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Effects of the Structure and Molecular Weight of Alkali-Oxygen Lignin Isolated from Rice Straw on the Growth of Maize Seedlings.

Dandan WuYilin WangShuang QiYufeng YuanJiaqi GuoGegu ChenMehraj AhmadBo JiangYongcan Jin
Published in: Biomacromolecules (2023)
The abundant and low-cost features of lignin in combination with its natural activities make it a fascinating biopolymer for valorization, especially, in agriculture as an active plant growth regulator. However, the structure-activity relationship of lignin in regulating plant growth and metabolism remains unclear. In this work, rice-straw-based low-molecular-weight (LWM, 1860 Da) and high-molecular-weight (HMW, 6840 Da) alkali-oxygen lignins are structurally and comparatively investigated to understand their effects on the growth and metabolism of maize seedlings. The results indicate that LMW lignin at 150 mg·L -1 displays early growth stimulation in maize. Under the optimal concentration of LMW lignin (25 mg·L -1 ), the growth of maize shoot is ∼83% higher than that of the control one. Furthermore, LMW lignin also has a positive effect on the upregulation of photosynthetic pigment, carbohydrate, and protein synthesis. In contrast, HMW lignin shows an overall inhibitory effect on the above-mentioned biochemical parameters. Based on the structural characterization, LMW lignin contains a higher syringyl/guaiacyl ratio (0.78) and carboxyl content (1.64 mmol·g -1 ) than HMW lignin (0.43 and 1.27 mmol·g -1 , respectively), which demonstrates that methoxyl and carboxyl content of lignin may play a decisive role in seedling growth.
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