National Institute of Advanced Industrial Science and Technology (AIST) Elucidates Ultra-Sensitive Detection of Trace Amounts of Proteins Using Fluorescent Nano Particles.Tokyo, Japan, Apr 5, 2006 - (JCN) - The National Institute of Advanced Industrial Science and Technology The National Institute of Advanced Industrial Science and Technology (産業技術総合研究所 (AIST AIST Advanced Industrial Science and Technology (Japan) AIST National Institute of Advanced Industrial Science and Technology (Japan) AIST Association for Iron & Steel Technology ) has succeeded in the synthesis of unique high quality fluorescent quantum dots, and the development of nano-biohybrid materials for protein and DNA/RNA measurements using quantum dots. Additionally, AIST has made the first confirmation that the materials can be applied for detection of trace amounts of proteins in cell lysates using antibodies (immunoblotting immunoblotting, n the immunologic methods for isolating and quantitatively measuring immunoreactive substances. When used with immune reagents such as monoclonal antibodies, the process is known generically as Western blot analysis. ). The quantum dots are particles of several nanometers (one nanometer = 10-9 m) in diameter, which are formed by inorganic semiconductor substances. Because the quantum dots can emit strong fluorescence by ultraviolet irradiation, they have attracted attention for use as optical materials for bioimaging, biosensing, photosensitizing photosensitizing causing photosensitivity. photosensitizing plants some plants carry primary photodynamic agents, e.g. Hypericum perforatum. , etc., thus resulting in intense world-wide competition in their research and development. AIST has succeeded in the preparation of high quality quantum dots which have the following characteristics: 1) high-luminescence performance, 2) effective size-distribution, 3) high photochemical photochemical in laser treatment, the laser light is absorbed and converted into chemical energy. stability, 4) non-aggregation, and 5) non-blinking. In addition, AIST successfully synthesized avidin- or biotin-conjugated quantum dots, and by combinig both quantum dot hybrid materials, dramatically enhanced the sensitivity of antibody-based detection of proteins. In future, AIST will utilize this technique for the development of electrophoresis tips to detect and identify native proteins. AIST plans to develop surface treatment techniques for quantum dots to specifically label objectionable fungi and foreign substances invading various food production processes including the production of fermented food, and apply the techniques developed to evaluation of the optimal process management. The results in this work have been published in Journal of American Chemical Society The American Chemical Society (ACS) is a learned society (professional association) based in the United States that supports scientific inquiry in the field of chemistry. Founded in 1876 at New York University, the ACS currently has over 160,000 members at all degree-levels and in , 2005, 127(26), 9328, and Analytical Chemistry, 2006, 87(1), 321, which are both journals of the American Chemical Society. The results were also presented at "NanoTech 2006 International Nanotechnology Exhibition & Conference" held at Tokyo Big Sight Tokyo Big Sight (東京ビッグサイト on February 21-23. Copyright [c] 2006 Japan Corporate News Network. All rights reserved. |
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