Visualizing viral assemblies in a nanoscale biosphere

Brian L. Gilmore; Shannon P. Showalter; Madeline J. Dukes; Justin R. Tanner; Andrew C. Demmert; Sarah M. McDonald; Deborah F. Kelly

doi:10.1039/C2LC41008G

This website uses cookies to give you the best user experience. If you continue without changing your settings we'll assume you are happy to receive all RSC cookies. You can change your cookie settings by navigating to our Privacy and Cookies page and following the instructions. These instructions are also obtainable from the privacy link at the bottom of any RSC page.

skip RSC | ChemSpider | Feedback

Home > Journals > Lab on a Chip > Visualizing viral assem...

For Authors & Referees | For Librarians | For Members

You do not have JavaScript enabled. Please enable JavaScript to access the full features of the site or access our non-JavaScript page.

Lab on a Chip

Issue 2, 2013

Miniaturisation for chemistry, physics, biology, materials science and bioengineering

Impact Factor 5.67 24 Issues per Year Indexed in MEDLINE

Journal Home

Previous Article | Next Article

Technical Innovation

Visualizing viral assemblies in a nanoscale biosphere

Brian L. Gilmore,^a Shannon P. Showalter,^a Madeline J. Dukes,^b Justin R. Tanner,^a Andrew C. Demmert,^a Sarah M. McDonald^a and Deborah F. Kelly*^a

Show Affiliations

Hide Affiliations

Corresponding authors

Virginia Tech Carilion Research Institute, Virginia Tech, Roanoke, USA
E-mail: debkelly@vt.edu ;
Fax: 1-540-985-3373 ;
Tel: 1-540-526-2031

Applications Science, Protochips, Inc., Raleigh, USA
E-mail: madeline@protochips.com ;
Fax: 1-919-341-2748 ;
Tel: 1-919-341-2612

Lab Chip, 2013,13, 216-219

DOI: 10.1039/C2LC41008G
Received 15 Jun 2012, Accepted 13 Nov 2012
First published online 19 Nov 2012

Open Access

Learn more..

Please wait while Download options loads

Download Citation

Request Permissions

Abstract
Cited by
Related Content

We present a novel microfluidic platform to examine biological assemblies at high-resolution. We have engineered a functionalized chamber that serves as a “nanoscale biosphere” to capture and maintain rotavirus double-layered particles (DLPs) in a liquid environment. The chamber can be inserted into the column of a transmission electron microscope while being completely isolated from the vacuum system. This configuration allowed us to determine the structure of biological complexes at nanometer-resolution within a self-contained vessel. Images of DLPs were used to calculate the first 3D view of macromolecules in solution. We refer to this new fluidic visualization technology as in situ molecular microscopy.

Lab on a Chip - Information Point

About this Journal

People and Contacts

Submit to this Journal

Editorial Board

Authors and Referees

Subscription Information

Chips and Tips

Follow Journal | |

Supplementary Info

Supplementary information
PDF (1482K)

Search Articles By

Brian L. Gilmore
Shannon P. Showalter
Madeline J. Dukes
Justin R. Tanner
Andrew C. Demmert
Sarah M. McDonald
Deborah F. Kelly

Terms & Conditions|Privacy and Cookies |Accessibility|ACAP Enabled

Lab on a Chip

Visualizing viral assemblies in a nanoscale biosphere

Log in (Free Access)

Log in (Subscriber Access)

Supplementary Info

Search Articles By

Lab on a Chip

Visualizing viral assemblies in a nanoscale biosphere

This text is added as a work around for heading error in Accessibility testing

Log in (Free Access)

Log in (Subscriber Access)

Supplementary Info

Search Articles By