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Searching for sequence features that control DNA flexibility

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arxiv 2012.06127 v1 pith:SYVLLWZU submitted 2020-12-11 physics.bio-ph q-bio.BMq-bio.QM

Searching for sequence features that control DNA flexibility

classification physics.bio-ph q-bio.BMq-bio.QM
keywords featurescorrelationflexibilityfunctionssequencesequencesanalysisbehaviors
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Modern genomics experiments measure functional behaviors for many thousands of DNA sequences. We suggest that, especially when these sequences are chosen at random, it is natural to compute correlation functions between sequences and measured behaviors. In simple models for the dependence of DNA flexibility on sequence, for example, correlation functions can be interpreted directly as interaction parameters. Analysis of recent experiments shows that this is surprisingly effective, leading directly to extraction of distinct features for DNA flexibility and predictions that are as accurate as more complex models. This approach follows the conventional use of correlation functions in statistical physics and connects the search for relevant DNA sequence features to the search for relevant stimulus features in the analysis of sensory neurons.

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