In the post-genomic era, identification of specific regulatory motifs or transcription factor binding sites (TFBSs) in non-coding DNA sequences, which is essential to elucidate transcriptional regulatory networks, has emerged as an obstacle that frustrates many researchers. Consequently, numerous motif discovery tools and correlated databases have been applied to solving this problem. However, these existing methods, based on different computational algorithms, show diverse motif prediction efficiency in non-coding DNA sequences. Therefore, understanding the similarities and differences of computational algorithms and enriching the motif discovery literatures are important for users to choose the most appropriate one among the online availa...
The discovery of gene regulatory elements requires the synergism between computational and experimen...
As noted in the introduction, any mammalian gene may have 50/100, or more, binding sites for transcr...
Gene transcription is regulated by interactions between transcription factors and their target bindi...
In the post-genomic era, identification of specific regulatory motifs or transcription factor bindin...
Computational methods for de novo identification of gene regulation elements, such as transcription ...
Recipes for all the proteins that are needed by an organism are described in its genes which are enc...
International audienceEukaryotic genomes contain a variety of structured patterns: repetitive elemen...
Abstract Recently, we performed an assessment of 13 popular computational tools for discovery of tra...
An important part of gene regulation is mediated by specific proteins, called transcription factors,...
To know the map between transcription factors (TFs) and their binding sites is essential to reverse ...
As the full genomic DNA sequence is now available for several organisms, a major next challenge is d...
Transcription factor (TF) binding site prediction remains a challenge in gene regulatory research du...
Predicting transcription factor binding sites (TFBS) from sequence is one of the most challenging pr...
Here we provide an introduction to sequence motifs, including prediction of transcription factor-bin...
BACKGROUND:Unraveling the mechanisms that regulate gene expression is a major challenge in biology. ...
The discovery of gene regulatory elements requires the synergism between computational and experimen...
As noted in the introduction, any mammalian gene may have 50/100, or more, binding sites for transcr...
Gene transcription is regulated by interactions between transcription factors and their target bindi...
In the post-genomic era, identification of specific regulatory motifs or transcription factor bindin...
Computational methods for de novo identification of gene regulation elements, such as transcription ...
Recipes for all the proteins that are needed by an organism are described in its genes which are enc...
International audienceEukaryotic genomes contain a variety of structured patterns: repetitive elemen...
Abstract Recently, we performed an assessment of 13 popular computational tools for discovery of tra...
An important part of gene regulation is mediated by specific proteins, called transcription factors,...
To know the map between transcription factors (TFs) and their binding sites is essential to reverse ...
As the full genomic DNA sequence is now available for several organisms, a major next challenge is d...
Transcription factor (TF) binding site prediction remains a challenge in gene regulatory research du...
Predicting transcription factor binding sites (TFBS) from sequence is one of the most challenging pr...
Here we provide an introduction to sequence motifs, including prediction of transcription factor-bin...
BACKGROUND:Unraveling the mechanisms that regulate gene expression is a major challenge in biology. ...
The discovery of gene regulatory elements requires the synergism between computational and experimen...
As noted in the introduction, any mammalian gene may have 50/100, or more, binding sites for transcr...
Gene transcription is regulated by interactions between transcription factors and their target bindi...