Epigenetics for Plant Improvement: Current Knowledge and Modeling Avenues
Langue
EN
Article de revue
Ce document a été publié dans
Trends in Plant Science. 2017, vol. 22, n° 7, p. 610-623
Résumé en anglais
Epigenetic variations are involved in the control of plant developmental processes and participate in shaping phenotypic plasticity to the environment. Intense breeding has eroded genetic diversity, and epigenetic diversity ...Lire la suite >
Epigenetic variations are involved in the control of plant developmental processes and participate in shaping phenotypic plasticity to the environment. Intense breeding has eroded genetic diversity, and epigenetic diversity now emerge as a new source of phenotypic variations to improve adaptation to changing environments and ensure the yield and quality of crops. Here, we review how the characterization of the stability and heritability of epigenetic variations is required to drive breeding strategies, which can be assisted by process-based models. We propose future directions to hasten the elucidation of complex epigenetic regulatory networks that should help crop modelers to take epigenetic modifications into account and assist breeding strategies for specific agronomical traits.< Réduire
Mots clés
Épigénétique
Amélioration des plantes
Modélisation
Contrôle de processus
Élevage intensif
Variation épigénétique
Plasticité phénotypique
Changement environnemental
Régulateur du développement des plantes
Adaptation au changement
Mots clés en anglais
Epigenetics
Modeling
Plant Breeding
Adaptation
Environment
Development
Unités de recherche