Searching for sequence features that control DNA cyclizability
Authors
Gordiychuk, Margarita ; Park, Jonghan ; Basu, Aakash ; Ha, Taekjip ; Bialek, William ; Zhang, Yaojun
Citation
PNAS NEXUS, Vol.5(6), 2026-06
Article Number
pgag167
Journal Title
PNAS NEXUS
ISSN
2752-6542
Issue Date
2026-06
Keywords
DNA cyclizability ; sequence-dependent DNA mechanics ; statistical-mechanics modeling
Abstract
The mechanical properties of DNA molecules are crucial for many biological processes, from DNA packaging to transcription. While the mechanics of long DNA typically follow the worm-like chain polymer model, multiple studies have shown that the mechanics of short DNA, at the length scale of DNA-protein interactions, depend strongly on their sequence content. Motivated by recent high-throughput measurements of sequence-dependent DNA cyclizability-the DNA's tendency to mechanically bend and form a loop-we developed a statistical-mechanics framework to systematically explore how cyclizability depends on the collective contributions of an increasing number of nucleotides in the sequence. By applying the method to datasets of randomly generated and biologically derived sequences, we identified a minimal pairwise model that describes the sequence-dependence of DNA cyclizability. The pairwise model enabled the extraction of characteristic sequence features that control DNA cyclizability and predicted the most and least cyclizable sequences, which we validated through all-atom molecular dynamics simulations. Our work advances current understanding of sequence-dependent DNA mechanics and its role in various biological processes, with implications for the growing field of DNA nanofabrication.