protein half life
Use of Fluorescent Protein in Studying Protein Half-Life
How long a protein remains in cell and at what equilibrium level depends on several factors: 1) how fast it is translated; 2) how fast it is degraded; 3) how much dilution by cell division affects its balance. A good method for tracking protein degradation requires live cell measurement methods that show high resolution because the changes may be small and gradual; and that do not interfere with cellular processes. One simple method was recently described in Science by Eden et al. that relies on bleaching fluorescent protein (FP) tagged to cellular protein of interest.
To track protein half-life, only a small fraction of FP is bleached with a pulse of light that would irreversibly damage the chromophore of the FP. This treatment, called bleach chase, would produce a population of proteins that are non-fluorescent and cannot be replenished. By comparing the fluorescence of this population and the control, unbleached population, it is possible to determine the half-life of the fused proteins using equation T1/2=ln(2)/a, where a is the slope of decay of the difference between bleached and unbleached protein fluorescence on a semilogarithmic plot. (This part is recited from AlleleNews)
Conversely, instead of photobleaching a FP to create a protein population, a fluorescent signal can be created and chased by photoactivating a photoactivable FP that is fused to a cellular protein under study. Plachta et al. published in a recent issue of Nature Cell Biology that by following the half-life, or kinetics of pluripotency-related transcription factor Oct4, cell fates are predicted in early embryo development.
In fact, there is a third method, perhaps soon to be published, that a photoconvertible FP can be used for tracking fusion protein half life. By using a photoconvertible FP, such as mClavGR (already offered by Allele), a fluorescent protein population can be created as in the aforementioned studies; but unlike bleaching or photoactivating, photoconversion keeps both populations (converted and unconverted, green or red in the case of mClavGR) present. This way all readings can be internally controlled to compensate for factors not directly related to protein metabolism per se, such as cell death, equipment variation, etc.
New Product of the Week 0201411-022111: Relaunch of Orbigen Apoptosis polyclonal antibodies on the new Allele online shopping system
Promotion of the week 021311-022111: This week save 10% on all custom viral services.
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