Synthetic polymers as substrates for a DNA-sliding clamp protein

S. F.M. van Dongen; J. Clerx; O. I. van den Boomen; M. Pervaiz; M. A. Trakselis; T. Ritschel; L. Schoonen; D. C. Schoenmakers; R. J.M. Nolte

Journal ArticleOPEN ACCESS

Synthetic polymers as substrates for a DNA-sliding clamp protein

Biopolymers (2018) 109(5)

DOI: 10.1002/bip.23119

1Citations

5Readers

Abstract

The clamp protein (gp45) of the DNA polymerase III of the bacteriophage T4 is known to bind to DNA and stay attached to it in order to facilitate the process of DNA copying by the polymerase. As part of a project aimed at developing new biomimetic data-encoding systems we have investigated the binding of gp45 to synthetic polymers, that is, rigid, helical polyisocyanopeptides. Molecular modelling studies suggest that the clamp protein may interact with the latter polymers. Experiments aimed at verifying these interactions are presented and discussed.

Cite

CITATION STYLE

APA

van Dongen, S. F. M., Clerx, J., van den Boomen, O. I., Pervaiz, M., Trakselis, M. A., Ritschel, T., … Nolte, R. J. M. (2018). Synthetic polymers as substrates for a DNA-sliding clamp protein. Biopolymers, 109(5). https://doi.org/10.1002/bip.23119

Synthetic polymers as substrates for a DNA-sliding clamp protein

Abstract

Cite

Register to see more suggestions