Chemical Constituents and Bioactivities of Nepeta Taxa Essential Oils from Turkey: Principal Component Analysis, Molecular Docking Study, Molecular Dynamics, MM‐PBSA and Drug‐Likeness Estimation

Nepeta taxa are popular plants and sources of traditional Turkish medicine. Chemical constituents in the essential oils (EOs) hydrodistilled from above‐ground parts of Nepeta aristata (NA), N. baytopii (NB), N. italica (NI), N. nuda (NN), and N. stenantha (NS) were determined using GC‐MS. The pharmacological activities of EOs, such as biological activities, were evaluated in vitro. DNA protection activities of NS‐EO were found to be the most effective. The NA‐EO, NI‐EO, and NS‐EO were more potent urease inhibitors, while the NS‐EO exhibited potent AChE inhibitors. Their molecular docking, molecular dynamics and enzyme inhibition results were compatible with the major components. Furthermore, MolDock and binding affinity results were found to be high. Moreover, AChE‐tau‐cadinol, BChE‐tau‐cadinol and tyrosinase‐Caryophyllene oxide complexes showed stability when simulated for 100 ns, with high MM‐PBSA energy values. In addition, the main components′ pharmacokinetic properties were observed to be effective. The present study showed that EOs may be valuable natural products for future pharmacological research, food, and the cosmetic industry according to in vitro and in silico values. EOs were obtained from Nepeta species (NS). DNA protection and strong enzyme inhibition capabilities were noted for NS‐EO. These EOs were determined to mostly contain eucalyptol, caryophyllene oxide, linalool, tau‐cadinol, spathulenol, phytol, and hexahydrofarnesyl acetone compounds. The binding affinities of the molecular interactions of these main components with enzymes are generally high. Additionally, the pharmacokinetic properties of these components were investigated.