Molecular Dynamics Research Hub

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Research Articles

MM-GBSA vs FEP: A Comprehensive Guide to Binding Affinity Prediction in Drug Discovery

MM-GBSA vs FEP: A Comprehensive Guide to Binding Affinity Prediction in Drug Discovery

This article provides a detailed comparative analysis of Molecular Mechanics Generalized Born Surface Area (MM-GBSA) and Free Energy Perturbation (FEP) methods for predicting protein-ligand binding affinities.

Easton Henderson
Jan 12, 2026
From Hypothesis to Validation: Using MM-GBSA to Confirm and Refine Your Pharmacophore Models

From Hypothesis to Validation: Using MM-GBSA to Confirm and Refine Your Pharmacophore Models

This article provides a comprehensive guide for computational chemists and drug discovery scientists on integrating Molecular Mechanics Generalized Born Surface Area (MM-GBSA) calculations with pharmacophore modeling.

Bella Sanders
Jan 12, 2026
MLIP vs Classical Force Fields: A Definitive Accuracy Benchmark for Computational Drug Discovery

MLIP vs Classical Force Fields: A Definitive Accuracy Benchmark for Computational Drug Discovery

This article provides a comprehensive analysis comparing the accuracy of Machine Learning Interatomic Potentials (MLIPs) with traditional classical force fields (FFs) in the context of biomedical research.

Zoe Hayes
Jan 12, 2026
Machine Learning Interatomic Potentials vs DFT: A Comprehensive Guide to Energy & Force Validation for Drug Discovery

Machine Learning Interatomic Potentials vs DFT: A Comprehensive Guide to Energy & Force Validation for Drug Discovery

This article provides researchers, scientists, and drug development professionals with a comprehensive framework for validating Machine Learning Interatomic Potentials (MLIPs) against Density Functional Theory (DFT).

Bella Sanders
Jan 12, 2026
Mastering MLIP Training Set Generation: Strategies for Accurate Drug Discovery & Materials Science

Mastering MLIP Training Set Generation: Strategies for Accurate Drug Discovery & Materials Science

This comprehensive guide explores the critical process of configuration space generation for Machine Learning Interatomic Potentials (MLIPs).

Caleb Perry
Jan 12, 2026
Reducing the Computational Cost of MLIP Training: Practical Strategies for Drug Discovery Researchers

Reducing the Computational Cost of MLIP Training: Practical Strategies for Drug Discovery Researchers

Machine Learning Interatomic Potentials (MLIPs) are revolutionizing molecular dynamics simulations in drug discovery, but their high computational cost remains a significant barrier.

Levi James
Jan 12, 2026
Beyond the Hype: Building Robust MLIPs for Reliable Molecular Dynamics in Drug Discovery

Beyond the Hype: Building Robust MLIPs for Reliable Molecular Dynamics in Drug Discovery

This article provides a comprehensive guide for researchers and drug development professionals on ensuring the robustness of Machine Learning Interatomic Potentials (MLIPs) in molecular dynamics (MD) simulations.

Grayson Bailey
Jan 12, 2026
Bridging the Prediction Gap: A Comprehensive Guide to Discrepancy Analysis in MLIP Rare Event Modeling for Drug Discovery

Bridging the Prediction Gap: A Comprehensive Guide to Discrepancy Analysis in MLIP Rare Event Modeling for Drug Discovery

This article provides a comprehensive analysis of discrepancy analysis in Machine Learning Interatomic Potential (MLIP) models for rare event prediction, a critical challenge in computational drug discovery and materials science.

Aaron Cooper
Jan 12, 2026
MLIP Phase Change Memory: From Materials Science to Transformative Biomedical Applications

MLIP Phase Change Memory: From Materials Science to Transformative Biomedical Applications

This article explores the application of Machine Learning Interatomic Potentials (MLIPs) in accelerating the discovery and optimization of Phase Change Memory (PCM) materials, with a focus on implications for biomedical...

Gabriel Morgan
Jan 12, 2026
Mastering Rare Event Sampling: A Comprehensive Guide to MLIP-Driven Molecular Dynamics for Drug Discovery

Mastering Rare Event Sampling: A Comprehensive Guide to MLIP-Driven Molecular Dynamics for Drug Discovery

This article provides a detailed exploration of Machine Learning Interatomic Potentials (MLIPs) for simulating rare events in molecular dynamics, crucial for drug discovery and biomolecular research.

Samantha Morgan
Jan 12, 2026

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