Physiological and omics-based insights for underpinning the molecular regulation of secondary metabolite production in medicinal plants: UV stress resilience

• Published in: Plant physiology and biochemistry Vol. 204; p. 108060
• Main Authors: Thakur, Kamal, Kumari, Chanchal, Zadokar, Ashwini, Sharma, Parul, Sharma, Rajnish
• Format: Journal Article
• Language: English
• Published: Elsevier Masson SAS 01.11.2023
• Subjects: Medicinal plants; Omics platforms; Physiology; Secondary metabolites; Stress; Medicinal plants; UV; Secondary metabolites; Physiology; Omics platforms; Stress
• ISSN: 0981-9428; 1873-2690
• DOI: 10.1016/j.plaphy.2023.108060

Despite complex phytoconstituents, the commercial potential of medicinal plants under ultraviolet (UV) stress environment hasn't been fully comprehended. Due to sessile nature, these plants are constantly exposed to damaging radiation, which disturbs their natural physiological and biochemical processes. To combat with UV stress, plants synthesized several small organic molecules (natural products of low molecular mass like alkaloids, terpenoids, flavonoids and phenolics, etc.) known as plant secondary metabolites (PSMs) that come into play to counteract the adverse effect of stress. Plants adapted a stress response by organizing the expression of several genes, enzymes, transcription factors, and proteins involved in the synthesis of chemical substances and by making the signaling cascade (a series of chemical reactions induced by a stimulus within a biological cell) flexible to boost the defensive response. To neutralize UV exposure, secondary metabolites and their signaling network regulate cellular processes at the molecular level. Conventional breeding methods are time-consuming and difficult to reveal the molecular pattern of the stress tolerance medicinal plants. Acquiring in-depth knowledge of the molecular drivers behind the defensive mechanism of medicinal plants against UV radiation would yield advantages (economical and biological) that will bring prosperity to the burgeoning world's population. Thus, this review article emphasized the comprehensive information and clues to identify several potential genes, transcription factors (TFs), proteins, biosynthetic pathways, and biological networks which are involved in resilience mechanism under UV stress in medicinal plants of high-altitudes. [Display omitted] •Being a complex process, exact identification of elements is still far from clear because of the differences in the accumulation of defensive enzymes and metabolites in medicinal plants under stress.•Learning how UV radiation affects the accumulation of secondary metabolites in the medicinal herb allows to evaluate metabolites and biological function and provides guidelines for defining the optimal quality and yields of medicinally relevant substances.•Engineering of metabolic pathways could also provide new avenues for the development of UV stress-resilient medicinal plants.•Acquiring in-depth knowledge of the molecular drivers behind the defensive mechanism of medicinal plants against UV radiation.