Using the Fast Fourier Transform to Accelerate the Computational Search for RNA Conformational Switches

Evan Senter; Saad Sheikh; Ivan Dotu; Yann Ponty; Peter Clote

doi:10.1371/journal.pone.0050506

Using the Fast Fourier Transform to Accelerate the Computational Search for RNA Conformational Switches

Evan Senter
, Saad Sheikh
, Ivan Dotu
, Yann Ponty
, Peter Clote

Boston College
University of Florida

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Using complex roots of unity and the Fast Fourier Transform, we design a new thermodynamics-based algorithm, FFTbor, that computes the Boltzmann probability that secondary structures differ by k base pairs from an arbitrary initial structure of a given RNA sequence. The algorithm, which runs in quartic time O(n⁴) and quadratic space O(n²), is used to determine the correlation between kinetic folding speed and the ruggedness of the energy landscape, and to predict the location of riboswitch expression platform candidates. A web server is available at http://bioinformatics.bc.edu/clotelab/FFTbor/.

langue originale	Anglais
Numéro d'article	e50506
journal	PLoS ONE
Volume	7
Numéro de publication	12
Les DOIs	https://doi.org/10.1371/journal.pone.0050506
état	Publié - 19 déc. 2012

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10.1371/journal.pone.0050506

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abstract = "Using complex roots of unity and the Fast Fourier Transform, we design a new thermodynamics-based algorithm, FFTbor, that computes the Boltzmann probability that secondary structures differ by k base pairs from an arbitrary initial structure of a given RNA sequence. The algorithm, which runs in quartic time O(n4) and quadratic space O(n2), is used to determine the correlation between kinetic folding speed and the ruggedness of the energy landscape, and to predict the location of riboswitch expression platform candidates. A web server is available at http://bioinformatics.bc.edu/clotelab/FFTbor/.",

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AB - Using complex roots of unity and the Fast Fourier Transform, we design a new thermodynamics-based algorithm, FFTbor, that computes the Boltzmann probability that secondary structures differ by k base pairs from an arbitrary initial structure of a given RNA sequence. The algorithm, which runs in quartic time O(n4) and quadratic space O(n2), is used to determine the correlation between kinetic folding speed and the ruggedness of the energy landscape, and to predict the location of riboswitch expression platform candidates. A web server is available at http://bioinformatics.bc.edu/clotelab/FFTbor/.

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Using the Fast Fourier Transform to Accelerate the Computational Search for RNA Conformational Switches

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