RNA inverse folding can be solved in linear time for structures without isolated stacks or base pairs - Département d'informatique
Pré-Publication, Document De Travail (Preprint/Prepublication) Année : 2024

RNA inverse folding can be solved in linear time for structures without isolated stacks or base pairs

Résumé

Inverse folding is a classic instance of negative RNA design which consists in finding a sequence that uniquely folds into a target secondary structure with respect to energy minimization. A breakthrough result of Bonnet et al. shows that, even in simple base pairs-based (BP) models, the decision version of a mildly constrained version of inverse folding is NP-hard. In this work, we show that inverse folding can be solved in linear time for a large collection of targets, including every structure that contains no isolated BP and no isolated stack (or, equivalently, when all helices consist of 3 + base pairs). For structures featuring shorter helices, our linear algorithm is no longer guaranteed to produce a solution, but still does so for a large proportion of instances. Our approach introduces a notion of modulo m-separability, generalizing a property pioneered by Hales et al. Separability is a sufficient condition for the existence of a solution to the inverse folding problem. We show that, for any input secondary structure of length n, a modulo m-separated sequence can be produced in time O(n m 2 m ) anytime such a sequence exists. Meanwhile, we show that any structure consisting of 3 + base pairs is either trivially non-designable, or always admits a modulo-2 separated solution. Solution sequences can thus be produced in linear time, and even be uniformly generated within the set of modulo-2 separable sequences.

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Dates et versions

hal-04761629 , version 1 (31-10-2024)

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  • HAL Id : hal-04761629 , version 1

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Théo Boury, Laurent Bulteau, Yann Ponty. RNA inverse folding can be solved in linear time for structures without isolated stacks or base pairs. 2024. ⟨hal-04761629⟩
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