DocumentCode
3145415
Title
Algorithmic Self-Assembly of DNA
Author
Winfree, E.
Author_Institution
California Inst. of Technol., Pasadena, CA
fYear
2006
fDate
9-12 May 2006
Abstract
Summary form only given. Nucleic acids have proven to be remarkably versatile as an engineering material for chemical tasks including the storage of information, catalyzing reactions creating and breaking bonds, mechanical manipulation using molecular motors, and constructing supramolecular structures. This talk will focus particularly on molecular self-assembly, giving examples of engineered DNA "tiles" that crystallize into two-dimensional sheets, one-dimensional tubes and ribbons, and information-guided patterns such as a Sierpinski triangle and a binary counter. A theme is how cooperative binding can be used to control nucleation and direct selective tile attachment. Such "algorithmic" self-assembly may provide a bottom-up fabrication method for creating complex, well-defined supramolecular structures that can be used as scaffolds or templates for applications such as arranging molecular electronic components into active circuits
Keywords
DNA; molecular biophysics; nucleation; self-assembly; DNA; Sierpinski triangle; binary counter; breaking bonds; catalyzing reaction; cooperative binding; information-guided patterns; mechanical manipulation; molecular motors; molecular self-assembly; nucleic acids; supramolecular structure; Chemical engineering; Counting circuits; Crystalline materials; Crystallization; DNA; Fabrication; Material storage; Self-assembly; Sheet materials; Tiles;
fLanguage
English
Publisher
ieee
Conference_Titel
Microtechnologies in Medicine and Biology, 2006 International Conference on
Conference_Location
Okinawa
Print_ISBN
1-4244-0337-5
Type
conf
DOI
10.1109/MMB.2006.251471
Filename
4281288
Link To Document