Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
AlphaFold-Metainference: Prediction of Structural Ensembles of Disordered Proteins
View through CrossRef
Abstract
Deep learning methods of predicting protein structures have reached an accuracy comparable to that of high-resolution experimental methods. It is thus possible to generate accurate models of the native states of hundreds of millions of proteins. An open question, however, concerns whether these advances can be translated to disordered proteins, which should be represented as structural ensembles because of their heterogeneous and dynamical nature. To address this problem, we introduce the AlphaFold-Metainference method to use AlphaFold-derived distances as structural restraints in molecular dynamics simulations to construct structural ensembles of ordered and disordered proteins. The results obtained using AlphaFold-Metainference illustrate the possibility of making predictions of the conformational properties of disordered proteins using deep learning methods trained on the large structural databases available for folded proteins.
Title: AlphaFold-Metainference: Prediction of Structural Ensembles of Disordered Proteins
Description:
Abstract
Deep learning methods of predicting protein structures have reached an accuracy comparable to that of high-resolution experimental methods.
It is thus possible to generate accurate models of the native states of hundreds of millions of proteins.
An open question, however, concerns whether these advances can be translated to disordered proteins, which should be represented as structural ensembles because of their heterogeneous and dynamical nature.
To address this problem, we introduce the AlphaFold-Metainference method to use AlphaFold-derived distances as structural restraints in molecular dynamics simulations to construct structural ensembles of ordered and disordered proteins.
The results obtained using AlphaFold-Metainference illustrate the possibility of making predictions of the conformational properties of disordered proteins using deep learning methods trained on the large structural databases available for folded proteins.
Related Results
Ensembles of ensembles of ensembles: On using low-dimensional nonlinear systems to design climate prediction experiments
Ensembles of ensembles of ensembles: On using low-dimensional nonlinear systems to design climate prediction experiments
<p>The challenges of climate prediction are varied and complex. On the one hand they include conceptual and mathematical questions relating to the consequences of mod...
Transferable deep generative modeling of intrinsically disordered protein conformations
Transferable deep generative modeling of intrinsically disordered protein conformations
ABSTRACT
Intrinsically disordered proteins have dynamic structures through which they play key biological roles. The elucidation of their conformational ensembles i...
Assessment of AlphaFold structures and optimization methods for virtual screening
Assessment of AlphaFold structures and optimization methods for virtual screening
Abstract
Recent advancements in artificial intelligence such as AlphaFold, have enabled more accurate prediction of protein three-dimensional structure from amino a...
AlphaFold Prediction of Structural Ensembles of Disordered Proteins
AlphaFold Prediction of Structural Ensembles of Disordered Proteins
Abstract
Deep learning methods of predicting protein structures have reached an accuracy comparable to that of high-resolution experimental methods. It is thus possible to ...
Comparing Population-General and Sport-Specific Correlates of Disordered Eating Amongst Elite Athletes: A Cross-Sectional Study
Comparing Population-General and Sport-Specific Correlates of Disordered Eating Amongst Elite Athletes: A Cross-Sectional Study
Abstract
Background
Despite the high prevalence of disordered eating and eating disorders amongst elite athletes, it remains unclear whether risk fa...
AlphaFold Prediction of Structural Ensembles of Disordered Proteins
AlphaFold Prediction of Structural Ensembles of Disordered Proteins
Abstract
Deep learning methods of predicting protein structures have reached an accuracy comparable to that of high-resolution experimental methods. It is thus poss...
Form Follows Force: A theoretical framework for Structural Morphology, and Form-Finding research on shell structures
Form Follows Force: A theoretical framework for Structural Morphology, and Form-Finding research on shell structures
The springing up of freeform architecture and structures introduces many challenges to structural engineers. The main challenge is to generate structural forms with high structural...
Bifix codes, Combinatorics on Words and Symbolic Dynamical Systems
Bifix codes, Combinatorics on Words and Symbolic Dynamical Systems
Codes bifixes, combinatoire des mots et systèmes dynamiques symboliques
L'étude des ensembles de mots complexité linéaire joue un rôle très important dans la théori...