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SAXS-Oriented Ensemble Refinement of Flexible Biomolecules.


ABSTRACT: The conformational flexibility of a biomolecule may play a crucial role in its biological function. Small-angle x-ray scattering (SAXS) is a very popular technique for characterizing biomolecule flexibility. It can be used to determine a possible structural ensemble of the biomolecule in solution with the aid of a computer simulation. In this article, we present a tool written in Python, which iteratively runs multiple independent enhanced sampling simulations such as amplified collective motions and accelerated molecular dynamics, and an ensemble optimization method to drive the biomolecule toward an ensemble that fits the SAXS data well. The tool has been validated with a protein and an RNA system, i.e., the tandem WW domains of formin-binding protein 21 and the aptamer domain of SAM-1 riboswitch, respectively. These Python scripts are user-friendly and can be easily modified if a different simulation engine is preferred.

SUBMITTER: Cheng P 

PROVIDER: S-EPMC5389961 | biostudies-literature | 2017 Apr

REPOSITORIES: biostudies-literature

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SAXS-Oriented Ensemble Refinement of Flexible Biomolecules.

Cheng Peng P   Peng Junhui J   Zhang Zhiyong Z  

Biophysical journal 20170401 7


The conformational flexibility of a biomolecule may play a crucial role in its biological function. Small-angle x-ray scattering (SAXS) is a very popular technique for characterizing biomolecule flexibility. It can be used to determine a possible structural ensemble of the biomolecule in solution with the aid of a computer simulation. In this article, we present a tool written in Python, which iteratively runs multiple independent enhanced sampling simulations such as amplified collective motion  ...[more]

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