Publicacións (64) Publicacións de ANGEL JESUS MATILLA CARRO

2022

  1. Exploring Breakthroughs in Three Traits Belonging to Seed Life

    Plants, Vol. 11, Núm. 4

  2. The orthodox dry seeds are alive: A clear example of desiccation tolerance

    Plants, Vol. 11, Núm. 1

2021

  1. 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

  1. Auxin: Hormonal signal required for seed development and dormancy

    Plants, Vol. 9, Núm. 6, pp. 1-17

  2. Delay of germination-1 (DOG1): A key to understanding seed dormancy

    Plants, Vol. 9, Núm. 4

  3. Programmed Cell Death in Seeds: An Adaptive Mechanism Required for Life

    Seed Dormancy and Germination

  4. Seed dormancy: Molecular control of its induction and alleviation

    Plants

2019

  1. Role of metacaspases and autophagy in developmental programmed cell death in plants

    Current Topics in Phytochemistry, Vol. 15, pp. 1-14

  2. Seed coat formation: Its evolution and regulation

    Seed Science Research, Vol. 29, Núm. 4, pp. 215-226

2018

  1. Mannans and endo-β-mannanase transcripts are located in different seed compartments during Brassicaceae germination

    Planta, Vol. 247, Núm. 3, pp. 649-661

2017

  1. Fertinnowa: el punto de vista de los agricultores: resultados parciales y situación del proyecto europeo

    Navarra agraria, Núm. 225, pp. 11-20

2016

  1. Flooding stress and O2-shortage in plants: An overview

    Water Stress and Crop Plants: A Sustainable Approach (wiley), pp. 711-731

2015

  1. 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

  2. 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

  1. Ethylene: Role in plants under environmental stress

    Physiological Mechanisms and Adaptation Strategies in Plants Under Changing Environment (Springer New York), pp. 189-222

  2. 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

  1. Nitrate-induced early transcriptional changes during imbibition in non-after-ripened Sisymbrium officinale seeds

    Physiologia Plantarum, Vol. 148, Núm. 4, pp. 560-573

  2. Non-symbiotic hemoglobins in the life of seeds

    Phytochemistry, Vol. 87, pp. 7-15

2012

  1. ACC-oxidase in developing and germinating seeds

    Current Topics in Phytochemistry, Vol. 5, pp. 121-128

  2. 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