Activating stress memory: eustressors as potential tools for plant breeding
Plants are continuously exposed to stress conditions, such that they have developed sophisticated and elegant survival strategies, which are reflected in their phenotypic plasticity, priming capacity, and memory acquisition. Epigenetic mechanisms play a critical role in modulating gene expression an...
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| Veröffentlicht in: | Plant cell reports 2022-07, Vol.41 (7), p.1481-1498 |
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| creator | Villagómez-Aranda, A. L. Feregrino-Pérez, A. A. García-Ortega, L. F. González-Chavira, M. M. Torres-Pacheco, I. Guevara-González, R. G. |
| description | Plants are continuously exposed to stress conditions, such that they have developed sophisticated and elegant survival strategies, which are reflected in their phenotypic plasticity, priming capacity, and memory acquisition. Epigenetic mechanisms play a critical role in modulating gene expression and stress responses, allowing malleability, reversibility, stability, and heritability of favourable phenotypes to enhance plant performance. Considering the urgency to improve our agricultural system because of going impacting climate change, potential and sustainable strategies rely on the controlled use of eustressors, enhancing desired characteristics and yield and shaping stress tolerance in crops. However, for plant breeding purposes is necessary to focus on the use of eustressors capable of establishing stable epigenetic marks to generate a transgenerational memory to stimulate a priming state in plants to face the changing environment. |
| doi_str_mv | 10.1007/s00299-022-02858-x |
| format | Article |
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L. ; Feregrino-Pérez, A. A. ; García-Ortega, L. F. ; González-Chavira, M. M. ; Torres-Pacheco, I. ; Guevara-González, R. G.</creator><creatorcontrib>Villagómez-Aranda, A. L. ; Feregrino-Pérez, A. A. ; García-Ortega, L. F. ; González-Chavira, M. M. ; Torres-Pacheco, I. ; Guevara-González, R. G.</creatorcontrib><description>Plants are continuously exposed to stress conditions, such that they have developed sophisticated and elegant survival strategies, which are reflected in their phenotypic plasticity, priming capacity, and memory acquisition. Epigenetic mechanisms play a critical role in modulating gene expression and stress responses, allowing malleability, reversibility, stability, and heritability of favourable phenotypes to enhance plant performance. Considering the urgency to improve our agricultural system because of going impacting climate change, potential and sustainable strategies rely on the controlled use of eustressors, enhancing desired characteristics and yield and shaping stress tolerance in crops. 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| subjects | Agricultural production Agriculture Biomedical and Life Sciences Biotechnology Cell Biology Changing environments Climate change COVID-19 DNA methylation Environmental changes Environmental impact Epigenetics Farming systems Food Food supply Gene expression Genomes Heritability Laboratories Life Sciences Phenotypes Phenotypic plasticity Plant Biochemistry Plant breeding Plant Sciences Priming Review |
| title | Activating stress memory: eustressors as potential tools for plant breeding |
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