DNA confined in a two-dimensional strip geometry

Abstract

Semiflexible polymers characterized by the contour length L and persistent length p confined in a spatial region D have been described as a series of `` spherical blobs'' and `` deflecting lines'' by de Gennes and Odjik for p < D and p D respectively. Recently new intermediate regimes ( extended de Gennes and Gauss-de Gennes) have been investigated by Tree et al. [Phys. Rev. Lett. 110, 208103 (2013)]. In this letter we derive scaling relations to characterize these transitions in terms of universal scaled fluctuations in d-dimension as a function of L,p, and D, and show that the Gauss-de Gennes regime is absent and extended de Gennes regime is vanishingly small for polymers confined in a 2D strip. We validate our claim by extensive Brownian dynamics (BD) simulation which also reveals that the prefactor A used to describe the chain extension in the Odjik limit is independent of physical dimension d and is the same as previously found by Yang et al.[Y. Yang, T. W. Burkhardt, G. Gompper, Phys. Rev. E 76, 011804 (2007)]. Our studies are relevant for optical maps of DNA stretched inside a nano-strip.