Researchers FRET over vesicle formation
September 14, 2009
New insights into vesicle formation could open up prospects for the research of neurological and infectious diseases according to a group of Norwegian researchers.
New insights into vesicle formation could open up prospects for the research of neurological and infectious diseases according to a group of Norwegian researchers.
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| Researchers determine shape and size of the contact area between vesicle and membrane by measuring colour intensity from flourescent molecules |
Associate Professor Dimitrios Stamou, Department of Neuroscience and Pharmacology and Nano-Science Center explained: “Contact between vesicles and membranes are an essential step in many important biological processes. We can now quantify contact areas formed between vesicles and determine the vesicle size and shape with nano-scale resolution. This helps us characterise the properties of the molecules involved in vesicle-fusion. The new method opens great new prospects for the research of neurological and infectious diseases.”
The researchers are using a method called FRET or Fluorescence Resonance Energy Transfer. The method is well known, but what is new is the way the researchers are using it. They produce vesicles in the laboratory, which contain fluorescent donor molecules, and membranes fixed to a surface. The fixed membranes contain acceptor fluorescent molecules. Only when the two different fluorescent molecules are near to each other will light be emitted, which researchers can measure as a sign of vesicle fusion. By measuring the emitted light, the researchers found new ways to determine the vesicle shape with nano-scale resolution in real-time.
“Until now it has only been possible to get a still image of the process with high resolution, or live images with low resolution. With the new method we can quantify the changes in vesicle shape live i.e. during fusion, and with nanoscale resolution,” said Stamou.
