascio, Montemurro, Sion, Sabetta, Vivaldi, Camposeo, Caponio, Squeo, Difonzo, Loconsole, Bottalico, Venerito, Montilon, Saponari, Altamura, Mita, Petrontino, Fucilli and Bozzo.)

Published
2020
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35. Genetic buffering of cyclic AMP in Arabidopsis thaliana compromises the plant immune response triggered by an avirulent strain of Pseudomonas syringae pv. tomato.

Author

Sabetta W, Vandelle E, Locato V, Costa A, Cimini S, Bittencourt Moura A, Luoni L, Graf A, Viggiano L, De Gara L, Bellin D, Blanco E, and de Pinto MC

Subjects
Arabidopsis metabolism, Arabidopsis Proteins genetics, Arabidopsis Proteins metabolism, Cell Death, Gene Expression Regulation, Plant, Hydrogen Peroxide metabolism, Plant Diseases microbiology, Plant Leaves, Proteomics, Pseudomonas syringae pathogenicity, Arabidopsis genetics, Arabidopsis immunology, Cyclic AMP genetics, Cyclic AMP metabolism, Plant Diseases immunology, Plant Immunity genetics
Abstract

Cyclic AMP plays important roles in different physiological processes, including plant defence responses. However, as little information is known on plant enzymes responsible for cAMP production/degradation, studies of cAMP functions have relied, to date, on non-specific pharmacological approaches. We therefore developed a more reliable approach, producing transgenic Arabidopsis thaliana lines overexpressing the 'cAMP-sponge' (cAS), a genetic tool that specifically buffers cAMP levels. In response to an avirulent strain of Pseudomonas syringae pv. tomato (PstAvrB), cAS plants showed a higher bacterial growth and a reduced hypersensitive cell death in comparison with wild-type (WT) plants. The low cAMP availability after pathogen infection delayed cytosolic calcium elevation, as well as hydrogen peroxide increase and induction of redox systems. The proteomic analysis, performed 24 h post-infection, indicated that a core of 49 proteins was modulated in both genotypes, while 16 and 42 proteins were uniquely modulated in WT and cAS lines, respectively. The involvement of these proteins in the impairment of defence response in cAS plants is discussed in this paper. Moreover, in silico analysis revealed that the promoter regions of the genes coding for proteins uniquely accumulating in WT plants shared the CGCG motif, a target of the calcium-calmodulin-binding transcription factor AtSR1 (Arabidopsis thaliana signal responsive1). Therefore, following pathogen perception, the low free cAMP content, altering timing and levels of defence signals, and likely acting in part through the mis-regulation of AtSR1 activity, affected the speed and strength of the immune response., (© 2019 The Authors The Plant Journal © 2019 John Wiley & Sons Ltd.)

Published
2019
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36. Self-Incompatibility Assessment of Some Italian Olive Genotypes ( Olea europaea L.) and Cross-Derived Seedling Selection by SSR Markers on Seed Endosperms.

Author

Montemurro C, Dambruoso G, Bottalico G, and Sabetta W

Abstract

The morphology of olive flowers allows either self- or cross-pollination that could partially explain the existence of both reproductive features in this species. However, a high degree of self-incompatibility is reported for many olive genotypes, that could be an important reproductive barrier influencing olive yield. Due to the strong environmental influence, results of compatibility tests are often contradictory, making cultivar classification quite imprecise. In this study, the self-incompatibility value has been determined for four olive genotypes (Bella di Spagna, Coratina, Leccino, and Ogliarola barese) widespread in the Mediterranean basin. Moreover, the incompatibility relationships of cultivar Coratina with some suitable pollinizers (Leccino, Oliastro, and Picholine) have been studied in controlled crosses: the in vitro germination potential of progenies has been evaluated and the selection of cross-derived embryos has been indirectly performed by the molecular characterization of the corresponding endosperm. The results increase knowledge on factors affecting self-compatibility in olive. Moreover, they provide useful information to farmers about the most effective cultivars for the set-up of new olive grove or for graft planning. Finally, they provide a new strategy and procedure based on endosperm analysis by SSRs for an accurate, fast, and relatively cheap screening of embryos/seedlings.

Published
2019
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37. GBS-derived SNP catalogue unveiled wide genetic variability and geographical relationships of Italian olive cultivars.

Author

D'Agostino N, Taranto F, Camposeo S, Mangini G, Fanelli V, Gadaleta S, Miazzi MM, Pavan S, di Rienzo V, Sabetta W, Lombardo L, Zelasco S, Perri E, Lotti C, Ciani E, and Montemurro C

Subjects
DNA, Plant isolation & purification, DNA, Plant metabolism, Italy, Linkage Disequilibrium, Olea growth & development, Polymorphism, Single Nucleotide, Genetic Variation, Genome, Plant, Olea genetics
Abstract

Information on the distribution of genetic variation is essential to preserve olive germplasm from erosion and to recover alleles lost through selective breeding. In addition, knowledge on population structure and genotype-phenotype associations is crucial to support modern olive breeding programs that must respond to new environmental conditions imposed by climate change and novel biotic/abiotic stressors. To further our understanding of genetic variation in the olive, we performed genotype-by-sequencing on a panel of 94 Italian olive cultivars. A reference-based and a reference-independent SNP calling pipeline generated 22,088 and 8,088 high-quality SNPs, respectively. Both datasets were used to model population structure via parametric and non parametric clustering. Although the two pipelines yielded a 3-fold difference in the number of SNPs, both described wide genetic variability among our study panel and allowed individuals to be grouped based on fruit weight and the geographical area of cultivation. Multidimensional scaling analysis on identity-by-state allele-sharing values as well as inference of population mixtures from genome-wide allele frequency data corroborated the clustering pattern we observed. These findings allowed us to formulate hypotheses about geographical relationships of Italian olive cultivars and to confirm known and uncover novel cases of synonymy.

Published
2018
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38. Genetic flow among olive populations within the Mediterranean basin.

Author

di Rienzo V, Sion S, Taranto F, D'Agostino N, Montemurro C, Fanelli V, Sabetta W, Boucheffa S, Tamendjari A, Pasqualone A, Zammit-Mangion M, and Miazzi MM

Abstract

Background: The olive tree is a typical crop of the Mediterranean basin where it shows a wide diversity, accounting for more than 2,600 cultivars. The ability to discriminate olive cultivars and determine their genetic variability is pivotal for an optimal exploitation of olive genetic resources., Methods: We investigated the genetic diversity within 128 olive accessions belonging to four countries in the Mediterranean Basin (Italy, Algeria, Syria, and Malta), with the purpose of better understanding the origin and spread of the olive genotypes across Mediterranean Basin countries. Eleven highly polymorphic simple sequence repeat (SSR) markers were used and proved to be very informative, producing a total of 179 alleles., Results: Cluster analysis distinguished three main groups according to their geographical origin, with the current sample of Maltese accessions included in the Italian group. Phylogenetic analysis further differentiated Italian and Maltese olive accessions, clarifying the intermediate position of Maltese accessions along the x / y -axes of principal coordinate analysis (PCoA). Model-based and neighbor clustering, PCoA, and migration analysis suggested the existence of two different gene pools (Algerian and Syrian) and that the genetic exchange occurred between the Syrian, Italian and Maltese populations., Discussion: The close relationship between Syrian and Italian and Maltese olives was consistent with the historical domestication and migration of olive tree from the North Levant to eastern Mediterranean basin. This study lays the foundations for a better understanding of olive genetic diversity in the Mediterranean basin and represents a step toward an optimal conservation and exploitation of olive genetic resources., Competing Interests: The authors declare that they have no competing interests.

Published
2018
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39. Isolation and Characterization of the Flavonol Regulator CcMYB12 From the Globe Artichoke [ Cynara cardunculus var. scolymus (L.) Fiori].

Author

Blanco E, Sabetta W, Danzi D, Negro D, Passeri V, Lisi A, Paolocci F, and Sonnante G

Abstract

Flavonoids are a well-studied group of secondary metabolites, belonging to the phenylpropanoid pathway. Flavonoids are known to exhibit health promoting effects such as antioxidant capacities, anti-cancer and anti-inflammatory activity. Globe artichoke is an important source of bioactive phenolic compounds, including flavonoids. To study the regulation of their biosynthesis, a R2R3-MYB transcription factor, CcMYB12 , was isolated from artichoke leaves. Phylogenetic analysis showed that this protein belongs to the MYB subgroup 7 (flavonol-specific MYB), which includes Arabidopsis AtMYB12, grapevine VvMYBF1, and tomato SlMYB12. CcMYB12 transcripts were detected specifically in artichoke immature inflorescence and young leaves and overlapped with the profiles of flavonol biosynthetic genes. Electrophoretic mobility shift assays (EMSAs) revealed that recombinant CcMYB12 protein is able to bind to ACII element, a DNA binding site ubiquitously present in the promoters of genes encoding flavonol biosynthetic enzymes. In transgenic Arabidopsis plants, the overexpression of CcMYB12 activated the expression of endogenous flavonol biosynthesis genes, leading to an increase of flavonol accumulation and a decrease of anthocyanins in leaves. Likewise, in transgenic tobacco petals and leaves, the overexpression of CcMYB12 decreased anthocyanin levels and increased flavonols.

Published
2018
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41. Constitutive cyclic GMP accumulation in Arabidopsis thaliana compromises systemic acquired resistance induced by an avirulent pathogen by modulating local signals.

Author

Hussain J, Chen J, Locato V, Sabetta W, Behera S, Cimini S, Griggio F, Martínez-Jaime S, Graf A, Bouneb M, Pachaiappan R, Fincato P, Blanco E, Costa A, De Gara L, Bellin D, de Pinto MC, and Vandelle E

Subjects
Animals, Ascorbic Acid chemistry, Ascorbic Acid metabolism, Bacterial Proteins genetics, Bacterial Proteins metabolism, Gene Expression Regulation, Plant, Glutathione chemistry, Glutathione metabolism, Guanylate Cyclase genetics, Plant Leaves metabolism, Plants, Genetically Modified metabolism, Proteome metabolism, Pseudomonas syringae genetics, Pseudomonas syringae pathogenicity, Rats, Transcriptome, Arabidopsis metabolism, Cyclic GMP metabolism, Disease Resistance physiology, Guanylate Cyclase metabolism
Abstract

The infection of Arabidopsis thaliana plants with avirulent pathogens causes the accumulation of cGMP with a biphasic profile downstream of nitric oxide signalling. However, plant enzymes that modulate cGMP levels have yet to be identified, so we generated transgenic A. thaliana plants expressing the rat soluble guanylate cyclase (GC) to increase genetically the level of cGMP and to study the function of cGMP in plant defence responses. Once confirmed that cGMP levels were higher in the GC transgenic lines than in wild-type controls, the GC transgenic plants were then challenged with bacterial pathogens and their defence responses were characterized. Although local resistance was similar in the GC transgenic and wild-type lines, differences in the redox state suggested potential cross-talk between cGMP and the glutathione redox system. Furthermore, large-scale transcriptomic and proteomic analysis highlighted the significant modulation of both gene expression and protein abundance at the infection site, inhibiting the establishment of systemic acquired resistance. Our data indicate that cGMP plays a key role in local responses controlling the induction of systemic acquired resistance in plants challenged with avirulent pathogens.

Published
2016
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42. Screening Auxin Response, In Vitro Culture Aptitude and Susceptibility to Agrobacterium-Mediated Transformation of Italian Commercial Durum Wheat Varieties.

Author

Sabetta W, Crosatti C, Soltész A, Di Rienzo V, and Montemurro C

Subjects
2,4-Dichlorophenoxyacetic Acid pharmacology, Dicamba pharmacology, Genotype, Plants, Genetically Modified growth & development, Plants, Genetically Modified microbiology, Tissue Culture Techniques, Transformation, Genetic, Triticum growth & development, Triticum microbiology, Agrobacterium tumefaciens physiology, DNA, Bacterial genetics, Indoleacetic Acids pharmacology, Triticum genetics
Abstract

The development of a robust Agrobacterium -mediated transformation protocol for a recalcitrant species like durum wheat requires the identification and optimization of factors affecting T-DNA delivery and plant regeneration. The purpose of this research was to compare the behavior of diverse durum wheat genotypes during in vitro culture and Agrobacterium tumefaciens -mediated transformation, using immature embryos as explants. Apart from plant genotype, two of the main influencing factors for a successful genetic transformation have been examined here, i.e., auxin source (Dicamba and 2,4-D) and duration of the pre-culture period (one, seven and 21 days). The addition of Dicamba to the media in combination with seven days pre-cultivation resulted in a general enhancement of T-DNA delivery for most of the analyzed cultivars, as revealed by β-glucuronidase (GUS) histochemical assay. Although all genotypes were able to produce calli, significant differences were detected in regeneration and transformation efficiencies, since only two (Karalis and Neolatino) out of 14 cultivars produced fertile transgenic plants. The estimated transformation efficiencies were 6.25% and 1.66% for Karalis and Neolatino, respectively, and χ² analysis revealed the stable integration and segregation of the gus transgene in T₁ and T₂ progenies. This research has demonstrated that, among the influencing factors, genotype and auxin type play the most important role in the success of durum wheat transformation.

Published
2016
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43. Cyclic AMP deficiency negatively affects cell growth and enhances stress-related responses in tobacco Bright Yellow-2 cells.

Author

Sabetta W, Vannini C, Sgobba A, Marsoni M, Paradiso A, Ortolani F, Bracale M, Viggiano L, Blanco E, and de Pinto MC

Subjects
Antioxidants metabolism, Cell Line, Cyclic AMP genetics, Plants, Genetically Modified, Proteomics, Superoxide Dismutase metabolism, Time Factors, Transcriptome, Cyclic AMP metabolism, Gene Expression Regulation, Plant physiology, Stress, Physiological physiology, Nicotiana cytology
Abstract

Cyclic adenosine 3',5'-monophosphate (cAMP) is a recognized second messenger; however, knowledge of cAMP involvement in plant physiological processes originates primarily from pharmacological studies. To obtain direct evidence for cAMP function in plants, tobacco Bright Yellow-2 (BY-2) cells were transformed with the cAMP sponge, which is a genetically encoded tool that reduces cAMP availability. BY-2 cells expressing the cAMP sponge (cAS cells), showed low levels of free cAMP and exhibited growth inhibition that was not proportional to the cAMP sponge transcript level. Growth inhibition in cAS cells was closely related to the precocious inhibition of mitosis due to a delay in cell cycle progression. The cAMP deficiency also enhanced antioxidant systems. Remarkable changes occurred in the cAS proteomic profile compared with that of wild-type (WT) cells. Proteins involved in translation, cytoskeletal organization, and cell proliferation were down-regulated, whereas stress-related proteins were up-regulated in cAS cells. These results support the hypothesis that BY-2 cells sense cAMP deficiency as a stress condition. Finally, many proteasome subunits were differentially expressed in cAS cells compared with WT cells, indicating that cAMP signaling broadly affects protein degradation via the ubiquitin/proteasome pathway.

Published
2016
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44. Fad7 gene identification and fatty acids phenotypic variation in an olive collection by EcoTILLING and sequencing approaches.

Author

Sabetta W, Blanco A, Zelasco S, Lombardo L, Perri E, Mangini G, and Montemurro C

Subjects
Exons genetics, Gene Expression Regulation, Plant, Heterozygote, Phylogeny, Plant Proteins classification, Polymerase Chain Reaction, Fatty Acids metabolism, Olea metabolism, Plant Proteins genetics
Abstract

The ω-3 fatty acid desaturases (FADs) are enzymes responsible for catalyzing the conversion of linoleic acid to α-linolenic acid localized in the plastid or in the endoplasmic reticulum. In this research we report the genotypic and phenotypic variation of Italian Olea europaea L. germoplasm for the fatty acid composition. The phenotypic oil characterization was followed by the molecular analysis of the plastidial-type ω-3 FAD gene (fad7) (EC 1.14.19), whose full-length sequence has been here identified in cultivar Leccino. The gene consisted of 2635 bp with 8 exons and 5'- and 3'-UTRs of 336 and 282 bp respectively, and showed a high level of heterozygousity (1/110 bp). The natural allelic variation was investigated both by a LiCOR EcoTILLING assay and the PCR product direct sequencing. Only three haplotypes were identified among the 96 analysed cultivars, highlighting the strong degree of conservation of this gene., (Copyright © 2013 Elsevier Masson SAS. All rights reserved.)

Published
2013
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45. sunTILL: a TILLING resource for gene function analysis in sunflower.

Author

Sabetta W, Alba V, Blanco A, and Montemurro C

Abstract

Background: Cultivated sunflower (Helianthus annus L.) is a globally important oilseed crop, subjected to intensive genetic and genomic studies. Although classical mutagenesis has successfully been applied to Helianthus genus in the past, we have developed the first sunflower TILLING resource., Results: To balance the maximum mutation density with an acceptable plant survival rate, a 'kill curve' analysis was first conducted with different ethylmethanesulfonate (EMS) dosages and different exposure times. According to the germination rate, a treatment with 0.7% EMS for 6 h was chosen. An M2 progeny of 3,651 fertile plants was obtained. Totally, 4.79% of the whole population showed clear aberrant phenotypes. A microsatellite analysis on a representative sample of the original seed stock and mutant lines confirmed the uniformity of the genetic background of plant material. The TILLING procedure was successfully applied to sunflower genome, initially by a CelI-nuclease mismatch cleavage assay coupled with a DNA-pooling level test. To investigate the efficiency of the mutagenic treatment, a pilot screening was carried out on 1,152 M2 lines focusing on four genes, three involved in the fatty acid biosynthetic pathway and one for downy mildew resistance. A total of 9 mutant lines were identified and confirmed by sequencing; thereby, the estimated overall mutation frequency for the pilot assay resulted to be 1/475 kb., Conclusion: A first TILLING population for a high throughput identification of EMS-induced point mutations in sunflower genome has been successfully obtained. This represents a powerful tool to a better understanding of gene function in sunflower.

Published
2011
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46. DNA microsatellite region for a reliable quantification of soft wheat adulteration in durum wheat-based foodstuffs by real-time PCR.

Author

Sonnante G, Montemurro C, Morgese A, Sabetta W, Blanco A, and Pasqualone A

Subjects
Bread analysis, Flour analysis, Fluorescent Dyes chemistry, Food Contamination analysis, Microsatellite Repeats, Polymerase Chain Reaction methods, Triticum chemistry, Triticum genetics
Abstract

Italian industrial pasta and durum wheat typical breads must be prepared using exclusively durum wheat semolina. Previously, a microsatellite sequence specific of the wheat D-genome had been chosen for traceability of soft wheat in semolina and bread samples, using qualitative and quantitative Sybr green-based real-time experiments. In this work, we describe an improved method based on the same soft wheat genomic region by means of a quantitative real-time PCR using a dual-labeled probe. Standard curves based on dilutions of 100% soft wheat flour, pasta, or bread were constructed. Durum wheat semolina, pasta, and bread samples were prepared with increasing amounts of soft wheat to verify the accuracy of the method. Results show that reliable quantifications were obtained especially for the samples containing a lower amount of soft wheat DNA, fulfilling the need to verify labeling of pasta and typical durum wheat breads.

Published
2009
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47. Effectiveness of microsatellite DNA markers in checking the identity of protected designation of origin extra virgin olive oil.

Author

Pasqualone A, Montemurro C, Summo C, Sabetta W, Caponio F, and Blanco A

Subjects
Food Handling methods, Italy, Legislation, Food, Olea classification, Olea genetics, Olive Oil, Plant Oils chemistry, Microsatellite Repeats, Plant Oils classification
Abstract

Collina di Brindisi is an Italian extra virgin olive oil that obtained the mark of protected designation of origin (PDO) according to EC Regulation 2081/92. The varietal requirements of the official production protocol of this oil foresee that this oil is prepared from cultivar Ogliarola (minimum 70%) and other Olea europaea L. cultivars that are diffused in the production area, accounting for a maximum of 30%. The aim of this work was to verify the effectiveness of microsatellite analysis in verifying the identity of Collina di Brindisi PDO olive oil. A preliminary assessment of product's quality by means of chemical analyses was also carried out. Microsatellite analysis clarified that the generic name Ogliarola, indicated in the technical sheet of this PDO oil, actually corresponded to the Ogliarola salentina cultivar. Furthermore, the obtained results showed that the examination of a limited number of DNA microsatellites enables the identification of the Ogliarola salentina cultivar in this PDO oil.

Published
2007
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