Difference between revisions of "PH Controlled Assembly of DNA Tiles"
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(Created page with "Category:Self-assembly ==Overview== Responsive self-assembling DNA nanostructures generally take intensity or input concentration as inputs, with the responses to these in...") |
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==Results== | ==Results== | ||
| − | The authors created a pH-controlled assembly of DNA tiles through the use of a DNA strand displacement catalytic circuit; this control is achieved by utilizing the pH sensitivity of triplex DNA. | + | The authors created a pH-controlled assembly of DNA tiles through the use of a DNA strand displacement catalytic circuit; this control is achieved by utilizing the pH sensitivity of triplex DNA. <in progress> |
==References== | ==References== | ||
Revision as of 20:18, 22 June 2022
Overview
Responsive self-assembling DNA nanostructures generally take intensity or input concentration as inputs, with the responses to these inputs being encoded within the structure itself; however, expanding the possibilities for inputs opens up new applications for self-assembling DNA nanostructures. A pH-controlled DNA catalytic circuit can be used to expand the possible inputs for these systems and give us more control of their assembly. [1].
Results
The authors created a pH-controlled assembly of DNA tiles through the use of a DNA strand displacement catalytic circuit; this control is achieved by utilizing the pH sensitivity of triplex DNA. <in progress>
References
- ↑
Alessia Amodio, Abimbola Feyisara Adedeji, Matteo Castronovo, Elisa Franco,, Francesco Ricci - pH-Controlled Assembly of DNA Tiles
