SIGN IN   Advanced Search

Browse Illustration
Microfluidic Devices for the Analysis of Single Cells: Leaving No Protein Uncounted

Microfluidic devices are revolutionizing bioanalysis, and designs capable of detecting single protein molecules are now available. Two recently described microfluidic devices provide information on the number of β2-adrenergic receptors in individual cultured insect cells and measure the degradation of phycobilisomes in individual cyanobacteria, respectively. This latter experiment, which included the analysis of three single cells in parallel, heralds a bright future for high-throughput single-cell analyzers. These devices could greatly advance research in signal transduction and studies of the effects of environmental stimuli or xenobiotics on cellular responses.

Rate this Resource:
1 = not useful, 5 = very useful

Please be the first to rate this resource.

Subscribe and
View Resource


Resource Type: Bibliography, Diagram, Illustration, Journal article/Issue, Review
Audience Level: Undergraduate upper division 15-16, Graduate, Professional (degree program)

Author and Copyright

Authors and Editors: Marian Navratil of Department of Chemistry, University of Minnesota., Christofer E. Whiting of Department of Chemistry, University of Minnesota, Edgar A. Arriaga of Department of Chemistry, University of Minnesota
Publisher: American Association for the Advancement of Science
Format: application/pdf, image/gif, image/jpeg, text/html
Copyright and other restrictions: Yes
Cost: Yes


» Sign In or register to post comments.

STKE/Science Signaling



Triple A S National Science Foundation Naitonal Science Digital Library Pathway
Funded by the individual BEN Collaborators and grants from the
National Science Foundation [DUE 0085840 / DUE 0226185 / DUE 0532797 / DUE 0734995]

This website is a National Science Digital Library (NSDL) Pathway.
Copyright © 2019. American Association for the Advancement of Science. All Rights Reserved.