Your search keyword '"Samuela Palombieri"' showing total 24 results

1. Corrigendum: Characterization of Triticum turgidum sspp. durum, turanicum and polonicum grown in Central Italy in relation to technological and nutritional aspects

Author

Samuela Palombieri, Marco Bonarrigo, Alessandro Cammerata, Giulia Quagliata, Stefania Astolfi, Domenico Lafiandra, Francesco Sestili, and Stefania Masci

Subjects

Triticum turgidum, Triticum durum, Triticum turanicum, Triticum polonicum, technological quality, micronutrients, Plant culture, SB1-1110

Published

2024

2. Functional Biscuits, a Healthy Addition to Your Coffee Break—Evaluating Consumer Acceptability and Willingness to Pay

Author

Emanuele Blasi, Eleonora Sofia Rossi, Roberta Pietrangeli, Marco Nasso, Clara Cicatiello, Samuela Palombieri, and Francesco Sestili

Subjects

sensory perception, finite mixture model, health claim, high-amylose bread wheat, snacking, diet and nutrition, Chemical technology, TP1-1185

Abstract

An increasing number of individuals are eating out due to work and study commitments. This trend directly influences people’s food choices, especially those who frequently rely on snacks and pre-packaged foods. Consuming these foods can lead to long-term health consequences. Adding functional foods to vending machines could lead to healthier choices. Our aim is to evaluate the acceptability and willingness to pay (WTP) of workers and students for a snack pack of novel functional biscuits (FBs) made with high amylose contents. We found that the experimental flour used is effective in preventing various non-communicable diseases; two phases of analysis were carried out on 209 participants. The participants blindly tested the products and only after the sensory evaluation were they informed about the biscuits’ health contents. Firstly, the blind investigation highlighted the acceptability of the FBs compared to the conventional biscuits. Secondly, the finite mixture model on WTP revealed that some consumers are interested in the health benefits associated with high-amylose test blends and others are focused on hedonistic taste. The design of a communication strategy and industry approach should aim to assist consumers in comprehending the health benefits and sensory aspects of novel functional foods available on the market.

Published

2024

3. Characterization of Triticum turgidum sspp. durum, turanicum, and polonicum grown in Central Italy in relation to technological and nutritional aspects

Author

Samuela Palombieri, Marco Bonarrigo, Alessandro Cammerata, Giulia Quagliata, Stefania Astolfi, Domenico Lafiandra, Francesco Sestili, and Stefania Masci

Subjects

Triticum turgidum, Triticum durum, Triticum turanicum, Triticum polonicum, technological quality, micronutrients, Plant culture, SB1-1110

Abstract

IntroductionWheat is a staple food, with the two most common species being Triticum aestivum and Triticum turgidum ssp. durum. Moreover, the latter, T. turgidum, includes other tetraploid subspecies, among which the sspp. turanicum (Khorasan wheat) and polonicum (Polish wheat), whose importance has increased in the last decades, representing alternative crops for marginal areas, in addition to being a source of genetic diversity.MethodsIn this work, different accessions of these three subspecies of T. turgidum have been grown in 2 years in the same environment and have been characterized for technological properties and factors affecting nutritional quality, such as fiber amount and the content of micro- and macro-nutrients in grains, and for root morphological traits.ResultsThese analyses allowed the identification, in particular, of a Polish wheat accession showing better technological performances, a higher amount of positive micro- and macro-elements, and a lower amount of toxic cadmium. The modern variety Svevo and the Polish Pol2 showed the lowest and the highest shoot:root ratio, respectively. The high shoot:root ratio in Pol2 was mainly attributable to the decrease in root growth. Although Pol2 had a lower root biomass, its particular root morphology made it more efficient for nutrient uptake, as evident from the greater accumulation of micro- and macro-nutrients.DiscussionThese results underline that it is not possible to draw general conclusions about the difference between primitive and modern wheats, but rather a case-by-case approach should be chosen.

Published

2023

4. The silencing of TdIPK1 genes enhances micronutrient concentration in durum wheat grain

Author

Arianna Frittelli, Samuela Palombieri, Giulia Quagliata, Silvia Celletti, Stefania Astolfi, Ermelinda Botticella, Stefania Masci, Pasquale De Vita, Mirko Volpato, and Francesco Sestili

Subjects

Durum wheat, Genetic biofortification, Microelements, Phytic acid, TdIPK1 genes, TILLING, Botany, QK1-989

Abstract

Phytic acid (PA) is the main storage form of phosphorus in kernel and is considered an anti-nutritional compound because of its ability to bind to essential minerals such as iron (Fe), zinc (Zn), potassium (K), calcium (Ca) and magnesium (Mg), thus limiting their availability, especially for populations whose diet is largely based on staple crops.This study reports a promising nutrient biofortification approach of durum wheat. The approach was based on the silencing of the gene encoding the inositol pentakisphosphate 2- kinase 1 (IPK1), involved in the last step of the PA biosynthetic pathway, through a Targeting Induced Local Lesions IN Genomes (TILLING) approach. Single knockout mutants for the IPK1 homeoalleles were identified and crossed to pyramid the two mutations. Although an elevated number of plants (F2 and F3 progenies) were analysed, no genotypes lacking both the homeoalleles were recovered, suggesting that the expression of IPK1 is crucial for seed formation in the spike and/or for plant germination and development.The characterization of the single null genotypes highlighted that the partial TdIPK1-B1- mutants showed a lower accumulation of PA in the kernel along with a higher content of essential microelements (Fe, Mn, Zn) compared to the control wild-type. The pattern of mineral accumulation was different for the TdIPK1-A1- mutants which only presented a greater accumulation of K.

Published

2023

5. Characterization among and within Sicilian Tetraploid Wheat Landraces by Gluten Protein Analysis for Traceability Purposes

Author

Samuela Palombieri, Marco Bonarrigo, Silvia Potestio, Francesco Sestili, Bernardo Messina, Giuseppe Russo, Claudia Miceli, Benedetto Frangipane, Marco Genduso, Chiara Delogu, Lorella Andreani, and Stefania Masci

Subjects

durum wheat, landraces, traceability, gliadin, glutenin subunits, Botany, QK1-989

Abstract

The criteria of “Distinctness, Uniformity and Stability” as well as a high “overall quality index” are used to register the Italian modern varieties to the national register. Differently, local conservation varieties can be certified under different EU Directives that facilitate, as an overall objective, the preservation of biodiversity and the containment of genetic erosion. In recent years, products derived from ancient grains are perceived to be healthier and more sustainable by consumers, especially in Italy, with consequent higher market prices. The ancient tetraploid wheat varieties registered in the national register of conservation varieties amount to 28, 24 of which are Sicilian. They are supposed to have wide genetic variability compared to modern ones, making them vulnerable to fraud because they are difficult to trace. It is therefore important to have tools able to discriminate between autochthonous Sicilian varieties. This can be completed by gluten proteins composition, which also provides information on the technological properties of derived products. Fifty-one accessions belonging to twenty-two ancient varieties of Sicilian tetraploid (mostly durum) wheat were analyzed. Although wide intra-accession and intra-varietal variability measurements were assessed, the gliadin pattern of bulks of seeds belonging to each variety was discriminatory. Moreover, differences in technological attitudes were found between landraces. This paves the way to use gluten protein patterns for traceability, allowing local farmers and producers to valorize their products and assure consumers regarding the transparency of the entire supply chain.

Published

2024

6. Impact of Variation in Amylose Content on Durum Wheat cv. Svevo Technological and Starch Properties

Author

Mike Sissons, Samuela Palombieri, Francesco Sestili, and Domenico Lafiandra

Subjects

durum, starch digestion, pasta quality, semolina, dough properties, Chemical technology, TP1-1185

Abstract

Reserve starch, the main component of durum wheat semolina, is constituted of two glucan homopolymers (amylose and amylopectin) that differ in their chemical structure. Amylose is mainly a linear structure formed of α-1,4-linked glucose units, with a lower polymerization degree, whereas amylopectin is a highly branched structure of α-1,4-chains linked by α-1,6-bonds. Variation of the amylose/amylopectin ratio has a profound effect on the starch properties which may impact the wheat technological and nutritional characteristics and their possible use in the food and non-food sector. In this work a set of genotypes, with a range of amylose from 14.9 to 57.8%, derived from the durum wheat cv. Svevo was characterised at biochemical and rheological level and used to produce pasta to better understand the role of amylose content in a common genetic background. A negative correlation was observed between amylose content and semolina swelling power, starch peak viscosity, and pasta stickiness. A worsening of the firmness was observed in the low amylose pasta compared to the control (cv. Svevo), whereas no difference was highlighted in the high amylose samples. The resistant starch was higher in the high amylose (HA) pasta compared to the control and low amylose (LA) pasta. Noteworthy, the extent of starch digestion was reduced in the HA pasta while the LA genotypes offered a higher starch digestion, suggesting other possible applications.

Published

2023

7. The suppression of TdMRP3 genes reduces the phytic acid and increases the nutrient accumulation in durum wheat grain

Author

Arianna Frittelli, Ermelinda Botticella, Samuela Palombieri, Stefania Masci, Silvia Celletti, Maria Chiara Fontanella, Stefania Astolfi, Pasquale De Vita, Mirko Volpato, and Francesco Sestili

Subjects

durum wheat, genetic biofortification, micronutrients, mutagenesis, phytic acid, tilling, Plant culture, SB1-1110

Abstract

Micronutrient malnutrition affects more than half of the world population. Reduced bioavailability of microelements in the raw materials is considered one of the main causes of mineral deficiency in populations whose diet is largely based on the consumption of staple crops. In this context, the production of low phytic acid (lpa) cereals is a main goal of the breeding programs, as phytic acid (PA) binds essential mineral cations such as iron (Fe), zinc (Zn), manganese (Mn), potassium (K), calcium (Ca) and magnesium (Mg) precipitating in the form of phytate salts poorly digested by monogastric animals, including humans, due to the lack of phytases in the digestive tract. Since PA limits the bioavailability of microelements, it is widely recognized as an anti-nutritional compound. A Targeting Induced Local Lesions IN Genomes (TILLING) approach has been undertaken to silence the genes encoding the TdABCC13 proteins, known as Multidrug-Resistance associated Proteins 3 (TdMRP3), transporters involved in the accumulation of PA inside the vacuole in durum wheat. The TdMRP3 complete null genotypes showed a significant reduction in the content of PA and were able to accumulate a higher amount of essential micronutrients (Fe, Zn, Mn) compared to the control. The number of spikelets and seeds per spike, traits associated with the agronomic performances, were reduced compared to the control, but the negative effect was in part balanced by the increased grain weight. The TdMRP3 mutant lines showed morphological differences in the root apparatus such as a significant decrease in the number of root tips, root length, volume and surface area and an increase in root average diameter compared to the control plants. These materials represent a promising basis for obtaining new commercial durum wheats with higher nutritional value.

Published

2023

8. Boosting Immunity and Management against Wheat Fusarium Diseases by a Sustainable, Circular Nanostructured Delivery Platform

Author

Sara Francesconi, Riccardo Ronchetti, Emidio Camaioni, Stefano Giovagnoli, Francesco Sestili, Samuela Palombieri, and Giorgio Mariano Balestra

Subjects

fusarium head blight (FHB), fusarium crown rot (FCR), nanotechnology, cellulose nanocrystals (CNC), resistant starch, chitosan, Botany, QK1-989

Abstract

Fusarium head blight (FHB) and Fusarium crown rot (FCR) are managed by the application of imidazole fungicides, which will be strictly limited by 2030, as stated by the European Green Deal. Here, a novel and eco-sustainable nanostructured particle formulation (NPF) is presented by following the principles of the circular economy. Cellulose nanocrystals (CNC) and resistant starch were obtained from the bran of a high amylose (HA) bread wheat and employed as carrier and excipient, while chitosan and gallic acid were functionalized as antifungal and elicitor active principles. The NPF inhibited conidia germination and mycelium growth, and mechanically interacted with conidia. The NPF optimally reduced FHB and FCR symptoms in susceptible bread wheat genotypes while being biocompatible on plants. The expression level of 21 genes involved in the induction of innate immunity was investigated in Sumai3 (FHB resistant) Cadenza (susceptible) and Cadenza SBEIIa (a mutant characterized by high-amylose starch content) and most of them were up-regulated in Cadenza SBEIIa spikes treated with the NPF, indicating that this genotype may possess an interesting genomic background particularly responsive to elicitor-like molecules. Quantification of fungal biomass revealed that the NPF controlled FHB spread, while Cadenza SBEIIa was resistant to FCR fungal spread. The present research work highlights that the NPF is a powerful weapon for FHB sustainable management, while the genome of Cadenza SBEIIa should be investigated deeply as particularly responsive to elicitor-like molecules and resistant to FCR fungal spread.

Published

2023

9. Phytochemical Profiling and Untargeted Metabolite Fingerprinting of the MEDWHEALTH Wheat, Barley and Lentil Wholemeal Flours

Author

Giuseppe Romano, Laura Del Coco, Francesco Milano, Miriana Durante, Samuela Palombieri, Francesco Sestili, Andrea Visioni, Abderrazek Jilal, Francesco Paolo Fanizzi, and Barbara Laddomada

Subjects

durum wheat-based products, polyphenols, isoprenoids, antioxidant activity, resistant starch, NMR, Chemical technology, TP1-1185

Abstract

An important research target is improving the health benefits of traditional Mediterranean, durum wheat-based foods using innovative raw materials. In this study, we characterised wholemeal flours obtained from a traditional durum wheat cv. Svevo, two innovative durum wheat varieties (Svevo-High Amylose and Faridur), the naked barley cv. Chifaa and the elite lentil line 6002/ILWL118/1-1, evaluating them for targeted phytochemicals, untargeted metabolomics fingerprints and antioxidant capacity. To this aim, individual phenolic acids, flavonoids, tocochromanols and carotenoids were identified and quantified through HPLC-DAD, and the antioxidant capacities of both the extracts and whole meals were detected by ABTS assays. An untargeted metabolomics fingerprinting of the samples was conducted through NMR spectroscopy. Results showed that the innovative materials improved phytochemical profiles and antioxidant capacity compared to Svevo. In particular, Svevo-HA and Faridur had higher contents of ferulic and sinapic acids, β-tocotrienol and lutein. Moreover, Chifaa is a rich source of phenolic acids, β-tocopherols, lutein and zeaxanthin whereas lentil of flavonoids (i.e., catechin and procyanidin B2). The NMR profiles of Svevo-HA and Faridur showed a significant reduction of sugar content, malate and tryptophan compared to that of Svevo. Finally, substantial differences characterised the lentil profiles, especially for citrate, trigonelline and phenolic resonances of secondary metabolites, such as catechin-like compounds. Overall, these results support the potential of the above innovative materials to renew the health value of traditional Mediterranean durum wheat-based products.

Published

2022

10. Use of Air-Classification Technology to Manage Mycotoxin and Arsenic Contaminations in Durum Wheat-Derived Products

Author

Alessandro Cammerata, Rosita Marabottini, Viviana Del Frate, Enrica Allevato, Samuela Palombieri, Francesco Sestili, and Silvia Rita Stazi

Subjects

durum wheat, air classification, inorganic contaminants, organic contaminants, arsenic, mycotoxins, Chemical technology, TP1-1185

Abstract

Mycotoxins are the most common natural contaminants and include different types of organic compounds, such as deoxynivalenol (DON) and T-2 and HT-2 toxins. The major toxic inorganic elements include those commonly known as heavy metals, such as cadmium, nickel, and lead, and other minerals such as arsenic. In this study, micronisation and air classification technologies were applied to durum wheat (Triticum turgidum ssp. durum L.) samples to mitigate inorganic (arsenic) and organic contaminants in unrefined milling fractions and final products (pasta). The results showed the suitability of milling plants, providing less refined milling products for lowering amounts of mycotoxins (DON and the sum of T-2 and HT-2 toxins) and toxic inorganic elements (As, Cd, Ni, and Pb). The results showed an As content (in end products) similar to that obtained using semolina as raw material. In samples showing high organic contamination, the contamination rate detected in the more bran-enriched fractions ranged from 74% to 150% (DON) and from 119% to 151% (sum of T2 and HT-2 toxins) as compared to the micronised samples. Therefore, this technology may be useful for manufacturing unrefined products with reduced levels of organic and inorganic contaminants, minimising the health risk to consumers.

Published

2022

11. Sensory Traits and Consumer’s Perceived Quality of Traditional and Modern Fresh Market Tomato Varieties: A Study in Three European Countries

Author

Fiorella Sinesio, Maria Cammareri, Valentine Cottet, Lilian Fontanet, Michel Jost, Elisabetta Moneta, Samuela Palombieri, Marina Peparaio, Roser Romero del Castillo, Eleonora Saggia Civitelli, Patrizia Spigno, Antonella Vitiello, Brigitte Navez, Joan Casals, Mathilde Causse, Antonio Granell, and Silvana Grandillo

Subjects

Solanum lycopersicum L., landraces, fruit quality, physicochemical, sensory profile, genotype-by-environment interaction, Chemical technology, TP1-1185

Abstract

Consumer dissatisfaction with the flavor quality of many modern fresh market tomato varieties has fostered breeders’ interest in sensory quality improvement, and the demand for traditional varieties, which are generally associated with better flavor. To achieve further knowledge on the factors influencing the sensory quality and consumers’ preferences and perception, European traditional and modern fresh market tomato varieties were grown and evaluated in France, Italy, and Spain. Different growing conditions were tested in France (soilless vs. soil) and in Spain (open field vs. greenhouse), while in Italy fruits were evaluated at two ripening stages. Fruit quality was assessed by integrating physicochemical analyses, sensory profiles, and consumer tests. In all three countries, overall modern varieties were perceived as having more intense “tomato flavor” and “overall flavor” than traditional ones. In France and Spain, consumers’ preferences were more oriented towards modern varieties than traditional ones. Significant growing condition effects were found on sensory and physicochemical traits, while the effect on consumers’ overall liking was not significant, largely depending on the genotype. A fair agreement between product configurations from descriptive analysis by trained assessors and Check-All-That-Apply (CATA) questions by consumers was observed. Penalty-lift analysis based on CATA allowed identifying positive and negative drivers of liking.

Published

2021

12. Identification and development of functional markers for purple grain genes in durum wheat (Triticum durum Desf.)

Author

Salvatore, Esposito, Samuela, Palombieri, Paolo, Vitale, Giuseppina, Angione, D’Attilia, Chiara, Francesca, Taranto, Francesco, Sestili, and Pasquale, De Vita

Abstract

Key message: Two allelic variants of Pp-A3 and Pp-B1 were identified in purple durum wheat. Molecular markers at both loci were developed and validated on an independent panel, offering a breakthrough for wheat improvement. Purple wheats are a class of cereals with pigmented kernels of particular interest for their antioxidant and anti-inflammatory properties. Although two complementary loci (Pp-B1 and Pp-A3), responsible for purple pericarp have been pinpointed in bread wheat (Triticum aestivum L.), in durum wheat (Triticum durum Desf.) the causative genes along with functional and non-functional alleles are still unknown. Here, using a quantitative trait loci (QTL) mapping approach on a RIL population derived from purple and non-purple durum wheat genotypes, we identified three major regions on chromosomes 2A, 3A, and 7B explaining the highest phenotypic variation (> 50%). Taking advantage of the Svevo genome, a MYB was reannotated on chromosome 7B and reported as a candidate for Pp-B1. An insertion of ~ 1.6 kb within the first exon led to a non-functional allele (TdPpm1b), whereas the functional allele (TdPpm1a) was characterized and released for the first time in durum wheat. Pp-A3 was instead identified as a duplicated gene, of which only one was functional. The promoter sequencing of the functional allele (TdPpb1a) revealed six 261-bp tandem repeats in purple durum wheat, whereas one unit (TdPpb1b) was found in the yellow once. Functional molecular markers at both loci were developed to precisely discriminate purple and not purple genotypes, representing a valuable resource for selecting superior purple durum lines at early growth stages. Overall, our results expand the understanding of the function of MYB and bHLH activators in durum wheat, paving new ways to explore cis-regulatory elements at the promoter level. [ABSTRACT FROM AUTHOR]

Published

2024

13. Author response for 'Milling performance and bread‐making aptitude of the new soft kernel durum wheat variety Faridur'

Author

null Antonella Pasqualone, null Samuela Palombieri, null Hamit Koksel, null Carmine Summo, null Pasquale De Vita, and null Francesco Sestili

Published

2022

14. Multi-omics data integration provides insights into the post-harvest biology of a long shelf-life tomato landrace

Author

Riccardo Aiese Cigliano, Riccardo Aversano, Antonio Di Matteo, Samuela Palombieri, Pasquale Termolino, Claudia Angelini, Hamed Bostan, Maria Cammareri, Federica Maria Consiglio, Floriana Della Ragione, Rosa Paparo, Vladimir Totev Valkov, Antonella Vitiello, Domenico Carputo, Maria Luisa Chiusano, Maurizio D’Esposito, Silvana Grandillo, Maria Rosaria Matarazzo, Luigi Frusciante, Nunzio D’Agostino, Clara Conicella, Cigliano, Riccardo Aiese, Aversano, Riccardo, Di Matteo, Antonio, Palombieri, Samuela, Termolino, Pasquale, Angelini, Claudia, Bostan, Hamed, Cammareri, Maria, Consiglio, Federica Maria, Ragione, Floriana Della, Paparo, Rosa, Valkov, Vladimir Totev, Vitiello, Antonella, Carputo, Domenico, Chiusano, Maria Luisa, D'Esposito, Maurizio, Grandillo, Silvana, Matarazzo, Maria Rosaria, Frusciante, Luigi, D'Agostino, Nunzio, and Conicella, Clara

Subjects

post-harvest, epigenetics, Genetics, food and beverages, Plant Science, multi-omics, Horticulture, Biochemistry, Tomato, Article, Biotechnology

Abstract

In this study we investigated the transcriptome and epigenome dynamics of the tomato fruit during post-harvest in a landrace belonging to a group of tomatoes (Solanum lycopersicum L.) collectively known as “Piennolo del Vesuvio”, all characterized by a long shelf-life. Expression of protein-coding genes and microRNAs as well as DNA methylation patterns and histone modifications were analysed in distinct post-harvest phases. Multi-omics data integration contributed to the elucidation of the molecular mechanisms underlying processes leading to long shelf-life. We unveiled global changes in transcriptome and epigenome. DNA methylation increased and the repressive histone mark H3K27me3 was lost as the fruit progressed from red ripe to 150 days post-harvest. Thousands of genes were differentially expressed, about half of which were potentially epi-regulated as they were engaged in at least one epi-mark change in addition to being microRNA targets in ~5% of cases. Down-regulation of the ripening regulator MADS-RIN and of genes involved in ethylene response and cell wall degradation was consistent with the delayed fruit softening. Large-scale epigenome reprogramming that occurred in the fruit during post-harvest likely contributed to delayed fruit senescence.

Published

2022

15. Milling performance and bread-making aptitude of the new soft kernel durum wheat variety faridur

Author

Antonella Pasqualone, Samuela Palombieri, Hamit Koksel, Carmine Summo, Pasquale De Vita, Francesco Sestili, İstinye Üniversitesi, Sağlık Bilimleri Fakültesi, Beslenme ve Diyetetik Bölümü, Koksel, Hamit, and G-6018-2013

Subjects

Sustainability, Energy Consumption, Semolina, Puroindolines, Industrial and Manufacturing Engineering, Soft Durum, Food Science

Abstract

Faridur is the first 'soft kernel' durum wheat variety released in Italy. This variety has not yet been evaluated for its end-use quality. In the present study, the milling performance (using two different mills) and bread-making ability of Faridur were compared with Svevo. An effect of the mill type on flour properties was observed, with the Chopin CD1 mill leading to finer particle size, higher starch damage and water absorption than Buhler MLU 202. Protein and gluten content was significantly higher in Faridur, but gluten quality was lower, as indicated by alveograph and farinograph analyses. The softer nature of Faridur facilitated milling, reducing energy consumption and starch damage. The baking test led to a compact product, with low specific volume, needing adjustments in processing and formulation. As energy saving has become a key competitive factor in the milling sector, Faridur has potential for expanding the use of durum wheat. WOS:000890447900001 Q2

Published

2022

16. MULTIFRU project: Multifunctional Valorisation of Pigmented Wheat Varieties for production of Flavonoid Reach Foods and Nano-Agrochemicals for Sustainable Wheat Protection

Author

Linda, Felici, Francesco, Sestili, Vitali, Matteo, Pasquale de Vita, Samuela, Palombieri, and Balestra, Giorgio M.

Published

2022

17. Enrichment of provitamin A content in durum wheat grain by suppressing β-carotene hydroxylase 1 genes with a TILLING approach

Author

Samuela Palombieri, Maria Dolores Garcia Molina, Stefania Masci, Pasquale De Vita, Romina Beleggia, Francesco Sestili, Domenico Lafiandra, and Ermelinda Botticella

Subjects

TILLING, Genotype, Biofortification, Biology, Xanthophylls, Mixed Function Oxygenases, chemistry.chemical_compound, Gene Knockout Techniques, Neoxanthin, Zeaxanthins, Genetics, Food science, Vitamin A, Carotenoid, Phylogeny, Triticum, chemistry.chemical_classification, Provitamin, Provitamins, food and beverages, General Medicine, Carotenoids, Zeaxanthin, B-carotene hydroxylase 1 genes, Plant Breeding, chemistry, Metabolic Engineering, Xanthophyll, Food, Fortified, Seeds, Edible Grain, Agronomy and Crop Science, Biotechnology, Violaxanthin

Abstract

Key message: The suppression of the HYD-1 gene by a TILLING approach increases the amount of ?-carotene in durum wheat kernel. Abstract: Vitamin A deficiency is a major public health problem that affects numerous countries in the world. As humans are not able to synthesize vitamin A, it must be daily assimilated along with other micro- and macronutrients through the diet. Durum wheat is an important crop for Mediterranean countries and provides a discrete amount of nutrients, such as carbohydrates and proteins, but it is deficient in some essential micronutrients, including provitamin A. In the present work, a targeting induced local lesions in genomes strategy has been undertaken to obtain durum wheat genotypes biofortified in provitamin A. In detail, we focused on the suppression of the ?-carotene hydroxylase 1 (HYD1) genes, encoding enzymes involved in the redirection of ?-carotene toward the synthesis of the downstream xanthophylls (neoxanthin, violaxanthin and zeaxanthin). Expression analysis of genes involved in carotenoid biosynthesis revealed a reduction of the abundance of HYD1 transcripts greater than 50% in mutant grain compared to the control. The biochemical profiling of carotenoid in the wheat mutant genotypes highlighted a significant increase of more than 70% of ?-carotene compared to the wild-type sibling lines, with no change in lutein, ?-carotene and zeaxanthin content. This study sheds new light on the molecular mechanism governing carotenoid biosynthesis in durum wheat and provides new genotypes that represent a good genetic resource for future breeding programs focused on the provitamin A biofortification through non-transgenic approaches.

Published

2021

18. QTL Analysis of Five Morpho-Physiological Traits in Bread Wheat Using Two Mapping Populations Derived from Common Parents

Author

Fabio Fania, Ivano Pecorella, Francesco Sestili, Samuela Palombieri, Nicola Pecchioni, Francesca Taranto, Pasquale De Vita, Domenico Lafiandra, Paolo Vitale, and Salvatore Esposito

Subjects

0106 biological sciences, 0301 basic medicine, Candidate gene, Genotyping Techniques, QTL, Bread wheat, F, 2, Genetic map, RILs, SNP markers, Population, Quantitative Trait Loci, bread wheat, Biology, Quantitative trait locus, QH426-470, 01 natural sciences, Chromosomes, Plant, Article, 03 medical and health sciences, Inbred strain, Genetics, Tiller, Inbreeding, genetic map, education, Genetics (clinical), Triticum, education.field_of_study, F2, Chromosome Mapping, food and beverages, Bread, Plant Breeding, 030104 developmental biology, Phenotype, Trait, Adaptation, 010606 plant biology & botany, SNP array

Abstract

Traits such as plant height (PH), juvenile growth habit (GH), heading date (HD), and tiller number are important for both increasing yield potential and improving crop adaptation to climate change. In the present study, these traits were investigated by using the same bi-parental population at early (F2 and F2-derived F3 families) and late (F6 and F7, recombinant inbred lines, RILs) generations to detect quantitative trait loci (QTLs) and search for candidate genes. A total of 176 and 178 lines were genotyped by the wheat Illumina 25K Infinium SNP array. The two genetic maps spanned 2486.97 cM and 3732.84 cM in length, for the F2 and RILs, respectively. QTLs explaining the highest phenotypic variation were found on chromosomes 2B, 2D, 5A, and 7D for HD and GH, whereas those for PH were found on chromosomes 4B and 4D. Several QTL detected in the early generations (i.e., PH and tiller number) were not detected in the late generations as they were due to dominance effects. Some of the identified QTLs co-mapped to well-known adaptive genes (i.e., Ppd-1, Vrn-1, and Rht-1). Other putative candidate genes were identified for each trait, of which PINE1 and PIF4 may be considered new for GH and TTN in wheat. The use of a large F2 mapping population combined with NGS-based genotyping techniques could improve map resolution and allow closer QTL tagging.

Published

2021

19. A Cross between Bread Wheat and a 2D(2R) Disomic Substitution Triticale Line Leads to the Formation of a Novel Disomic Addition Line and Provides Information of the Role of Rye Secalins on Breadmaking Characteristics

Author

Stefania Masci, Francesco Sestili, Patrizia Vaccino, Debora Giorgi, Samuela Palombieri, B. Margiotta, Sergio Lucretti, Salvatore Moscaritolo, Domenico Lafiandra, Sestili, F., Margiotta, B., Vaccino, P., Moscaritolo, S., Giorgi, D., Lucretti, S., Palombieri, S., Masci, S., and Lafiandra, D.

Subjects

0106 biological sciences, 0301 basic medicine, Long arm, 01 natural sciences, lcsh:Chemistry, Glutenin, anatomy_morphology, Secalins, Food science, Quality characteristics, lcsh:QH301-705.5, Spectroscopy, In Situ Hybridization, Fluorescence, Triticum, biology, rye, secalins, glutenins, chromosome rearrangements, dough quality, Chemistry, Secale, food and beverages, Dough quality, General Medicine, Bread, Triticale, Computer Science Applications, Cytogenetic Analysis, Seeds, Electrophoresis, Polyacrylamide Gel, Rheology, Genome, Plant, Glutens, Glutenins, Catalysis, Article, Chromosomes, Plant, Inorganic Chemistry, 03 medical and health sciences, Chromosome rearrangements, Rye, Physical and Theoretical Chemistry, Molecular Biology, Crosses, Genetic, Organic Chemistry, Chromosome, Molecular Weight, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, biology.protein, Hybridization, Genetic, Line (text file), 010606 plant biology & botany

Abstract

A bread wheat line (N11) and a disomic 2D(2R) substitution triticale line were crossed and backrossed four times. At each step electrophoretic selection for the seeds that possessed, simultaneously, the complete set of high molecular weight glutenin subunits of N11 and the two high molecular weight secalins of rye, present in the 2D(2R) line, was carried out. Molecular cytogenetic analyses of the BC4F8 generation revealed that the selection carried out produced a disomic addition line (2n = 44). The pair of additional chromosomes consisted of the long arm of chromosome 1R (1RL) from rye fused with the satellite body of the wheat chromosome 6B. Rheological analyses revealed that the dough obtained by the new addition line had higher quality characteristics when compared with the two parents. The role of the two additional high molecular weight secalins, present in the disomic addition line, in influencing improved dough characteristics is discussed.

Published

2020

20. Whole-genome re-sequencing of two Italian tomato landraces reveals sequence variations in genes associated with stress tolerance, fruit quality and long shelf-life traits

Author

Pasquale Termolino, Marina Tucci, Clara Conicella, Irantzu Anzar, Silvana Grandillo, Nunzio D’Agostino, Maria Cammareri, Samuela Palombieri, Chiara Colantuono, Valentina Tranchida-Lombardo, Simone Landi, Monica De Palma, Riccardo Aiese Cigliano, Walter Sanseverino, Domenico Carputo, Riccardo Aversano, Federica Consiglio, Antonio Di Matteo, Giorgia Batelli, Stefania Grillo, Hamed Bostan, Maria Luisa Chiusano, Tranchida-lombardo, Valentina, Aiese Cigliano, Riccardo, Anzar, Irantzu, Landi, Simone, Palombieri, Samuela, Colantuono, Chiara, Bostan, Hamed, Termolino, Pasquale, Aversano, Riccardo, Batelli, Giorgia, Cammareri, Maria, Carputo, Domenico, Chiusano, Maria Luisa, Conicella, Clara, Consiglio, Federica, De Palma, Monica, Di Matteo, Antonio, Grandillo, Silvana, Sanseverino, Walter, Tucci, Marina, and Grillo, Stefania

Subjects

0106 biological sciences, 0301 basic medicine, genomic platform, Single-nucleotide polymorphism, Genomics, Genes, Plant, 01 natural sciences, Genome, DNA sequencing, 03 medical and health sciences, Solanum lycopersicum, Stress, Physiological, Botany, Genetics, Molecular Biology, Gene, traditional varieties, next generation sequencing, Whole genome sequencing, Polymorphism, Genetic, Base Sequence, Whole Genome Sequencing, biology, food and beverages, General Medicine, Full Papers, biology.organism_classification, Solanum pimpinellifolium, 030104 developmental biology, Fruit, Genome, Plant, traditional varieties, SNPs, next generation sequencing, genomic platform, SNPs, 010606 plant biology & botany, Reference genome

Abstract

Tomato is a high value crop and the primary model for fleshy fruit development and ripening. Breeding priorities include increased fruit quality, shelf life and tolerance to stresses. To contribute towards this goal, we re-sequenced the genomes of Corbarino (COR) and Lucariello (LUC) landraces, which both possess the traits of plant adaptation to water deficit, prolonged fruit shelf-life and good fruit quality. Through the newly developed pipeline Reconstructor, we generated the genome sequences of COR and LUC using datasets of 65.8 M and 56.4 M of 30–150 bp paired-end reads, respectively. New contigs including reads that could not be mapped to the tomato reference genome were assembled, and a total of 43, 054 and 44, 579 gene loci were annotated in COR and LUC. Both genomes showed novel regions with similarity to Solanum pimpinellifolium and Solanum pennellii. In addition to small deletions and insertions, 2, 000 and 1, 700 single nucleotide polymorphisms (SNPs) could exert potentially disruptive effects on 1, 371 and 1, 201 genes in COR and LUC, respectively. A detailed survey of the SNPs occurring in fruit quality, shelf life and stress tolerance related-genes identified several candidates of potential relevance. Variations in ethylene response components may concur in determining peculiar phenotypes of COR and LUC.

Published

2018

21. Peptidyl-prolyl cis-trans isomerase ROF2 modulates intracellular pH homeostasis in Arabidopsis

Author

Eduardo Bueso, Sandra Fresquet, Samuela Palombieri, José M. Mulet, Ramón Serrano, Lourdes Rubio, José A. Fernández, Gaetano Bissoli, Regina Niñoles, and María J. García-Sánchez

Subjects

biology, Biochemistry, Stereochemistry, Arabidopsis, Intracellular pH, Genetics, Arabidopsis thaliana, Cell Biology, Plant Science, Isomerase, biology.organism_classification, Cis–trans isomerism, Homeostasis

Abstract

This work was supported by grants BFU2008-00604 from the Ministerio de Ciencia e Innovacion (Madrid, Spain) and PROMETEO/2010/038 of the ‘Conselleria de Educacion’ (Valencia, Spain).

Published

2012

22. TILLING mutants of durum wheat result in a high amylose phenotype and provide information on alternative splicing mechanisms

Author

Paola Mantovani, Riccardo Bovina, Francesco Sestili, Samuela Palombieri, Ermelinda Botticella, and Domenico Lafiandra

Subjects

food.ingredient, Starch, Mutation, Missense, Plant Science, Biology, Exon, chemistry.chemical_compound, food, Amylose, Gene Expression Regulation, Plant, 1,4-alpha-Glucan Branching Enzyme, Genetics, Gene Silencing, RNA, Messenger, Resistant starch, Exonic splicing silencer, Triticum, Plant Proteins, Alternative splicing, food and beverages, General Medicine, Alternative Splicing, Phenotype, chemistry, Amylopectin, RNA splicing, Agronomy and Crop Science

Abstract

The amylose/amylopectin ratio has a major influence over the properties of starch and determines its optimal end use. Here, high amylose durum wheat has been bred by combining knock down alleles at the two homoelogous genes encoding starch branching enzyme IIa (SBEIIa-A and SBEIIa-B). The complete silencing of these genes had a number of pleiotropic effects on starch synthesis: it affected the transcriptional activity of SBEIIb, ISA1 (starch debranching enzyme) and all of the genes encoding starch synthases (SSI, SSIIa, SSIII and GBSSI). The starch produced by grain of the double SBEIIa mutants was high in amylose (up to ∼1.95 fold that of the wild type) and contained up to about eight fold more resistant starch. A single nucleotide polymorphism adjacent to the splice site at the end of exon 10 of the G364E mutant copies of both SBEIIa-A and SBEIIa-B resulted in the loss of a conserved exonic splicing silencer element. Its starch was similar to that of the SBEIIa double mutant. G364E SBEIIa pre-mRNA was incorrectly processed, resulting in the formation of alternative, but non-functional splicing products.

Published

2014

23. Development of a TILLING resource in durum wheat for reverse- and forward-genetic analyses

Author

Domenico Lafiandra, Francesco Sestili, Paola Mantovani, A. Brunazzi, Ermelinda Botticella, A. Massi, G. Gasparini, Samuela Palombieri, and Riccardo Bovina

Subjects

Genetics, TILLING, education.field_of_study, Ethyl methanesulfonate, business.industry, Population, food and beverages, Plant Science, Biology, Genome, Forward genetics, Reverse genetics, Biotechnology, chemistry.chemical_compound, Polyploid, chemistry, education, business, Agronomy and Crop Science, Gene

Abstract

A durum wheat TILLING (targeting induced local lesions in genomes) population of 2601 M3 families was developed from cv. Svevo using ethyl methanesulfonate as a chemical mutagen. The entire M3 population was field-grown for phenotypic evaluations. Despite the polyploid nature of the wheat genome, a preliminarily phenotypic screening showed a high frequency of morphological alterations (~22%); specific phenotyping for seed morphology was undertaken. Furthermore, a reverse-genetics experiment was performed on DNA collected from M2 leaves for the homoeologous genes SBEIIa-A and SBEIIa-B involved in starch metabolism. One non-sense mutation for both genes was identified; specific crosses are planned in order to pyramid the two mutations.

Published

2014

24. ITALIAN TRADITIONAL TOMATO VARIETIES: A FOCUS ON THE CAMPANIA REGION

Author

P Spigno, R. Riccardi, A. Sacco, Antonella Vitiello, Samuela Palombieri, Maria Cammareri, and Silvana Grandillo

Subjects

0106 biological sciences, 2. Zero hunger, Focus (computing), Horizon (archaeology), 04 agricultural and veterinary sciences, 15. Life on land, 01 natural sciences, Tomato, Italy, Work (electrical), Tomate, Political science, 040103 agronomy & agriculture, Regional science, 0401 agriculture, forestry, and fisheries, European commission, Valencia, traditional varieties, 010606 plant biology & botany

Abstract

[EN] The long tradition of tomato cultivation in Italy has allowed the evolution of a wide diversity of traditional varieties or landraces that have been cultivated for centuries and many of them are still common in the local markets. Adaptation to peculiar climatic and edaphic conditions, the geographical isolation of several growing areas, the specific agro-technique, the local gardners’ selection, also based on consumers’s sensory preferences, have resulted in groups of landraces distributed not only by region but also by sub-regional areas. In most cases, the cultivation of these Italian landraces covers very limited areas being carried out in family gardens for personal consumption and/or in small-size farms that, therefore, play a key role in the on farm maintenance of this precious germplasm, which in many cases is risking extinction. The Campania region has been, and still is, an important area for tomato production with a long tradition in the selection, cultivation and processing of the crop, resulting in a rich reservoir of valuable tomato landraces. So far, only three Italian tomato landraces have been granted a Protected Geographical Status under European Union law, the PGI “Pomodoro di Pachino” form Sicily, and the two PDOs “Pomodoro S. Marzano dell'Agro Sarnese-Nocerino” and the “Pomodorino del Piennolo del Vesuvio” from Campania. This short review will address some of the most popular landraces of the Campania region, with a particular focus on the two PDOs., [ES] La larga tradición del cultivo del tomate en Italia ha permitido la evolución de una amplia diversidad de variedades tradicionales o variedades autóctonas que han sido cultivadas durante siglos, muchas de las cuales siguen siendo comunes en los mercados locales. La adaptación a las peculiares condiciones climáticas y edáficas, el aislamiento geográfico de varias zonas de cultivo, las técnicas de cultivo específicas, la selección de los agricultores locales, también basada en las preferencias sensoriales de los consumidores, han dado como resultado grupos de variedades locales distribuidas no sólo por regiones, sino por áreas sub-regionales. En la mayoría de los casos, el cultivo de estas variedades autóctonas italianas cubre áreas muy limitadas y se están llevando a cabo en huertos familiares para consumo personal y / o en fincas pequeñas que, por lo tanto, desempeñan un papel clave en el mantenimiento de este valioso germoplasma, que en muchos casos está en peligro de extinción. La región de Campania ha sido, y sigue siendo, un área importante para la producción de tomate con una larga tradición en la selección, cultivo y procesamiento de este cultivo, resultando en un rico reservorio de variedades autóctonas de tomate valiosas. Hasta el momento, sólo tres variedades autóctonas de tomate italiano han obtenido el estatus de protección geográfica conforme a la legislación de la Unión Europea, la IGP “Pomodoro di Pachino” de Sicilia y las dos DOP “Pomodoro S. Marzano dell'Agro Sarnese-Nocerino” y “Pomodorino Del Piennolo del Vesuvio" de Campania. Esta breve revisión abordará algunas de las razas tradicionales más populares de la región de Campania, con especial atención a las dos DOP., This work was supported by the European Commission Horizon 2020 program (TRADITOM grant 634561 to S.G. and P.S.).