Raghu Pradeep Narayanan
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View article: Inverse design of a pyrochlore lattice of DNA origami through model-driven experiments
Inverse design of a pyrochlore lattice of DNA origami through model-driven experiments Open
Sophisticated statistical mechanics approaches and human intuition have demonstrated the possibility of self-assembling complex lattices or finite-size constructs. However, attempts so far have mostly only been successful in silico and oft…
View article: High‐Affinity Host–Guest Recognition for Efficient Assembly and Enzymatic Responsiveness of DNA Nanostructures
High‐Affinity Host–Guest Recognition for Efficient Assembly and Enzymatic Responsiveness of DNA Nanostructures Open
The combination of multiple orthogonal interactions enables hierarchical complexity in self‐assembled nanoscale materials. Here, efficient supramolecular polymerization of DNA origami nanostructures is demonstrated using a multivalent disp…
View article: Inverse design of a pyrochlore lattice of DNA origami through model-driven experiments
Inverse design of a pyrochlore lattice of DNA origami through model-driven experiments Open
Sophisticated statistical mechanics approaches and human intuition have demonstrated the possibility to self-assemble complex lattices or finite size constructs, but have mostly only been successful in silico. The proposed strategies quite…
View article: Review of: "[Review] Contemporary Physical Methods in Studies of Lipid Phase Polymorphism"
Review of: "[Review] Contemporary Physical Methods in Studies of Lipid Phase Polymorphism" Open
View article: Automated design of 3D DNA origami with non-rasterized 2D curvature
Automated design of 3D DNA origami with non-rasterized 2D curvature Open
Improving the precision and function of encapsulating three-dimensional (3D) DNA nanostructures via curved geometries could have transformative impacts on areas such as molecular transport, drug delivery, and nanofabrication. However, the …
View article: Bioactive Fibronectin-III <sub>10</sub> –DNA Origami Nanofibers Promote Cell Adhesion and Spreading
Bioactive Fibronectin-III <sub>10</sub> –DNA Origami Nanofibers Promote Cell Adhesion and Spreading Open
The integration of proteins with DNA nanotechnology would enable materials with diverse applications in biology, medicine, and engineering. Here, we describe a method for the incorporation of bioactive fibronectin domain proteins with DNA …
View article: Coarse-Grained Simulations for the Characterization and Optimization of Hybrid Protein–DNA Nanostructures
Coarse-Grained Simulations for the Characterization and Optimization of Hybrid Protein–DNA Nanostructures Open
We present here the combination of experimental and computational modeling tools for the design and characterization of protein-DNA hybrid nanostructures. Our work incorporates several features in the design of these nanostructures: (1) mo…
View article: Bioactive Fibronectin-III10-DNA Origami Nanofibers Promote Cell Adhesion and Spreading
Bioactive Fibronectin-III10-DNA Origami Nanofibers Promote Cell Adhesion and Spreading Open
Integrating proteins with DNA nanotechnology would enable materials with diverse applications in biology, medicine, and engineering. Here, we describe a method for incorporating bioactive fibronectin domain proteins with DNA nanostructures…
View article: Programming nanoparticle valence bonds with single-stranded DNA encoders
Programming nanoparticle valence bonds with single-stranded DNA encoders Open