Research Outputs

Now showing 1 - 10 of 11
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    Identification of novel coumarin based compounds as potential inhibitors of the 3-Chymotrypsin-like main protease of Sars-Cov-2 Using Dft, molecular docking and molecular dynamics simulation studies
    (Journal of the Chilean Chemical Society, 2022)
    Cardona, Wilson
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    Mendoza Huizar, L.H.
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    Salgado Moran, G.
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    Abdizadeh, Tooba
    SARS-CoV-2 is the pandemic disease-causing agent COVID-19 with high infection rates. Despite the progress made in vaccine development, there is an urgent need for the identification of antiviral compounds that can tackle better the different phases of SARS-CoV-2. The main protease (Mpro or 3CLpro) of SARS-CoV-2 has a crucial role in viral replication and transcription. In this study, an in silico method was executed to elucidate the inhibitory potential of the synthesized 6-tert-octyl and 6-8-ditert-butyl coumarin compounds against the major protease of SARS-CoV-2 by comprehensive molecular docking and density functional theory (DFT), ADMET properties and molecular dynamics simulation approaches. Both compounds shown favorable interactions with the 3CLpro of the virus. From DFT calculations, HOMO-LUMO values and global descriptors indicated promising results for these compounds. Furthermore, molecular dynamics studies revealed that these ligand-receptor complexes remain stable during simulations and both compounds showed considerably high binding affinity to the main SARS-CoV-2 protease. The results of the study suggest that the coumarin compounds 6-tert-octyl and 6-8-ditert-butyl could be considered as promising scaffolds for the development of potential COVID-19 inhibitors after further studies.
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    Minor composition compounds of algerian herbal medicines as inhibitors of sars-cov-2 main protease: Molecular docking and admet properties prediction
    (Journal of the Chilean Chemical Society, 2021) ;
    Yabrir, B.
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    Belhassan, A.
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    Lakhlifi, T.
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    Salgado, G.
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    Bouachrine, M.
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    Munoz, P.
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    Ramirez, R.
    The identification of drugs against the new coronavirus (SARS-CoV-2) is an important requirement. Natural products are substances that serve as sources of beneficial chemical molecules for the development of effective therapies. In this study, 187 natural compounds from Algerian herbal medicines were docked in the active site of SARS-CoV-2 main protease. The result indicates that Piperitol, Warfarin, cis-calamenen-10-ol and α-Cadinene are the structures with best affinity in the binding site of the studied enzyme and all of them respect the conditions mentioned in Lipinski’s rule and have acceptable ADMET proprieties; so, these compounds could have more potent antiviral treatment of COVID-19 than the studied compounds, and they have important pharmacokinetic properties and bioavailability.
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    A DFT study on the efficacy of linking agents (Sulfur and Nitrogen) to connect Trans-azobenzene Sandwiched between two Gold Electrodes
    (Croatian Chemical Society, 2020)
    Karthika, C.
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    Praveena, R.
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    Ramachandran, S.
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    Sadasivam, K.
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    Salgado, G.
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    Muñoz, P.
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    Mendoza Huizar, L. H.
    Electronic structure calculations were performed to analyze the effectiveness of linking agents (sulfur and nitrogen) in connecting the trans-azobenzene sandwiched between two gold surfaces (Au-atoms). It was analyzed the dynamics of the load carrier and the electronic structure of the molecular backbone by applying an external electric field (EF), also a detailed structural, frontier orbital and natural bond orbital analysis (NBO) were performed. From the NBO analysis, it was possible to predict the path of charge flow in the molecular system. Electrostatic potential mapping allowed us to visualize the charge redistribution in the molecular system caused by the EF application. Our results indicate that when the nitrogen atom is used as a linking agent, the azo group of molecules may enhance their conductivity.
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    Theoretical insight on structural activities and targets of Kaempferol Glycosides
    (Revistes Catalanes amb Accés Obert - RACO, 2021) ;
    Anbazhakan, K.
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    Praveena, R.
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    Sadasivam, K.
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    Salgado, Guillermo
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    Cardona, Wilson
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    Alvarado-Soto, Leonor
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    Ramirez-Tagle, Rodrigo
    Metabolite profile always hold important place for flavonoids as they are the major promoters of secondary metabolism in human body. For decades numerous flavonoids are explored for their structural activities which in turn helped them to meet various health promoting applications such as radical scavenging activity. Apart from conventional flavonoids their derivatives are also tend to exhibit similar kind of structural activity. Therefore, in the present work afzelin and juglanin – the glycosyl derivatives of kaemepferol an established flavonoid are subjected to structural activity relationship analysis using density functional theory. The structures of the two kaempferol glycosides are optimized and the optimized geometry is simulated to obtain frontier orbitals, electrostatic potential energy and molecular descriptors. The obtained results suggest that maximum amount of charge is accumulated over B-ring of two flavonoids, thus prefers to act as better electron donating region. Target predicted for two flavonoids over homosapien class reveal that the flavonoid highly prefers lyase and enzymatic targets for inhibition purpose.
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    A theoretical quantum study of the electronic properties of mentoxy dichloro phosphorous (C10H19OPCl2)
    (Sociedad Chilena de Química, 2018)
    Lashgari, Amir
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    Govindarajan, M.
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    Salgado-Morán, Guillermo
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    Montes Romero, Paola
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    A theoretical quantum study of the organophosphorus compound with formula C10H19OPCl2 (MEPCL2) was carried out. The results of the calculations show excellent agreement between experimental and computed frequencies evaluated at the B3LYP/6-311++G(d,p) level of theory. A study of the electronic properties, such as excitation energies and wavelengths were performed employing the time-dependent DFT (TD-DFT) method. Global a chemical reactivity of MEPCL2 was analyzed through global reactivity descriptors, while its local reactivity was analyzed by mean maps of the electrostatic potential. Also, the orbital energies values suggest that a charge transfer is occurring within the molecule.
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    A computational study of the antioxidant power of eugenol compared to Vitamin C
    (Química Nova, 2023)
    Rasul, Hezha
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    Aziz, Bakhtyar
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    Salgado-Morán, Guillermo
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    Mendoza-Huizar, Luis
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    Belhassan, Assia
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    Cardona-Villada, Wilson
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    Sadasivam, Kandasamy
    The antioxidant power of eugenol and vitamin C was examined by analyzing the ability of these ligands to bind to the NADPH oxidase protein target and evaluating their bond interactions with critical residues. The results confirm that docked ligands are more stable in the specified active region of 2CDU during a MD simulation of 100 ns and 2CDU protein-ligand interactions with docked ligands showed significant hydrogen bond, hydrophobic, and water bridge formation. Eugenol exhibits hydrogen bond interactions with critical residues in the selective pocket in comparison to vitamin C. Also, eugenol had a similar binding orientation and very considerable stability in the selective pocket of 2CDU with a high binding energy with lipophilic energy. The electrostatic potential maps indicate that for eugenol, the –OH and –OCH3 sites, while that the –OH and –CO functional groups in vitamin C are responsible of the antioxidant activities of these compounds. HAT and SET mechanisms suggest that eugenol may become a better antioxidant than vitamin C.
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    Theoretical investigation of the molecular structure and molecular docking of etoricoxib
    (Journal of the Chilean Chemical Society, 2020) ;
    Sadasivam, Kandasamy
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    Salgado-Moran, Guillermo
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    Mendoza-Huizar, Luis Humberto
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    Cardona-Villada, Wilson
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    Meneses-Olmedo, Lorena Maribel
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    Cuesta-Hoyos, Sebastián
    In this work, a computational chemical study of Etoricoxib was carried out at the X/6311G(d,p) (where X=B3LYP, M06 and B97XD) level of theory, at the gas, aqueous and ethanol phases. Through the chemical reactivity descriptors derived from the DFT, it was possible to find that Etoricoxib structure exhibits a major chemical activity in water and ethanol phases in comparison to the gas phase, which suggests this drug would be more active in biological solvents like in blood, tissues and places where the ciclooxigenasa 2 (COX)-2 is found. In addition, a molecular docking analysis was conducted to study the interaction of Etoricoxib with the COX-2 active site. The results suggest that Etoricoxib interacts with 19 amino acid residues inside the COX-2 active site.
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    Synthesis, chemical identification, drug release and docking studies of the Amlodipine–Chitosan nanobiopolymer composite
    (Journal of the Chilean Chemical Society, 2021) ;
    Ramirez-Tagle, Rodrigo
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    Salgado-Moran, Guillermo
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    Mendez-Luna, David
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    Correa-Basurto, José
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    Cardona-Villada, Wilson
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    Mendoza-Huizar, Luis H.
    A new amlodipine-chitosan nanocomposite was built using amlodipine nanoparticles as primary scaffolds by spontaneous emulsification, and its complete elucidation was performed by using several spectrometric techniques. Our results indicate that the amlodipine-chitosan nanocomposite has better solubility than amlodipine at pH 7.4 with a nearly all the drug substance dissolved (97%) by the final time-point measured. The docking study support the existence of intermolecular interactions are established between amlodipine and chitosan
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    A computational study of steviol and its suggested anticancer activity. A DFT and docking study
    (Journal of the Chilean Chemical Society, 2021) ;
    Meneses, Lorena
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    Cuesta, Sebastián
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    Salgado, Guillermo
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    Muñoz. Patricio
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    Belhassan, Assia
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    Mendoza-Huizar, L.H.
    In the present, study we analyzed the electronic properties of Steviol, the Stevia rebaudiana metabolite, and its interaction with antiapoptotic protein BCL-2. The ionization potential and electrophilicity index values were evaluated in the framework of the DFT, and these values suggest that Steviol may form ligand-receptor interactions. Also, the bond dissociation energy and the electrostatic potential distribution of Steviol reveal its antioxidant behavior. Docking studies were performed to evaluate the feasibility of this molecule to interact with antiapoptotic protein BCL-2. However, no hydrogen bonds were found in the pocket site, instead six interactions, including alkyl and π-alkyl type were formed, suggesting that the possible most feasible mechanism for anticancer activity would be through free radicals scavenging.
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    A computational predicting of possible inhibitors of the main SARS-CoV-2 protease found in Algerian herbal medicines
    (Universidad Nacional de Colombia, 2022) ;
    Yabrir, Benalia
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    Belhassan, Assia
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    Salgado-Moran, Guillermo
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    Lakhlifi, Tahar
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    Bouachrine, Mohammed
    COVID-19 is a zoonotic viral disease caused by the SARS-CoV-2 virus. Its abrupt outbreak has caused a tremendous challenge to public health systems due to the rapid spread of the virus. In this sense, a great deal of work has been focused on finding substances from herbal plants to be used against this virus. In order to investigate the molecular interactions between natural metabolites from Algerian herbal plants and the SARS-CoV-2 protease Mpro, computational docking and molecular dynamics were used, also the drug likeness degree and in silico ADMET prediction were carried out in this study. warfarin and catalponol preferentially binds to a pocket of the SARS-Cov-2 Mpro active site that is made up of residues His 41 to Glu 166 and Leu 27 to His 163 with a relatively low binding energy of -7.1 and -6.6 kcal/mol respectively. Dynamic molecular assay further established that only warfarin managed to stay in the active site. The results suggest that warfarin may be an interesting candidate for development as a medical treatment of COVID-19 and more research is proposed, without disregarding its toxicity which deserves to be well studied.