Add to ORKGAll pairwise interactions occurring between bases which could be detected in three-dimensional struc-tures of crystallized RNA molecules are annotated on new planar diagrams. The diagrams attempt to map the underlying complex networks of base–base interactions and, especially, they aim at conveying key relationships between helical domains: co-axial stacking, bending and all Watson–Crick as well as non-Watson–Crick base pairs. Although such wiring diagrams cannot replace full stereographic images for correct spatial understanding and representa-tion, they reveal structural similarities as well as the conserved patterns and distances between motifs which are present within the interaction networks of folded RNAs of similar or unrelated funct...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
RNA secondary structures can be divided into helical regions composed of canonical Watson-Crick and ...
All pairwise interactions occurring between bases which could be detected in three-dimensional struc...
The functions of many complex RNA molecules, including ribozymes and ribosomes, are dependent on the...
The intricate network of interactions observed in RNA three-dimensional structures is often describe...
The intricate network of interactions observed in RNA three-dimensional structures is often describe...
The intricate network of interactions observed in RNA three-dimensional structures is often describe...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
RNA secondary structures can be divided into helical regions composed of canonical Watson-Crick and ...
All pairwise interactions occurring between bases which could be detected in three-dimensional struc...
The functions of many complex RNA molecules, including ribozymes and ribosomes, are dependent on the...
The intricate network of interactions observed in RNA three-dimensional structures is often describe...
The intricate network of interactions observed in RNA three-dimensional structures is often describe...
The intricate network of interactions observed in RNA three-dimensional structures is often describe...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
International audienceThe wealth of the combinatorics of nucleotide base pairs enables RNA molecules...
RNA secondary structures can be divided into helical regions composed of canonical Watson-Crick and ...