Your search keyword '"Marzario, S."' showing total 13 results

1. Breeding effects on durum wheat traits detected using GWAS and haplotype block analysis

Author

Taranto, F., primary, Esposito, S., additional, Fania, F., additional, Sica, R., additional, Marzario, S., additional, Logozzo, G., additional, Gioia, T., additional, and De Vita, P., additional

Published

2023

2. Lentil seed coat as a source of phenolic compounds: influence of geographical origin and genotype

Author

Galgano, F., Condelli, N., Tolve, R., Scarpa, T., Caruso, M. C., Senizza, Biancamaria, Marzario, S., Lucini, Luigi, Senizza B., Lucini L. (ORCID:0000-0002-5133-9464), Galgano, F., Condelli, N., Tolve, R., Scarpa, T., Caruso, M. C., Senizza, Biancamaria, Marzario, S., Lucini, Luigi, Senizza B., and Lucini L. (ORCID:0000-0002-5133-9464)

Abstract

Lentils (Lens culinaris spp.) are promising legumes whose seed coats, the by-products produced from dehulling, can represent a valuable source of functional components. This work aimed at valorizing lentils seed coat as functional ingredients, by investigating its profile across 11 genotypes grown in two different growing locations in Italy. The total phenolic, flavonoids, and condensed tannins contents (mg/g dry weight,) ranged from 30.60 to 70.37 gallic acid equivalents, 0.86 to 2.21 catechin equivalents, and 22.34 to 77.49 catechin equivalents, respectively. The untargeted phenolic profiling through UHPLC/QTOF-MS, followed by multivariate statistics, revealed differences in the quality and quantity of polyphenols. A broad and diverse profile could be highlighted, including 420 compounds, mainly ascribable to flavonoids, phenolic acids, and low-molecular-weight phenolic compounds. Unsupervised cluster analysis highlighted that origin is hierarchically more important than genotype in determining the phenolic profiles. Pearson’s correlation analysis showed that color was only partially related to phenolic content, while the geographic location and the genotype were more relevant. The significant accumulation of phenolics in some genotypes suggests that the genetic background should be taken into account, when lentils seed coat is to be included in food design as a sustainable source of phenolic compounds.

Published

2022

3. Population genetic structure of Gymnospermium scipetarum subsp. eddae (Berberidaceae), an endangered Forest endemic from the Southern Apennines (Italy)

Author

Marzario, S., primary, Gioia, T., additional, Logozzo, G., additional, Fascetti, S., additional, Coppi, A., additional, Selvi, F., additional, Farris, E., additional, and Rosati, L., additional

Published

2021

4. Population genetic structure of Gymnospermium scipetarum subsp. eddae (Berberidaceae), an endangered Forest endemic from the Southern Apennines (Italy).

Author

Marzario, S., Gioia, T., Logozzo, G., Fascetti, S., Coppi, A., Selvi, F., Farris, E., and Rosati, L.

Subjects

*RAPD technique, *POPULATION differentiation, *POPULATION genetics, *GENETIC variation, *GENE flow, *ENDEMIC plants

Abstract

Assessing genetic diversity of narrow endemic plants is essential for their conservation. Gymnospermium scipetarum subsp. eddae (Berberidaceae) is an Italian endemic limited to a narrow forest area in the southern Apennines. Here we used random amplified polymorphic DNA (RAPD) markers to investigate population genetic differentiation and diversity in relation to distribution and microhabitat conditions. In all five extant populations and 134 individuals analysed we found a relatively low level of population genetic diversity (average Shannon-Weaver diversity index = 0.280; mean percentage of polymorphic bands = 57.45%; mean Nei's gene diversity He = 0.187). Percentage of polymorphic bands (PPB) at species level was higher than at the population level (83.33%), while total species diversity (He = 0.210) was comparable to that found in the two southernmost subpopulations. AMOVA revealed a weak differentiation among populations, which shared three genetic pools in their genetic structure. The estimated gene flow among populations was relatively high (mean Nm = 5.320), while the Mantel test revealed no significant correlation between geographical and genetic distances at the population level. We argue that information on genetic diversity of G. eddae have important implications for conservation programmes, particularly for the establishment of ex-situ collections and restocking conservation actions. [ABSTRACT FROM AUTHOR]

Published

2022

5. The effect of lifestyle changes on serum PSA levels in a cohort of asymptomatic men with PSA between 2-10 ng/ml and normal DRE

Author

Zlotta, A.R., primary, Mari, A., additional, Erlich, A., additional, Kuk, C., additional, Misurka, J., additional, Marzario, S., additional, Zisman, A., additional, Nesbit, M., additional, Carlsson, S., additional, Perlis, N., additional, Hamilton, R., additional, Finelli, A., additional, and Fleshner, N., additional

Published

2019

6. PT109 - The effect of lifestyle changes on serum PSA levels in a cohort of asymptomatic men with PSA between 2-10 ng/ml and normal DRE

Author

Zlotta, A.R., Mari, A., Erlich, A., Kuk, C., Misurka, J., Marzario, S., Zisman, A., Nesbit, M., Carlsson, S., Perlis, N., Hamilton, R., Finelli, A., and Fleshner, N.

Published

2019

7. Transcriptomic response to nitrogen availability reveals signatures of adaptive plasticity during tetraploid wheat domestication.

Author

Pieri A, Beleggia R, Gioia T, Tong H, Di Vittori V, Frascarelli G, Bitocchi E, Nanni L, Bellucci E, Fiorani F, Pecchioni N, Marzario S, De Quattro C, Limongi AR, De Vita P, Rossato M, Schurr U, David JL, Nikoloski Z, and Papa R

Subjects

Genotype, Triticum genetics, Triticum metabolism, Nitrogen metabolism, Domestication, Tetraploidy, Gene Expression Regulation, Plant, Transcriptome genetics

Abstract

The domestication of crops, coupled with agroecosystem development, is associated with major environmental changes and provides an ideal model of phenotypic plasticity. Here, we examined 32 genotypes of three tetraploid wheat (Triticum turgidum L.) subspecies, wild emmer, emmer, and durum wheat, which are representative of the key stages in the domestication of tetraploid wheat. We developed a pipeline that integrates RNA-Seq data and population genomics to assess gene expression plasticity and identify selection signatures under diverse nitrogen availability conditions. Our analysis revealed differing gene expression responses to nitrogen availability across primary (wild emmer to emmer) and secondary (emmer to durum wheat) domestication. Notably, nitrogen triggered the expression of twice as many genes in durum wheat compared to that in emmer and wild emmer. Unique selection signatures were identified at each stage: primary domestication mainly influenced genes related to biotic interactions, whereas secondary domestication affected genes related to amino acid metabolism, in particular lysine. Selection signatures were found in differentially expressed genes (DEGs), notably those associated with nitrogen metabolism, such as the gene encoding glutamate dehydrogenase (GDH). Overall, our study highlights the pivotal role of nitrogen availability in the domestication and adaptive responses of a major food crop, with varying effects across different traits and growth conditions., Competing Interests: Conflict of interest statement. None declared., (© The Author(s) 2024. Published by Oxford University Press on behalf of American Society of Plant Biologists.)

Published

2024

8. Phenotypic evolution in durum wheat ( Triticum durum Desf.) based on SNPs, morphological traits, UPOV descriptors and kernel-related traits.

Author

Marzario S, Sica R, Taranto F, Fania F, Esposito S, De Vita P, Gioia T, and Logozzo G

Abstract

Durum wheat is a worldwide staple crop cultivated mainly in the Mediterranean basin. Progress in durum wheat breeding requires the exploitation of genetic variation among the gene pool enclosed in landraces, old cultivars and modern cultivars. The aim of this study was to provide a more comprehensive view of the genetic architecture evolution among 123 durum wheat accessions (41 landraces, 41 old cultivars and 41 modern cultivars), grown in replicated randomized complete block in two areas, Metaponto (Basilicata) and Foggia (Apulia), using the Illumina iSelect 15K wheat SNP array and 33 plant and kernel traits including the International Union for the Protection of new Varieties of Plants (UPOV) descriptors. Through DAPC and Bayesian population structure five groups were identified according to type of material data and reflecting the genetic basis and breeding strategies involved in their development. Phenotypic and genotypic coefficient of variation were low for kernel width (6.43%) and for grain protein content (1.03%). Highly significant differences between environments, genotypes and GEI (Genotype x Environment Interaction) were detected by mixed ANOVAs for agro-morphological-quality traits. Number of kernels per spike (h 2 = 0.02) and grain protein content (h 2 = 0.03) were not a heritability character and highly influenced by the environment. Nested ANOVAs revealed highly significant differences between DAPC clusters within environments for all traits except kernel roundness. Ten UPOV traits showed significant diversity for their frequencies in the two environments. By PCAmix multivariate analysis, plant height, heading time, spike length, weight of kernels per spike, thousand kernel weight, and the seed related traits had heavy weight on the differentiation of the groups, while UPOV traits discriminated moderately or to a little extent. The data collected in this study provide useful resources to facilitate management and use of wheat genetic diversity that has been lost due to selection in the last decades., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Marzario, Sica, Taranto, Fania, Esposito, De Vita, Gioia and Logozzo.)

Published

2023

9. Towards the Development, Maintenance and Standardized Phenotypic Characterization of Single-Seed-Descent Genetic Resources for Chickpea.

Author

Rocchetti L, Gioia T, Logozzo G, Brezeanu C, Pereira LG, la Rosa L, Marzario S, Pieri A, Fernie AR, Alseekh S, Susek K, Cook DR, Varshney RK, Agrawal SK, Hamwieh A, Bitocchi E, and Papa R

Subjects

Genomics, Phenotype, Seeds genetics, Cicer genetics, Fabaceae

Abstract

Here we present the approach used to develop the INCREASE "Intelligent Chickpea" Collections, from analysis of the information on the life history and population structure of chickpea germplasm, the availability of genomic and genetic resources, the identification of key phenotypic traits and methodologies to characterize chickpea. We present two phenotypic protocols within H2O20 Project INCREASE to characterize, develop, and maintain chickpea single-seed-descent (SSD) line collections. Such protocols and related genetic resource data from the project will be available for the legume community to apply the standardized approaches to develop Chickpea Intelligent Collections further or for multiplication/seed-increase purposes. © 2022 The Authors. Current Protocols published by Wiley Periodicals LLC. Basic Protocol 1: Characterization of chickpea seeds for seed-trait descriptors Basic Protocol 2: Characterization of chickpea lines for plant-trait descriptors specific for primary seed increase., (© 2022 The Authors. Current Protocols published by Wiley Periodicals LLC.)

Published

2022

10. Pod indehiscence in common bean is associated with the fine regulation of PvMYB26.

Author

Di Vittori V, Bitocchi E, Rodriguez M, Alseekh S, Bellucci E, Nanni L, Gioia T, Marzario S, Logozzo G, Rossato M, De Quattro C, Murgia ML, Ferreira JJ, Campa A, Xu C, Fiorani F, Sampathkumar A, Fröhlich A, Attene G, Delledonne M, Usadel B, Fernie AR, Rau D, and Papa R

Subjects

Quantitative Trait Loci, Seeds, Phaseolus genetics

Abstract

In legumes, pod shattering occurs when mature pods dehisce along the sutures, and detachment of the valves promotes seed dispersal. In Phaseolus vulgaris (L)., the major locus qPD5.1-Pv for pod indehiscence was identified recently. We developed a BC4/F4 introgression line population and narrowed the major locus down to a 22.5 kb region. Here, gene expression and a parallel histological analysis of dehiscent and indehiscent pods identified an AtMYB26 orthologue as the best candidate for loss of pod shattering, on a genomic region ~11 kb downstream of the highest associated peak. Based on mapping and expression data, we propose early and fine up-regulation of PvMYB26 in dehiscent pods. Detailed histological analysis establishes that pod indehiscence is associated with the lack of a functional abscission layer in the ventral sheath, and that the key anatomical modifications associated with pod shattering in common bean occur early during pod development. We finally propose that loss of pod shattering in legumes resulted from histological convergent evolution and that it is the result of selection at orthologous loci., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Experimental Biology.)

Published

2021

11. Physico-Chemical Characterization and Biological Activities of a Digestate and a More Stabilized Digestate-Derived Compost from Agro-Waste.

Author

Vitti A, Elshafie HS, Logozzo G, Marzario S, Scopa A, Camele I, and Nuzzaci M

Abstract

The excessive use of agricultural soils and the reduction in their organic matter, following circular economy and environmental sustainability concepts, determined a strong attention in considering composting as a preferred method for municipalities and industries to recycle organic by-products. Microorganisms degrade organic matter for producing CO 2 , water and energy, originating stable humus named compost. The current study analyzed the chemical composition of a cow slurry on-farm digestate and a more stabilized digestate-derived compost (DdC), along with their phytotoxic, genotoxic and antifungal activities. The chemical analysis showed that digestate cannot be an ideal amendment due to some non-acceptable characteristics. Biological assays showed that the digestate had phytotoxicity on the tested plants, whereas DdC did not induce a phytotoxic effect in both plants at the lowest dilution; hence, the latter was considered in subsequent analyses. The digestate and DdC induced significant antifungal activity against some tested fungi. DdC did not show genotoxic effect on Vicia faba using a micronuclei test. Soil treated with DdC (5 and 10%) induced damping-off suppression caused by Fusarium solani in tomato plants. The eco-physiological data indicated that DdC at 5-10% could increase the growth of tomato plants. In conclusion, DdC is eligible as a soil amendment and to strengthen the natural soil suppressiveness against F. solani .

Published

2021

12. Evolution of SSR diversity from wild types to U.S. advanced cultivars in the Andean and Mesoamerican domestications of common bean (Phaseolus vulgaris).

Author

Gioia T, Logozzo G, Marzario S, Spagnoletti Zeuli P, and Gepts P

Subjects

Chromosomes, Plant genetics, Cluster Analysis, DNA, Plant genetics, Discriminant Analysis, Domestication, Evolution, Molecular, Phaseolus genetics, Plant Leaves classification, Plant Leaves genetics, Principal Component Analysis, Species Specificity, United States, Genetic Variation, Microsatellite Repeats, Phaseolus classification

Abstract

Progress in common bean breeding requires the exploitation of genetic variation among market classes, races and gene pools. The present study was conducted to determine the amount of genetic variation and the degree of relatedness among 192 selected common bean advanced cultivars using 58 simple-sequence-repeat markers (SSR) evenly distributed along the 11 linkage groups of the Phaseolus reference map. All the lines belonged to commercial seed type classes that are widely grown in the USA and include both dry bean and snap beans for the fresh and processing markets. Through population structure, principal components analyses, cluster analysis, and discriminant analysis of principal components (DAPC), Andean and Mesoamerican genotypes as well as most American commercial type classes could be distinguished. The genetic relationship among the commercial cultivars revealed by the SSR markers was generally in agreement with known pedigree data. The Mesoamerican cultivars were separated into three major groups-black, small white, and navy accessions clustered together in a distinct group, while great northern and pinto clustered in another group, showing mixed origin. The Andean cultivars were distributed in two different groups. The kidney market classes formed a single group, while the green bean accessions were distributed between the Andean and Mesoamerican groups, showing inter-gene pool genetic admixture. For a subset of 24 SSR markers, we compared and contrasted the genetic diversity of the commercial cultivars with those of wild and domesticated landrace accessions of common bean. An overall reduction in genetic diversity was observed in both gene pools, Andean and Mesoamerican, from wild to landraces to advanced cultivars. The limited diversity in the commercial cultivars suggests that an important goal of bean breeding programs should be to broaden the cultivated gene pool, particularly the genetic diversity of specific commercial classes, using the genetic variability present in common bean landraces., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

13. Molecular Genotyping (SSR) and Agronomic Phenotyping for Utilization of Durum Wheat ( Triticum durum Desf.) Ex Situ Collection from Southern Italy: A Combined Approach Including Pedigreed Varieties.

Author

Marzario S, Logozzo G, David JL, Zeuli PS, and Gioia T

Abstract

In South Italy durum wheat ( Triticum durum Desf.) has a long-time tradition of growing and breeding. Accessions collected and now preserved ex situ are a valuable genetic resource, but their effective use in agriculture and breeding programs remains very low. In this study, a small number (44) of simple sequence repeats (SSR) molecular markers were used to detect pattern of diversity for 136 accessions collected in South Italy over time, to identify the genepool of origin, and establish similarities with 28 Italian varieties with known pedigree grown in Italy over the same time-period. Phenotyping was conducted for 12 morphophysiological characters of agronomic interest. Based on discriminant analysis of principal components (DAPC) and STRUCTURE analysis six groups were identified, the assignment of varieties reflected the genetic basis and breeding strategies involved in their development. Some "old" varieties grown today are the result of evolution through natural hybridization and conservative pure line selection. A small number of molecular markers and little phenotyping coupled with powerful statistical analysis and comparison to pedigreed varieties can provide enough information on the genetic structure of durum wheat germplasm for a quick screening of the germplasm collection able to identify accessions for breeding or introduction in low input agriculture.

Published

2018