Search Constraints
« Previous |
1 - 10 of 11
|
Next »
Search Results
Select an image to start the slideshow
Engineering DNA as a molecular tool to investigate T cell mechanical signaling
1 of 10
Establishing kinetic activity of Exonuclease III on surface-immobilized substrates used in novel DNA rolling motors
2 of 10
Optimizing the performance efficiency of highly polyvalent DNA-based motors
3 of 10
Fast Mixing Reveals Two-state Folding of Apomyoglobin
4 of 10
Investigating Fundamental Mechanisms of Peptide Insertion into Membranes
5 of 10
An Approach to Generate Ultra-Robust and Highly Modular Molecular
Tension Probes and Thermo-Responsive Enzymatic Nanoreactors to
Regulate Reaction Rate
6 of 10
Dynamics of Influenza Virus Hemagglutinin Fusion Peptide Membrane Insertion
7 of 10
Elucidating the Biophysical Mechanisms of Notch Activation
8 of 10
Gated Proton Transfer Reactions at Low Temperatures in
D2O

9 of 10
Development of DNA-based Fluorescent Molecular Tension Probes to Investigate Integrin Mediated Mechanical Forces
10 of 10