Funder: Winton Programme for the Physics of SustainabilityFunder: Gates Cambridge Trust; Id: http://dx.doi.org/10.13039/501100005370Genotype-phenotype maps link genetic changes to their fitness effect and are thus an essential component of evolutionary models. The map between RNA sequences and their secondary structures is a key example and has applications in functional RNA evolution. For this map, the structural effect of substitutions is well understood, but models usually assume a constant sequence length and do not consider insertions or deletions. Here, we expand the sequence-structure map to include single nucleotide insertions and deletions by using the RNAshapes concept. To quantify the structural effect of insertions and deletions...
Biological information is stored in DNA, RNA and protein sequences, which can be understood as genot...
The goal of this work was to study mutational patterns in the evolution of RNA secondary structure. ...
RNA has a myriad of biological roles in contemporary life. We use the RNA paradigm for genotype-phen...
The genotype-phenotype (GP) map of RNA secondary structure connects RNA sequences and the correspond...
Abstract RNA has a myriad of biological roles in con-temporary life. We use the RNA paradigm for gen...
There is growing evidence that interactions between biological molecules (e.g., RNA-RNA, protein-pro...
textMutation is a fundamental process in evolution because affects the amount of genetic variation i...
Understanding which phenotypes are accessible from which genotypes is fundamental for understanding ...
RNA secondary structure folding algorithms predict the existence of connected networks of RNA sequen...
Here we present a model of nucleotide substitution in protein-coding regions that also encode the fo...
Background. The secondary structure of folded RNA sequences is a good model to map phenotype onto ge...
Novel phenotypes can originate either through mutations in existing genotypes or through phenotypic ...
AbstractNovel phenotypes can originate either through mutations in existing genotypes or through phe...
Biological information is stored in DNA, RNA and protein sequences, which can be understood as genot...
Many properties of organisms show great robustness against mutations. Whether this robustness is an ...
Biological information is stored in DNA, RNA and protein sequences, which can be understood as genot...
The goal of this work was to study mutational patterns in the evolution of RNA secondary structure. ...
RNA has a myriad of biological roles in contemporary life. We use the RNA paradigm for genotype-phen...
The genotype-phenotype (GP) map of RNA secondary structure connects RNA sequences and the correspond...
Abstract RNA has a myriad of biological roles in con-temporary life. We use the RNA paradigm for gen...
There is growing evidence that interactions between biological molecules (e.g., RNA-RNA, protein-pro...
textMutation is a fundamental process in evolution because affects the amount of genetic variation i...
Understanding which phenotypes are accessible from which genotypes is fundamental for understanding ...
RNA secondary structure folding algorithms predict the existence of connected networks of RNA sequen...
Here we present a model of nucleotide substitution in protein-coding regions that also encode the fo...
Background. The secondary structure of folded RNA sequences is a good model to map phenotype onto ge...
Novel phenotypes can originate either through mutations in existing genotypes or through phenotypic ...
AbstractNovel phenotypes can originate either through mutations in existing genotypes or through phe...
Biological information is stored in DNA, RNA and protein sequences, which can be understood as genot...
Many properties of organisms show great robustness against mutations. Whether this robustness is an ...
Biological information is stored in DNA, RNA and protein sequences, which can be understood as genot...
The goal of this work was to study mutational patterns in the evolution of RNA secondary structure. ...
RNA has a myriad of biological roles in contemporary life. We use the RNA paradigm for genotype-phen...