Impact of bending stiffness on ground-state conformations for semiflexible polymers

Many variants of RNA, DNA, and even proteins can be considered semiflexible polymers, where bending stiffness, as a type of energetic penalty, competes with attractive van der Waals forces in structure formation processes. Here, we systematically investigate the effect of the bending stiffness on ground-state conformations of a generic coarse-grained model for semiflexible polymers. This model possesses multiple transition barriers. Therefore, we employ advanced generalized-ensemble Monte Carlo methods to search for the lowest-energy conformations. As the formation of distinct versatile ground-state conformations, including compact globules, rod-like bundles, and toroids, strongly depends on the strength of the bending restraint, we also performed a detailed analysis of contact and distance maps.

Automated summary

We systematically investigate the effect of bending stiffness on the ground-state conformations of semiflexible polymers. The formation of different conformations depends strongly on the strength of the bending restraint, as observed through detailed analysis of contact and distance maps.