Protein sequence motifs are gathering more and more attention in the field of sequence analysis. The recurring patterns have the potential to determine the conformation, function and activities of the proteins. In our work, we obtained protein sequence motifs which are universally conserved across protein family boundaries. Therefore, unlike most popular motif discovering algorithms, our input dataset is extremely large. As a result, an efficient technique is essential. We use two granular computing models, Fuzzy Improved K-means (FIK) and Fuzzy Greedy K-means (FGK), in order to efficiently generate protein motif information. After that, we develop an efficient Super Granular SVM Feature Elimination model to further extract the motif ...
Discrete motifs that discriminate functional classes of proteins are useful for classifying new sequ...
[[abstract]]Protein motifs, which are specific regions and conserved regions, are found by comparing...
Our primary focus in this study is the classification of protein sequences into functional families ...
Protein sequence motifs are gathering more and more attention in the field of sequence analysis. Th...
Abstract — Protein sequence motifs information is very important to the analysis of biologically sig...
Biological motifs are defined as overly recurring sub-patterns in biological systems. Sequence motif...
Motif recognition is a powerful homology based sequence analysis tool for clustering new protein seq...
We use methods from Data Mining and Knowledge Discovery to design an algorithm for detecting motifs ...
Biology has become a data‐intensive research field. Coping with the flood of data from the new genom...
AbstractThe three-dimensional structures of homologous proteins are usually conserved during evoluti...
AbstractA new flexible and efficient search technique has been recently introduced which includes tw...
AbstractProtein structural motif detection has important applications in structural genomics. Compar...
Analysis of sequence homology has always played a major role in the understanding of biological fact...
Protein sequence motifs are short conserved subsequences common to related protein sequences. Inform...
For a long time, researchers have been searching for the ?recognition codes? of protein complexes, w...
Discrete motifs that discriminate functional classes of proteins are useful for classifying new sequ...
[[abstract]]Protein motifs, which are specific regions and conserved regions, are found by comparing...
Our primary focus in this study is the classification of protein sequences into functional families ...
Protein sequence motifs are gathering more and more attention in the field of sequence analysis. Th...
Abstract — Protein sequence motifs information is very important to the analysis of biologically sig...
Biological motifs are defined as overly recurring sub-patterns in biological systems. Sequence motif...
Motif recognition is a powerful homology based sequence analysis tool for clustering new protein seq...
We use methods from Data Mining and Knowledge Discovery to design an algorithm for detecting motifs ...
Biology has become a data‐intensive research field. Coping with the flood of data from the new genom...
AbstractThe three-dimensional structures of homologous proteins are usually conserved during evoluti...
AbstractA new flexible and efficient search technique has been recently introduced which includes tw...
AbstractProtein structural motif detection has important applications in structural genomics. Compar...
Analysis of sequence homology has always played a major role in the understanding of biological fact...
Protein sequence motifs are short conserved subsequences common to related protein sequences. Inform...
For a long time, researchers have been searching for the ?recognition codes? of protein complexes, w...
Discrete motifs that discriminate functional classes of proteins are useful for classifying new sequ...
[[abstract]]Protein motifs, which are specific regions and conserved regions, are found by comparing...
Our primary focus in this study is the classification of protein sequences into functional families ...