A Novel Gene-Silencing Protein Offers New Possibilities for Treatment of Cancer and Genetic Disorders.Study is Funded by ERA-NET ERA-NET European Research Area Net PathoGenomics JUELICH, Germany -- A study published recently in the Proceedings of the National Academy of Science (PNAS PNAS Proceedings of the National Academy of Sciences PNAS Phosphate:Na + Symporter PNAS Pensacola Naval Air Station PNAS Philippine National Airsoft Society ) by a team of scientists headed by Professors Helene Bierne and Pascale Cossart from the Pasteur Institute, in collaboration with colleagues form the CNRS CNRS Centre National de la Recherche Scientifique (National Center for Scientific Research, France) CNRS Centro Nacional de Referencia Para El Sida (Argentinean National Reference Center for Aids) and the French Agricultural Research Institute (INRA INRA Institut National de la Recherché Agronomique (France; National Institute for Agronomic Research) INRA Institute for Natural Resources in Africa INRA Inland Northwest Research Alliance ), identified a novel protein, BAHD1, which is responsible for changing DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. structure and silencing the expression of genes. Expression of pathological variants of genes may play a key role in causing various cancers and genetic disorders. The finding is part of the Spatelis research project, funded under the framework of ERA-NET PathoGenoMics, an initiative of the European Commission aimed at advancing transnational research in genome-based research programs on human-pathogenic microorganisms. All the cells in any particular human body contain the same genetic information, and yet our body is made of very different cell types and tissues such as skin, brain or muscles. This is due to the fact that each cell type activates only a small subset of genes, rendering it unique and different from cell types. But how do cells "choose" what genes to turn on or off? They do so, among other means, by regulating the structure of chromatin chromatin: see chromosome. , fibers made of DNA and proteins that constitutes our chromosomes. Chromatin may have tightly packed and condensed areas, where genes are silenced, or areas that are less densely packed and genes are activated. It is crucial to identify factors that regulate the chromatin structure since their alteration can lead to cancers, developmental abnormalities, and neurological disorders. The protein identified by the French scientists, BAHD1, is such a factor, which behaves as a chromatin condensation machine at specific gene sites. In particular, BAHD1 silences IGF (Internet Governance Forum) An international organization of governments and U.N. agencies that was founded to discuss Internet issues such as security and spam. It was created at the United Nations Summit in 2005 after the U.S. 2, a gene mainly active during embryo development. This and other embryonic-development genes remain silent in healthy adults. However, in many human cancers these genes are inappropriately reactivated, causing the explosion of uncoordinated cell growth that is the hallmark of tumor formation. "The discovery of the BAHD1 complex contributes to the understanding of how genes in cells of our body are regulated. Such knowledge could lead to new cancer therapies aimed at re-silencing inappropriately activated genes or to new prognosis markers," said Dr. Marion Karrasch-Bott, Coordinator of ERA-NET PathoGenoMics. About ERA-NET PathoGenoMics ERA-NET PathoGenoMics, a project funded by the European Commission, has been set up to establish sustained co-operation between national funding bodies and to co-ordinate their genome-based research programs on human-pathogenic microorganisms. The participating ERA-NET PathoGenoMics partner countries and funding institutions include: Austria, Federal Ministry for Science and Research (BMWF) and The Austrian Science Fund (FWF); Finland, Academy of Finland The Academy of Finland (Finnish: Suomen Akatemia) is a governmental funding body for scientific research in Finland. It is based in the Finnish capital, Helsinki. Yearly, the Academy administers over 200 million euros to Finnish research activities. Over 3. (AKA); France, Institut Pasteur (IP), Ministere de l'Enseignement superieur et de la Recherche (MESR MESR Master Enterprise Spiral Review ) and The National Agency for Research (ANR); Germany, Federal Ministry of Education and Resarch (BMBF BMBF Bundesministerium für Bildung und Forschung (German: Federal Ministry of Education and Research; Bonn, Germany) BMBF Barclays Mercantile Business Finance Limited ) and Project Management Juelich (PTJ); Hungary, Hungarian Academy of Science (HAS) and Hungarian Scientific Research Fund (OTKA); Israel, The Chief Scientist Office, Israeli Ministry of Health (CSO-MOH); Latvia, Latvian Council of Science (LCS); Portugal, The Science and Technology Foundation (FCT); Slovenia, Ministry of Higher Education, Science and Technology (MHEST); Spain, Ministry of Science and Innovation. For further information, please visit www.pathogenomics-era.net |
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