Lignins
CAS No.: 9005-53-2
- Molecular Formula: CββHββNβNaβOβSβ
- Molecular Weight: 509.4 g/mol
Chemical type
- Phenylpropanoid polymer
- Secondary metabolite
Key properties
- Biologically and structurally significant
- Provides rigidity and hydrophobicity to cell walls
- Associated with antioxidant enzyme activities
- Provides structural support and rigidity to plant cell walls
- Enhances lignification under stress conditions
- Regulates metabolic flux in phenylpropanoid branches
- Biosynthesis for cell wall reinforcement
- Enhances drought and salt stress tolerance
- Involved in waterlogging resistance through accumulation in wheat cell walls
- Defense against biotic and abiotic stresses
- Reinforces plant tissues against abiotic stresses like drought, heat, and cold
- Contributes to pathogen defense and UV protection
- Improves stress tolerance in crops like wheat
Classification by use
- Compounds involved in plant structural support
- Chemicals used in abiotic stress adaptation
- Secondary metabolites in phenylpropanoid pathway
- Structural polymers in plants
- Compounds for abiotic stress adaptation
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Demei Chemical Technology Co., Ltd. is a modern high-tech enterprise integrating R&D, production, and sales. The company's founder, Dr. Arron, born in April 1975, graduated from the School of Mechanical Engineering at Yanshan University and has been engaged in research in the fields of mechanical engineering and chemical synthesis for many years. The company's products focus on the chemical industry, primarily dealing in chemical raw materials and chemical production machinery and equipment. With its strong technical capabilities, advanced production equipment, and strict quality management system, the company has earned the trust of customers worldwide.
- [Cite:1] Characterization of 4-Coumarate-CoA Ligase (4CL) Genes in Wheat Uncovers Ta4CL91βs Role in Drought and Salt Stress Adaptation, Plants, 2025, 14(9), 1301
- [Cite:2] Genome-wide analysis of the 4-Coumarate-CoA ligase gene family in wheat: Expression patterns under salt stress and light-regulated cold acclimation, Plant Stress, Volume 16, June 2025, 100879
