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. 2025 Apr;29(2):1245-1260.
doi: 10.1007/s11030-024-10904-x. Epub 2024 Jun 10.

Analyzing energetics and dynamics of hepatitis C virus polymerase interactions with marine bacterial compounds: a computational study

Ahmed Alobaida  1 Amr S Abouzied  2   3 Kareem M Younes  4   5 Rami M Alzhrani  6 Hashem O Alsaab  6 Bader Huwaimel  4   7
Affiliations

Analyzing energetics and dynamics of hepatitis C virus polymerase interactions with marine bacterial compounds: a computational study

Ahmed Alobaida et al. Mol Divers. 2025 Apr.

Abstract

Hepatitis C Virus (HCV) is a significant health concern affecting a large portion of the global population and is a major cause of acute liver diseases, including cirrhosis. The variability in the HCV genome mainly results from the rapid replication facilitated by the NS5B polymerase, making it a prime target for anti-HCV drug development. This study explores potential compounds from marine bacteria that could inhibit the HCV NS5B polymerase by virtual screening, analyzing the energetics, and dynamic behavior of target-compound complexes. Virtual screening with the Lipinski filter was employed to select compounds from the marine bacteria database that demonstrated strong binding affinity to NS5B. The top four (CMNPD27216, CMNPD21066, CMNPD21065, and CMNPD27283) compounds, ranked by their re-docking scores, underwent additional evaluation. Molecular dynamics simulations for 200 ns were conducted to assess the dynamic stability of these complexes in a solvent environment. Furthermore, methods such as MM-GBSA, PCA, and free energy landscape analysis were used to analyze the system's energetics and identify stable conformations by locating transition states. The findings suggest that these compounds exhibit promising binding capabilities to HCV polymerase and could be considered for future experimental validation.

Keywords: Hepatitis C virus; MD simulation; Marine bacterial compounds; PCA-based free energy landscape.

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Conflict of interest statement

Declarations. Competing interests: The authors declare no competing interests.

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