In organisms, ribonucleic acid (RNA) plays an essential role. Its function is being discovered more and more. Due to the conserved nature of RNA sequences, its function mainly depends on the RNA secondary structure. The discovery of an approximate relationship between two RNA secondary structures helps to understand their functional relationship better. It is an important and urgent task to explore structural similarities from the graphical representation of RNA secondary structures. In this paper, a novel graphical analysis method based on the triple vector curve representation of RNA secondary structures is proposed. A combinational method involving a discrete wavelet transform (DWT) and fractal dimension with sliding window is introduced...
Graphs have been used extensively in theoretical computer science to model various discrete structur...
A tree similarity algorithm for RNA (ribonucleic acid) secondary structure comparison is presented. ...
Part of the Methods in Molecular Biology book series (MIMB, volume 2586)RNA secondary structure comp...
<div><p>With the development of new technologies in transcriptome and epigenetics, RNAs have been id...
Abstract Background RNAs have ...
The prediction of secondary RNA folds from primary sequences continues to be an important area of re...
International audienceThis article proposes to use an RNA graph similarity metric, based on the MCES...
Some genes produce transcripts that function directly in regulatory, catalytic, or structural roles ...
Understanding of structure-function mapping is crucial to the study of the nature of biopolymers. Th...
AbstractIn this paper, we propose a new similarity measure to compare RNA secondary structure. We fi...
Understanding the structural repertoire of RNA is crucial for RNA genomics research. Yet current met...
Abstract: We used a novel graph-based approach to identify recurrent RNA tertiary mo-tifs embedded w...
The similarity comparison of RNA secondary structures is important in studying the functions of RNAs...
Abstract Background Determining the secondary structure of RNA from the primary structure is a chall...
Secondary and tertiary RNA structures play an important role in many biological processes. Therefore...
Graphs have been used extensively in theoretical computer science to model various discrete structur...
A tree similarity algorithm for RNA (ribonucleic acid) secondary structure comparison is presented. ...
Part of the Methods in Molecular Biology book series (MIMB, volume 2586)RNA secondary structure comp...
<div><p>With the development of new technologies in transcriptome and epigenetics, RNAs have been id...
Abstract Background RNAs have ...
The prediction of secondary RNA folds from primary sequences continues to be an important area of re...
International audienceThis article proposes to use an RNA graph similarity metric, based on the MCES...
Some genes produce transcripts that function directly in regulatory, catalytic, or structural roles ...
Understanding of structure-function mapping is crucial to the study of the nature of biopolymers. Th...
AbstractIn this paper, we propose a new similarity measure to compare RNA secondary structure. We fi...
Understanding the structural repertoire of RNA is crucial for RNA genomics research. Yet current met...
Abstract: We used a novel graph-based approach to identify recurrent RNA tertiary mo-tifs embedded w...
The similarity comparison of RNA secondary structures is important in studying the functions of RNAs...
Abstract Background Determining the secondary structure of RNA from the primary structure is a chall...
Secondary and tertiary RNA structures play an important role in many biological processes. Therefore...
Graphs have been used extensively in theoretical computer science to model various discrete structur...
A tree similarity algorithm for RNA (ribonucleic acid) secondary structure comparison is presented. ...
Part of the Methods in Molecular Biology book series (MIMB, volume 2586)RNA secondary structure comp...