Litcius/Paper detail

Flavonoid‐Lignin Crosstalk: Engineering Metabolic Flux for Optimised Plant Growth and Stress Resilience

Jie Yang, Yuexin Zhang, Juntong Jia, Chenlu Wang, Yujie Fu

2025Plant Cell & Environment25 citationsDOIOpen Access PDF

Abstract

As core metabolites of the phenylpropane pathway, flavonoids and lignin compete for common metabolic flux, yet their regulatory crosstalk critically constrains resource partitioning between development and stress adaptation. In this review, we synthesise recent progress in mechanistic insights into flavonoid-mediated regulation of seed dormancy and germination, vegetative growth, and reproductive growth, while clarifying lignin's role in reinforcing cell wall biomechanical integrity and establishing hydraulic conductivity conduits. We particularly focus on multi-tiered regulatory networks through which these metabolites confer resilience to against biotic/abiotic stresses. We further establish flavonoid-lignin homoeostasis as a pivotal regulator of growth-defence trade-offs and demonstrate that its precision engineering enables synergistic enhancement of plant vigour and stress adaptation. This study provides a molecular blueprint for developing high-performance plants with balanced nutritional, stress-tolerant, and ecological traits.

Topics & Concepts

CrosstalkFlavonoidLigninMetabolic engineeringResilience (materials science)BotanyPlant growthFlux (metallurgy)EngineeringMaterials scienceBiologyChemistryBiochemistryElectronic engineeringOrganic chemistryComposite materialEnzymeAntioxidantPlant Stress Responses and TolerancePlant Molecular Biology ResearchPlant Gene Expression Analysis