Epigenetic control of seed development and dormancy in cereals
Manjit Singh, Karminderbir Kaur, Purnima Kandpal, Zhou Zhou, Wei-Yuan Chen, Jaswinder Singh

TL;DR
This paper reviews how epigenetic factors influence seed development and dormancy in cereals, focusing on their agricultural importance.
Contribution
The paper highlights recent advances in understanding epigenetic control in cereals, particularly in relation to Arabidopsis findings.
Findings
Epigenetic pathways, especially histone modifications, are increasingly studied in cereal seed dormancy.
DNA methylation's role in cereal seed development remains underexplored.
Arabidopsis research provides a framework for understanding epigenetic mechanisms in cereals like rice and maize.
Abstract
Seeds, which are imperative for the propagation of seed plants, are also of major nutritional and economic value in agriculture. The precise dormancy and germination of crop seeds are important traits for modern agriculture. Pre-harvest sprouting (PHS) or the germination of seeds while attached to the plant before harvest, is a significant problem in crops, particularly in cereals. Therefore, understanding the various mechanisms of seed development and dormancy are imperative. While the molecular and hormonal aspects of seed dormancy are well understood, the role of epigenetic pathways is just beginning to unravel, particularly for cereal crops. The majority of this information has been generated in Arabidopsis; however, there is increasing focus on cereal crops such as rice and maize. Other important cereal crops, such as wheat and barley, lag behind even though seed dormancy and PHS…
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Taxonomy
TopicsSeed Germination and Physiology · Plant tissue culture and regeneration · Plant Molecular Biology Research
