SAMSON Blog

Master Hydrogen Bonding in Molecular Modeling.

Hydrogen bonding plays a critical role in shaping the structure and function of molecules, from small organic compounds to large biopolymers. For molecular modelers, identifying hydrogen bond donors and acceptors efficiently can mean the difference between a clear understanding of…

A Simple Approach to PMF Analysis with the GROMACS Wizard in SAMSON

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Molecular modelers often face challenges in extracting meaningful physical insights from simulation data. One common task is computing the Potential of Mean Force (PMF), a critical quantity for understanding free-energy profiles along reaction coordinates. Achieving this can feel daunting without…

A Step-by-Step Guide to Import and Edit DNA Nanostructures in Adenita.

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For molecular modelers and researchers working with DNA nanostructures, starting from scratch can feel like reinventing the wheel each time. That’s where tools like Adenita in the SAMSON platform come in handy. Adenita is designed for creating, editing, and exporting…

Setting Up Protein-Ligand Systems with Composite Force Fields in SAMSON.

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One of the most challenging tasks in molecular modeling is setting up force fields for complex systems like protein-ligand complexes. Whether the ligand requires its own distinct parameters or involves multiple force-field types, achieving accuracy without cumbersome processes can be…

Simplify Reaction Path Analysis with SAMSON’s Export Along Paths Tool

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Analyzing molecular pathways is a fundamental task in molecular modeling, whether you’re studying ligand unbinding events, protein transitions, or reaction coordinates for free energy profiling. But extracting atomic coordinates along these paths can often feel tedious and convoluted. Here’s how…

Making Protein System Replicas Simplified: A Step-by-Step Guide

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In molecular modeling and dynamics simulations, creating multiple replicas of a protein system is often necessary, especially when working with coarse-grained models to simulate complex systems. However, for many researchers, this process might feel daunting, as it involves more than…

Simplifying NPT Equilibration for Molecular Dynamics Projects

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If you are working on molecular dynamics simulations, you’ve probably encountered the challenge of stabilizing system density after completing the energy minimization and temperature equilibration phases. This phase, known as NPT equilibration, is a crucial step to prepare your system…

Understanding Structural Model Attributes in SAMSON

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When working on molecular modeling, one of the most persistent challenges is filtering and identifying specific sets of structural models within a large dataset. For instance, you might need to isolate structural models based on the number of atoms, chains,…

Enhancing Molecular Models with Clear Labels and Annotations

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In molecular modeling, clarity is crucial, especially when sharing findings or preparing visualizations for presentations. A recurring challenge for modelers is ensuring that annotations, measurements, or other textual elements remain readable and enhance the understanding of structures. SAMSON makes this…

Mastering System Neutralization for Coarse-Grained Simulations in GROMACS Wizard

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Preparing a molecular system for computational simulations often involves a critical step: ensuring electrical neutrality by adding ions to balance the net charge. For molecular modelers working with coarse-grained (CG) systems, this process can be daunting. Fortunately, SAMSON’s GROMACS Wizard…