Background: Familial binding profiles (FBPs) represent the average binding specificity for a group of structurally related DNA-binding proteins. The construction of such profiles allows the classification of novel motifs based on similarity to known families, can help to reduce redundancy in motif databases and de novo prediction algorithms, and can provide valuable insights into the evolution of binding sites. Many current approaches to automated motif clustering rely on progressive tree-based techniques, and can suffer from so-called frozen sub-alignments, where motifs which are clustered early on in the process remain 'locked' in place despite the potential for better placement at a later stage. In order to avoid this scenario, we have d...
As noted in the introduction, any mammalian gene may have 50/100, or more, binding sites for transcr...
Using microarrays is a powerful technique to monitor the expression of thousands of genes in a singl...
Background Transcription factor (TF) binding motifs are identified by high throughpu...
Background: Familial binding profiles (FBPs) represent the average binding specificity for a group o...
Transcription factor (TF) proteins recognize a small number of DNA sequences with high specificity a...
One of the limiting factors in deciphering transcriptional regulatory networks is the effectiveness ...
Algorithmic comparison of DNA sequence motifs is a problem in bioinformatics that has received incre...
BACKGROUND: Transcription factor binding site (TFBS) motifs can be accurately represented by positio...
Transcription factor binding site (TFBS) motifs can be accurately represented by position frequency ...
International audienceTranscription factor (TF) databases contain multitudes of binding motifs (TFBM...
Genes are often regulated in living cells by proteins called transcription factors that bind directl...
Alignment-free clustering of transcription factor binding motifs using a genetic-k-medoids approac
Identification of transcription factor binding sites is a key task to understand gene regulation mec...
AbstractDetection of over-represented motifs corresponding to known TFBSs (Transcription Factor Bind...
Abstract Background Transcription factors (TFs) form ...
As noted in the introduction, any mammalian gene may have 50/100, or more, binding sites for transcr...
Using microarrays is a powerful technique to monitor the expression of thousands of genes in a singl...
Background Transcription factor (TF) binding motifs are identified by high throughpu...
Background: Familial binding profiles (FBPs) represent the average binding specificity for a group o...
Transcription factor (TF) proteins recognize a small number of DNA sequences with high specificity a...
One of the limiting factors in deciphering transcriptional regulatory networks is the effectiveness ...
Algorithmic comparison of DNA sequence motifs is a problem in bioinformatics that has received incre...
BACKGROUND: Transcription factor binding site (TFBS) motifs can be accurately represented by positio...
Transcription factor binding site (TFBS) motifs can be accurately represented by position frequency ...
International audienceTranscription factor (TF) databases contain multitudes of binding motifs (TFBM...
Genes are often regulated in living cells by proteins called transcription factors that bind directl...
Alignment-free clustering of transcription factor binding motifs using a genetic-k-medoids approac
Identification of transcription factor binding sites is a key task to understand gene regulation mec...
AbstractDetection of over-represented motifs corresponding to known TFBSs (Transcription Factor Bind...
Abstract Background Transcription factors (TFs) form ...
As noted in the introduction, any mammalian gene may have 50/100, or more, binding sites for transcr...
Using microarrays is a powerful technique to monitor the expression of thousands of genes in a singl...
Background Transcription factor (TF) binding motifs are identified by high throughpu...