Your search keyword '"Guevara, M Ángeles"' showing total 5 results

1. Correlating the above- and belowground genotype of Pinus pinaster trees and rhizosphere bacterial communities under drought conditions

Author

Lasa, Ana V., Guevara, M. Ángeles, Villadas, Pablo J., Vélez, María Dolores, Fernández-González, Antonio J., de María, Nuria, López-Hinojosa, Miriam, Díaz, Luis, Cervera, María Teresa, and Fernández-López, Manuel

Published

2022

2. Breeding Alnus species for resistance to Phytophthora disease in the Iberian Peninsula.

Author

Cordeiro, Daniela, Pizarro, Alberto, Vélez, M. Dolores, Guevara, M. Ángeles, de María, Nuria, Ramos, Paula, Cobo-Simón, Irene, Diez-Galán, Alba, Benavente, Alfredo, Ferreira, Verónica, Martín, M. Ángela, Rodríguez-González, Patricia M., Solla, Alejandro, Cervera, M. Teresa, Diez-Casero, Julio Javier, Cabezas, José Antonio, and Díaz-Sala, Carmen

Subjects

FOREST management, NATURAL resources management, GERMPLASM, FOREST resilience, MOLECULAR biology, ALDER

Abstract

Alders are widely distributed riparian trees in Europe, North Africa and Western Asia. Recently, a strong reduction of alder stands has been detected in Europe due to infection by Phytophthora species (Stramenopila kingdom). This infection causes a disease known as alder dieback, characterized by leaf yellowing, dieback of branches, increased fruit production, and bark necrosis in the collar and basal part of the stem. In the Iberian Peninsula, the drastic alder decline has been confirmed in the Spanish Ulla and Ebro basins, the Portuguese Mondego and Sado basins and the Northern and Western transboundary hydrographic basins of Miño and Sil, Limia, Douro and Tagus. The damaging effects of alder decline require management solutions that promote forest resilience while keeping genetic diversity. Breeding programs involve phenotypic selection of asymptomatic individuals in populations where severe damage is observed, confirmation of tree resistance via inoculation trials under controlled conditions, vegetative propagation of selected trees, further planting and assessment in areas with high disease pressure and different environmental conditions and conservation of germplasm of tolerant genotypes for reforestation. In this way, forest biotechnology provides essential tools for the conservation and sustainable management of forest genetic resources, including material characterization for tolerance, propagation for conservation purposes, and genetic resource traceability, as well as identification and characterization of Phytophthora species. The advancement of biotechnological techniques enables improved monitoring and management of natural resources by studying genetic variability and function through molecular biology methods. In addition, in vitro culture techniques make possible large-scale plant propagation and long-term conservation within breeding programs to preserve selected outstanding genotypes. [ABSTRACT FROM AUTHOR]

Published

2024

3. EuroPineDB: a high-coverage web database for maritime pine transcriptome

Author

Fernández-Pozo, Noé, Canales, Javier, Guerrero-Fernández, Darío, Villalobos, David P., Díaz-Moreno, Sara M., Bautista, Rocío, Flores-Monterroso, Arantxa, Guevara, M. Ángeles, Perdiguero Jiménez, Pedro, Collada, Carmen, Cervera, M. Teresa, Soto, Álvaro, Ordás, Ricardo, Cantón, Francisco R., Ávila, Concepción, Cánovas, Francisco M., Claros, M. Gonzalo, Fernández-Pozo, Noé, Canales, Javier, Guerrero-Fernández, Darío, Villalobos, David P., Díaz-Moreno, Sara M., Bautista, Rocío, Flores-Monterroso, Arantxa, Guevara, M. Ángeles, Perdiguero Jiménez, Pedro, Collada, Carmen, Cervera, M. Teresa, Soto, Álvaro, Ordás, Ricardo, Cantón, Francisco R., Ávila, Concepción, Cánovas, Francisco M., and Claros, M. Gonzalo

Abstract

Acknowledgements The authors gratefully acknowledge the computer resources and technical support provided by the Plataforma Andaluza de Bioinformática of the University of Málaga, Spain. This study was supported by the Spanish Ministerio de Ciencia e Innovación [AGL2009-12139-C02-02, BIO2009-07490], the European Union [PLE2009-0016] and the Junta de Andalucía [CVI-6075 and BIO-114]., Pinus pinaster is an economically and ecologically important species that is becoming a woody gymnosperm model. Its enormous genome size makes whole-genome sequencing approaches are hard to apply. Therefore, the expressed portion of the genome has to be characterised and the results and annotations have to be stored in dedicated databases.Description: EuroPineDB is the largest sequence collection available for a single pine species, Pinus pinaster (maritime pine), since it comprises 951 641 raw sequence reads obtained from non-normalised cDNA libraries and high-throughput sequencing from adult (xylem, phloem, roots, stem, needles, cones, strobili) and embryonic (germinated embryos, buds, callus) maritime pine tissues. Using open-source tools, sequences were optimally pre-processed, assembled, and extensively annotated (GO, EC and KEGG terms, descriptions, SNPs, SSRs, ORFs and InterPro codes). As a result, a 10.5× P. pinaster genome was covered and assembled in 55 322 UniGenes. A total of 32 919 (59.5%) of P. pinaster UniGenes were annotated with at least one description, revealing at least 18 466 different genes. The complete database, which is designed to be scalable, maintainable, and expandable, is freely available at: http://www.scbi.uma.es/pindb/. It can be retrieved by gene libraries, pine species, annotations, UniGenes and microarrays (i.e., the sequences are distributed in two-colour microarrays; this is the only conifer database that provides this information) and will be periodically updated. Small assemblies can be viewed using a dedicated visualisation tool that connects them with SNPs. Any sequence or annotation set shown on-screen can be downloaded. Retrieval mechanisms for sequences and gene annotations are provided.Conclusions: The EuroPineDB with its integrated information can be used to reveal new knowledge, offers an easy-to-use collection of information to directly support experimental work (including microarray hybridisation), and provides deepe, Depto. de Genética, Fisiología y Microbiología, Fac. de Ciencias Biológicas, TRUE, pub

Published

2024

4. Bacteriome dataset from the rhizosphere of trees in a Pinus pinaster and Pinus halepensis dominated forest subjected to drought conditions

Author

Ministerio de Ciencia e Innovación (España), European Commission, Ministerio de Economía, Industria y Competitividad (España), Lasa, Ana V., Guevara, M Ángeles, Villadas, Pablo J., Fernández-González, Antonio José, Cervera, María Teresa, Fernández-López, Manuel, Ministerio de Ciencia e Innovación (España), European Commission, Ministerio de Economía, Industria y Competitividad (España), Lasa, Ana V., Guevara, M Ángeles, Villadas, Pablo J., Fernández-González, Antonio José, Cervera, María Teresa, and Fernández-López, Manuel

Abstract

The Mediterranean basin is drastically affected by intense and frequent droughts, which jeopardize the diversity and survival of its forest, for example, Pinus pinaster forests. The dynamics of the bacterial communities inhabiting the rhizosphere of Pinus pinaster and other plants from a pine dominated forest under contrasting hydric conditions was monitored. The forest was located in Sierra de Oria (southeast Spain), and it was mainly composed by P. pinaster, P. halepensis, woody shrub species and herbaceous plants. 18 trees visually belonging to P. pinaster located along the perimeter and across the forest were selected for the analysis. All the trees were separated at least 50 m each other. Although all of them belonged to P. pinaster morphologically according to visual identification, the genotyping of the roots confirmed that they corresponded to P. pinaster, P. halepensis, and other plant species different from genus Pinus, although in the last case it was not possible to identify the plant species. At a distance less than 50 cm from the trunk, the litter and topsoil were removed, and the soil closely attached to non-suberified roots (rhizosphere soil) was collected (depth of 5-25 cm). Sampling was carried out in two seasons with contrasting temperature and rainfall patterns: on July 18, 2017 (summer) and April 24, 2018 (spring). After rhizosphere soil DNA and RNA extraction (and cDNA synthesis), a metabarcoding approach was followed by sequencing the V3-V4 hypervariable regions of the 16S rRNA gene and its derived transcripts by Illumina MiSeq platform. Sequencing reads were bioinformatically processed; specifically, they were filtered, trimmed, clustered into ASV (Amplicon Sequence Variants), and taxonomically identified. As a result, a total of 1,123,209 and 1,089,359 quality sequences were obtained from DNA and RNA-derived libraries, which resulted in 5,241 and 5,231 ASVs, respectively. Total communities (DNA) were mainly dominated by phyla Proteobacteria

Published

2023

5. Bacteriome dataset from the rhizosphere of trees in a Pinus pinaster and Pinus halepensis dominated forest subjected to drought conditions

Author

Lasa, Ana V., primary, Guevara, M. Ángeles, additional, Villadas, Pablo J., additional, Fernández-González, Antonio J., additional, Cervera, María Teresa, additional, and Fernández-López, Manuel, additional

Published

2023