2019
DOI: 10.1021/acsomega.9b02578
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Deciphering the Binding Mechanism of Noscapine with Lysozyme: Biophysical and Chemoinformatic Approaches

Abstract: Lysozyme is a well-characterized protein in terms of its structure, dynamics, and functions. It has thus emerged as a potential target to understand protein–drug interactions. The aim of our study is to gain a biophysical outlook on the interaction of lysozyme (Lyz), a well-known model protein, with Noscapine, a potent tubulin-binding anticancer drug. Noscapine (Nos) is effective against a wide range of cancer and shows low toxicity and few side effects. We report the underlying mechanism of complex formation … Show more

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Cited by 34 publications
(15 citation statements)
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“…The results demonstrated synergistic effect of Noscapine and Cisplatin together with reduced tumor volume by 78% as compared with 38% by Cisplatin or 35% by Noscapine alone in murine xenograft lung cancer model [22]. The mechanistic interaction of Noscapine and Lysozyme has been recently studied by Damini [23]. The study investigated their conformational changes and helped in understanding biophysical properties on interaction of Lysozyme with Noscapine.…”
Section: Noscapine a Biologically Active Natural Productmentioning
confidence: 97%
“…The results demonstrated synergistic effect of Noscapine and Cisplatin together with reduced tumor volume by 78% as compared with 38% by Cisplatin or 35% by Noscapine alone in murine xenograft lung cancer model [22]. The mechanistic interaction of Noscapine and Lysozyme has been recently studied by Damini [23]. The study investigated their conformational changes and helped in understanding biophysical properties on interaction of Lysozyme with Noscapine.…”
Section: Noscapine a Biologically Active Natural Productmentioning
confidence: 97%
“…Molecular docking assays have been widely applied to study and understand the mechanistic interaction of drugs with target protein receptors. Molecular dynamics simulation analyses help with the elucidation of stable binding of drugs with the target protein. It tells about the atomic fluctuations of the interaction complex system by RMSD, RMSF, and other parameters. Also, computational algorithms have been widely engaged to determine the physicochemical properties of drugs and other therapeutic targets . Herein, MD simulation framework provided the considerable molecular binding mechanism of noscapine and high repurposing potency against COVID-19.…”
Section: Introductionmentioning
confidence: 99%
“…It tells about the atomic fluctuations of the interaction complex system by RMSD, RMSF, and other parameters. 24−26 Also, computational algorithms have been widely engaged to determine the physicochemical properties of drugs 27 and other therapeutic targets. 28 Herein, MD simulation framework provided the considerable molecular binding mechanism of noscapine and high repurposing potency against COVID-19.…”
Section: ■ Introductionmentioning
confidence: 99%
“…17,18 Computational techniques are essential in these early stages of research as they can provide useful data in a short period, boosting the subsequent phases of research. [19][20][21][22][23][24][25] For instance, the accurate prediction of the binding affinity represents one of the most interesting eld of investigation. [26][27][28] Moreover, to date there is no vaccine available, and the computational repurposing campaigns are privileged approaches as they deal with already approved drugs that will not need to pass the entire pre-clinical phase.…”
Section: Introductionmentioning
confidence: 99%