Accelerating the characterization of dynamic DNA origami devices with deep neural networks
Mechanical characterization of dynamic DNA nanodevices is essential to facilitate their use
in applications like molecular diagnostics, force sensing, and nanorobotics that rely on …
in applications like molecular diagnostics, force sensing, and nanorobotics that rely on …
Optimizing Binding among Bimolecular Tethered Complexes
K Pekar, RT Young, S Sensale - The Journal of Physical Chemistry …, 2024 - ACS Publications
Tethered motion is ubiquitous in nature, offering controlled movement and spatial
constraints to otherwise chaotic systems. The enhanced functionality and practical utility of …
constraints to otherwise chaotic systems. The enhanced functionality and practical utility of …
A mean-field theory for characterizing the closing rates of DNA origami hinges
IO Yeboah, RT Young, M Mosioma… - The Journal of Chemical …, 2024 - pubs.aip.org
The evolution of dynamic DNA nanostructures has propelled DNA nanotechnology into a
robust and versatile field, offering groundbreaking applications in nanoscale …
robust and versatile field, offering groundbreaking applications in nanoscale …
Realizing Mechanical Frustration at the Nanoscale Using DNA Origami
Structural designs inspired by physical and biological systems have been previously utilized
to develop advanced mechanical metamaterials. These are based on the clever geometric …
to develop advanced mechanical metamaterials. These are based on the clever geometric …