• In Silico Approaches in Benzim...

*Result*: In Silico Approaches in Benzimidazole Derivatives Research: Recent Insights.

Title:
In Silico Approaches in Benzimidazole Derivatives Research: Recent Insights.
Authors:
Sonwane PN; Department of Pharmaceutical Chemistry, S.M.B.T College of Pharmacy, Dhamangaon, Tq. Igatpuri, District: Nashik 422 403, India, Affiliated to Savitribai Phule Pune University, Pune., Kumbhare MR; Department of Pharmaceutical Chemistry, S.M.B.T College of Pharmacy, Dhamangaon, Tq. Igatpuri, District: Nashik 422 403, India, Affiliated to Savitribai Phule Pune University, Pune.
Source:
Zhongguo ying yong sheng li xue za zhi = Zhongguo yingyong shenglixue zazhi = Chinese journal of applied physiology [Zhongguo Ying Yong Sheng Li Xue Za Zhi] 2026 Feb 14; Vol. 42, pp. e20260003. Date of Electronic Publication: 2026 Feb 14.
Publication Type:
Journal Article; Review
Language:
English
Journal Info:
Publisher: Zhongguo ying yong sheng li xue za zhi bian ji bu Country of Publication: China NLM ID: 9426407 Publication Model: Electronic Cited Medium: Print ISSN: 1000-6834 (Print) Linking ISSN: 10006834 NLM ISO Abbreviation: Zhongguo Ying Yong Sheng Li Xue Za Zhi Subsets: MEDLINE
Imprint Name(s):
Publication: Tianjin : Zhongguo ying yong sheng li xue za zhi bian ji bu
Original Publication: Beijing Shi : Zhongguo ying yong sheng li xue za zhi bian ji bu
MeSH Terms:
Benzimidazoles*/chemistry , Drug Discovery* , Drug Design* , Computer Simulation*, Molecular Docking Simulation ; Quantitative Structure-Activity Relationship ; Humans ; Molecular Dynamics Simulation ; Machine Learning
Contributed Indexing:
Keywords: ADMET prediction; Artificial intelligence (AI); Benzimidazole derivatives; Molecular docking; Molecular dynamics; Multitarget drug design; QSAR modeling; Rational drug design
Substance Nomenclature:
0 (Benzimidazoles)
E24GX49LD8 (benzimidazole)
Entry Date(s):
Date Created: 20260213 Date Completed: 20260213 Latest Revision: 20260213
Update Code:
20260214
DOI:
10.62958/j.cjap.2026.003
PMID:
41688124
Database:
MEDLINE

*Further Information*

*Benzimidazole remains a privileged heteroaromatic scaffold with broad therapeutic potential, spanning antimicrobial, anticancer, antitubercular, and antiviral domains. In recent years (2020-2025), computational methodologies have significantly accelerated benzimidazole-based drug discovery by elucidating structural determinants of activity and streamlining lead optimization. Molecular docking and dynamics simulations consistently reveal the scaffold's ability to engage in π-π stacking, hydrogen bonding, and hydrophobic interactions within protein active sites. Substituent modifications at C2, C5, and C6 critically modulate affinity and selectivity across diverse targets, including InhA, DprE1, kinases, and viral proteases. Complementary strategies such as QSAR, pharmacophore modeling, and in silico ADMET predictions strengthen early hit prioritization and reduce experimental attrition. Emerging approaches integrating artificial intelligence, machine learning, and free energy perturbation further enhance predictive accuracy and enable multi-target drug design. This short communication highlights recent computational insights, best practices, and future trends in benzimidazole research, emphasizing the value of combining docking, MD, QSAR, ADMET, and AI/ML workflows. Together, these advances provide a robust, cost-effective pipeline for the rational design of next-generation benzimidazole derivatives with improved efficacy and translational potential.*