# ROMEO: A Plug-and-play Software Platform of Robotics-inspired Algorithms   for Modeling Biomolecular Structures and Motions

**Authors:** Kevin Molloy, Erion Plaku, and Amarda Shehu

arXiv: 1905.08331 · 2019-05-22

## TL;DR

ROMEO is an open-source, modular software platform that adapts robotics-inspired algorithms to model protein structures and motions, enhancing exploration capabilities in biomolecular research.

## Contribution

It introduces a flexible, plug-and-play framework for applying robotics algorithms to protein modeling, promoting reproducibility and novel algorithm development.

## Key findings

- Facilitates modeling of protein structures and motions.
- Supports reproducibility of robotics-inspired algorithms.
- Enables novel algorithmic design in biomolecular modeling.

## Abstract

Motivation: Due to the central role of protein structure in molecular recognition, great computational efforts are devoted to modeling protein structures and motions that mediate structural rearrangements. The size, dimensionality, and non-linearity of the protein structure space present outstanding challenges. Such challenges also arise in robot motion planning, and robotics-inspired treatments of protein structure and motion are increasingly showing high exploration capability. Encouraged by such findings, we debut here ROMEO, which stands for Robotics prOtein Motion ExplOration framework. ROMEO is an open-source, object-oriented platform that allows researchers access to and reproducibility of published robotics-inspired algorithms for modeling protein structures and motions, as well as facilitates novel algorithmic design via its plug-and-play architecture.   Availability and implementation: ROMEO is written in C++ and is available in GitLab (https://github.com/). This software is freely available under the Creative Commons license (Attribution and Non-Commercial).   Contact: amarda@gmu.edu

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/1905.08331/full.md

## References

18 references — full list in the complete paper: https://tomesphere.com/paper/1905.08331/full.md

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Source: https://tomesphere.com/paper/1905.08331