Abstract
BackgroundGenotype-phenotype maps provide a meaningful filtration of sequence space and RNA secondary structures are particular such phenotypes. Compatible sequences, which satisfy the base-pairing constraints of a given RNA structure, play an important role in the context of neutral evolution. Sequences that are simultaneously compatible with two given structures (bicompatible sequences), are beacons in phenotypic transitions, induced by erroneously replicating populations of RNA sequences. RNA riboswitches, which are capable of expressing two distinct secondary structures without changing the underlying sequence, are one example of bicompatible sequences in living organisms.ResultsWe present a full loop energy model Boltzmann sampler of bicompatible sequences for pairs of structures. The sequence sampler employs a dynamic programming routine whose time complexity is polynomial when assuming the maximum number of exposed vertices, kappa , is a constant. The parameter kappa depends on the two structures and can be very large. We introduce a novel topological framework encapsulating the relations between loops that sheds light on the understanding of kappa . Based on this framework, we give an algorithm to sample sequences with minimum kappa on a particular topologically classified case as well as giving hints to the solution in the other cases. As a result, we utilize our sequence sampler to study some established riboswitches.ConclusionOur analysis of riboswitch sequences shows that a pair of structures needs to satisfy key properties in order to facilitate phenotypic transitions and that pairs of random structures are unlikely to do so. Our analysis observes a distinct signature of riboswitch sequences, suggesting a new criterion for identifying native sequences and sequences subjected to evolutionary pressure. Our free software is available at: https://github.com/FenixHuang667/Bifold.
Highlights
Genotype-phenotype maps provide a meaningful filtration of sequence space and RNA secondary structures are particular such phenotypes
We are interested in RNA riboswitches, a small segment of an mRNA molecule that regulates mRNA translation and can express two alternative secondary structures
We show that for the two alternative structures of a riboswitch, the energy spectra of compatible sequences with either one structure is similar to the sequences that are bicompatible, i.e. compatible with both structures
Summary
Genotype-phenotype maps provide a meaningful filtration of sequence space and RNA secondary structures are particular such phenotypes. Sequences that are simultaneously compatible with two given structures (bicompatible sequences), are beacons in phenotypic transitions, induced by erroneously replicating populations of RNA sequences. RNA riboswitches, which are capable of expressing two distinct secondary structures without changing the underlying sequence, are one example of bicompatible sequences in living organisms. Bicompatible sequences in evolution RNA evolution has been studied extensively in the framework of theoretical evolutionary optimization, center staging the genotype-phenotype mapping from RNA sequences to their structures [1,2,3,4,5,6,7]. We are interested in RNA riboswitches, a small segment of an mRNA molecule that regulates mRNA translation and can express two alternative secondary structures. In the following we restrict our analysis to pseudoknot-free secondary structures
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