A time‐efficient computational binding affinity estimation protocol with utilization of limited experimental data: A case study for adenosine receptor

Estimating binding affinity is a crucial step in the drug discovery process. In computer‐aided drug design, this challenge can be divided into two main tasks: finding the correct binding pose and estimating the binding free energy. In this study, we propose a new binding affinity estimation protocol...

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Bibliographic Details
Published in:Bulletin of the Korean Chemical Society 2024, 45(9), , pp.778-787
Main Authors: Cho, Ilkwon, Moon, Sunghyun, Cho, Kwang‐Hwi
Format: Article
Language:English
Subjects:
adenosine receptor
binding affinity
binding poses
computer‐aided drug discovery
Modafinil
molecular dynamics simulation
화학
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Summary:Estimating binding affinity is a crucial step in the drug discovery process. In computer‐aided drug design, this challenge can be divided into two main tasks: finding the correct binding pose and estimating the binding free energy. In this study, we propose a new binding affinity estimation protocol that utilizes molecular docking with limited experimental data and estimates binding affinity using molecular dynamics simulation. A custom scoring function was employed during docking to identify an improved initial binding pose, and the linear interaction energy method with an optimized coefficient was used for binding affinity estimation. The protocol was validated with an external data set and applied to modafinil and its derivatives to rank their binding affinities to adenosine A2A receptors (ADORA2A) as a case study. This approach could be both time‐efficient and valuable for computational drug discovery, particularly when experimental data is limited. A new binding affinity estimation protocol that utilizes molecular docking with limited experimental data and estimates binding affinity using molecular dynamics simulation has been proposed. A custom scoring function was employed during docking to identify an improved initial binding pose, and the linear interaction energy method with an optimized coefficient was used for binding affinity estimation.
ISSN:1229-5949
0253-2964
1229-5949
DOI:10.1002/bkcs.12890