Switchable and dynamic G-quadruplexes and their applications
G-Quadruplexes attract growing interest as functional constituents in biology, chemistry,
nanotechnology, and material science. In particular, the reversible dynamic reconfiguration …
nanotechnology, and material science. In particular, the reversible dynamic reconfiguration …
Nucleic Acid‐based Enzyme Cascades—Current Trends and Future Perspectives
S Kröll, CM Niemeyer - Angewandte Chemie International …, 2024 - Wiley Online Library
The natural micro‐and nanoscale organization of biomacromolecules is a remarkable
principle within living cells, allowing for the control of cellular functions by …
principle within living cells, allowing for the control of cellular functions by …
Symmetry-guided inverse design of self-assembling multiscale DNA origami tilings
Recent advances enable the creation of nanoscale building blocks with complex geometries
and interaction specificities for self-assembly. This nearly boundless design space …
and interaction specificities for self-assembly. This nearly boundless design space …
Enzymatic Oxy‐and Amino‐Functionalization in Biocatalytic Cascade Synthesis: Recent Advances and Future Perspectives
Biocatalytic cascades are a powerful tool for building complex molecules containing oxygen
and nitrogen functionalities. Moreover, the combination of multiple enzymes in one pot offers …
and nitrogen functionalities. Moreover, the combination of multiple enzymes in one pot offers …
Multienzymatic cascades and nanomaterial scaffolding—a potential way forward for the efficient biosynthesis of novel chemical products
Synthetic biology is touted as the next industrial revolution as it promises access to greener
biocatalytic syntheses to replace many industrial organic chemistries. Here, it is shown to …
biocatalytic syntheses to replace many industrial organic chemistries. Here, it is shown to …
Enzyme cascade electrode reactions with nanomaterials and their applicability towards biosensor and biofuel cells
S Kalyana Sundaram, MM Hossain, M Rezki, K Ariga… - Biosensors, 2023 - mdpi.com
Nanomaterials, including carbon nanotubes, graphene oxide, metal–organic frameworks,
metal nanoparticles, and porous carbon, play a crucial role as efficient carriers to enhance …
metal nanoparticles, and porous carbon, play a crucial role as efficient carriers to enhance …
A modular DNA origami nanocompartment for engineering a cell-free, protein unfolding and degradation pathway
J Huang, A Jaekel, J van den Boom… - Nature …, 2024 - nature.com
Within the cell, chemical reactions are often confined and organized through a modular
architecture. This facilitates the targeted localization of molecular species and their efficient …
architecture. This facilitates the targeted localization of molecular species and their efficient …
Recent advances in DNA origami-engineered nanomaterials and applications
DNA nanotechnology is a unique field, where physics, chemistry, biology, mathematics,
engineering, and materials science can elegantly converge. Since the original proposal of …
engineering, and materials science can elegantly converge. Since the original proposal of …
Full Site‐Specific Addressability in DNA Origami‐Templated Silica Nanostructures
LM Wassermann, M Scheckenbach… - Advanced …, 2023 - Wiley Online Library
DNA nanotechnology allows for the fabrication of nanometer‐sized objects with high
precision and selective addressability as a result of the programmable hybridization of …
precision and selective addressability as a result of the programmable hybridization of …
Fabricating higher-order functional DNA origami structures to reveal biological processes at multiple scales
DNA origami technology enables the precise assembly of well-defined two-dimensional and
three-dimensional nanostructures with DNA, an inherently biocompatible material. Given …
three-dimensional nanostructures with DNA, an inherently biocompatible material. Given …