Epigenetic Regulation in Heterosis and Environmental Stress: The Challenge of Producing Hybrid Epigenomes to Face Climate Change.

IF 2.5 Q3 GENETICS & HEREDITY Epigenomes Pub Date : 2023-07-24 DOI:10.3390/epigenomes7030014

Fátima Duarte-Aké, Rosa Us-Camas, Clelia De-la-Peña

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Abstract

Epigenetic regulation has the potential to revolutionize plant breeding and improve crop yields by regulating gene expression in plants. DNA methylation and histone modifications are key epigenetic modifications that can impact plant development, stress responses, productivity, and yields. Higher-yielding crops not only generate greater profits for farmers and seed producers, but also require less land, water, fuel, and fertilizer than traditional crops for equivalent yields. The use of heterosis in crops can influence productivity and food quality, but producing hybrids with superior agronomic traits to their parents remains challenging. However, epigenetic markers, such as histone methylation and acetylation, may help select parental and hybrid combinations with better performances than the parental plants. This review assesses the potential applications of epigenetics in crop breeding and improvement, rendering agriculture more efficient, sustainable, and adaptable to changing environmental conditions.

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杂种优势和环境胁迫的表观遗传调控:生产杂交表观基因组以应对气候变化的挑战。

表观遗传调控具有通过调控植物基因表达来彻底改变植物育种和提高作物产量的潜力。DNA甲基化和组蛋白修饰是影响植物发育、应激反应、生产力和产量的关键表观遗传修饰。高产作物不仅为农民和种子生产者带来了更高的利润，而且在同等产量下，与传统作物相比，所需的土地、水、燃料和肥料更少。在作物中利用杂种优势可以影响产量和食品质量，但生产具有优于其亲本农艺性状的杂交种仍然具有挑战性。然而，表观遗传标记，如组蛋白甲基化和乙酰化，可能有助于选择比亲本植物性能更好的亲本和杂交组合。本文综述了表观遗传学在作物育种和改良中的潜在应用，使农业更加高效、可持续和适应不断变化的环境条件。

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