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Self-Assembly of Black Cumin Oil-Based Nanoemulsion on Various Surfactants: A Molecular Dynamics Study

Aulia Fikri Hidayat, Taufik Muhammad Fakih, Z Solati, B Baharin, H Bagheri, S Bourgou, A Pichette, B Marzouk, J Legault, R Agbaria, A Gabarin, A Dahan, S Ben-Shabat, M Khader, P Eckl, Thymoquinone, M Mathur, J Gaur, R Sharma, K Haldiya, M Randhawa, M Alghamdi, K Ghahramanloo, B Kamalidehghan, H Akbari Javar, R Teguh Widodo, K Majidzadeh, M Noordin, S Ik, S Aslan Erdem, M Kartal, N Mohammed, B Muhialdin, A Meor Hussin, D Mcclements, J Rao, C Solans, I Sol, S Uluata, E Decker, D Mcclements, S Pirhadi, A Amani, F Moghaddasi, M Housaindokht, Darroudi, M Bozorgmehr, A Sadeghi, M Abdul Rahman, Q Huan, B Tejo, M Basri, A Salleh, R Rahman, R Karjiban, Q Huan, M Abdul Rahman, M Basri, B Tejo, M Das, U Dahal, O Mesele, D Liang, Q Cui, L Hakim, D Mardiana, U Rokhiyah, M Lestari, Z Ningsih, E Yimer, K Tuem, A Karim, N Ur-Rehman, F Anwar, H Shaaban, Z Sadek, A Edris, A Saad-Hussein, N Mohd Nor, Mohd, M Shafri, F Mohamed, Hidayat, M Varl, R Solak, S Turan, M Ramadan, D Van Aalten, L Martinez, R Andrade, E Birgin, J Martinez, D Van Der Spoel, E Lindahl, B Hess, G Groenhof, A Mark, H Berendsen, A Bonvin, A Mark

2021Makara Journal of Science10 citationsDOIOpen Access PDF

Abstract

Black cumin is commonly used as traditional medicine due to its wide range of pharmacological potential. Black cumin oil (BCO) was often prepared as nanoemulsion to improve its solubility, stability, and bioavailability. This study was conducted to investigate the molecular behavior as well as structural evolution of BCO-surfactant systems during self-assembly micellization using molecular dynamics (MD) simulations. Several BCO constituents and variations of surfactants were employed to model BCO-surfactant systems. 50 ns of MD simulations were performed to elucidate their evolution of structures and physicochemical properties during formation. Results showed that BCO-tween20 and BCO-lecithin were able to form spherical-shaped micelles with the effective radii of 10.20 and 8.67 nm at the end of the simulation. Also, from the root mean square deviation and radius of gyration profile, it is showed that BCO-tween20 system was able to maintain the stability of its structure throughout the simulation. Results also revealed that self-assembly of BCO-surfactant systems were exothermic processes, confirming spontaneous nature upon formation

Topics & Concepts

Pulmonary surfactantMolecular dynamicsRadius of gyrationMicelleSolubilityChemistryGyrationRoot mean squareChemical engineeringDissipative particle dynamicsMaterials scienceChemical physicsAqueous solutionThermodynamicsComputational chemistryPhysicsPhysical chemistryOrganic chemistryPolymerMathematicsEngineeringGeometryQuantum mechanicsNigella sativa pharmacological applicationsPhytochemistry and biological activity of medicinal plantsEssential Oils and Antimicrobial Activity
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