Biomod/2011/MIT/Origami/Literature
From OpenWetWare
| Line 23: | Line 23: | ||
</div><br> | </div><br> | ||
<font face="courier new" style="color:#ffffff> | <font face="courier new" style="color:#ffffff> | ||
| - | == | + | ==Literature== |
<font face="arial" style="color:#ffffff> | <font face="arial" style="color:#ffffff> | ||
Revision as of 00:53, 3 November 2011
Home Motivation Process Potential Tentative Ideas Team Members Literature Software
Literature
- Photosynthesis:
The supramolecular architecture, function, and regulation of thylakoid membranes in red algae: an overview - [1]
The native architecture of a photosynthetic membrane - [2]
Virus-templated self-assembled single-walled carbon nanotubes for highly efficient electron collection in photovoltaic devices - [3]
Energy conversion in photosynthesis: A paradigm for solar fuel production - [4]
- Origami:
Self-assembly of a nanoscale DNA box with a controllable lid - [5]
DNA origami as a nanoscale template for protein assembly - [6]
Folding and cutting DNA into reconfigurable topological nanostructures - [7]
Folding DNA to create nanoscale shapes and patterns - [8]
Gold nanoparticle self-similar chain structure organized by DNA origami - [9]
Self-assembled water-soluble nucleic acid probe tiles for label-free RNA hybridization assays - [10]
A DNA nanomachine that maps spatial and temporal pH changes inside living cells - [11]
Molecular robots guided by prescriptive landscapes - [12]
A primer to scaffolded DNA origami - [13]
Programmable periodicity of quantum dot arrays with DNA origami nanotubes - [14]
DNA origami with complex curvatures in three-dimensional space - [15]
Recovery of intact DNA nanostructures after agarose gel–based separation - [16]
Self assembly of DNA into nanoscale three-dimensional shapes - [17]
Folding DNA into twisted and curved nanoscale shapes - [18]
Multilayer DNA origami packed on a square lattice - [19]
Rapid prototyping of 3D DNA origami shapes with caDNAno - [20]
DNA curvature and flexibility in vitro and in vivo - [21]
Focus Issue on DNA Origami - [22]
Aptamer Switch Probe Based on Intramolecular Displacement - [23]
- DNA / RNA:
Programming biomolecular self-assembly pathways - [24]
Thermodynamic analysis of interacting nucleic acid strands - [25]
Nucleic acid sequence design via efficient ensemble defect optimization - [26]
The thermodynamics of DNA structural motifs - [27]
A unified view of polymer, dumbbell, and oligonucleotide DNA nearest-neighbor thermodynamics - [28]
A partition function algorithm for nucleic acid secondary structure including pseudoknots - [29]
The stability of Seeman JX DNA topoisomers of paranemic crossover (PX) molecules as a function of crossover number - [30]
- Artificial Immune System:
Comparison of strategies for the construction of libraries of artificial antibodies - [31]
- Light Activation:
Light-mediated activation reveals a key role for Rac in collective guidance of cell movement in vivo - [32]
Light Activated 'Warhead' Turns Modest Molecules Into Super Protein Killers - [33]
Chemists Kill Cancer Cells With Light-Activated Molecules - [34]
Biosensors for Characterizing the Dynamics of Rho Family GTPases in Living Cells - [35]
- Active Shape Change:
Nanomechanical DNA origami 'single-molecule beacons' directly imaged by atomic force microscopy - [36]
Light-induced shape changes in azobenzene functionalized polymers prepared by ring-opening metathesis polymerization - [37]
Photo-mechanical effects in azobenzene-containing soft materials - [38]
