Titlebook: Epigenetics in Crop Improvement; Safeguarding Food Se Luis María Vaschetto Book 2024 The Editor(s) (if applicable) and The Author(s), under

Esalate

Anthem

Heritable Epigenetic Phenomenaparamutation, imprinting, and transgenerational epigenetic inheritance, allow plants to adapt and fine-tune gene expression across generations. They offer exciting possibilities for understanding and potentially manipulating heritable traits under challenging conditions. Paramutation could be harnes

expdient

The RNA Interference Pathwayfine-tuned regulator of gene expression. RNAi has already shown its outstanding potential for agricultural applications. By engineering RNAi pathways, crop scientists can enhance pest and disease resistance, improve nutritional value, and optimize growth. These phenotypic changes can be attributed t

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The Role of Transposable Elements in Plant Developmentences possess the ability to relocate and replicate within the host genome, contributing to both genetic variation and evolutionary processes. Plant TEs exhibit a significant diversity, from their modes of transposition and activity levels to their species-specific insertion preferences. This dynami

characteristic

Plant Epitranscriptomicsly evolving field, sheds light on the dynamic and reversible modifications occurring on messenger RNA (mRNA) molecules. These modifications, often mediated by enzymatic processes, introduce chemical alterations to RNA bases, influencing mRNA stability, structure, and ultimately, its interaction with

Common-Migraine

Seed Dormancy and Germination as Models for Understanding Epigenetic Programmingrmancy to active growth, also requires intricate regulation for adaptation and survival. Epigenetic modifications act as dynamic molecular switches, influencing gene expression throughout these crucial stages. The dynamic epigenetic landscape allows plants to integrate environmental cues, facilitati

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Epimutations and Metastable Epialleles: Exploring a Mine of Hidden Variation in Cropsity at the DNA sequence level. This approach, rooted in traditional genetics, has yielded invaluable insights and improvements. However, in recent years, we have discovered hidden additional layers of epigenetic diversity, underscoring the importance of understanding variation from a holistic view.

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