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Listar por autor "Madueño Albi, Francisco"

Mostrando ítems 1-20 de 28

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AGO1 CONTROLS INFLORESCENCE ARCHITECTURE POSSIBLY BY REGULATING TFL1 EXPRESSION

Fernández Nohales, Pedro; Domenech Mir, Mª José; Martínez De Alba, Angel Emilio; Micol, JL; Ponce, M.R.; Madueño Albi, Francisco (2014)

[EN] The TERMINAL FLOWER 1 (TFL1) gene is pivotal in the control of inflorescence architecture in arabidopsis. Thus, tfl1 mutants flower early and have a very short inflorescence phase, while TFL1-overexpressing plants ...
Altered expression of the bZIP transcription factor DRINK ME affects growth and reproductive development in Arabidopsis thaliana

Lozano Sotomayor, Paulina; Chávez Montes, Ricardo A.; Silvestre-Vañó, Marina; Herrera Ubaldo, Humberto; Greco, Raffaella; Pablo Villa, Jeanneth; Galliani, Bianca M.; Díaz Ramírez, David; Weemen, Mieke; Boutilier, Kim; Pereira, Andy; Colombo, Lucia; Madueño Albi, Francisco; Marsch Martinez, Nayelli; De Folter, Stefan (Wiley, 2016-11)

[EN] Here we describe an uncharacterized gene that negatively influences Arabidopsis growth and reproductive development. DRINK ME (DKM; bZIP30) is a member of the bZIP transcription factor family, and is expressed in ...
Análisis de la conexión entre la formación de las flores y el estrés abiótico (ABA) a través de TERMINAL FLOWER 1

García García, Carolina (Universitat Politècnica de València, 2021-07-01)

[EN] Plant architecture s defined as the tridimensional spatial disposition of plant organs after their development and differentiation. This arrangement plays a key role in the ecology of plants and their interaction ...
Análisis funcional y aplicaciones biotecnológicas del promotor del gen END1 de guisante (Pisum sativum L.)

Roque Mesa, Edelin Marta (Universitat Politècnica de València, 2019-01-08)

[EN] END1 is an anther-specific gene of pea (Pisum sativum. L) that displays specific expression in the cell lines that will develop the epidermis, connective, middlle layer and endothecium tissues from very early stages ...
Arabidopsis thaliana SHOOT MERISTEMLESS Substitutes for Medicago truncatula SINGLE LEAFLET1 to Form Complex Leaves and Petals

Pautot, Véronique; Berbel Tornero, Ana; Cayla, Thibaud; Eschstruth, Alexis; Adroher, Bernard; Ratet, Pascal; MADUEÑO ALBI, FRANCISCO; Laufs, Patrick (MDPI AG, 2022-11)

[EN] LEAFY plant-specific transcription factors, which are key regulators of flower meristem identity and floral patterning, also contribute to meristem activity. Notably, in some legumes, LFY orthologs such as Medicago ...
AUXIN RESPONSE FACTOR3 Regulates Compound Leaf Patterning by Directly Repressing PALMATE-LIKE PENTAFOLIATA1 Expression in Medicago truncatula

Peng, Jianling; Berbel Tornero, Ana; MADUEÑO ALBI, FRANCISCO; Chen, Rujin (Frontiers Media SA, 2017-09-20)

[EN] Diverse leaf forms can be seen in nature. In Medicago truncatula, PALM1 encoding a Cys(2) His(2) transcription factor is a key regulator of compound leaf patterning. PALM1 negatively regulates expression of SGL1, a ...
Caracterización funcional de un factor de transcripción tipo TCP con un posible papelen el control de la arquitectura de la planta

Serra Picó, Marcos Pascual (Universitat Politècnica de València, 2016-03-14)

[ES] TFL1 (TERMINAL FLOWER 1) es un gen clave en el control de la arquitectura de la planta en Arabidopsis thaliana. TFL1 actúa como represor de la floración y controlando la identidad del meristemo inflorescente. Así, ...
Caracterización funcional de un factor de trnascripción de tipo bZIP con un posible papel en el control del desarrollo de la planta

Torrellas Marcó, Max (Universitat Politècnica de València, 2016-12-20)

[EN] Functional analysis of a bZIP transcription factor that could potentially have a role in the development of the model plan Arabidopsis thaliana, through its interaction with key regulatory genes FT and TFL1
CARACTERIZACIÓN FUNCIONAL DEL GEN VOZ1, SU PAPEL EN EL CONTROL DE LA ARQUITECTURA DE LA INFLORESCENCIA A TRAVÉS DE LA REGULACIÓN TFL1

ZAMBRANO RODRIGUEZ, JOSÉ (Universitat Politècnica de València, 2013-05-17)

La arquitectura de la parte aérea de la planta depende de la actividad del meristemo apical del tallo (SAM), que genera todos los órganos de la planta. Inicialmente, el SAM es un meristemo vegetativo que produce hojas ...
Cauliflower fractal forms arise from perturbations of floral gene networks

Azpeitia, Eugenio; Tichtinsky, Gabrielle; Le Masson, Marie; Serrano-Mislata, Antonio; Lucas, Jeremy; Gregis, Veronica; Gimenez, Carlos; Prunet, Natanael; Farcot, Etienne; Kater, Martin M.; Bradley, Desmond; MADUEÑO ALBI, FRANCISCO; Godin, Christophe; Parcy, Francois (American Association for the Advancement of Science (AAAS), 2021-07-09)

[EN] Throughout development, plant meristems regularly produce organs in defined spiral, opposite, or whorl patterns. Cauliflowers present an unusual organ arrangement with a multitude of spirals nested over a wide range ...
Changing the spatial pattern of TFL1 expression reveals its key role in the shoot meristem in controlling Arabidopsis flowering architecture

Baumann, Kim; Venail, Julien; Berbel Tornero, Ana; Domenech Mir, Mª José; Money, Tracy; Conti, Lucio; Hanzawa, Yoshie; Madueño Albi, Francisco; Bradley, Desmond (Oxford University Press (OUP), 2015-08)

Models for the control of above-ground plant architectures show how meristems can be programmed to be either shoots or flowers. Molecular, genetic, transgenic, and mathematical studies have greatly refined these models, ...
Estudio del posible papel de la señalización del ABA mediando el control de la floración y la inflorescencia por TERMINAL FLOWER 1.

Pastor Martínez, Ivan (Universitat Politècnica de València, 2022-06-03)

[ES] Las plantas han adoptado un desarrollo post-embrionario en el que a partir de los meristemos apicales que se forman durante la embriogénesis surgen el resto de las estructuras que formarán la planta adulta. Uno de ...
Functional characterization of AGAMOUS-subfamily members from cotton during reproductive development and in response to plant hormones

Menezes, S.; Artico, S.; Lima, C.; Muniz, S.; Berbel Tornero, Ana; Brilhante, O.; Grossi, M.F.; Ferrandiz Maestre, Cristina; Madueño Albi, Francisco; Alves, M. (Springer-Verlag, 2017)

[EN] Reproductive development in cotton, including the fruit and fiber formation, is a complex process; it involves the coordinated action of gene expression regulators, and it is highly influenced by plant hormones. Several ...
Genetic control of inflorescence architecture in legumes

Benlloch, Reyes; Berbel Tornero, Ana; Ali, Latifeh; Gohari, Gholamreza; Millán, Teresa; Madueño Albi, Francisco (Frontiers Media, 2015-07-21)

[EN] The architecture of the inflorescence, the shoot system that bears the flowers, is a main component of the huge diversity of forms found in flowering plants. Inflorescence architecture has also a strong impact on the ...
Identificación de Nuevos interactores de TFL1 y VOZ1

Mendez Losi, Carla (Universitat Politècnica de València, 2012-11-26)

[ES] Como nuevos interactores de TFL1 se han identificado los bZIP30 y bZP52.2. Para VOZ1, se han identificado los factores de transcripción TCP3, TCP14, TCP16, TCP19, MYB20, MYB32, HAT5, ERF7, NAC73, WRKY75 y bZIP52.1.
Identification of Bioactive Molecules in the Control of Flowering Time

Praena Tamayo, Jesús (Universitat Politècnica de València, 2022-09-02)

[ES] El tiempo de floración es uno de los caracteres más importantes que influyen en la productividad y el rendimiento de los cultivos. La identificación de compuestos sintéticos que sean bioactivos en el control de la ...
Lotus japonicus NOOT-BOP-COCH-LIKE1 is essential for nodule, nectary, leaf and flower development

Magne, K.; George, J.; Berbel Tornero, Ana; Broquet, B.; Madueño Albi, Francisco; Andersen, S.; Ratet, P. (Blackwell Publishing, 2018-06)

[EN] The NOOT-BOP-COCH-LIKE (NBCL) genes are orthologs of Arabidopsis thaliana BLADE-ON-PETIOLE1/2. The NBCLs are developmental regulators essential for plant shaping, mainly through the regulation of organ boundaries, the ...
New Insights into Pea Compound Inflorescence Development: Role of FTc and VEGETATIVE1 as Regulatory Factors

Serra Picó, Marcos Pascual (Universitat Politècnica de València, 2024-01-28)

[ES] La arquitectura de la inflorescencia determina la posición y el número de flores (y frutos) en la planta. Esto afecta a la forma de la planta, lo que contribuye a la diversidad morfológica e influye en la producción ...
Papel de TERMINAL FLOWER 1 en el control de la arquitectura vegetal. Análisis de los genes que regulan su expresión

Fernández Nohales, Pedro (Universitat Politècnica de València, 2011-09-30)

Durante la transición floral, el meristemo apical del tallo (SAM) cambia su identidad de vegetativo, fase en la que produce hojas y ramas, a inflorescente, fase en que produce flores. Las inflorescencias se clasifican, ...
Pea VEGETATIVE2 Is an FD Homolog That Is Essential for Flowering and Compound Inflorescence Development

Sussmilch, FC; Berbel Tornero, Ana; Hecht, V; Vander, JK; Ferrandiz Maestre, Cristina; Madueño Albi, Francisco; Weller, JL (American Society of Plant Biologists, 2015-04)

[EN] As knowledge of the gene networks regulating inflorescence development in Arabidopsis thaliana improves, the current challenge is to characterize this system in different groups of crop species with different inflorescence ...