Efficient Computation of Base-pairing Probabilities in Multi-strand RNA Folding

Ronny Lorenz; Christoph Flamm; Ivo L. Hofacker; Ivo L. Hofacker; Peter F. Stadler; Peter F. Stadler; Peter F. Stadler; Peter F. Stadler; Peter F. Stadler

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Paper

Efficient Computation of Base-pairing Probabilities in Multi-strand RNA Folding

Topics: Structural Bioinformatics

In Proceedings of the 13th International Joint Conference on Biomedical Engineering Systems and Technologies - Volume 3: BIOSTEC, 23-31, 2020 , Valletta, Malta

Authors: Ronny Lorenz ¹ ; Christoph Flamm ¹ ; Ivo L. Hofacker ^{1

;

2} and Peter F. Stadler ^{1

;

3

;

4

;

5

;

6}

Affiliations: ¹ Institute for Theoretical Chemistry, University of Vienna, Währingerstraße 17, A-1090 Wien, Austria ; ² Bioinformatics and Computational Biology, Faculty of Computer Science, University of Vienna, Währingerstraße 29, A-1090 Wien, Austria ; ³ Bioinformatics Group, Department of Computer Science, Interdisciplinary Center for Bioinformatics, and Competence Center for Scalable Data Services and Solutions Dresden/Leipzig, Universität Leipzig Härtelstraße 16-18, D-04107 Leipzig, Germany ; ⁴ Max Planck Institute for Mathematics in the Sciences, Inselstraße 22, D-04103 Leipzig, Germany ; ⁵ Facultad de Ciencias, Universidad National de Colombia, Sede Bogotá, Colombia ; ⁶ Santa Fe Institute, 1399 Hyde Park Road, Santa Fe NM 87501, U.S.A.

Keyword(s): RNA Folding, Interacting RNAs, Partition Function, Outside Recursion, Cubic-time Algorithm.

Abstract: RNA folding algorithms, including McCaskill’s partition function algorithm for computing base pairing probabilities, can be extended to N ≥ 2 interacting strands by considering all permutations π of the N strands. For each π, the inside dynamic programming recursion for connected structures needs to be extended by only a single extra case corresponding to a base pair connecting exactly two connected substructures. This leaves the cubic running time unchanged. A straightforward implementation of the corresponding outside recursion, however results in a quartic algorithm. We show here how cubic running time asymptotically equal to McCaskill’s partition function algorithm can be achieved by introducing linear-size auxiliary arrays. The algorithm is implemented within the framework of the ViennaRNA package and conforms to the theoretical performance bounds.

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Paper citation in several formats:

Lorenz, R.; Flamm, C.; Hofacker, I. and Stadler, P. (2020). Efficient Computation of Base-pairing Probabilities in Multi-strand RNA Folding. In Proceedings of the 13th International Joint Conference on Biomedical Engineering Systems and Technologies (BIOSTEC 2020) - BIOINFORMATICS; ISBN 978-989-758-398-8; ISSN 2184-4305, SciTePress, pages 23-31. DOI: 10.5220/0008916600230031

@conference{bioinformatics20,
author={Ronny Lorenz. and Christoph Flamm. and Ivo L. Hofacker. and Peter F. Stadler.},
title={Efficient Computation of Base-pairing Probabilities in Multi-strand RNA Folding},
booktitle={Proceedings of the 13th International Joint Conference on Biomedical Engineering Systems and Technologies (BIOSTEC 2020) - BIOINFORMATICS},
year={2020},
pages={23-31},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0008916600230031},
isbn={978-989-758-398-8},
issn={2184-4305},
}

TY - CONF

JO - Proceedings of the 13th International Joint Conference on Biomedical Engineering Systems and Technologies (BIOSTEC 2020) - BIOINFORMATICS
TI - Efficient Computation of Base-pairing Probabilities in Multi-strand RNA Folding
SN - 978-989-758-398-8
IS - 2184-4305
AU - Lorenz, R.
AU - Flamm, C.
AU - Hofacker, I.
AU - Stadler, P.
PY - 2020
SP - 23
EP - 31
DO - 10.5220/0008916600230031
PB - SciTePress