Your search keyword '"Gasparini K"' showing total 23 results

1. Quantitative trait loci affecting milk production traits on bovine chromosome 6 in zebuine Gyr breed

Author

Silva, A.A., Azevedo, A.L.S., Verneque, R.S., Gasparini, K., Peixoto, M.G.C.D., da Silva, M.V.G.B., Lopes, P.S., Guimarães, S.E.F., and Machado, M.A.

Published

2011

2. Selecting sugarcane genotypes by the selection index reveals high gain for technological quality traits

Author

Silva, L.A., primary, Teodoro, P.E., additional, Peixoto, L.A., additional, Assis, C., additional, Gasparini, K., additional, Barbosa, M.H.P., additional, and Bhering, L.L., additional

Published

2017

3. Urban Color&Light. Processi di cromatizzazione del contemporaneo

Author

Zennaro, Pietro and Gasparini, K.

Published

2011

4. Screens and Colour

Author

Zennaro, Pietro and Gasparini, K.

Published

2010

5. Exciting Architecture for exciting food

Author

Zennaro, Pietro and Gasparini, K.

Published

2010

6. TECNOLOGIE E NUOVE REALTÀ AMBIENTALI

Author

Zennaro, Pietro and Gasparini, K.

Published

2010

7. The Maintenance of Color on Finishing Coats

Author

Zennaro, Pietro and Gasparini, K.

Published

2008

8. COLORE E DESIGN NELLA PRODUZIONE DI SCHERMATURE SOLARI TESSILI

Author

Zennaro, Pietro and Gasparini, K.

Published

2007

9. Quantitative trait loci affecting lactose and total solids on chromosome 6 in Brazilian Gir dairy cattle

Author

Silva, A.A., primary, Azevedo, A.L.S., additional, Gasparini, K., additional, Verneque, R.S., additional, Peixoto, M.G.C.D., additional, Panetto, B.R., additional, Guimarães, S.E.F., additional, and Machado, M.A., additional

Published

2011

10. Il Patrimonio della città sostenibile nel Mediterraneo. Progetti sostenibili per il centro storico di Tunisi

Author

MAROTTA, Irene, Marotta, I., Caterina, G., Talamo, C., Germanà, M.L., Tuzzolino, G. F., Cannarozzo, T., Ciocia, C., Bozzella, R., Carnazzo, P., Napolitano, T., Marsolo, A., Cantone, F., Valenti, R., Zennaro, P., Taibi, G., Billeci, B., Di Sivo, M., Di Salvo, S., Fabbri, R., Gasparini, K., Modaffari, C., Bianchi, S., Zuppiroli, M., Della Torre, S., Carocci, C., Faraci, G., Oppido, S., Lanzarone, F., Baldi, Corrado., Di Giulio, R., Ortega de la Morenea, R., Violano, A., Chiazza, A., Lanza Volpe, A., Fiore, V., Diano, D., Colloca, C., Fernàndez, M., Cadenas, M., Di Bella, A., Olivella Rizza, M., Giuffrida, S., Lauria, M., Canevari, A.P., Fabbricati, K., ColaJanni, S., Vitale, M.R., Viola, S., Borriello, F., Muzzillo, F., Mamì, A., Scavone V., Mocerino, C., Vattano, S., Palazzo F., and Failla, L.

Subjects

Tangible Heritage, Intangible Heritage, Sustainable Architecture, Mediterraneans Cities, Settore ICAR/14 - Composizione Architettonica E Urbana, Patrimonio Materiale, Patrimonio Immateriale, Architettura Sostenibile, Città Mediterranee

Abstract

Questo contributo si concentra sull’analisi di nuove strategie di rigenerazione urbana che hanno come obiettivo primario la valorizzazione del Patrimonio della città sostenibile nel Mediterraneo. La nostra ipotesi vuole dimostrare che il Patrimonio è diventato il vettore mobilizzatore del cambiamento delle città mediterranee, coinvolgendo mestieri, abitanti e fruitori. Verranno esaminati due progetti realizzati nella città di Tunisi dall’Association de Sauvegarde de la Médina (ASM): l’intervento di valorizzazione di un percorso urbano che collega gli spazi pubblici e il patrimonio architettonico della Medina (2008), dalla Mosquée Zitouna alla Zaouina di Sidi Ibrahim Riahi; il piano di rivitalizzazione urbana dell’Avenue Bourguiba e dell’Avenue de France (1999), che riqualifica gli spazi pubblici e i monumenti presenti in questo importante asse della città. Questi interventi, che hanno l’obiettivo di coinvolgere la popolazione locale, sono stati selezionati per l’attenzione che dimostrano alle nuove esigenze dello spazio pubblico e dell’abitato. This contribution focuses on the analysis of new strategies for urban regeneration that have as primary objective the enhancement of the Mediterranean sustainable city Heritage. Our main research hypothesis will show how cultural Heritage is now the changing vector of Mediterranean cities, involving actors, crafts, inhabitants and users. We will focus on two works in the city of Tunis by the Association de Sauvegarde de la Médina (ASM): a development project of an urban path connecting public spaces with the architectural Heritage of Medina (2008), from the Great Mosque Zitouna to Zaouina of Sidi Ibrahim Riahi; a plan for urban refurbishment and development of public spaces and monuments in two important axis of the city: Avenue Bourguiba and Avenue de France (1999). We have chosen these urban interventions, whose aim is to involve the local population and to give new significant answers to the new requirements of public space and area.

Published

2013

11. the mystery of colour for the young Le Corbusier, chromatic memories from voyage d'orient to maison blanche

Author

Scavuzzo, Giuseppina, Zennaro P., Martini A., Gasparini K., Gregoris C., Premier A., Cibin C., Scavuzzo G., Benacchio V., Custoza G. C., Zorzi M., Bulfone Gransinigh F., Zennaro P., and Scavuzzo, Giuseppina

Subjects

Architettura, Le Corbusier, colore, Composizione architettonica

Abstract

Il bisogno di Le Corbusier di vincolare l’opera a principi di validità universale radicati nella cultura e nella storia, lo ha condotto a ricercare continue conferme nelle opere del passato. Anche per questo la sua opera, pur nella sua eccezionalità, è emblematica della cultura occidentale per il lungo tratto che ne ha percorso. Il rapporto con il colore è, in questo senso, paradigmatico. Molta cultura occidentale ha combattuto l’inquietudine per il potere misterioso del colore, ha tentato di depotenziarne la minaccia, sminuendone il ruolo, relegando il colore al decorativo, al femminile, all’infantile o al primitivo. Le Corbusier è stato attraversato sia dall’attrazione inebriata che dalla ripulsa quasi fobica per il colore, come le alterne e contraddittorie affermazioni in proposito dimostrano, cercando di risolvere questo dissidio elaborando quel complesso strumento di controllo che sono i Claviers de couleurs. Si è cercato di ripercorrere alcuni momenti di questo intenso rapporto esaminando la casa in cui il giovane Jeanneret applica le memorie dei cromatismi descritti nei carnets del viaggio in Oriente, la Maison Blanche, e poi la casa considerata “soglia” verso l’applicazione dei principi della nuova architettura, è la Maison La Roche. In entrambe l’esterno bianco racchiude elaborati esercizi di policromia architettonica.

Published

2012

12. COMPOSIZIONI PER TASTIERE CROMATICHE

Author

SCAVUZZO, GIUSEPPINA, Zennaro P., Gasparini K., Premier A., and Scavuzzo, Giuseppina

Subjects

Architettura, Colore, Le Corbusier

Abstract

Le modalità di rilevamento del paesaggio edificato potrebbero essere infinite, pure selezionando un filtro di lettura come il colore e la luce. A prima vista sembrerebbe perciò estremamente ambizioso tentare di controllare qualcosa che per sua natura non agevola l’identificazione di regole semplici e condivisibili. Tuttavia la configurazione di ogni paesaggio antropizzato necessita di confrontarsi con questi due aspetti. Per ogni progettista risulta necessario avere conoscenza delle qualità cromatiche, poiché tutto ciò che è materiale possiede un colore, così come non può esimersi dal prendere in considerazione il comportamento luminoso dei volumi architettonici, siano essi esterni o interni. I contributi degli studiosi qui raccolti, partendo da considerazioni che affondano le motivazioni nella storia e nella cultura del colore e della luce, tracciano alcuni percorsi, forniscono interessanti interpretazioni e mettono in luce talune considerazioni necessarie per il progetto architettonico nell’epoca contemporanea.

Published

2010

13. The genetic basis of prickle loss in the Solanaceae.

Author

Figueiredo YG, Gasparini K, Bulut M, Fernie AR, and Zsögön A

Subjects

Plant Proteins genetics, Plant Proteins metabolism, Gene Editing methods, Solanaceae genetics

Abstract

In a recent study, Satterlee et al. found that the repeated emergence of prickleless varieties in Solanaceae species is a convergent trait caused by loss of function in the cytokinin-activating enzyme LONELY GUY (LOG). New prickleless forms can be created in wild and domesticated forms using gene editing., Competing Interests: Declaration of interests No interests are declared., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2025

14. Moving abscisic acid transport forward.

Author

Gasparini K, Delgado-Santibañez P, Zsögön A, and Ribeiro DM

Abstract

Abscisic acid (ABA) transport in plants is necessary to regulate developmental plasticity and responses to environmental signals. Plants use ABA exporter ATP-binding cassette G25 (ABCG25) to control ABA homeostasis. Three recent papers (Huang et al., Ying et al., and Xin et al.) have revealed the structure and transport mechanism of ABCG25., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

15. De novo domestication in the Solanaceae: advances and challenges.

Author

Gasparini K, Figueiredo YG, Araújo WL, Peres LE, and Zsögön A

Subjects

Genome, Plant, Plant Breeding methods, Domestication, Solanaceae genetics, Crops, Agricultural genetics, Crops, Agricultural growth & development, Gene Editing

Abstract

The advent of highly efficient genome editing (GE) tools, coupled with high-throughput genome sequencing, has paved the way for the accelerated domestication of crop wild relatives. New crops could thus be rapidly created that are well adapted to cope with drought, flooding, soil salinity, or insect damage. De novo domestication avoids the complexity of transferring polygenic stress resistance from wild species to crops. Instead, new crops can be created by manipulating major genes in stress-resistant wild species. However, the genetic basis of certain relevant domestication-related traits often involve epistasis and pleiotropy. Furthermore, pan-genome analyses show that structural variation driving gene expression changes has been selected during domestication. A growing body of work suggests that the Solanaceae family, which includes crop species such as tomatoes, potatoes, eggplants, peppers, and tobacco, is a suitable model group to dissect these phenomena and operate changes in wild relatives to improve agronomic traits rapidly with GE. We briefly discuss the prospects of this exciting novel field in the interface between fundamental and applied plant biology and its potential impact in the coming years., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

16. Metabolic control of seed germination in legumes.

Author

Gonçalves JP, Gasparini K, Picoli EAT, Costa MDL, Araujo WL, Zsögön A, and Ribeiro DM

Subjects

Germination genetics, Seeds metabolism, Vegetables metabolism, Plant Dormancy, Gene Expression Regulation, Plant, Fabaceae metabolism, Arabidopsis genetics, Arabidopsis Proteins metabolism

Abstract

Seed development, dormancy, and germination are connected with changes in metabolite levels. Not surprisingly, a complex regulatory network modulates biosynthesis and accumulation of storage products. Seed development has been studied profusely in Arabidopsis thaliana and has provided valuable insights into the genetic control of embryo development. However, not every inference applies to crop legumes, as these have been domesticated and selected for high seed yield and specific metabolic profiles and fluxes. Given its enormous economic relevance, considerable work has contributed to shed light on the mechanisms that control legume seed growth and germination. Here, we summarize recent progress in the understanding of regulatory networks that coordinate seed metabolism and development in legumes., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Agustin Zsögön reports was provided by Federal University of Vicosa. Agustin Zsögön reports financial support was provided by Minas Gerais State Foundation of Support to the Research., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published

2024

17. Natural genetic variation in the HAIRS ABSENT (H) gene increases type-VI glandular trichomes in both wild and domesticated tomatoes.

Author

Gasparini K, Gasparini J, Therezan R, Vicente MH, Sakamoto T, Figueira A, Zsögön A, and Peres LEP

Subjects

Trichomes, Plant Proteins genetics, Plant Proteins metabolism, Alleles, Genetic Variation, Solanum lycopersicum genetics

Abstract

Glandular trichomes produce and exude secondary metabolites, conferring insect resistance in many crop species. Whereas some of its wild relatives are insect-resistant, tomato (Solanum lycopersicum) is not. Identifying the genetic changes that altered trichome development and biochemistry during tomato domestication would contribute to breeding for insect resistance. A mutation in the HAIRS ABSENT (H) gene, which encodes a C2H2 zinc finger protein (ZFP8), leads to reduced trichome density. Several geographic accessions of S. pimpinellifolium, the wild ancestor of domesticated tomato, have glabrous organs that resemble the phenotype caused by h. Here, we investigated allelic diversity for H in tomato and S. pimpinellifolium accessions and their associated trichome phenotypes. We also evaluated how the developmental stage can affect trichome development in glabrous and non-glabrous plants. We found that glabrous accessions of S. pimpinellifolium have different ZFP8 nucleotide sequence changes, associated with altered trichome development and density. We also found that while the glabrous appearance of h mutants is caused by a lower density of long trichomes, the density of type-VI glandular trichomes is increased, particularly in the adult stages of plant development. These insights on the genetic control of trichome development may contribute to breeding for insect resistance in tomatoes and other crops., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier GmbH. All rights reserved.)

Published

2023

18. The Lanata trichome mutation increases stomatal conductance and reduces leaf temperature in tomato.

Author

Gasparini K, da Silva MF, Costa LC, Martins SCV, Ribeiro DM, Peres LEP, and Zsögön A

Subjects

Solanum lycopersicum genetics, Mutation, Plant Leaves genetics, Plant Stomata genetics, Temperature, Trichomes genetics, Trichomes physiology, Solanum lycopersicum physiology, Plant Breeding, Plant Leaves physiology, Plant Stomata physiology

Abstract

Trichomes are epidermal structures with a large variety of ecological functions and economic applications. Glandular trichomes produce a rich repertoire of secondary metabolites, whereas non-glandular trichomes create a physical barrier on the epidermis: both operate in tandem against biotic and abiotic stressors. A deeper understanding of trichome development and function would enable the breeding of more resilient crops. However, little is known about the impact of altered trichome density on leaf photosynthesis, gas exchange and energy balance. Previous work has compared multiple, closely related species differing in trichome density. Here, we analysed monogenic trichome mutants in the same tomato genetic background (Solanum lycopersicum cv. 'Micro-Tom'). We determined growth parameters, leaf spectral properties, gas exchange and leaf temperature in the hairs absent (h), Lanata (Ln) and Woolly (Wo) trichome mutants. Shoot dry weight, leaf area, leaf spectral properties and cuticular conductance were not affected by the mutations. However, the Ln mutant showed increased net carbon assimilation rate (A n ), associated with higher stomatal conductance (g s ), with no differences in stomatal density or stomatal index between genotypes. Leaf temperature was furthermore reduced in Ln in the hottest, early hours of the afternoon. We show that a single monogenic mutation that modifies trichome density, a desirable trait for crop breeding, concomitantly improves leaf gas exchange and reduces leaf temperature., (Copyright © 2021 Elsevier GmbH. All rights reserved.)

Published

2021

19. De novo domestication of wild species to create crops with increased resilience and nutritional value.

Author

Gasparini K, Moreira JDR, Peres LEP, and Zsögön A

Subjects

Crops, Agricultural genetics, Gene Editing, Nutritive Value, Domestication, Plant Breeding

Abstract

Creating crops with resistance to drought, soil salinity and insect damage, that simultaneously have higher nutritional quality, is challenging to conventional breeding due to the complex and diffuse genetic basis of those traits. Recent advances in gene editing technology, such as base editors and prime-editing, coupled with a deeper understanding of the genetic basis of domestication delivered by the analysis of crop 'pangenomes', open the exciting prospect of creating novel crops via manipulation of domestication-related genes in wild species. A de novo domestication platform may allow rapid and precise conversion of crop wild relatives into crops, while retaining many of the valuable resilience and nutritional traits left behind during domestication and breeding. Using the Solanaceae family as case in point, we discuss how such a knowledge-driven pipeline could be exploited to contribute to food security over the coming decades., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

20. Genome Editing to Achieve the Crop Ideotype in Tomato.

Author

Čermák T, Gasparini K, Kevei Z, and Zsögön A

Subjects

Genetic Vectors, Solanum lycopersicum growth & development, Agrobacterium genetics, CRISPR-Cas Systems, Gene Editing, Gene Targeting, Genome, Plant, Solanum lycopersicum genetics, Transformation, Genetic

Abstract

For centuries, combining useful traits into a single tomato plant has been done by selective crossbreeding that resulted in hundreds of extant modern cultivars. However, crossbreeding is a labor-intensive process that requires between 5 and 7 years to develop a new variety. More recently, genome editing with the clustered regularly interspaced short palindromic repeats (CRISPR)/Cas9 system has been established as an efficient method to accelerate the breeding process by introducing targeted modifications to plant genomes via generation of targeted double-strand breaks (DSBs). CRISPR/Cas9 has been used to generate a variety of specific changes ranging from gene knockouts to gene replacements, and can also be easily multiplexed to modify several targets simultaneously. Given that (1) generating knockout mutations only requires a DSB that is frequently repaired by the error-prone nonhomologous end joining (NHEJ) pathway resulting in gene function inactivation, and (2) the genetic basis of many useful agronomic traits consists of loss of gene function, multiple traits can be created in a plant in one generation by simultaneously introducing DSBs into multiple genes of interest. On the other hand, more precise modifications, such as allele replacement, can be achieved by gene targeting-a less efficient process in which an external template is used to repair the DSB by homologous recombination (HR). These technical breakthroughs allow the design and customization of plant traits to achieve the ideal plant type ("ideotype"). Here, we describe protocols to assemble CRISPR/Cas9 constructs for both single and multiplex gene knockouts as well as gene targeting and to generate and identify genome-edited tomato plants via Agrobacterium-mediated transformation in tissue culture.

Published

2021

21. Down Regulation and Loss of Auxin Response Factor 4 Function Using CRISPR/Cas9 Alters Plant Growth, Stomatal Function and Improves Tomato Tolerance to Salinity and Osmotic Stress.

Author

Bouzroud S, Gasparini K, Hu G, Barbosa MAM, Rosa BL, Fahr M, Bendaou N, Bouzayen M, Zsögön A, Smouni A, and Zouine M

Subjects

Abscisic Acid metabolism, CRISPR-Cas Systems genetics, Gene Expression Regulation, Plant genetics, Solanum lycopersicum growth & development, Osmotic Pressure physiology, Plant Development genetics, Plant Leaves genetics, Plant Leaves growth & development, Plants, Genetically Modified genetics, Plants, Genetically Modified growth & development, Salinity, Solanum lycopersicum genetics, Plant Proteins genetics, Salt Stress genetics, Salt Tolerance genetics

Abstract

Auxin controls multiple aspects of plant growth and development. However, its role in stress responses remains poorly understood. Auxin acts on the transcriptional regulation of target genes, mainly through Auxin Response Factors ( ARF ). This study focuses on the involvement of SlARF4 in tomato tolerance to salinity and osmotic stress. Using a reverse genetic approach, we found that the antisense down-regulation of SlARF4 promotes root development and density, increases soluble sugars content and maintains chlorophyll content at high levels under stress conditions. Furthermore, ARF4 -as displayed higher tolerance to salt and osmotic stress through reduced stomatal conductance coupled with increased leaf relative water content and Abscisic acid (ABA) content under normal and stressful conditions. This increase in ABA content was correlated with the activation of ABA biosynthesis genes and the repression of ABA catabolism genes. Cu/ZnSOD and mdhar genes were up-regulated in ARF4 -as plants which can result in a better tolerance to salt and osmotic stress. A CRISPR/Cas9 induced SlARF4 mutant showed similar growth and stomatal responses as ARF4 -as plants, which suggest that arf4-cr can tolerate salt and osmotic stresses. Our data support the involvement of ARF4 as a key factor in tomato tolerance to salt and osmotic stresses and confirm the use of CRISPR technology as an efficient tool for functional reverse genetics studies.

Published

2020

22. Elevated CO 2 induces age-dependent restoration of growth and metabolism in gibberellin-deficient plants.

Author

Gasparini K, Costa LC, Brito FAL, Pimenta TM, Cardoso FB, Araújo WL, Zsögön A, and Ribeiro DM

Subjects

Atmosphere, Cell Division drug effects, Solanum lycopersicum drug effects, Solanum lycopersicum genetics, Solanum lycopersicum growth & development, Mutation, Photosynthesis drug effects, Carbon Dioxide pharmacology, Gibberellins metabolism, Solanum lycopersicum physiology, Plant Growth Regulators metabolism

Abstract

Main Conclusion: The effect of elevated [CO 2 ] on the growth of tomato plants with reduced gibberellin content is influenced by developmental stage. The impact of increased atmospheric carbon dioxide (CO 2 ) on plants has aroused interest in the last decades. Signaling molecules known as plant hormones are fundamental controllers of plant growth and development. Elevated CO2 concentration ([CO 2 ]) increases plant growth; however, whether plant hormones act as mediators of this effect is still an open question. Here, we show the response to elevated [CO 2 ] in tomato does not require a functional gibberellin (GA) biosynthesis pathway. We compared growth and primary metabolism between wild-type (WT) and GA-deficient mutant (gib-1) plants transferred from ambient (400 ppm) to elevated (750 ppm) [CO 2 ] at two different growth stages (either 21 or 35 days after germination, DAG). Growth, photosynthetic parameters and primary metabolism in the stunted gib-1 plants were restored when they were transferred to elevated [CO 2 ] at 21 DAG. Elevated [CO 2 ] also stimulated growth and photosynthetic parameters in WT plants at 21 DAG; however, only minor changes were observed in the level of primary metabolites. At 35 DAG, on the other hand, elevated [CO 2 ] did not stimulate growth in WT plants and gib-1 mutants showed their characteristic stunted growth phenotype. Taken together, our results reveal that elevated [CO 2 ] enhances growth only within a narrow developmental window, in which GA biosynthesis is dispensable. This finding could be relevant for breeding crops in the face of the expected increases in atmospheric CO 2 over the next century.

Published

2019

23. Low soil pH modulates ethylene biosynthesis and germination response of Stylosanthes humilis seeds.

Author

Brito FAL, Costa LC, Gasparini K, Pimenta TM, Araújo WL, Zsögön A, and Ribeiro DM

Subjects

Germination physiology, Hydrogen-Ion Concentration, Indoleacetic Acids metabolism, Ethylenes metabolism, Seeds physiology, Soil chemistry

Abstract

The tropical forage legume Stylosanthes humilis is naturally distributed in the acidic soils of the tropics. However, data concerning the role of low soil pH in the control of S. humilis seed germination remains limited. Recently, we have demonstrated that acidic soil triggers increased ethylene production during germination of S. humilis seeds, concomitantly with higher root penetration into the soil. Our finding points an important role of low soil pH as a signal allowing penetration of root in the soil through interaction with the ethylene signalling pathway. Herein, we discuss how low soil pH induces changes on seed hormonal physiology.

Published

2018