Current approaches for identification and detection of transcription factor binding sites rely on an extensive set of known target genes. Here we describe a novel structure-based approach applicable to transcription factors with no prior binding data. Our approach combines sequence data and structural information to infer context-specific amino acid–nucleotide recognition preferences. These are used to predict binding sites for novel transcription factors from the same structural family. We demonstrate our approach on the Cys2His2 Zinc Finger protein family, and show that the learned DNA-recognition preferences are compatible with experimental results. We use these preferences to perform a genome-wide scan for direct targets of Drosophila m...
The complexity of any organism depends on cellular behav-ior which is formed from the interaction be...
Cis2-His2 zinc finger (C2H2-ZF) proteins are the largest family of transcription factors in human an...
Motivation: Mutual information can be used to explore covarying positions in biological sequences. I...
Despite the fact that each cell in an organism has the same genetic information, it is possible that...
peer reviewedBACKGROUND: The specific recognition of genomic cis-regulatory elements by transcriptio...
<div><p>Scanning through genomes for potential transcription factor binding sites (TFBSs) is becomin...
Scanning through genomes for potential transcription factor binding sites (TFBSs) is becoming increa...
Transcription factors are DNA-binding proteins that control gene transcription by binding specific s...
One of the key mechanisms of transcriptional control are the specific connections between transcript...
Genome projects have produced complete genome sequences of more than 30 organisms. These data have o...
<div><p>Understanding the molecular machinery involved in transcriptional regulation is central to i...
Understanding the molecular machinery involved in transcriptional regulation is central to improving...
One of the key mechanisms of transcriptional control are the specific connections between transcript...
Motivation: Recognition of specific DNA sequences is a central mechanism by which transcription fact...
BACKGROUND:How transcription factors (TFs) interact with cis-regulatory sequences and interact with ...
The complexity of any organism depends on cellular behav-ior which is formed from the interaction be...
Cis2-His2 zinc finger (C2H2-ZF) proteins are the largest family of transcription factors in human an...
Motivation: Mutual information can be used to explore covarying positions in biological sequences. I...
Despite the fact that each cell in an organism has the same genetic information, it is possible that...
peer reviewedBACKGROUND: The specific recognition of genomic cis-regulatory elements by transcriptio...
<div><p>Scanning through genomes for potential transcription factor binding sites (TFBSs) is becomin...
Scanning through genomes for potential transcription factor binding sites (TFBSs) is becoming increa...
Transcription factors are DNA-binding proteins that control gene transcription by binding specific s...
One of the key mechanisms of transcriptional control are the specific connections between transcript...
Genome projects have produced complete genome sequences of more than 30 organisms. These data have o...
<div><p>Understanding the molecular machinery involved in transcriptional regulation is central to i...
Understanding the molecular machinery involved in transcriptional regulation is central to improving...
One of the key mechanisms of transcriptional control are the specific connections between transcript...
Motivation: Recognition of specific DNA sequences is a central mechanism by which transcription fact...
BACKGROUND:How transcription factors (TFs) interact with cis-regulatory sequences and interact with ...
The complexity of any organism depends on cellular behav-ior which is formed from the interaction be...
Cis2-His2 zinc finger (C2H2-ZF) proteins are the largest family of transcription factors in human an...
Motivation: Mutual information can be used to explore covarying positions in biological sequences. I...