Simultaneous Application of Red and Blue Light Regulate Carbon and Nitrogen Metabolism, Induces Antioxidant Defense System and Promote Growth in Rice Seedlings under Low Light Stress

• Published in: International journal of molecular sciences Vol. 24; no. 13; p. 10706
• Main Authors: Ren, Maofei, Liu, Shanzhen, Mao, Guiling, Tang, Chengzhu, Gai, Panpan, Guo, Xiaoli, Zheng, Huabin, Wang, Weiqin, Tang, Qiyuan
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 27.06.2023; MDPI
• Subjects: Agricultural production; antioxidant defense system; Antioxidants; blue light; Carbon; carbon and nitrogen metabolism; Cell division; Crop production; Crops; Defense industry; Dry matter; Electronics industry; Enzymatic activity; Enzyme activity; Enzymes; Gene expression; Growth; Leaf area; Light-emitting diodes; Metabolism; Metabolites; Molecular modelling; Morphogenesis; Nitrogen; Nitrogen metabolism; Oryza - genetics; Photosynthesis; Physiological aspects; red light; Rice; Seedlings; Seedlings - genetics; Sucrose; Synergistic effect; Japan; China; Yangtze River; blue light; red light; rice; antioxidant defense system; carbon and nitrogen metabolism
• ISSN: 1422-0067; 1661-6596; 1422-0067
• DOI: 10.3390/ijms241310706

The purpose of this study is to determine the effect of light quality on growth, carbon and nitrogen metabolism, and antioxidant defense system of rice seedlings. Six light conditions were employed, including white (W), red (R), blue (B), combined LED of R and B at 3:1 (R3B1), combined LED of R and B at 1:1 (R1B1), as well as combined LED of R and B at 1:3 (R1B3). Combined application of red light and blue light could promote the growth of rice seedling leaves and roots under low light stress to varying degrees, increase the photosynthetic area by increasing the leaf area, improve the root characteristics by increasing the root volume, and increase the dry matter accumulation of rice seedlings. In addition, the combination of red light and blue light could increase carbon and nitrogen metabolites in rice seedling leaves, regulate the expression of genes related to carbon and nitrogen metabolism and enzyme activity, and enhance the antioxidant enzyme activity of rice seedlings. These results indicate that red light and blue light directly have synergistic effects which can regulate the carbon and nitrogen metabolism of rice seedlings, promote the morphogenesis of rice seedlings under low light stress, and promote growth, which has never been reported in previous studies. This study is a new discovery in the application of light quality in crop production and provides new avenues to enhance crop stress resistance. However, further study is needed to explore the physio-biochemical and molecular mechanisms of light quality in crop production.