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Impact of varying light intensities on morphology, phytochemistry, volatile compounds, and gene expression in Thymus vulgaris L
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Impact of varying light intensities on morphology, phytochemistry, volatile compounds, and gene expression in Thymus vulgaris L
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Journal Article
Impact of varying light intensities on morphology, phytochemistry, volatile compounds, and gene expression in Thymus vulgaris L
2025
Overview
Light is a crucial factor in plant growth and development. Plants exposed to light stress experience various effects on their growth. This research was conducted to investigate the effects of different light intensities on morpho-physiological traits, phytochemical compounds, and gene expression related to the biosynthesis of voletile in Thymus vulgaris L. The results demonstrated that light intensity (20, 50, 70 and 100%) had a significant impact on morpho-physiological characteristics, pigments content, antioxidant enzymes activities, as well as the content of MDA, H 2 O 2 , anthocyanin, thymol, carvacrol, phenols, flavonoids, essential oils, and monoterpenes. Moreover, the expression of the biosynthesis genes of monoterpene compounds was significantly influenced by light intensity. While an increase in light intensity led to higher leaf count (164.6%) and biomass (33.5%), it was accompanied by a decrease in leaf area, stem length, and internode length. The highest levels of chlorophyll a (4.92 mgg -1 FW) and b (1.75 mgg -1 FW), carotenoids (907.31 µ Mg -1 FW), MDA (9.93 µ Mg -1 FW), anthocyanin, SOD (29.62 Umg − 1 Protein), thymol (41.2%), and carvacrol (4.46%) were observed at 70% treatment and decreased as light intensity increased. Also, H 2 O 2 , catalase and polyphenol oxidase activities, phenols, flavonoids, essential oils, and monoterpenes increased with higher light intensity, with the highest H 2 O 2 concentration recorded at 100% (4.43 fold). Importantly, key genes involved in monoterpene biosynthesis, including DXR , TPS , CYP71D178 , and CYP71D179 , exhibited significantly enhanced expression under full light conditions compared to other light intensities. In conclusion, increased light intensity stimulated the elevation of oxidative indicators, antioxidant activity and enhancing the expression of genes involved in phytochemical compound biosynthesis and consequently leading to the accumulation of volatile compounds in Thymus vulgaris L. Future research will focus on investigating the combined effects of various abiotic stresses at the field level and extending the stress duration to evaluate potential additive effects.
Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject
/ Catalase
/ Cymenes
/ Ethylenediaminetetraacetic acid
/ Gene Expression Regulation, Plant - radiation effects
/ Genes
/ Growth
/ Hydrogen Peroxide - metabolism
/ Leaves
/ Light
/ Medicine and Health Sciences
/ Oxidases
/ Phenols
/ Pigments
/ Plant Leaves - radiation effects
/ Proteins
/ Thymes
/ Thymol
/ Thymus Plant - anatomy & histology
/ Thymus Plant - growth & development
