Characterizing RNA-protein interactions remains an important endeavor, complicated by the difficulty in obtaining the relevant structures. Evaluating model structures via statistical potentials is in principle straight-forward and effective. However, given the relatively small size of the existing learning set of RNA-protein complexes optimization of such potentials continues to be problematic. Notably, interaction-based statistical potentials have problems in addressing large RNA-protein complexes. In this study, we adopted a novel strategy with covariance matrix adaptation (CMA-ES) to calculate statistical potentials, successfully identifying native docking poses
Abstract Background Protein-RNA interactions play fundamental roles in many biological processes. Un...
Understanding how RNAs interact with proteins, RNAs, or other molecules remains a challenge of main ...
Motivation: It has been proven that the accessibility of the target sites has a critical influence o...
Characterizing RNA-protein interactions remains an important endeavor, complicated by the difficulty...
RNA-protein interactions are important in a wide variety of cellular and developmental processes. Re...
The past decade has witnessed an era of RNA biology; despite the considerable discoveries nowadays, ...
Computational methods are increasingly important to help to predict and characterize protein interac...
The biological function of macromolecules, such as proteins and nucleic acids, relies heavily on the...
RNA-protein interactions are vital to many biological processes such as translation and splicing. An...
This project analyzed the base and amino acid interactions and annotations through the use of unsupe...
The biodiversity of the RNA world has been underestimated for decades. RNA molecules are key buildin...
Computational modeling of RNA-protein interactions remains an important endeavor. However, exclusive...
State-of-the-art methods for predicting novel trans RNA-RNA interactions use the so-called accessibi...
SummaryRNA-protein (RNP) interactions generally are required for RNA function. At least 5% of human ...
RNA is the key player in many cellular processes such as signal transduction, replication, transport...
Abstract Background Protein-RNA interactions play fundamental roles in many biological processes. Un...
Understanding how RNAs interact with proteins, RNAs, or other molecules remains a challenge of main ...
Motivation: It has been proven that the accessibility of the target sites has a critical influence o...
Characterizing RNA-protein interactions remains an important endeavor, complicated by the difficulty...
RNA-protein interactions are important in a wide variety of cellular and developmental processes. Re...
The past decade has witnessed an era of RNA biology; despite the considerable discoveries nowadays, ...
Computational methods are increasingly important to help to predict and characterize protein interac...
The biological function of macromolecules, such as proteins and nucleic acids, relies heavily on the...
RNA-protein interactions are vital to many biological processes such as translation and splicing. An...
This project analyzed the base and amino acid interactions and annotations through the use of unsupe...
The biodiversity of the RNA world has been underestimated for decades. RNA molecules are key buildin...
Computational modeling of RNA-protein interactions remains an important endeavor. However, exclusive...
State-of-the-art methods for predicting novel trans RNA-RNA interactions use the so-called accessibi...
SummaryRNA-protein (RNP) interactions generally are required for RNA function. At least 5% of human ...
RNA is the key player in many cellular processes such as signal transduction, replication, transport...
Abstract Background Protein-RNA interactions play fundamental roles in many biological processes. Un...
Understanding how RNAs interact with proteins, RNAs, or other molecules remains a challenge of main ...
Motivation: It has been proven that the accessibility of the target sites has a critical influence o...