Title
Design and evaluation of an i-motif-based allosteric control mechanism in DNA-hairpin molecular devices
Document Type
Article
Publication Date
9-5-2013
Abstract
Molecular devices designed to assess and manipulate biologically relevant conditions with required accuracy and precision play an essential role in life sciences research. Incorporating allosteric regulation mechanism is an attractive strategy toward more efficient artificial sensing and switching systems. Herein, we report on a new principle of regulating switching parameters of a DNA-based molecular device based on allosteric interaction between spatially separated hairpin stem and a tetraplexed fragment (i.e., i-motif). We characterized thermodynamic and kinetic effects arising from interaction between functional domains of the device and demonstrated the potential of applying the allosteric control principle for rational design of sensors and switches with precisely defined operational characteristics.
Publication Source (Journal or Book title)
The journal of physical chemistry. B
First Page
10115
Last Page
21
Recommended Citation
Nesterova, I. V., Elsiddieg, S. O., & Nesterov, E. E. (2013). Design and evaluation of an i-motif-based allosteric control mechanism in DNA-hairpin molecular devices. The journal of physical chemistry. B, 117 (35), 10115-21. https://doi.org/10.1021/jp405230g