Browsing by Author "Rao, MV Raghavendra"
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Item Physician Impairment: Exploring the Health Issues and Determinants(Ibn Sina Academy of Medieval Medicine & Sciences, 2017-04) Acharya, Yogesh; Gupta, Aanchal; Acharya, Bhawana; Karki, Priyanka; Rao, MV Raghavendra; Arja, SateeshPhysician impairment is a critical issue in health care setting. Physicians have an exaggerated risk of psychosocial problems. The most common psychiatric problems in the physician can be isolated psychiatric conditions or substance abuse. Physician impairment due to psychosocial problems, substance abuse, burnout or accidental health care hazards can result in adverse personal, social and professional consequences. Due to the nature of the work, physician impairment can result in significant compromise in patients’ health. It is absolute necessary to have a definitive set of programs within each health care facility to target physician impairment preserving the functionality and optimal health output of health care provider and the receiver.Item Structure based virtual screening, docking and molecular dynamic simulation studies to identify potent mdm2-p53 inhibitors: Future implications for cancer therapy(Teerthanker Mahaveer University, 2017-01) Raj, B Vijay; Rao, MV Raghavendra; Acharya, YogeshObjective: To identify the p53 binding pocket as well as active residues in mdm2 protein, and search for similar (or) better compounds to inhibit mdm2-p53 interactions in comparison to FDA approved drug (Nutlin) by ligand and structure based virtual screening methods, docking, and molecular dynamic simulation studies. Methods: A structure and ligand based virtual screening for mdm2 protein; targeting the key residues involved in their active binding of p53 peptide was conducted after obtaining structurally suitable compounds similar to Nutlin from ZINC database. These compounds are virtually screened onto the mdm2 protein targeting its active binding site where p53 binds. The best compound with highest binding affinity was taken up for further analysis using molecular dynamic simulations for further validating the docking studies and to reveal interactions during the conformational changes Results: We discovered several compounds that are potentially able to block the interaction between active residues of mdm2 and p53 complex, suggesting their capability to act as anti-cancer agents. As proven by our structure based virtual screening studies coupled with semi-flexible and flexible docking studies, compound ZINC59256947 was found to be the strongest inhibitors for mdm2 protein amongst all of those isolates from ZINC database. Conclusion: Our results suggest that, a simple, selective and reliable inhibition assay can be performed to search for novel inhibitors of p53-mdm2 interaction. Therefore this study provides a rationalization to the ability of a ZINC59256947, an isolate from ZINC database with strong binding affinity towards mdm2 protein, for future implications as anti-cancer agent.