The energy landscape of RNA is known to be extremely rugged, and hence finding low-energy structures starting from a random structure is a challenging task for any optimization algorithm. In the current work, we have investigated the ability of one Monte Carlo–based optimization algorithm, Temperature Basin Paving, to explore the energy landscape of a small RNA T-loop hairpin. In this method, the history of the simulation is used to increase the probability of states less visited in the simulation. It has been found that using both energy and end-to-end distance as the biasing parameters in the simulation, the partially folded structure of the hairpin starting from random structures could be obtained. [Shanker S and Bandyopadhyay P 2012 Det...
There is little experimental knowledge on the sequence dependent rate of hairpin formation in RNA. W...
Motivation: We study a stochastic method for approximating the set of local minima in partial RNA fo...
We report a set of atomistic folding/unfolding simulations for the hairpin ribozyme using a monte ca...
The analysis of energy landscapes plays an important role in mathematical modelling, simulation and ...
Identifying sets of metastable conformations is a major research topic in RNA energy landscape analy...
Identifying sets of metastable conformations is a major research topic in RNA energy landscape analy...
Motivation: We study a stochastic method for approximating the set of local minima in partial RNA fo...
©2001 American Institute of PhysicsThe electronic version of this article is the complete one and ca...
We present McGenus, an algorithm to predict RNA secondary structures with pseudoknots. The method is...
<div><p>The knowledge of the tertiary structure of RNA loops is important for understanding their fu...
The folding of a small RNA tetraloop hairpin is studied based on intensive molecular dynamics simula...
Motivation: A k-point mutant of a given RNA sequence s = s1; : : : ; sn is an RNA sequence s0 = s01;...
We present McGenus, an algorithm to predict RNA secondary structures with pseudoknots. The method is...
RNA molecules play important roles, including catalysis of chemical reactions and control of gene ex...
Abstract. Accurate prediction of pseudoknotted RNA secondary structure is an important computational...
There is little experimental knowledge on the sequence dependent rate of hairpin formation in RNA. W...
Motivation: We study a stochastic method for approximating the set of local minima in partial RNA fo...
We report a set of atomistic folding/unfolding simulations for the hairpin ribozyme using a monte ca...
The analysis of energy landscapes plays an important role in mathematical modelling, simulation and ...
Identifying sets of metastable conformations is a major research topic in RNA energy landscape analy...
Identifying sets of metastable conformations is a major research topic in RNA energy landscape analy...
Motivation: We study a stochastic method for approximating the set of local minima in partial RNA fo...
©2001 American Institute of PhysicsThe electronic version of this article is the complete one and ca...
We present McGenus, an algorithm to predict RNA secondary structures with pseudoknots. The method is...
<div><p>The knowledge of the tertiary structure of RNA loops is important for understanding their fu...
The folding of a small RNA tetraloop hairpin is studied based on intensive molecular dynamics simula...
Motivation: A k-point mutant of a given RNA sequence s = s1; : : : ; sn is an RNA sequence s0 = s01;...
We present McGenus, an algorithm to predict RNA secondary structures with pseudoknots. The method is...
RNA molecules play important roles, including catalysis of chemical reactions and control of gene ex...
Abstract. Accurate prediction of pseudoknotted RNA secondary structure is an important computational...
There is little experimental knowledge on the sequence dependent rate of hairpin formation in RNA. W...
Motivation: We study a stochastic method for approximating the set of local minima in partial RNA fo...
We report a set of atomistic folding/unfolding simulations for the hairpin ribozyme using a monte ca...