Add to ORKGGenomic sequence comparisons between human, mouse and pufferfish (Takifugu rubripes (Fugu))have revealed a set of extremely conserved noncoding sequences. While this high degree of sequence conservation suggests severe evolutionary constraint and predicts a lack of tolerance to change in order to retain in vivo functionality, such elements have been minimally explored experimentally. In this study, we describe the in-depth characterization of an ancient conserved enhancer, Dc2 located near the dachshund gene, which displays a human-Fugu identity of 84 percent over 424 basepairs (bp). In addition to this large overall conservation, we find that Dc2 is characterized by the presence of a large block of sequence (144 bp) that is completely iden...
The identification and characterization of the regulatory activity of genomic sequences is crucial f...
Determining how transcriptional regulatory signals are encoded in vertebrate genomes is essential f...
AbstractBiological differences between cell types and developmental processes are characterised by d...
Genomic sequence comparisons between human, mouse and pufferfish (Takifugu rubripes (Fugu))have rev...
The identification of enhancers with predicted specificities in vertebrate genomes remains a signif...
The identification of enhancers with predicted specificitiesin vertebrate genomes remains a signific...
BackgroundTo examine the contributions of sequence and function conservation in the evolution of enh...
Genes involved in vertebrate development are unusually enriched for highly conserved non-coding sequ...
Genomic regions with gene regulatory enhancer activity turnover rapidly across mammals. In contrast,...
Ultraconserved enhancer sequences show perfect conservation between human and rodent genomes, sugges...
Genomic regions with gene regulatory enhancer activity turnover rapidly across mammals. In contrast,...
Conserved noncoding elements (CNEs) in vertebrate genomes often act as developmental enhancers, but ...
Multiple converging lines of evidence from experimental and human genetic studies indicate that both...
In addition to protein coding sequence, the human genome contains a significant amount of regulatory...
While experimental studies have suggested that non-coding ultraconserved DNA elements are central no...
The identification and characterization of the regulatory activity of genomic sequences is crucial f...
Determining how transcriptional regulatory signals are encoded in vertebrate genomes is essential f...
AbstractBiological differences between cell types and developmental processes are characterised by d...
Genomic sequence comparisons between human, mouse and pufferfish (Takifugu rubripes (Fugu))have rev...
The identification of enhancers with predicted specificities in vertebrate genomes remains a signif...
The identification of enhancers with predicted specificitiesin vertebrate genomes remains a signific...
BackgroundTo examine the contributions of sequence and function conservation in the evolution of enh...
Genes involved in vertebrate development are unusually enriched for highly conserved non-coding sequ...
Genomic regions with gene regulatory enhancer activity turnover rapidly across mammals. In contrast,...
Ultraconserved enhancer sequences show perfect conservation between human and rodent genomes, sugges...
Genomic regions with gene regulatory enhancer activity turnover rapidly across mammals. In contrast,...
Conserved noncoding elements (CNEs) in vertebrate genomes often act as developmental enhancers, but ...
Multiple converging lines of evidence from experimental and human genetic studies indicate that both...
In addition to protein coding sequence, the human genome contains a significant amount of regulatory...
While experimental studies have suggested that non-coding ultraconserved DNA elements are central no...
The identification and characterization of the regulatory activity of genomic sequences is crucial f...
Determining how transcriptional regulatory signals are encoded in vertebrate genomes is essential f...
AbstractBiological differences between cell types and developmental processes are characterised by d...