Litcius/Paper detail

The impact of the sequence-dependent physical properties of DNA on chromatin dynamics

Aditi Biswas, Aakash Basu

2023Current Opinion in Structural Biology13 citationsDOIOpen Access PDF

Abstract

The local mechanical properties of DNA depend on local sequence. Here we review recent genomic, structural, and computational efforts at deciphering the "mechanical code", i.e., the mapping between sequence and mechanics. We then discuss works that suggest how evolution has exploited the mechanical code to control the energetics of DNA-deforming biological processes such as nucleosome organization, transcription factor binding, DNA supercoiling, gene regulation, and 3D chromatin organization. As a whole, these recent works suggest that DNA sequence in diverse organisms can encode regulatory information governing diverse processes via the mechanical code.

Topics & Concepts

DNA supercoilNucleosomeChromatinENCODEDNAComputational biologySequence (biology)BiologyGeneticsHMG-boxChIP-sequencingDNA sequencingDNA binding siteGeneTranscription factorDNA-binding proteinPromoterDNA replicationGene expressionGenomics and Chromatin DynamicsRNA and protein synthesis mechanismsDNA and Nucleic Acid Chemistry