A necessary step to properly assess and validate the performance of force fields for biomolecules is to exhaustively sample the accessible conformational space, which is challenging for large RNA structures. Given questions regarding the reliability of modeling RNA structure and dynamics with current methods, we have begun to use RNA tetranucleotides to evaluate force fields. These systems, though small, display considerable conformational variability and complete sampling with standard simulation methods remains challenging. Here we compare and discuss the performance of known variations of replica exchange molecular dynamics (REMD) methods, specifically temperature REMD (T-REMD), Hamiltonian REMD (H-REMD), and multidimensional REMD (M-REM...
5Abstract We have developed a multiscale approach for RNA folding using dis-6crete molecular dynamic...
In this article, we present a method for the enhanced molecular dynamics simulation of protein and D...
ABSTRACT: The computational study of conformational transitions in RNA and proteins with atomistic m...
Molecular dynamics force field development and assessment requires a reliable means for obtaining a ...
The computational study of conformational transitions in nucleic acids still faces many challenges. ...
We compare the performance of two different RNA force fields in four water models in simulating the ...
ABSTRACT: Many problems studied via molecular dynamics require accurate estimates of various thermod...
RNA structure and dynamics play a fundamental role in many cellular processes such as gene expressio...
Atomistic molecular dynamics simulations represent an established technique for investigation of RNA...
RNA molecules are key players in numerous cellular processes and are characterized by a complex rela...
Many problems studied via molecular dynamics require accurate estimates of various thermodynamic pro...
Recent computational efforts have shown that the current potential energy models used in molecular d...
RNA function is intimately related to its structural dynamics. Molecular dynamics simulations are us...
Far from the static, idealized conformations deposited into structural databases, proteins are highl...
Limited searching in the conformational space is one of the major obstacles for investigating protei...
5Abstract We have developed a multiscale approach for RNA folding using dis-6crete molecular dynamic...
In this article, we present a method for the enhanced molecular dynamics simulation of protein and D...
ABSTRACT: The computational study of conformational transitions in RNA and proteins with atomistic m...
Molecular dynamics force field development and assessment requires a reliable means for obtaining a ...
The computational study of conformational transitions in nucleic acids still faces many challenges. ...
We compare the performance of two different RNA force fields in four water models in simulating the ...
ABSTRACT: Many problems studied via molecular dynamics require accurate estimates of various thermod...
RNA structure and dynamics play a fundamental role in many cellular processes such as gene expressio...
Atomistic molecular dynamics simulations represent an established technique for investigation of RNA...
RNA molecules are key players in numerous cellular processes and are characterized by a complex rela...
Many problems studied via molecular dynamics require accurate estimates of various thermodynamic pro...
Recent computational efforts have shown that the current potential energy models used in molecular d...
RNA function is intimately related to its structural dynamics. Molecular dynamics simulations are us...
Far from the static, idealized conformations deposited into structural databases, proteins are highl...
Limited searching in the conformational space is one of the major obstacles for investigating protei...
5Abstract We have developed a multiscale approach for RNA folding using dis-6crete molecular dynamic...
In this article, we present a method for the enhanced molecular dynamics simulation of protein and D...
ABSTRACT: The computational study of conformational transitions in RNA and proteins with atomistic m...