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Microbots deliver the goods

Microbots deliver the goods <h2>Microbots deliver the goods</h2> Bacteria (blue) carrying nanoparticle cargos (green) are efficient DNA dwellers. BASHIR/MACMILLAN By combining two not-so-efficient DNA delivery systems into one, Demir Akin, Rashid Bashir (Purdue University, Indiana), and colleagues have engineered super efficient, DNA-delivering “microbots.” Viruses, bacteria, and nanoparticles are used to deliver DNA to cells. But when used in the body, each delivery vehicle has its limitations. Nanoparticles have the advantage of delivering large copy numbers of DNA molecules. But because of their size and limited targeting ability, they cannot access tissues effectively and thus have a poor efficiency. Bacteria, on the other hand, are inefficient DNA carriers that can hold only one copy of the DNA cargo per cell. However, bacteria are active microorganisms and can penetrate solid tumors—particularly tricky tissue for passive viral or nanoparticle vectors to access, explains Bashir. Now, Akin et al. have developed a system whereby active bacteria carry nanoparticles as cargo, thus yielding the benefits of both previous systems. The team calls them microbots. Microbots delivered DNA-covered nanoparticles with high efficiency into a variety of cancer cell lines in culture and into mouse organs in vivo. Microbot-managed gene expression was much stronger that that achieved by either http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png The Journal of Cell Biology Rockefeller University Press

Microbots deliver the goods

The Journal of Cell Biology , Volume 178 (2): 183 – Jul 16, 2007

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Publisher
Rockefeller University Press
Copyright
© 2007 Rockefeller University Press
ISSN
0021-9525
eISSN
1540-8140
DOI
10.1083/jcb.1782rr4
Publisher site
See Article on Publisher Site

Abstract

<h2>Microbots deliver the goods</h2> Bacteria (blue) carrying nanoparticle cargos (green) are efficient DNA dwellers. BASHIR/MACMILLAN By combining two not-so-efficient DNA delivery systems into one, Demir Akin, Rashid Bashir (Purdue University, Indiana), and colleagues have engineered super efficient, DNA-delivering “microbots.” Viruses, bacteria, and nanoparticles are used to deliver DNA to cells. But when used in the body, each delivery vehicle has its limitations. Nanoparticles have the advantage of delivering large copy numbers of DNA molecules. But because of their size and limited targeting ability, they cannot access tissues effectively and thus have a poor efficiency. Bacteria, on the other hand, are inefficient DNA carriers that can hold only one copy of the DNA cargo per cell. However, bacteria are active microorganisms and can penetrate solid tumors—particularly tricky tissue for passive viral or nanoparticle vectors to access, explains Bashir. Now, Akin et al. have developed a system whereby active bacteria carry nanoparticles as cargo, thus yielding the benefits of both previous systems. The team calls them microbots. Microbots delivered DNA-covered nanoparticles with high efficiency into a variety of cancer cell lines in culture and into mouse organs in vivo. Microbot-managed gene expression was much stronger that that achieved by either

Journal

The Journal of Cell BiologyRockefeller University Press

Published: Jul 16, 2007

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