Abstract
Pre-harvest sprouting is a critical phenomenon involving the germination of seeds in the mother plant before harvest under relative humid conditions and reduced dormancy. As it results in reduced grain yield and quality, it is a common problem for the farmers who have cultivated the rice and wheat across the globe. Crop yields need to be steadily increased to improve the people’s ability to adapt to risks as the world’s population grows and natural disasters become more frequent. To improve the quality of grain and to avoid pre-harvest sprouting, a clear understanding of the crops should be known with the use of molecular omics approaches. Meanwhile, pre-harvest sprouting is a complicated phenomenon, especially in rice, and physiological, hormonal, and genetic changes should be monitored, which can be modified by high-throughput metabolic engineering techniques. The integration of these data allows the creation of tailored breeding lines suitable for various demands and regions, and it is crucial for increasing the crop yields and economic benefits. In this review, we have provided an overview of seed dormancy and its regulation, the major causes of pre-harvest sprouting, and also unraveled the novel avenues to battle pre-harvest sprouting in cereals with special reference to rice using genomics and transcriptomic approaches.
Highlights
The first crucial step in the life cycle of plants and the basis of agricultural production is seed germination
gibberellic acid (GA) signaling pathways in rice will need to be explored in the future using a blend of genomic and genetic techniques. Keeping these lacunae in mind, in this review, we aimed to provide an overview of seed dormancy and the role of hormones in the pre-harvest sprouting in rice
Low temperature raises grain susceptibility to pre-harvest sprouting via a number of regulators, with 10 ◦ C causing a significant increase in the expression of DELAY OF GERMINATION-1 (DOG-1), which may boost GA2ox6 expression in Arabidopsis seed development
Summary
The first crucial step in the life cycle of plants and the basis of agricultural production is seed germination. The germination of seeds inside the kernel while the panicle is still attached to the stem of the plant is a phenomenon known as pre-harvest sprouting [5] It is a significant cause of quality and productivity loss in a variety of food crops such as Zea mays, O. sativa, and T. aestivum, especially in humid climates [6,7]. The major key players of the ABA signaling pathway have been analyzed in various plants: TaMFT and TaPHS1 in wheat [11]; ABI3, DOG1, and LEC2 in Arabidopsis [12]; VP1 in maize [13]; Sdr, OsDSG1, OsAB13, OsAB15, PHS8, PHS9, OsNCED3, OsVP1, OsPDS, β-OsLCY, OsFbx352, OsMFT2, OsZDS, and OsCRTISO in rice [3] These players associated with seed dormancy and germination are linked to the biosynthesis, perception, catabolism, and signal transduction of ABA, revealing their crucial roles in the control of seed dormancy [14]. We discuss the genes and quantitative trait loci (QTLs) and the functional genomics of pre-harvest sprouting resistance genes with a focus on rice
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