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14.03.2012 15:47

Gold nanoantennas detect proteins

Petra Giegerich Kommunikation und Presse
Johannes Gutenberg-Universität Mainz

    New method of monitoring protein molecules using gold nanoparticles

    Scientists at Johannes Gutenberg University Mainz (JGU) in Germany have developed a new method of observing individual proteins. Detailed knowledge of the dynamics of proteins is necessary in order to understand the related biological processes that occur on the molecular level. To date, this information has been obtained by means of labeling proteins with fluorescent substances, but unfortunately this changes the proteins under investigation and thus influences the biological processes that are to be observed. "Our method allows live tracking of individual proteins without having to label them first," explains Professor Dr. Carsten Sönnichsen of the Institute of Physical Chemistry at JGU. "We are now gaining entirely new insights into molecular processes and can see, for example, how things are constantly in motion even on the very smallest scale."

    The method developed by the group of Mainz chemists led by Carsten Sönnichsen is based on the use of gold nanoparticles. These serve as glistening nanoantennas that, when they detect individual unlabeled proteins, slightly change their frequency or, in other words, their color. These tiny color changes can be observed using the technique developed in Mainz. "This is an enormous leap forward technologically: We have managed to achieve a very high time resolution for the observation of individual molecules," says Sönnichsen. It is thus now possible to precisely observe the dynamics of a protein molecule down to the millisecond.

    The opportunity to detect individual protein molecules also opens up completely new horizons. It has thus become practicable to track the fluctuation of protein population densities and observe protein adsorption processes in real time, among other things. "We can see how molecules move, how they dock at particular locations, and how they fold – this has given us a window into the molecular world," explains Dr. Irene Ament, a member of Sönnichsen's group. This new technology may prove to be useful not only in chemistry but also in medicine and biology.

    The work is an important element in research into non-equilibrium phenomena at the molecular level and thus provides a solid foundation for the planned Cluster of Excellence Molecularly Controlled Non-Equilibrium (MCNE), which has been selected to enter the final round of the Excellence Initiative by the German federal and state governments to promote top-level research at German universities. Among other sources, the project received financial support in the form of an ERC Starting Grant for the project "Single metal nanoparticles as molecular sensors" (SINGLESENS).

    Publication:
    Irene Ament, Janak Prasad, Andreas Henkel, Sebastian Schmachtel & Carsten Sönnichsen
    Single unlabeled protein detection on individual plasmonic nanoparticles
    Nano Letters, 23 January 2012
    DOI: 10.1021/nl204496g
    (see also: http://unibibliografie.ub.uni-mainz.de/opus/frontdoor.php?source_opus=7751)


    Weitere Informationen:

    http://www.uni-mainz.de/eng/15119.php - press release ;
    http://pubs.acs.org/doi/abs/10.1021/nl204496g - publication


    Bilder

    The new method developed in Mainz makes it possible to observe individual protein molecules under a microscope with the help of a gold nanoparticle. (diagram: Gold nanoantenna with protein molecules shown in purple)
    The new method developed in Mainz makes it possible to observe individual protein molecules under a ...
    Abb.: Institut für Physikalische Chemie / JGU
    None


    Merkmale dieser Pressemitteilung:
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    Chemie, Energie, Physik / Astronomie
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    Forschungsergebnisse, Wissenschaftliche Publikationen
    Englisch


     

    The new method developed in Mainz makes it possible to observe individual protein molecules under a microscope with the help of a gold nanoparticle. (diagram: Gold nanoantenna with protein molecules shown in purple)


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