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A continuous analog for RNA folding

✍ Scribed by Vincent Ferretti; David Sankoff

Publisher: Springer
Year: 1989
Tongue: English
Weight: 233 KB
Volume: 51
Category: Article
ISSN: 1522-9602
DOI: 10.1016/s0092-8240(89)80054-0

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✦ Synopsis

A linear segment in which a number of pairs of intervals of equal length are identified as potential stems is the subject of a folding problem analogous to inference of RNA secondary structure. A quantity of free energy (or equivalently, energy per unit length) is associated with each stem, and the various types of loops are assigned energy costs as a function of their lengths. Inference of stable structures can then be carried out in the same way as in RNA folding. More important, perturbation of stem lengths and energy densities (modelling various mutational processes affecting nucleotide sequences) allows the delineation of domains of stability of various foldings, through the explicit calculation of their boundaries, in a low-dimensional parameter space.

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