Sanket Rathod scite author profile

Over the centuries, cancer has been considered one of the significant health threats. It holds the position in the list of deadliest diseases over the globe. In women, breast cancer is the most common among many cancers and is the second most common cancer all over the world, while lung cancer is the first. Cyclin-dependent kinase 8 (CDK8) has been identified as a critical oncogenic driver that is found in breast cancer and associated with tumor progression. Flavonoids were virtually screened against CDK8 using molecular docking, drug-likeness, ADMET prediction, and a molecular dynamics (MD) simulation approach to determine the potential flavonoid structure against CDK8. The results indicated that ZINC000005854718 showed the highest negative binding affinity of −10.7 kcal/mol with the targeted protein and passed all the drug-likeness parameters. Performed molecular dynamics simulation showed that docked complex systems have good conformational stability over 100 ns in different temperatures (298, 300, 305, 310, and 320 K). The comparison between calculated binding free energy via MM/PB(GB)SA methods and binding affinity calculated via molecular docking suggested tight binding of ZINC000005854718 with targeted protein. The results concluded that ZINC000005854718 has drug-like properties with tight and stable binding with the targeted protein.

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Exploration of bioactive molecules from Tinospora cordifolia and Actinidia deliciosa as an immunity modulator via molecular docking and molecular dynamics simulation study

Bagal

Rathod

Mulla

et al. 2023

Natural Product Research

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Tinospora cordifolia and Actinidia deliciosa are the widely used plant in Ayurvedic systems of medicine. Both plants are well known for their immunomodulatory activity. In the current study, in silico exploration was performed using advanced computational techniques such as molecular docking and molecular dynamics simulation approach. Bioactive molecules from the Tinospora cordifolia and Actinidia deliciosa were docked against the Human IL-2. Out of all the docked bioactive molecules, Pygenic acid-B (PubChem CID:146157192) showed the highest negative binding affinity.

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Exploration of limonoids for their broad spectrum antiviral potential via DFT, molecular docking and molecular dynamics simulation approach

Rochlani

Bhatia

Rathod

et al. 2023

Natural Product Research

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Limonoids serve as vital secondary metabolites. Citrus limonoids show a wide range of pharmacological potential. As a result of which limonoids from citrus are of considerable research interest. Identification of new therapeutic molecules from natural origins has been widely adopted as a successful strategy in drug discovery. The current work mainly focused on the high-throughput computational exploration of the antiviral potential of three vital limonoids i.e. Obacunone, Limonin, and Nomilin against spike proteins of SARS CoV-2 (PDB:6LZG), Zika virus NS3 helicase (PDB:5JMT), Serotype 2 RNA dependent RNA polymerase of dengue virus (PDB:5K5M). Herein we report the molecular docking, MD simulation studies of nine docked complexes, and density functional theory of selected limonoids. The results of this study indicated that all three limonoids have good molecular features but out of these three obacunone exerted satisfactory results for DFT, docking, and MD simulation study.

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Fe3O4@SiO2@TDI@DES: A novel magnetically separable catalyst for the synthesis of oxindoles

Swami¹,

Rathod²,

Choudhari³

et al. 2023

Journal of Molecular Structure

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Identification of potential biogenic chalcones against antibiotic resistant efflux pump (AcrB) via computational study

Rathod

Dey

Pawar

et al. 2023

Journal of Biomolecular Structure and Dynamics

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Sanket Rathod

Computational Exploration of Anti-cancer Potential of Flavonoids against Cyclin-Dependent Kinase 8: An In Silico Molecular Docking and Dynamic Approach

Exploration of bioactive molecules from Tinospora cordifolia and Actinidia deliciosa as an immunity modulator via molecular docking and molecular dynamics simulation study

Exploration of limonoids for their broad spectrum antiviral potential via DFT, molecular docking and molecular dynamics simulation approach

Fe3O4@SiO2@TDI@DES: A novel magnetically separable catalyst for the synthesis of oxindoles

Identification of potential biogenic chalcones against antibiotic resistant efflux pump (AcrB) via computational study

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