Departamento de Bioloxía Funcional
Departamento
ANGEL JESUS
MATILLA CARRO
Investigador no período 1997-2021
Publicacións nas que colabora con ANGEL JESUS MATILLA CARRO (64)
2022
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Exploring Breakthroughs in Three Traits Belonging to Seed Life
Plants, Vol. 11, Núm. 4
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The orthodox dry seeds are alive: A clear example of desiccation tolerance
Plants, Vol. 11, Núm. 1
2021
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Cellular oxidative stress in programmed cell death: focusing on chloroplastic 1O2 and mitochondrial cytochrome-c release
Journal of Plant Research, Vol. 134, Núm. 2, pp. 179-194
2020
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Auxin: Hormonal signal required for seed development and dormancy
Plants, Vol. 9, Núm. 6, pp. 1-17
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Delay of germination-1 (DOG1): A key to understanding seed dormancy
Plants, Vol. 9, Núm. 4
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Programmed Cell Death in Seeds: An Adaptive Mechanism Required for Life
Seed Dormancy and Germination
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Seed dormancy: Molecular control of its induction and alleviation
Plants
2019
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Role of metacaspases and autophagy in developmental programmed cell death in plants
Current Topics in Phytochemistry, Vol. 15, pp. 1-14
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Seed coat formation: Its evolution and regulation
Seed Science Research, Vol. 29, Núm. 4, pp. 215-226
2018
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Mannans and endo-β-mannanase transcripts are located in different seed compartments during Brassicaceae germination
Planta, Vol. 247, Núm. 3, pp. 649-661
2017
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Fertinnowa: el punto de vista de los agricultores: resultados parciales y situación del proyecto europeo
Navarra agraria, Núm. 225, pp. 11-20
2016
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Flooding stress and O2-shortage in plants: An overview
Water Stress and Crop Plants: A Sustainable Approach (wiley), pp. 711-731
2015
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ABA-stimulated SoDOG1 expression is after-ripening inhibited during early imbibition of germinating Sisymbrium officinale seeds
Physiologia Plantarum, Vol. 155, Núm. 4, pp. 457-471
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An Update on the Role of NCED and CYP707A ABA Metabolism Genes in Seed Dormancy Induction and the Response to After-Ripening and Nitrate
Journal of Plant Growth Regulation, Vol. 34, Núm. 2, pp. 274-293
2014
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Ethylene: Role in plants under environmental stress
Physiological Mechanisms and Adaptation Strategies in Plants Under Changing Environment (Springer New York), pp. 189-222
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Nitrate affects sensu-stricto germination of after-ripened Sisymbrium officinale seeds by modifying expression of SoNCED5, SoCYP707A2 and SoGA3ox2 genes
Plant Science, Vol. 217-218, pp. 99-108
2013
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Nitrate-induced early transcriptional changes during imbibition in non-after-ripened Sisymbrium officinale seeds
Physiologia Plantarum, Vol. 148, Núm. 4, pp. 560-573
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Non-symbiotic hemoglobins in the life of seeds
Phytochemistry, Vol. 87, pp. 7-15
2012
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ACC-oxidase in developing and germinating seeds
Current Topics in Phytochemistry, Vol. 5, pp. 121-128
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El nitrato altera el metabolismo y señalización del ABA y GAs en semillas de "Sisymbrium officinale" no sometidas a post-maduración (after-ripening)
Fitohormonas: metabolismo y modo de acción (Servicio de Publicaciones), pp. 89-94