Latest Förster resonance energy transfer Stories
Scientists from the University of Southampton, in collaboration with the Universities of Sheffield and Crete, have developed a new hybrid energy transfer system, which mimics the processes responsible for photosynthesis.
Individual cells modified to act as sensors using fluorescence are already useful tools in biochemistry, but now they can add good timing to their resumé, thanks in part to expertise from the National Institute of Standards and Technology (NIST).
In work published in the June 2011 issue of Experimental Biology and Medicine, Kolossov, Spring and their co-investigators - a multidisciplinary team within the Institute for Genomic Biology at the University of Illinois - have transferred the concept of redox-sensitive Green Fluorescent Proteins (GFPs) to a quantitative FÃ¶rster resonance energy transfer (FRET) imaging platform.
Proteins are the most important functional biomolecules in nature with numerous applications in life science research, biotechnology and medicine.
BERLIN, NIMES, France and RICHMOND, Calif., June 22 /PRNewswire/ -- BRAHMS Aktiengesellschaft, a global diagnostics company, Cezanne, and Lumiphore Inc., a biotechnology leader in new proprietary fluorescent metal-lanthanide technology for use in high-value applications, announced that they have signed an agreement on incorporation of Lumiphore's Lumi4(R)-Tb complexes in BRAHMS diagnostic tests. Under the agreement, BRAHMS together with its subsidiary Cezanne, developer and manufacturer of...
By Hoppe, Adam D Shorte, Spencer L; Swanson, Joel A; Heintzmann, Rainer ABSTRACT Analysis of cellular pathways requires concentration measurements of dynamically interacting molecules within the three- dimensional (3D) space of single living cells.
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