by Yuriy Brun, Manoj Gopalkrishnan
Abstract:
We propose a technique to diagnose and treat individual cells in the human body. A virus-like system delivers a copy of a diagnosis and treatment DNA complex to each cell. The complex determines whether the cell has a specific disease based on the presence or absence of indicator mRNA molecules and, if the diagnosis is positive, releases a proper drug for treatment. As a tool for the diagnosis and treatment system, we develop a DNA implementation of an arbitrary finite state machine.
Citation:
Yuriy Brun and Manoj Gopalkrishnan, Toward in vivo disease diagnosis and treatment using DNA, in Proceedings of the 2006 International Conference on Bioinformatics & Computational Biology (BIOCOMP), pp. 182–186.
Bibtex:
@inproceedings{Brun06biocomp,
author = {Yuriy Brun and Manoj Gopalkrishnan},
title =
{\href{http://people.cs.umass.edu/brun/pubs/pubs/Brun06biocomp.pdf}{Toward in
vivo disease diagnosis and treatment using {DNA}}},
booktitle = {Proceedings of the 2006 International Conference on
Bioinformatics \& Computational Biology (BIOCOMP)},
venue = {BIOCOMP},
address = {Las Vegas, {NV}, {USA}},
month = {June},
date = {26--29},
year = {2006},
pages = {182--186},
isbn = {1-60132-002-7},
abstract = {We propose a technique to diagnose and treat individual cells in
the human body. A virus-like system delivers a copy of a diagnosis and
treatment DNA complex to each cell. The complex determines whether the cell
has a specific disease based on the presence or absence of indicator mRNA
molecules and, if the diagnosis is positive, releases a proper drug for
treatment. As a tool for the diagnosis and treatment system, we develop a DNA
implementation of an arbitrary finite state machine.}
}