Biomod/2014/Kansai/Results: Difference between revisions
(→Design) |
(→Design) |
||
| Line 43: | Line 43: | ||
[[Image:abcd.png|left|600px]] | [[Image:abcd.png|left|600px]] | ||
<br><br><br><br><br><br><br><br><br><br><br><br><br> | |||
This is a design of joint points between part A and part B.<br>Sequences indicated red lines connect part A and part B.<br> | This is a design of joint points between part A and part B.<br>Sequences indicated red lines connect part A and part B.<br> | ||
they also exist between part B and part C.<br> | they also exist between part B and part C.<br> | ||
So, the structure is constructed to connect three kinds of part. | So, the structure is constructed to connect three kinds of part. | ||
Revision as of 01:38, 28 August 2014
| Top | Team | Project | Design | Experiment and Result |
Sources | Sponsors |
Problem & Solution
We had difficulty to coupling dumbbell hairpins on the direction orthogonal to the origami.
It was solved to use 3 sheets of DNA origami.
Aspect ratio of 1 dot
| Height And Width | : 2 DNA 3nm×2=6 nm |
| Width | : 2 pitch 3.4nm×2=6.8 nm |
To construct DNA nano QR code uses 3 types of DNA origami. Normally, they have required 600 pieces of DNA staple (200 pieces per one DNA origami).We devised the sequences of Staple DNA, they were shared among 3 types of DNA origami. thus they required only 359 pieces of DNA staple.
Design
We designed one kind of DNA nano QR code.
A black part on QR code is expressed by dumbbell hairpin.
The DNA nano QR code is a secret until we create it at nano size.
This is a design of joint points between part A and part B.
Sequences indicated red lines connect part A and part B.
they also exist between part B and part C.
So, the structure is constructed to connect three kinds of part.
