Mouse regulatory DNA landscapes reveal global principles of cis-regulatory evolution

Mouse regulatory DNA landscapes reveal global principles of cis-regulatory evolution

To study the evolutionary dynamics of regulatory DNA, we mapped >1.3 million deoxyribonuclease I–hypersensitive sites (DHSs) in 45 mouse cell and tissue types, and systematically compared these with human DHS maps from orthologous compartments. We found that the mouse and human genomes have under...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2014-11, Vol.346 (6212), p.1007-1012
Hauptverfasser: Vierstra, Jeff, Rynes, Eric, Sandstrom, Richard, Zhang, Miaohua, Canfield, Theresa, Hansen, R. Scott, Stehling-Sun, Sandra, Sabo, Peter J., Byron, Rachel, Humbert, Richard, Thurman, Robert E., Johnson, Audra K., Vong, Shinny, Lee, Kristen, Bates, Daniel, Neri, Fidencio, Diegel, Morgan, Giste, Erika, Haugen, Eric, Dunn, Douglas, Wilken, Matthew S., Josefowicz, Steven, Samstein, Robert, Chang, Kai-Hsin, Eichler, Evan E., De Bruijn, Marella, Reh, Thomas A., Skoultchi, Arthur, Rudensky, Alexander, Orkin, Stuart H., Papayannopoulou, Thalia, Treuting, Piper M., Selleri, Licia, Kaul, Rajinder, Groudine, Mark, Bender, M. A., Stamatoyannopoulos, John A.
Format: Artikel
Sprache:eng
Schlagworte:
Animals
B lymphocytes
Base Sequence
Cell lines
Conserved Sequence
Deoxyribonuclease I
deoxyribonucleases
Deoxyribonucleic acid
DNA
DNA - genetics
Dynamical systems
Embryological stage
Embryonic stem cells
Evolution
Evolution, Molecular
Evolutionary
Evolutionary biology
genome
Genome, Human
Genomes
Government regulations
Humans
Landscape conservation
Landscapes
Mammals
Mice
Recognition
Regulatory Sequences, Nucleic Acid - genetics
Restriction Mapping
Rewiring
T lymphocytes
transcription (genetics)
Transcription factors
Transcription Factors - metabolism
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Zusammenfassung:To study the evolutionary dynamics of regulatory DNA, we mapped >1.3 million deoxyribonuclease I–hypersensitive sites (DHSs) in 45 mouse cell and tissue types, and systematically compared these with human DHS maps from orthologous compartments. We found that the mouse and human genomes have undergone extensive cis-regulatory rewiring that combines branch-specific evolutionary innovation and loss with widespread repurposing of conserved DHSs to alternative cell fates, and that this process is mediated by turnover of transcription factor (TF) recognition elements. Despite pervasive evolutionary remodeling of the location and content of individual cis-regulatory regions, within orthologous mouse and human cell types the global fraction of regulatory DNA bases encoding recognition sites for each TF has been strictly conserved. Our findings provide new insights into the evolutionary forces shaping mammalian regulatory DNA landscapes.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1246426