Designing and Testing of Large 2D Arrays of DNA Origami
Description
Repeating tiles made of DNA were used to try to form an indefinitely large structure. Both the tiles and structure were 2D. Two different patterns were tested, one corrugated and one not. Corrugation means that the tiles alternated between facing up and facing down, canceling out any curvature to the tile and creating a slightly corrugated but largely 2D pattern. Annealing methods were also experimented with. Annealing the structure in two, separate steps as opposed to one was tested. Another experiment was comparing cyclic versus linear annealing. A linear decrease in temperatures defines the linear annealing, and a cyclic method involved a linear drop to a certain temperature, followed by a slight increase in temperature and cooling back down again. This cycle is done several times before it continues linear cool down. It was seen that both corrugated and non-corrugated structures could be made. In both cases tiles that make up a larger section of the overall pattern were more successful. This is especially important for the non-corrugated pattern. Linear and 2step annealing methods seem to yield the best results.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2015-05
Agent
- Author (aut): Hunt, Ashley Elizabeth
- Thesis director: Yan, Liu
- Committee member: Yan, Hao
- Contributor (ctb): Barrett, The Honors College
- Contributor (ctb): Department of Chemistry and Biochemistry