Abstract
Free radicals contribute significantly to the development and progression of oxidative stress-related diseases. Essential oils from medicinal plants are rich in bioactive compounds with potential antioxidant activity. This study examines the potential of Dalbergiella welwitschii essential oils to prevent oxidative stress by their ability to scavenge free radicals. Essential oils were obtained from the leaves and stems using hydrodistillation, characterized by GC-MS and evaluated for antioxidant activity using the DPPH assay. Molecular Docking was used to assess interactions of the major compounds with oxidative-stress related enzymes (XOR, MO and NOX2) and ADMET studies were performed to predict pharmacokinetic behavior. Aristolone (32.3%) and 13-isopimaradiene (88.13%) were identified as the dominant compounds in the stem and leaf oils, respectively. Both oils exhibited good radical scavenging capacity, and low to moderate preliminary cytotoxicity. Molecular docking revealed strong binding affinities of 15-isopimaradiene to XOR (- 7.6 kcal/mol) and MPO (- 7.8 kcal/mol) comparable to reference drugs. ADMET analysis predicted good absorption and low toxicity suggesting drug-likeness potential. These findings indicate that Dalbergiella welwitschii essential oils may serve as promising natural antioxidants and scaffolds for drug discovery.