Harnessing Weedy Rice As Functional Food and Source of Novel Traits for Crop Improvement.
PLANT CELL AND ENVIRONMENT(2024)
Abstract
A relative of cultivated rice (Oryza sativa L.), weedy or red rice (Oryza spp.) is currently recognized as the dominant weed, leading to a drastic loss of yield of cultivated rice due to its highly competitive abilities like producing more tillers, panicles, and biomass with better nutrient uptake. Due to its high nutritional value, antioxidant properties (anthocyanin and proanthocyanin), and nutrient absorption ability, weedy rice is gaining immense research attentions to understand its genetic constitution to augment future breeding strategies and to develop nutrition-rich functional foods. Consequently, this review focuses on the unique gene source of weedy rice to enhance the cultivated rice for its crucial features like water use efficiency, abiotic and biotic stress tolerance, early flowering, and the red pericarp of the seed. It explores the debating issues on the origin and evolution of weedy rice, including its high diversity, signalling aspects, quantitative trait loci (QTL) mapping under stress conditions, the intricacy of the mechanism in the expression of the gene flow, and ecological challenges of nutrient removal by weedy rice. This review may create a foundation for future researchers to understand the gene flow between cultivated crops and weedy traits and support an improved approach for the applicability of several models in predicting multiomics variables. This review focuses on the unique gene source of weedy rice to enhance the cultivated rice for crucial features like water use efficiency, abiotic and biotic stress tolerance, early flowering, and the red pericarp of the seed. It highlights the possibility of utilizing weedy rice in rice improvement programmes through conventional genetics and breeding approaches. It explores the debating issues on the origin and evolution of weedy rice, including its high diversity, signalling aspects, QTL mapping under stress conditions. This review may develop basis for future researchers to understand the flow of genes between cultivated crops and weedy traits.
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Key words
biotic and abiotic stresses,genetic improvement,molecular breeding,nutraceutical properties,stress tolerance mechanisms
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