Your search keyword '"Sara Amancio"' showing total 15 results

1. Canopy Architecture and Sun Exposure Influence Berry Cluster–Water Relations in the Grapevine Variety Muscat of Alexandria

Author

Olfa Zarrouk, Clara Pinto, Maria Victoria Alarcón, Alicia Flores-Roco, Leonardo Santos, Teresa S. David, Sara Amancio, Carlos M. Lopes, and Luisa C. Carvalho

Subjects

aquaporins, histology, hydraulic conductivity, phenology, stress-related genes, Vitis vinifera, Botany, QK1-989

Abstract

Climate-change-related increases in the frequency and intensity of heatwaves affect viticulture, leading to losses in yield and grape quality. We assessed whether canopy-architecture manipulation mitigates the effects of summer stress in a Mediterranean vineyard. The Vitis vinifera L variety Muscat of Alexandria plants were monitored during 2019–2020. Two canopy shoot-positioning treatments were applied: vertical shoot positioning (VSP) and modulated shoot positioning (MSP). In MSP, the west-side upper foliage was released to promote partial shoot leaning, shading the clusters. Clusters were sampled at pea size (PS), veraison (VER), and full maturation (FM). Measurements included rachis anatomy and hydraulic conductance (Kh) and aquaporins (AQP) and stress-related genes expression in cluster tissues. The results show significant seasonal and interannual differences in Kh and vascular anatomy. At VER, the Kh of the rachis and rachis+pedicel and the xylem diameter decreased but were unaffected by treatments. The phloem–xylem ratio was either increased (2019) or reduced (2020) in MSP compared to VSP. Most AQPs were down-regulated at FM in pedicels and up-regulated at VER in pulp. A potential maturation shift in MSP was observed and confirmed by the up-regulation of several stress-related genes in all tissues. The study pinpoints the role of canopy architecture in berry–water relations and stress response during ripening.

Published

2024

2. Functional gene categories differentiate maize leaf drought-related microbial epiphytic communities

Author

Barbara A. Methe, David Hiltbrand, Jeffrey Roach, Wenwei Xu, Stuart G. Gordon, Brad W. Goodner, Ann E. Stapleton, and Sara Amancio

Subjects

Medicine, Science

Abstract

The phyllosphere epiphytic microbiome is composed of microorganisms that colonize the external aerial portions of plants. Relationships of plant responses to specific microorganisms–both pathogenic and beneficial–have been examined, but the phyllosphere microbiome functional and metabolic profile responses are not well described. Changing crop growth conditions, such as increased drought, can have profound impacts on crop productivity. Also, epiphytic microbial communities provide a new target for crop yield optimization. We compared Zea mays leaf microbiomes collected under drought and well-watered conditions by examining functional gene annotation patterns across three physically disparate locations each with and without drought treatment, through the application of short read metagenomic sequencing. Drought samples exhibited different functional sequence compositions at each of the three field sites. Maize phyllosphere functional profiles revealed a wide variety of metabolic and regulatory processes that differed in drought and normal water conditions and provide key baseline information for future selective breeding.

Published

2020

3. Screening germplasm for adaptation to drought and temperature

Author

Lucie Pinasseau, Agnes Doligez, Angelique Adiveze, Agnès Ageorges, Dalel Ahmed, Jean Francois Ballester, Brigitte Barthelemy, Gilles Berger, Yves Bertrand, Virginie Bouckenooghe, Jean Claude Boulet, Timothée Flutre, Agota Fodor, Jean-Luc Guiraud, Amandine Launay, Thierry Lacombe, Therese Marlin, Emmanuelle Meudec, Stephane Nicolas, Lollier, A., Charles Romieu, Maryline Roques, Rémi Guerin Schneider, Nicolas Sommerer, Patrice This, Anna Vallverdu Queralt, Arnaud Verbaere, Loic Lecunff, Veronique Cheynier, Nancy Terrier, Jean-Pierre Peros, Silvia Dal Santo, Sara Zenoni, Giovanni Battista Tornielli, Mario Pezzotti, Carvalho, Luis C., Emanuel Gonçalves, Sara Amancio, Antero Martins, Pablo Carbonell-Bejerano, Rafael Torres-Pérez, María Arrizabalaga, María Oyarzun, Carolina Royo, Elisa Baroja, Enrique García-Escudero, Fermín Morales, Ignacio Pascual, José Martinez-Zapater, Sciences Pour l'Oenologie (SPO), Université Montpellier 1 (UM1)-Institut National de la Recherche Agronomique (INRA)-Université de Montpellier (UM)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Amélioration génétique et adaptation des plantes méditerranéennes et tropicales (UMR AGAP), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de la Recherche Agronomique (INRA)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), UMT Qualinnov, Institut Français de la Vigne et du Vin (IFV), UMT Génovigne, Génétique Quantitative et Evolution - Le Moulon (Génétique Végétale) (GQE-Le Moulon), Centre National de la Recherche Scientifique (CNRS)-AgroParisTech-Université Paris-Sud - Paris 11 (UP11)-Institut National de la Recherche Agronomique (INRA), University of Verona (UNIVR), Instituto Superior de Agronomia, Instituto de Ciencias de la Vid y el Vino (ICVV), Universidad de La Rioja (UR)-Consejo Superior de Investigaciones Científicas [Spain] (CSIC), Universidad de Navarra [Pamplona] (UNAV), and Consejo Superior de Investigaciones Científicas [Madrid] (CSIC)

Subjects

[SDV.BV]Life Sciences [q-bio]/Vegetal Biology, ComputingMilieux_MISCELLANEOUS

Abstract

National audience

Published

2016

4. Tackling the Cell Wall of the Grape Berry

Author

Sara Amancio, João Carlos Fernandes, and Luis Goulao

Published

2012

5. Effects of the source of inorganic nitrogen on C and N interaction in maize callus tissue: phosphoenolpyruvate carboxylase activity, cytosolic pH and 15N amino acids

Author

Sara Amancio, Eugénio Diogo, and Helena Santos

Subjects

Carboxy-lyases, Physiology, Phosphoenolpyruvate carboxylase activity, Metabolism, Cell Biology, Plant Science, General Medicine, chemistry.chemical_compound, Tissue culture, Biochemistry, chemistry, Nitrate, Callus, Genetics, Ammonium, Phosphoenolpyruvate carboxylase

Abstract

The effect of N-source on the interaction between carbon and nitrogen metabolism was evaluated by measuring phosphoenolpyruvate carboxylase (PEPcase; EC 4.1.1.31) activity in callus tissue of maize (Zea mays L. cv. Prisma) sub-cultured under different N-nutrition conditions: nitrate, ammonium or combinations of both. By comparison with the condition where both salts were supplied (control), nitrate as the sole N-source led to an increase in PEPcase activity. Ammonium alone gave a drastic decrease of tissue growth. Extracts from calli grown on equivalent media supplied with 15 N-nitrate or 15 N-ammonium were analysed by 15 N-NMR

Published

1993

6. Nitrate and Ammonium Assimilation by Roots of Maize (Zea maysL.) Seedlings as Investigated byIn Vivo15N-NMR

Author

Sara Amancio and Helena Santos

Subjects

Alanine, Physiology, Nitrogen assimilation, Plant Science, Biology, Glutamine, chemistry.chemical_compound, Biochemistry, chemistry, Valine, Glutamate synthase, Glutamine synthetase, biology.protein, Ammonium, Asparagine

Abstract

N-Nuclear Magnetic Resonance (NMR) was used to study nitrogen assimilation in apices of maize roots in vivo, perfused either with 15N03- or 15NH? for long periods (17 to 20 h). Tissue saps prepared from roots grown in solutions supplied with 15NH4 were also analysed by 15N-NMR. Perfusion experiments showed that the 15N label from nitrate or ammonium is first incorporated into the amide group of glutamine and then into the a-amino groups, mainly of glutamate/glutamine and alanine. Resonances assigned to a-amino groups of valine and asparagine/aspartate, to the side chain group of asparagine and to y aminobutyric acid could also be detected in vivo. Higher rates of label incorporation were observed when 15NH4 was the nitrogen source. Furthermore, intracellular accumulation of 15NH4 was observed. The results presented here suggest that the glutamine synthetase/glutamate synthase cycle is operating in this system under the experimental conditions used. Spectra obtained from saps of roots grown in the presence of 15NH4 showed an increase of ammonium along the root during elongation and revealed the presence of asparagine together with glutamine in the elongation zone. By comparing spectra recorded in vivo with those obtained with the sap of equivalent root material, the absence of signals due to amino acids derived from glutamate (alanine, y aminobutyric acid) is clear in the latter case.

Published

1992

7. Modulation of the Berry Skin Transcriptome of cv. Tempranillo Induced by Water Stress Levels

Author

Luísa C. Carvalho, Miguel J. N. Ramos, David Faísca-Silva, Pedro Marreiros, João C. Fernandes, Ricardo Egipto, Carlos M. Lopes, and Sara Amâncio

Subjects

berry skin, deficit irrigation strategies, RNA-Seq, sHSP, ethylene, auxins, Botany, QK1-989

Abstract

Climate change in the Mediterranean area is making summers warmer and dryer. Grapevine (Vitis vinifera L.) is mostly important for wine production in Mediterranean countries, and the variety Tempranillo is one of the most cultivated in Spain and Portugal. Drought decreases yield and quality and causes important economic losses. As full irrigation has negative effects on quality and water is scarce in this region, deficit irrigation is often applied. In this research, we studied the effects of two deficit irrigation treatments, Sustained Deficit Irrigation (SDI) and Regulated Deficit Irrigation (RDI), on the transcriptome of grape berries at full maturation, through RNAseq. The expression of differentially regulated genes (DEGs) was also monitored through RT-qPCR along berry development. Most transcripts were regulated by water stress, with a similar distribution of up- and down-regulated transcripts within functional categories (FC). Primary metabolism was the more severely affected FC under water stress, followed by signaling and transport. Almost all DEGs monitored were significantly up-regulated by severe water stress at veraison. The modulation of an auxin response repression factor, AUX22D, by water stress indicates a role of this gene in the response to drought. Further, the expression of WRKY40, a TF that regulates anthocyanin biosynthesis, may be responsible for changes in grape quality under severe water stress.

Published

2023

8. Nitrogen Acquisition and Assimilation in Higher Plants

Author

Sara Amancio, Ineke Stulen, Sara Amancio, and Ineke Stulen

Subjects

Nitrogen--Metabolism, Nitrogen-fixing plants--Metabolism

Abstract

Nitrogen is an essential element for plant growth. During the green revolution nitrogenfertilisation was responsible for spectacular yield increases. At present yield is balanced with commitments towards the environment and sustainable agriculture. For agro-biotechnology comprehensive knowledge of plant functioning is needed. Yield improvement and accumulation of essential nitrogen compounds is relying on selection and gene technologies. Research on the uptake, acquisition and assimilation of nitrogen, as well as the synthesis and storage of reserve and defence N-compounds, therefore, is essential. The third volume in the Plant Ecophysiology series integrates functional and molecular physiology with ecophysiological and sustainable agricultural approaches to get a better understanding of the regulation and the impact of environmental and stress signals on nitrogen acquisition and assimilation. The book is of interest for advanced students and junior researchers and supplies comprehensive information for scientists working in the field of nitrogen metabolism and readers interested in sustainable development.

Published

2007

9. Selecting Aragonez Genotypes Able to Outplay Climate Change–Driven Abiotic Stress

Author

Luísa Carvalho, Elsa Gonçalves, Sara Amâncio, and Antero Martins

Subjects

abiotic stress tolerance, empirical best linear unbiased predictors (EBLUP of genotypic effects), polyclonal selection, quality of the must, RT-qPCR, Plant culture, SB1-1110

Abstract

High temperatures and extreme drought are increasingly more frequent in Portugal, which represents a strong threat to viticulture in certain regions of the country. These multifactorial abiotic stresses are threatening viticultural areas worldwide, and the problem can hardly be overcome only by changing cultural practices. This scenario has raised a major challenge for plant scientists to find ways to adapt existing varieties to the new conditions without loss of their characteristic flavors, yield, and associated varietal character of wines. Aragonez (syn. Tempranillo) is one such variety, widely cultivated in Portugal and Spain, with specific characteristics associated with terroir. In this context, insight into intravarietal variability to enable its exploitation for selection becomes an important tool to mitigate the effect of multifactorial stresses driven by climate changes. The present work describes an innovative selection approach: selection for abiotic stress tolerance, measured by the leaf temperature of clones under environmental conditions of drought and extreme heat. This evaluation was complemented with values of yield and quality characteristics of the must (pH, acidity, °Brix, and anthocyanins). The application of this methodology was done in an experimental population of 255 clones of Tempranillo for 3 years. The genotypes were then ranked according to their level of tolerance to abiotic stress without loss of yield/quality. To understand the differences at the transcription level that could account for such variability, several of the most tolerant and most sensitive genotypes were analyzed for key genes using reverse transcriptase–quantitative polymerase chain reaction. The results enabled the selection of a group of genotypes with increased tolerance to stress, in relation to the average of the variety, which maintained the typical must quality of Aragonez. In parallel, several transcripts previously acknowledged as markers for abiotic stress tolerance were identified in several clones and are possible targets for plant breeding and genetic modification and/or to develop screening procedures to select genotypes better adapted to the abiotic stress driven by climate change.

Published

2020

10. Developmental Regulation of Transcription in Touriga Nacional Berries under Deficit Irrigation

Author

Luísa C. Carvalho, Miguel J. N. Ramos, David Faísca-Silva, David van der Kellen, João C. Fernandes, Ricardo Egipto, Carlos M. Lopes, and Sara Amâncio

Subjects

sustained deficit irrigation vs. regulated deficit irrigation, berry ripening, RNA-Seq, small heat shock proteins, abscisic acid, Botany, QK1-989

Abstract

Grapevine (Vitis vinifera L.) is one of the most economically important crops worldwide, especially due to the economic relevance of wine production. Abiotic stress, such as drought, may contribute to low yield, shifts in quality, and important economic loss. The predicted climate change phenomena point to warmer and dryer Mediterranean environmental conditions; as such, it is paramount to study the effects of abiotic stress on grapevine performance. Deficit irrigation systems are applied to optimize water use efficiency without compromising berry quality. In this research, the effect of two deficit irrigation strategies, sustained deficit irrigation (SDI) and regulated deficit irrigation (RDI), in the grape berry were assessed. The effects of different levels of drought were monitored in Touriga Nacional at key stages of berry development (pea size, véraison, and full maturation) through RNA-Seq transcriptome analysis and by specific differentially expressed genes (DEGs) monitoring through RT-qPCR. Handy datasets were obtained by bioinformatics analysis of raw RNA-Seq results. The dominant proportion of transcripts was mostly regulated by development, with véraison showing more upregulated transcripts. Results showed that primary metabolism is the functional category more severely affected under water stress. Almost all DEGs selected for RT-qPCR were significantly upregulated in full maturation and showed the highest variability at véraison and the lowest gene expression values in the pea size stage.

Published

2022

11. Vitis flower types: from the wild to crop plants

Author

João L. Coito, Helena G. Silva, Miguel J.N. Ramos, Jorge Cunha, José Eiras-Dias, Sara Amâncio, Maria M.R. Costa, and Margarida Rocheta

Subjects

Vitis vinifera vinifera, Vitis vinifera sylvestris, Sex determinism, Domestication, Dioecy, Medicine, Biology (General), QH301-705.5

Abstract

Vitis vinifera can be divided into two subspecies, V. vinifera subsp. vinifera, one of the most important agricultural crops in the world, and its wild ancestor, V. vinifera subsp. sylvestris. Three flower types can be observed: hermaphrodite and female (on some varieties) in vinifera, and male or female flowers in sylvestris. It is assumed that the different flower types in the wild ancestor arose through specific floral patterns of organ abortion. A considerable amount of data about the diversity of sexual systems in grapevines has been collected over the past century. Several grapevine breeding studies led to the hypothesis that dioecy in vinifera is derived from a hermaphrodite ancestor and could be controlled by either, one or two linked genetic determinants following Mendelian inherence. More recently, experiments using molecular approaches suggested that these loci were located in a specific region of the chromosome 2 of vinifera. Based on the works published so far, its seems evident that a putative sex locus is present in chromosome 2. However, it is still not fully elucidated whether flower types are regulated by two linked loci or by one locus with three alleles. Nevertheless, several genes could contribute to sex determination in grapevine. This review presents the results from early studies, combined with the recent molecular approaches, which may contribute to the design of new experiments towards a better understanding of the sex inheritance in grapevine.

Published

2019

12. Vitis Flower Sex Specification Acts Downstream and Independently of the ABCDE Model Genes

Author

João L. Coito, Helena Silva, Miguel J. N. Ramos, Miguel Montez, Jorge Cunha, Sara Amâncio, Maria M. R. Costa, and Margarida Rocheta

Subjects

Vitis vinifera sylvestris, in situ hybridization, homeotic genes, flower ABCDE model, development, dioecious, Plant culture, SB1-1110

Abstract

The most discriminating characteristic between the cultivated Vitis vinifera subsp. vinifera and the wild-form Vitis vinifera subsp. sylvestris is their sexual system. Flowers of cultivars are mainly hermaphroditic, whereas wild plants have female and male individuals whose flowers follow a hermaphroditic pattern during early stages of development and later develop non-functional reproductive organs. In angiosperms, the basic developmental system for floral organ identity is explained by the ABCDE model. This model postulates that regulatory gene functions work in a combinatorial way to confer organ identity in each whorl. In wild Vitis nothing is known about the function and expression profile of these genes. Here we show an overall view of the temporal and spatial expression pattern of the ABCDE genes as well as the pattern of VviSUPERMAN that establishes a boundary between the stamen and the carpel whorls, in the male, female and complete flower types. The results show a similar pattern in Vitis species suggesting that the pathway leading to unisexuality acts independently and/or downstream of B- and C- function genes.

Published

2018

13. Design of a Custom RT-qPCR Array for Assignment of Abiotic Stress Tolerance in Traditional Portuguese Grapevine Varieties

Author

Luísa C. Carvalho, Marília Silva, João L. Coito, Margarida P. Rocheta, and Sara Amâncio

Subjects

abiotic stress, acclimation, custom array, grapevine, qPCR, stress tolerance, Plant culture, SB1-1110

Abstract

Widespread agricultural losses attributed to drought, often combined with high temperatures, frequently occur in the field, namely in Mediterranean climate areas, where the existing scenarios for climate change indicate an increase in the frequency of heat waves and severe drought events in summer. Grapevine (Vitis vinifera L.) is the most cultivated fruit species in the world and the most valuable one and is a traditional Mediterranean species. Currently, viticulture must adjust to impending climate changes that are already pushing vine-growers toward the use of ancient and resilient varieties. Portugal is very rich in grapevine biodiversity, however, currently, 90% of the total producing area is planted with only 16 varieties. There is a pressing need to understand the existing genetic diversity and the physiological potential of the varieties/genotypes available to be able to respond to climate changes. With the above scenario in mind, an assembly of 65 differentially expresses genes (DEGs) previously identified as responsive to abiotic stresses in two well studied genotypes, ‘Touriga Nacional’ and ‘Trincadeira,’ was designed to scan the gene expression of leaf samples from 10 traditional Portuguese varieties growing in two regions with distinct environmental conditions. Forty-five of those DEGs proved to be associated to “abiotic stress” and were chosen to build a custom qPCR array to identify uncharacterized genotypes as sensitive or tolerant to abiotic stress. According to the experimental set-up behind the array design these DEGs can also be used as indicators of the main abiotic stress that the plant is subjected and responding to (drought, heat, or excess light).

Published

2017

14. How the Depletion in Mineral Major Elements Affects Grapevine (Vitis vinifera L.) Primary Cell Wall

Author

Luís F. Goulao, João C. Fernandes, and Sara Amâncio

Subjects

biomechanical hotspots, cell wall epitopes, cellulose, gene expression, Vitis vinifera L., pectin (d)esterification, Plant culture, SB1-1110

Abstract

The noteworthy fine remodeling that plant cell walls (CWs) undergo to adapt to developmental, physiological and environmental cues and the observation that its composition and dynamics differ between species represents an opportunity to couple crop species agronomic studies with research on CW modifications. Vitis vinifera is one of the most important crops from an economic point-of-view due to the high value of the fruit, predominantly for winemaking. The availability of some information related to this species’ CWs allows researching its responses to imposed conditions that affect the plant’s development. Mineral deficiency, in particular nitrogen, phosphorus, potassium and sulfur, strongly affects plant metabolism, reducing both growth and crop yield. Despite the importance of mineral nutrition in development, its influence on CW synthesis and modifications is still insufficiently documented. Addressing this knowledge gap, V. vinifera experimental models were used to study CW responses to imposed mineral depletion in unorganized (callus) and organized (shoots) tissues. The discussion of the obtained results is the main focus of this review. Callus and shoots submitted to mineral restriction are impaired in specific CW components, predominantly cellulose. Reorganization on structure and deposition of several other polymers, in particular the degree and pattern of pectin methyl-esterification and the amount of xyloglucan (XyG), arabinan and extensin, is also observed. In view of recently proposed CW models that consider biomechanical hotspots and direct linkages between pectins and XyG/cellulose, the outcome of these modifications in explaining maintenance of CW integrity through compensatory stiffening can be debated. Nutrient stresses do not affect evenly all tissues with undifferentiated callus tissues showing more pronounced responses, followed by shoot mature internodes, and then newly formed internodes. The impact of nitrogen depletion leads to more noticeable responses, supporting this nutrient’s primary role in plant development and metabolism. The consequential compensatory mechanisms highlight the pivotal role of CW in rearranging under environmental stresses.

Published

2017

15. Effect of gel medium and TIB propagation techniques on stress defense and anatomy of sugarcane leaves during acclimatization

Author

Aragón, C., Carvalho, L., González, J., Escalona, M., and Sara Amancio