DNA-mediated cooperativity facilitates the co-selection of cryptic enhancer sequences by SOX2 and PAX6 transcription factors

DNA-mediated cooperativity facilitates the co-selection of cryptic enhancer sequences by SOX2 and PAX6 transcription factors

<p dir="ltr">Sox2 and Pax6 are transcription factors that direct cell fate decision during neurogenesis, yet the mechanism behind how they cooperate on enhancer DNA elements and regulate gene expression is unclear. By systematically interrogating Sox2 and Pax6 interaction on minimal...

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Main Author: Kamesh Narasimhan (2191165) (author)
Other Authors: Shubhadra Pillay (2191162) (author), Yong-Heng Huang (14114952) (author), Sriram Jayabal (19020227) (author), Barath Udayasuryan (19547716) (author), Veeramohan Veerapandian (12080201) (author), Prasanna Kolatkar (7532792) (author), Vlad Cojocaru (9672) (author), Konstantin Pervushin (248559) (author), Ralf Jauch (173035) (author)
Published: 2015
Subjects:
Biological sciences
Bioinformatics and computational biology
Genetics
Biomedical and clinical sciences
Clinical sciences
Genomics
Cis-regulatory code
Enhancer DNA sequences
Epigenetic signatures
Neurogenesis
DNA-binding motifs
Gene expression regulation
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Summary:<p dir="ltr">Sox2 and Pax6 are transcription factors that direct cell fate decision during neurogenesis, yet the mechanism behind how they cooperate on enhancer DNA elements and regulate gene expression is unclear. By systematically interrogating Sox2 and Pax6 interaction on minimal enhancer elements, we found that cooperative DNA recognition relies on combinatorial nucleotide switches and precisely spaced, but cryptic composite DNA motifs. Surprisingly, all tested Sox and Pax paralogs have the capacity to cooperate on such enhancer elements. NMR and molecular modeling reveal very few direct protein–protein interactions between Sox2 and Pax6, suggesting that cooperative binding is mediated by allosteric interactions propagating through DNA structure. Furthermore, we detected and validated several novel sites in the human genome targeted cooperatively by Sox2 and Pax6. Collectively, we demonstrate that Sox–Pax partnerships have the potential to substantially alter DNA target specificities and likely enable the pleiotropic and context-specific action of these cell-lineage specifiers.</p><h2>Other Information</h2><p dir="ltr">Published in: Nucleic Acids Research<br>License: <a href="http://creativecommons.org/licenses/by/4.0/" target="_blank">http://creativecommons.org/licenses/by/4.0/</a><br>See article on publisher's website: <a href="https://dx.doi.org/10.1093/nar/gku1390" target="_blank">https://dx.doi.org/10.1093/nar/gku1390</a></p>

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