Our Protein A and G conjugated MagVigen™ magnetic nanoparticles (http://www.nvigen.com/magvigen_gbinding.php) were applied to purify and enrich over 1000 monoclonal antibodies enabling high throughput microfluidic measurements of antibody affinity constants. The results were published by J.P. Landry, et. al. in Journal of Immunological Methods.
We greatly appreciate the trust from Epitomics/Abcam and Prof. Zhu of University of California at Davis on the quality of NVIGEN products and service. The full paper is available in the following link: http://www.physics.ucdavis.edu/xdzhu/publication%20in%20pdf/J%20Immuno%20Methods_2015_417_86-96.pdf These antibodies with characterized Kd values are available for purchasing from Epitomics/abcam.
We are pleased to see that our MagVigen™ magnetic nanoparticles have enabled high yield purification of thousands of antibodies with enrichment factors as high as a few hundred fold. Because of the larger binding capacity and superior surface chemistry of our magnetic nanoparticles, it provides a cost effective and reliable approach for high throughput and multiplexed profiling of high quality purified antibodies.
Follow the guide above to learn more about the steps necessary to use magnetic beads in your research. Here at NVIGEN, we’ve made it easy for you to understand how to use our MagVigen Magnetic Nanoparticles however the steps are applicable for any standard magnetic bead extraction kit. For any inquiries about our magnetic beads, please contact firstname.lastname@example.org or visit our magnetic nanoparticle product pages for additional information.
The full textual protocol can be seen here at: Tips for Working with Magnetic Beads.
Watch Nvigen’s step by step video on DNA extraction and size selection using Nvigen’s patented MagVigen Magnetic Nanoparticles kit. For any additional information about magnetic nanoparticles, magnetic beads for immunoprecipitation or general questions, please feel free to e-mail Nvigen at email@example.com.
BPLS (Breakthrough in Life Sciences) has announced six annual prizes of US $3 million each moving forward. These are awarded for past achievements in the field of life sciences, dedicated to advancing breakthrough research, celebrating scientists and generating excitement about the pursuit of science as a career choice.
Six people have received the Breakthrough Prize in Life Sciences for their achievements including new discoveries related to cancer, Parkinson’s disease, cell growth control, drug-release systems, hypertension and intracellular protein degradation. More information about these project can be seen at http://abclocal.go.com/kgo/story?id=9358960 and the 2014 life science breakthrough prize laureates can also be found at https://breakthroughprizeinlifesciences.org/laureates
The founding sponsors of the Breakthrough Prize in Life Sciences are Sergey Brin, Anne Wojcicki, Mark Zuckerberg, Priscilla Chan, Jack Ma, Cathy Zhang, and Yuri Mlller.
The 2014 Breakthrough Prizes (http://en.wikipedia.org/wiki/Breakthrough_Prize_in_Life_Sciences) will premiere on Science Channel on Monday, January 27 at 9 PM ET/PT. (http://tvbythenumbers.zap2it.com/2013/12/12/2014-breakthrough-prizes-to-air-on-science-channel/222175/ )
Purification is a common procedure in most molecular biology experiments, such as the removal of short primers, unincorporated dNTPs, enzymes, and salts from PCR reactions and other impurities. There are various types of purification methods, including filtration, centrifugation and separation. Separation has become a very popular method in life sciences and various types of solid phase support are used. This includes agarose beads, sepharose beads, silica beads, and magnetic beads. Separation using magnetic beads is the quickest, cleanest and most efficient technique out of all the bead separation methods.