The identification of small structural motifs and their organization into larger subassemblies is of fundamental interest in the analysis, prediction and design of 3D structures of large RNAs. This problem has been studied only sparsely, as most of the existing work is limited to the characterization and discovery of motifs in RNA secondary structures. We present a novel geometric method for the characterization and identification of structural motifs in 3D rRNA molecules. This method enables the efficient recognition of known 3D motifs, such as tetraloops, E-loops, kink-turns and others. Furthermore, it provides a new way of characterizing complex 3D motifs, notably junctions, that have been defined and identified in the secondary structur...
Accurate secondary structures are important for understanding ribosomes, which are extremely large a...
RNA structural motifs are the building blocks of the complex RNA architecture. Identification of non...
Many non-coding RNAs have been identified and may function by forming 2D and 3D structures. RNA hair...
The identification of small structural motifs and their organization into larger subassemblies is of...
As functional components in three-dimensional (3D) conformation of an RNA, the RNA structural motifs...
New methods are described for finding recurrent three-dimensional (3D) motifs in RNA atomic-resoluti...
Modular RNA 3D motifs are the building blocks of complex RNA molecules and RNA-based nanomachines, s...
Many hairpin and internal RNA 3D motif structures are recurrent, occurring in various types of RNA m...
RNA molecules participate actively in all aspects of gene expression, as information carriers, catal...
Abstract Background One important goal of structural bioinformatics is to recognize and predict the ...
As functional components in three-dimensional (3D) conformation of an RNA, the RNA structural motifs...
Recent progress in predicting RNA structure is moving towards filling the ‘gap ’ in 2D RNA structure...
International audienceThis article proposes to use an RNA graph similarity metric, based on the MCES...
Understanding the 3D structural properties of RNAs will play a critical role in identifying their fu...
Abstract. RNA structural motifs are recurrent structural elements occurring in RNA molecules. They p...
Accurate secondary structures are important for understanding ribosomes, which are extremely large a...
RNA structural motifs are the building blocks of the complex RNA architecture. Identification of non...
Many non-coding RNAs have been identified and may function by forming 2D and 3D structures. RNA hair...
The identification of small structural motifs and their organization into larger subassemblies is of...
As functional components in three-dimensional (3D) conformation of an RNA, the RNA structural motifs...
New methods are described for finding recurrent three-dimensional (3D) motifs in RNA atomic-resoluti...
Modular RNA 3D motifs are the building blocks of complex RNA molecules and RNA-based nanomachines, s...
Many hairpin and internal RNA 3D motif structures are recurrent, occurring in various types of RNA m...
RNA molecules participate actively in all aspects of gene expression, as information carriers, catal...
Abstract Background One important goal of structural bioinformatics is to recognize and predict the ...
As functional components in three-dimensional (3D) conformation of an RNA, the RNA structural motifs...
Recent progress in predicting RNA structure is moving towards filling the ‘gap ’ in 2D RNA structure...
International audienceThis article proposes to use an RNA graph similarity metric, based on the MCES...
Understanding the 3D structural properties of RNAs will play a critical role in identifying their fu...
Abstract. RNA structural motifs are recurrent structural elements occurring in RNA molecules. They p...
Accurate secondary structures are important for understanding ribosomes, which are extremely large a...
RNA structural motifs are the building blocks of the complex RNA architecture. Identification of non...
Many non-coding RNAs have been identified and may function by forming 2D and 3D structures. RNA hair...