The effect of pulling and twisting forces on chameleon sequence peptides

05 October 2022, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Chameleon sequences are amino acid sequences found in several experimental structures in distinct configurations. As such they challenge our understanding of the link between sequence and structure, and provide an interesting target to study the fundamental ideas underlying our understanding of structural competition in proteins. Here, we study the energy landscapes for three such sequences, and interrogate how pulling and twisting forces impact the available structural ensembles. Chameleon sequences do not necessarily exhibit multiple structural ensembles on a multifunnel energy landscape when we consider them in isolation. The application of even small forces leads to drastic changes in the energy landscapes. For pulling forces, we observe sharp transitions from helical to extended structures in a very small span of forces. For twisting forces, the picture is much more complex, and highly dependent on the magnitude and handedness of the applied force as well as the reference angle for the twist. Depending on these parameters, more complex and more simplistic energy landscapes are observed alongside more and less diverse structural ensembles. The impact of even small forces is significant, confirming their likely role in folding events. In addition, small forces exerted by the remaining scaffold of a protein may be sufficient to lead to the adoption of a specific structural ensemble by a chameleon sequence.

Keywords

Simulation
Energy Landscapes
Applied forces
Chameleon sequence peptides

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