Wallace H. Coulter Department of Biomedical Engineering, Georgia Institute of Technology and Emory University
Affiliated withGeorgia Institute of Technology and Emory University
Research Area
Dr. Aaron completed his PhD at Emory University, Atlanta, USA. There, he developed DNA-based molecular tension sensors and force generating molecular motors – technology that is broadly referred to as DNA mechanotechnology – under the supervision of Dr. Khalid Salaita. Aaron has continued to develop DNA nanotechnology-based tools and study mechanobiology as a post-doctoral scholar at the University of Michigan and Duke University.
Article Total : 1 | Year |
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![]() Publication title Cited by 9 | 2021 |
Article | Year |
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Mapping the 3D orientation of piconewton integrin traction forces. Nature methods| PubMed ID: 29256495 | 2018 |
Highly Polyvalent DNA Motors Generate 100+ pN of Force via Autochemophoresis. Nano letters| PubMed ID: 31402671 | 2019 |
Emerging uses of DNA mechanical devices. Science (New York, N.Y.)| PubMed ID: 31515373 | 2019 |
Tunable DNA Origami Motors Translocate Ballistically Over μm Distances at nm/s Speeds. Angewandte Chemie (International ed. in English)| PubMed ID: 32017312 | 2020 |
Live-cell super-resolved PAINT imaging of piconewton cellular traction forces. Nature methods| PubMed ID: 32929270 | 2020 |
Multivalent molecular tension probes as anisotropic mechanosensors: concept and simulation. Physical biology| PubMed ID: 33316784 | 2021 |