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Bøker av Dhaval B. Patel

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  • av Dhaval B. Patel
    622,-

    Neste livro, estabelecemos uma nova série de derivados de tiossemicarbazida à base de ácido 2-(2-clorofenil)quinolina-4-carboxílico, todos os compostos são conformes por seus dados físicos (ponto de fusão) e dados espectrais (análise de massa, 1H NMR, 13C NMR ). Todos os compostos estão analisando em atividade biológica antibacteriana e antifúngica. Na análise biológica, descobrimos que muitos compostos têm atividade potente contra diferentes cepas.

  • av Dhaval B. Patel
    622,-

    In questo libro abbiamo stabilito una nuova serie di derivati ¿¿tiosemicarbazidici a base di acido 2-(2-clorofenil)chinolina-4-carbossilico tutti i composti sono conformi per i loro dati fisici (punto di fusione) e dati spettrali (analisi di massa, 1H NMR, 13C NMR ). Tutti i composti stanno analizzando l'attività biologica antibatterica e antimicotica. Nell'analisi biologica abbiamo scoperto che molti composti hanno una potente attività contro diversi ceppi.

  • av Dhaval B. Patel
    725,-

    This book describes series of quinoline hybrid thiosemicarbazide derivatives under microwave irradiation. Synthesized compounds were successfully applied against the biological studies. The docking study suggested that selected molecules were perfect, fit into the protein cavity with excellent G-score. Molecular dynamics study with protein (PDB: 3JSU) studied in Schrodinger software, Pharmacophore study and ADME-Tox were carried out for the drug-likeness properties. This study proved that our molecules could act as hit molecules in the future.

  • av Dhaval B. Patel
    725,-

    In summary, this work demonstrates the designing, synthesis and biological evaluation of novel 2-(2-chlorophenyl)quinoline-4-carboxylic acid hybrid thiosemicarbazides. The synthesized derivatives were evaluated for their variousin-vitro biological activities. Most of the compounds displayed excellent activity against gram-positive bacteria in comparison to gram-negative bacteria. Biological activity and docking results of quinoline derivatives makes interesting lead in drug development. The calculated ADME-Tox parameters suggest good pharmacokinetic properties. These studies disclose that active molecules are used as term plate for the development of active biological agents. Molecular dynamics simulation can be concluded that MD can be successfully implemented for new drug development and several promising inhibitor molecules.

  • av Dhaval B. Patel
    725,-

    In this book, we have a described novel series of fluorine containing quinoline hybrid thiosemicarbazide analogues (8a-8l) by modern medicinal chemistry and have led to large number of effective drugs. We have synthesized novel fluorine containing quinoline hybrid thiosemicarbazide analogues and tested for their in-vitro study in antibacterial, antifungal, antimalarial, antituberculosis strains. With this study, we concluded that N- based heterocyclic compounds having potency for biological activity.

  • av Dhaval B. Patel
    622,-

    Novel fluorine containing quinoline hybrid thiosemicarbazide analogues and screened for their in-vitrostudy in antibacterial, antifungal, antimalarial, antituberculosis strains. Analogues were active against antimalarial Plasmodium falciparum strain, among them analogues 8d, 8g, 8h, 8k and 8l shown remarkable activity than reference drug Quinine. We have carried out Molecular docking, ADME-Tox, Molecular dynamics and Pharmacophore study. Biological activity and Molecular docking study were correlated for the potent molecules. This study were suggested active binding site of analogues to give a best mechanism in in-silico side. Then, most active molecule 8g was performed for the molecular dynamics study. Here, this article concluded that analogues 8d, 8g and 8k were representing a promising lead for the new development of antimalarial therapeutics.

  • av Dhaval B. Patel
    622,-

    In this book we have established a novel series of 2-(2-chlorophenyl)quinoline-4-carboxylic acid based thiosemicarbazide derivatives all compounds are conforming by their physical data (melting point) and spectral data (Mass analysis , 1H NMR, 13C NMR). All compounds are analyzing in antibacterial and antifungal Biological activity. In biological analysis we have found that many compounds have potent activity against different strains.

  • av Dhaval B. Patel
    622,-

    We have synthesized a series of quinoline hybrid thiosemicarbazide derivatives under microwave irradiation. Synthesized compounds were successfully applied against the biological studies. Compounds 7a, 7g, 7k exhibited potent activity againstP. aeruginosa, compounds 7a, 7f,7h,7r showed excellent activity against E.coli, compounds 7a, 7b, 7c, 7e, 7f, 7l, 7o, 7p, 7q and 7sexhibited good activity against plasmodium falciparum strain. The docking study was performed on selected three proteins 3JSU, 4DP3 and 1J3K. Compounds7b (-8.32) and 7i (-8.22) were selected in 3JSU, compounds7c (-7.23) and 7l (-5.82) were selected in 4DP3 for the best binding possess, compounds7b (-4.323) and 7l (-3.039) were selected in 1J3Kfor the best binding possess. The docking study was suggested that selected molecules were perfect, fit into the protein cavity with excellent G-score. Molecular dynamics study of compound 7ewith protein (PDB: 3JSU) studied in Schrodinger software, Pharmacophore study and ADME-Tox were carried out for the drug-likeness properties. This study proved that our molecules could be act as hit molecules in the future.

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