Computation With 3D DNA Structures
Natasha Jonoska, Department of Mathematics,
University of South Florida
National Science Foundation, October 1, 1999
Abstract
We propose use of three dimensional structures (knots or graphs) made of
DNA molecules as a computational tool. A k-armed branched junction
molecule is taken as a basic building block to form graphs. The main idea
is presented through an example of solving 3-vertex colorability problem
that potentially reduces the number of laboratory (computational) steps.
Some mathematical problems that arise from this approach are presented.
Current experiments in detecting and removing certain partially double
stranded molecules are discussed. Use of recombinases, topoisomerases
and different DNA forms (B,Z,H) is proposed.
Natasha Jonoska
Last modified: Mon Sep 27 13:17:20 EDT 1999