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Specificity landscapes of DNA binding molecules elucidate biological function.


ABSTRACT: Evaluating the specificity spectra of DNA binding molecules is a nontrivial challenge that hinders the ability to decipher gene regulatory networks or engineer molecules that act on genomes. Here we compare the DNA sequence specificities for different classes of proteins and engineered DNA binding molecules across the entire sequence space. These high-content data are visualized and interpreted using an interactive "specificity landscape" which simultaneously displays the affinity and specificity of a million-plus DNA sequences. Contrary to expectation, specificity landscapes reveal that synthetic DNA ligands match, and often surpass, the specificities of eukaryotic DNA binding proteins. The landscapes also identify differential specificity constraints imposed by diverse structural folds of natural and synthetic DNA binders. Importantly, the sequence context of a binding site significantly influences binding energetics, and utilizing the full contextual information permits greater accuracy in annotating regulatory elements within a given genome. Assigning such context-dependent binding values to every DNA sequence across the genome yields predictive genome-wide binding landscapes (genomescapes). A genomescape of a synthetic DNA binding molecule provided insight into its differential regulatory activity in cultured cells. The approach we describe will accelerate the creation of precision-tailored DNA therapeutics and uncover principles that govern sequence-specificity of DNA binding molecules.

SUBMITTER: Carlson CD 

PROVIDER: S-EPMC2842033 | biostudies-literature | 2010 Mar

REPOSITORIES: biostudies-literature

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Specificity landscapes of DNA binding molecules elucidate biological function.

Carlson Clayton D CD   Warren Christopher L CL   Hauschild Karl E KE   Ozers Mary S MS   Qadir Naveeda N   Bhimsaria Devesh D   Lee Youngsook Y   Cerrina Franco F   Ansari Aseem Z AZ  

Proceedings of the National Academy of Sciences of the United States of America 20100222 10


Evaluating the specificity spectra of DNA binding molecules is a nontrivial challenge that hinders the ability to decipher gene regulatory networks or engineer molecules that act on genomes. Here we compare the DNA sequence specificities for different classes of proteins and engineered DNA binding molecules across the entire sequence space. These high-content data are visualized and interpreted using an interactive "specificity landscape" which simultaneously displays the affinity and specificit  ...[more]

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