生物
花青素
MYB公司
类黄酮
类黄酮生物合成
植物
飞燕草素
颜料
代谢组学
基因
转录组
转录因子
氰化物
生物化学
基因表达
生物信息学
化学
有机化学
抗氧化剂
作者
Shusong Li,Yuqing Yang,Jie Yu,Hong Zhou,Zhiwei Hou,Xiling Wang
标识
DOI:10.1186/s12870-024-04737-x
摘要
Abstract Background Leaf coloration in plants, attributed to anthocyanin compounds, plays a crucial role in various physiological functions, and also for pharmaceutical and horticultural uses. However, the molecular mechanisms governing leaf coloration and the physiological significance of anthocyanins in leaves remain poorly understood. Results In this study, we investigated leaf color variation in two closely related mulberry genotypes, one with purplish-red young leaves (EP) and another with normal leaf color (EW). We integrated transcriptomic and metabolomic approaches to gain insights into the metabolic and genetic basis of purplish-red leaf development in mulberry. Our results revealed that flavonoid biosynthesis, particularly the accumulation of delphinidin-3-O-glucoside, is a key determinant of leaf color. Additionally, the up-regulation of CHS genes and transcription factors, including MYB family members, likely contributes to the increased flavonoid content in purplish-red leaves. Conclusion These findings enhance our understanding of the molecular mechanisms responsible for the purplish coloration observed in mulberry leaves and also offer supporting evidence for the hypothesis that anthocyanins serve a protective function in plant tissues until the processes of light absorption and carbon fixation reach maturity, thereby ensuring a balanced equilibrium between energy capture and utilization.
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