biosensor
Fluorescent Protein-Based Assay Development
This blog is a preview of what is to be launched as a new Service Group. Allele Biotech is restructuring its CRO capabilities in the assay development area by combining its fast expanding fluorescent protein portfolio, viral vector and packaging expertise, as well as newly granted patents in shRNA. The focus of this post is fluorescent protein in biosensor and screening assays. A modified version will be used as the landing page for the FB-Based Assay Development Service.
-
Overview:
Originally cloned from the jellyfish Aequorea victoria and subsequently from many other marine organisms, fluorescent proteins (FPs) spanning the entire visual spectrum have become some of the most widely used genetically encoded tags. Unlike traditional labeling methods, FPs may be used to specifically label virtually any protein of interest in a living cell with minimal perturbation to its endogenous function. Genes encoding FPs alone or as fusions to a protein of interest may be introduced to cells by a number of different methods, including simple plasmid transfection or viral transduction. Once expressed, FPs are easily detected with standard fluorescence microscopy equipment.
Factors that should be taken into account when designing an FP-based imaging experiment include the desired wavelength(s) for detection, the pH environment of the tagged protein, the total required imaging time, and the expression level or dynamic range required for detection of promoter activity or tagged protein. Individual FPs currently available to the research community vary considerably in their photostability, pH sensitivity, and overall brightness, and so FPs must be chosen with care to maximize the likelihood of success in a particular experimental context.
-
FPs as fusion tags:
Use of FPs as fusion tags allows visualization of the dynamic localization of the tagged protein in living cells. For such applications, the cDNA of a protein of interest is attached in-frame to the coding sequence for the desired FP, and both are put under the control of a promoter appropriate to the experimental context (typically CMV for high-level expression, though other promoters may be desirable if overexpression of your protein of interest is suspected of producing artifacts). The most basic uses for fluorescent protein fusions include tracking of specific organelles (fusions to short organelle targeting signals) or cytoskeletal structures (fusions to actin or tubulin, for example). More advanced uses include tracking receptors or exported proteins. In most cases, it is critical that the FP used for fusion tagging be fully monomeric, as any interaction between fusion tags is likely to produce artifacts, some of which may be hard to recognize in the absence of other controls. While in most cases FP fusions do not interfere with normal protein function, whenever possible, FP fusion proteins should be validated by immunostaining the corresponding endogenous protein in non-transfected cells and verifying similar patterns of localization.
-
FPs as expression reporters:
FPs are highly useful as quantitative expression reporters. By driving the expression of an FP gene by a specific promoter of interest, it is possible to produce an optical readout of promoter activity. Use of the brightest possible FP ensures the best dynamic range for such an experiment. Because dynamic localization is not generally an issue for expression reporter applications, it is possible to use non-monomeric FPs for this purpose, opening up additional possibilities for multiple wavelength imaging. In order to obtain more reliable quantitative data and to correct for likely variations between individual cells in expression reporter experiments, the use of two spectrally distinct (e.g. green and red) FPs is advisable. By driving expression of one FP with a constitutive promoter and a second FP with the promoter of interest, the ratio of the two signals provides a quantitative readout of relative activity. Averaged over many cells, this technique should provide statistical power necessary for quality expression level experiments. Because FPs normally have a very slow turnover rate in mammalian cells, it may be desirable to add a degradation tag to your FP to enhance temporal resolution when measuring highly dynamic promoter activity.
New Product of the Week 03-08-10 to 03-14-10: mWasabi 2A or IRES dual expression vectors (http://www.allelebiotech.com/shopcart/index.php?c=216&sc=34) ABP-FP-W2A10, orWIRES10
Promotion of the Week 03-08-10 to 03-14-10: for a limited time on Thursday, to be announced on our Facebook page (http://www.facebook.com/pages/San-Diego-CA/Allele-Biotechnology-and-Pharmaceuticals-Inc/78331924957#!/allele.biotech?ref=profile), a strikingly low price will be honored for a commonly used lab reagent or equipment. This is the second week of the follow-us-to-the-basement promotion.
Categories
- Allele Mail Bag
- cGMP
- Customer Feedback
- Fluorescent proteins
- iPSCs and other stem cells
- nAb: Camelid Antibodies, Nanobodies, VHH
- Next Generation Sequencing (NextGen Seq)
- NIH Budget and You
- oligos and cloning
- Open Forum
- RNAi patent landscape
- SBIR and Business issues
- State of Research
- Synthetic biology
- Uncategorized
- Viruses and cells
- You have the power
Archives
- October 2018
- April 2018
- March 2018
- January 2018
- October 2017
- September 2017
- August 2017
- March 2017
- February 2017
- January 2017
- November 2016
- September 2016
- August 2016
- July 2016
- June 2016
- May 2016
- April 2016
- February 2016
- October 2015
- September 2015
- August 2015
- June 2015
- March 2015
- January 2015
- December 2014
- March 2014
- February 2014
- January 2014
- December 2013
- November 2013
- October 2013
- September 2013
- August 2013
- July 2013
- June 2013
- May 2013
- April 2013
- March 2013
- January 2013
- December 2012
- November 2012
- October 2012
- September 2012
- August 2012
- July 2012
- May 2012
- April 2012
- February 2012
- January 2012
- December 2011
- November 2011
- October 2011
- September 2011
- August 2011
- July 2011
- June 2011
- May 2011
- April 2011
- March 2011
- February 2011
- January 2011
- December 2010
- November 2010
- October 2010
- September 2010
- August 2010
- July 2010
- June 2010
- May 2010
- April 2010
- March 2010
- February 2010
- January 2010
- December 2009
- November 2009
- October 2009
- September 2009
- August 2009
- July 2009
- June 2009
- May 2009
- April 2009
- March 2009
- February 2009
- January 2009
- December 2008
- October 2008
- August 2008
- July 2008