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Exact pol(e) position - precisely where the polymerase is changed
Neuherberg, Germany, January 21, 2016. Scientists at the Helmholtz Zentrum München, working with colleagues from the Ludwig-Maximilians-Universität München, have developed a method for the thorough analysis of protein modifications. They mapped the phosphorylation sites of the RNA polymerase II enzyme, which is responsible for expressing our genes. The results have now been published in the 'Molecular Cell' scientific journal.
The contents in our genetic information are actually silent (meaning inactive) and first have to be made to "speak". Like the read head in a tape recorder, RNA polymerase II, Pol II for short, runs over the DNA (tape) and transcribes the genetic and epigenetic information into RNA. In order to keep the enzyme from working randomly, however, it is dynamically modified at many different points in order to control its activity depending on the situation.
"Phosphorylation makes it possible to influence the activity of the enzyme at 240 different sites," explains Prof. Dirk Eick, the study's last author and head of the Research Unit Molecular Epigenetics at Helmholtz Zentrum München. Together with colleagues from the Biomedical Center and Gene Center of the Ludwig-Maximilians-Universität München and the Max Planck Institute for Biophysical Chemistry in Göttingen, Germany, he and his team have developed a method for simultaneously examining all 240 sites in Pol II.
"The trick is a combination of genetic and mass spectrometric* methods," reveals first author Dr. Roland Schüller. "By producing genetically modified variants of the regions in question, we can examine each individual phosphorylation site with a mass spectrometer." This allows the researchers to determine exactly how and precisely where certain enzymes that influence phosphorylation act. The scientists also successfully compared the Pol II modification patterns in humans and in yeast.
"The regulation of the transcription of genes by Pol II is an elementary process in life and gene regulation deviations are the basis for many human disorders," study leader Eick explains the work’s background. "Research into the phosphorylation pattern at certain times during the transcription cycle is therefore necessary in order to be able to gain an understanding of the underlying mechanisms of gene regulation at the transcription level sometime in the future."
* Mass spectrometry is a procedure that makes it possible to determine the mass of tiny molecules. This is done by transferring the substance to be examined into the gas phase and then electrically charging it. As a result of this charge, the molecules (or smaller fragments) can be accelerated through an electric field. The arrival of the molecules at the end of this field is then measured. Each molecule has its own flight duration that depends on the mass and that allows the substances to be sorted.
Schüller, R. et al. (2015). Heptad-specific Phosphorylation of RNA Polymerase II CTD, Molecular Cell
The Helmholtz Zentrum München, the German Research Center for Environmental Health, pursues the goal of developing personalized medical approaches to the prevention and therapy of major common diseases such as diabetes and lung disease. To achieve this, it investigates the interaction of genetics, environmental factors and lifestyle. The Helmholtz Zentrum München has about 2,300 staff members and is headquartered in Neuherberg in the north of Munich. It is a member of the Helmholtz Association, a community of 18 scientific-technical and medical-biological research centers with a total of about 37,000 staff members. The Helmholtz Zentrum München is a partner in the German Center for Diabetes Research.
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Scientific contact at Helmholtz Zentrum München:
Prof. Dr. Dirk Eick, Helmholtz Zentrum München - German Research Center for Environmental Health (GmbH), Research Unit Molecular Epigenetics, Marchioninistraße 25, 81377 München - Tel. +49 89 3187-1512 – E-mail