Cotton is a commercial crop that is cultivated in more than 50 countries. The production of cotton has severely diminished in recent years owing to adverse environments. Thus, it is a high priority of the cotton industry to produce resistant cultivars to prevent diminished cotton yields and quality. Flavonoids comprise one of the most important groups of phenolic metabolites in plants. However, the advantage and biological roles of flavonoids in cotton have yet not been studied in depth. In this study, we performed a widely targeted metabolic study and identified 190 flavonoids in cotton leaves that span seven different classes with flavones and flavonols as the dominant groups. Furthermore, flavanone-3-hydroxylase was cloned and silenced to knock down flavonoid production. The results show that the inhibition of flavonoid biosynthesis affects the growth and development of cotton and causes semi-dwarfing in cotton seedlings. We also revealed that the flavonoids contribute to cotton defense against ultraviolet radiation and Verticillium dahliae. Moreover, we discuss the promising role of flavonoids in cotton development and defense against biotic and abiotic stresses. This study provides valuable information to study the variety and biological functions of flavonoids in cotton and will help to profile the advantages of flavonoids in cotton breeding.
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| http://dx.doi.org/10.1016/j.plaphy.2023.107866 | DOI Listing |
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Article Synopsis
- Cotton is vulnerable to Verticillium wilt, and understanding the molecular interactions is crucial for disease prevention. Researchers performed dual RNA-seq analysis on infected cotton roots to understand the transcriptome changes.
- The analysis identified 317 differentially expressed genes (DEGs), including significant genes involved in carbohydrate-active enzymes and cysteine-rich proteins, which were up-regulated during infection, particularly a pectinesterase gene selected for functional validation.
- Cotton exhibited a down-regulation of DEGs related to disease resistance pathways after infection, suggesting a connection between secreted proteins and the pathogenicity of Verticillium. These insights can guide genetic engineering efforts to develop resistant cotton varieties.
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