2025 Hyper Recent •CC0 1.0 Universal

This work is dedicated to the public domain. No rights reserved.

Access Preprint From Server
May 8th, 2025
Version: 2
Université Paris Cité
biophysics
biorxiv

Simulated Solute Tempering 2

Stratmann, D.Open in Google Scholar•Moroy, G.Open in Google Scholar•Tuffery, P.Open in Google Scholar•Murail, S.Open in Google Scholar

Molecular dynamics (MD) simulations are powerful tools for studying the movement and interactions of molecules, but they can be computationally expensive, especially for large biomolecules like proteins. This is problematic because accurately simulating the motions of these molecules is key to understanding their function. Enhanced sampling methods, such as Simulated Tempering (ST), temperature Replica Exchange Molecular Dynamics (REMD) and Replica Exchange with Solute Tempering (REST and REST2), have been developed to overcome this challenge by improving the efficiency of MD simulations. This article presents a new enhanced sampling method called Simulated Solute Tempering 2 (SST2) that builds upon the strengths of ST and REST2. SST2 selectively scales the interactions inside a biomolecule and with its surrounding environment, effectively accelerating the exploration of its different structural states and their stability at various temperatures. SST2 was tested on three different systems (chignolin CLN025, Trp-Cage, and a protein-peptide complex, p97/PNGase) and found to achieve comparable or superior sampling efficiency to ST, SST1 and REST2 while requiring fewer temperature rungs. Notably, SST2 is particularly well-suited for investigating large biomolecular systems, making it a valuable tool for studying a wide range of biomolecular processes, from protein folding to ligand binding.

Similar Papers

biorxiv
Fri May 09 2025
Structural basis for membrane microdomain formation by a human Stomatin complex
Biological membranes are not just passive barriers-they actively sense and respond to mechanical forces, in part through specialized proteins embedded within them. Among these are Stomatin-family proteins, which are known to influence membrane stiffness and regulate ion channels, yet how they achieve these functions at the molecular level has remained elusive. Here, we report the 2.2 angstrom cryo...
Fu, Z.
•
Stonger, J.
•
Li, S.
biorxiv
Fri May 09 2025
Molecular mechanism of exchange coupling in CLC chloride/proton antiporters
The ubiquitous CLC membrane transporters are unique in their ability to exchange anions for cations. Despite extensive study, there is no mechanistic model that fully explains their 2:1 Cl-/H+ stoichiometric exchange mechanism. Here, we provide such a model. Using differential hydrogen-deuterium exchange mass spectrometry, cryo-EM structure determination, and molecular dynamics simulations, we unc...
Aydin, D.
•
Chien, C.-T.
•
Kreiter, J.
•
Nava, A.
...•
Maduke, M.
biorxiv
Fri May 09 2025
Myelin Mapping in the Human Brain Using an Empirical Extension of the Ridge Regression Theorem
Myelin water fraction (MWF) mapping in the central nervous system is a topic of intense research activity. One framework for this requires parameter estimation from a decaying biexponential signal. However, this is often an ill-posed nonlinear problem resulting in unreliable parameter estimates. For linear least-squares (LLS) problems, the ridge regression theorem (RRT) shows that a Tikhonov regul...
Hampton, G. S.
•
Neff, R.
•
Song, Z.
•
Bouhrara, M.
...•
Spencer, R. G.
biorxiv
Fri May 09 2025
Wide-field fluorescence lifetime imaging of single molecules with a gated single-photon camera
Fluorescence lifetime imaging microscopy (FLIM) is a powerful tool to discriminate fluorescent molecules or probe their nanoscale environment. Traditionally, FLIM uses time-correlated single-photon counting (TCSPC), which is precise but intrinsically low-throughput due to its dependence on point detectors. Although time-gated cameras have demonstrated the potential for high-throughput FLIM in brig...
Ronceray, N.
•
Bennani, S.
•
Mitsioni, M. F.
•
Siegel, N.
...•
Radenovic, A.
biorxiv
Fri May 09 2025
TS2CG as a membrane builder
Molecular dynamics (MD) simulations excel at capturing biological processes at the molecular scale but rely on a well-defined initial structure. As MD simulations now extend to whole-cell-level modeling, new tools are needed to efficiently build initial structures. Here, we introduce TS2CG version 2, designed to construct coarse-grained membrane structures with any desired shape and lateral organi...
Schuhmann, F.
•
Stevens, J. A.
•
Rahmani, N.
•
Lindahl, I.
...•
Pezeshkian, W.
biorxiv
Fri May 09 2025
Generating 3D Models of Carbohydrates with GLYCAM-Web
The carbohydrate 3D structure-prediction tools (builders) at GLYCAM-Web (glycam.org) are widely used for generating experimentally-consistent 3D structures of oligosaccharides suitable for data interpretation, hypothesis generation, simple visualization, and subsequent molecular dynamics (MD) simulation. The graphical user interface (GUI) enables users to create carbohydrate sequences (e.g. DGalpb...
Grant, O. C.
•
Wentworth, D.
•
Holmes, S. G.
•
Kandel, R.
...•
Woods, R. J.
biorxiv
Fri May 09 2025
In silico discovery of compounds targeting NPSL2: a regulatory element in the human oncomiR-1 primary microRNA.
NPSL2 is a stem loop element within the oncomiR-1 polycistronic primary microRNA (miRNA) cluster. NPSL2 is predicted to mediate conformational rearrangements within oncomiR-1 to regulate the biogenesis of certain miRNA elements within the cluster. The regulatory role of NPSL2 makes it a promising target for small molecule ligands, which we explored through structure-based small molecule ligand dis...
Arhin, G.
•
Keane, S. C.
biorxiv
Fri May 09 2025
Single-molecule Mechanostructural Fingerprinting of Nucleic Acid Conformations
Understanding the three-dimensional structure and mechanical response of biomolecules is key to uncovering their molecular mechanisms, particularly in contexts where force plays a regulatory role. Structural methods such as X-ray crystallography, cryo-electron microscopy, and NMR spectroscopy provide high-resolution conformational data, while single-molecule force spectroscopy reveals mechanical p...
Shrestha, P.
•
Shih, W.
•
Wong, W.
biorxiv
Fri May 09 2025
Comparing PAS domain coupled intrinsic dynamics in bHLH PAS domain transcription factor complexes
The basic Helix-Loop-Helix-Per-Arnt-Sim (bHLH-PAS) transcription factors (TFs) are regulators of several critical cellular functions such as circadian rhythm, hypoxia response and neuronal development. These proteins contain tandemly repeated PAS domains that mediate heterodimer formation. While PAS domains adopt a conserved fold, recent studies suggest that their interaction interfaces differ dis...
Sudarsanam, K.
•
Srivastava, A.
•
Tiwari, S. P.
biorxiv
Fri May 09 2025
Micron-scale, liquid-liquid phase separation in ternary lipid membranes containing DPPE
Micron-scale, liquid-liquid phase separation occurs in membranes of living cells, with physiological consequences. To discover which lipids might support phase separation in cell membranes and how lipids might partition between phases, miscibility phase diagrams have been mapped for model membranes. Typically, model membranes are composed of ternary mixtures of a lipid with a high melting temperat...
Goetz, G. J.
•
Naomi, S.
•
Madrigal, A. M.
•
Chang, C. L. A.
...•
Keller, S. L.