Abstract
Phenylalanine ammonia-lyase (PAL) serves as a pivotal regulatory enzyme at the initial branching point of the phenylpropanoid pathway, exerting a profound influence on downstream reactions essential for flavonoid biosynthesis. Glycyrrhiza species are important medicinal plants and provide plenty of roots as raw materials for further utilization, with the components of glycyrrhizic acid and flavonoids as two major active ingredients. However, functional studies of the PAL genes in the medicinal Glycyrrhiza species remain limited. In this study, we identified seven PAL family genes from each of the three medicinal Glycyrrhiza species, Glycyrrhiza uralensis Fisch., G. inflata Bat., and G. glabra L., and comprehensively analyzed their phylogenetic relationships, gene structures, motif distributions, and promoter cis-elements. Gene expression profiling revealed that PAL1 is highly expressed in roots and significantly induced by drought and salt stresses. We further selected G. uralensis GuPAL1 for functional investigation in Arabidopsis. GuPAL1-overexpression lines (GuPAL1-OE) demonstrated significant enhancements in plant growth, flavonoid accumulation, and hormone levels in Arabidopsis thaliana. Conversely, the Atpal1 mutant plants displayed marked reductions in these traits, while the transgenic lines of GuPAL1-OE in the Atpal1 mutant (Atpal1/GuPAL1) recovered to the normal phenotypes similar to wild type (WT). Transcriptomic analysis of the GuPAL1-OE plants compared to WT demonstrated that several key genes in the phenylpropanoid and flavonoid metabolic pathways (4CL, CCoAOMT, CAD, POD, F3H, FLS) were significantly enriched, suggesting that GuPAL1 may promote plant growth and flavonoid biosynthesis by regulating diverse cellular functions, metabolic pathways, and associated gene expressions. These findings highlight the functional importance of GuPAL1 in flavonoid biosynthesis, and provide valuable insights into the molecular mechanisms underlying the medicinal properties of Glycyrrhiza species.