Abstract
The University of Central Florida invention is a method for measuring DNA barcodes using single or multi-nanopore platforms. Barcodes are calculated by observing the detailed motion of the double-stranded DNA (dsDNA) segments in between the barcodes using Brownian dynamics simulation.
Benefit
Offers a more accurate and faster way of calculating barcodes free from statistical errorsDoes not rely on traditional chemical-based DNA sequencing of lengthy sections of nucleotidesEfficiently categorizes species without suffering from over/underestimation problems related to the distance between measured tags within the DNA sequenceMarket Application
Companies involved in nanopore-based barcode determination