The EMC32 will take place at the University of Vienna from 18th to 23rd August 2019. The meeting is co-organized by Max Perutz Labs group leader Kristina Djinovic-Carugo. Talks by international experts will cover the latest technological advances and trends in crystallography and related sciences.
Europe’s largest conference on crystallography starts on 18 August in Vienna and offers a varied programme for the general public: Be it for the development of new drugs, research into earthquakes or the analysis of paintings: Crystallography plays an important role in many disciplines, even in those where you might not expect it. The conference with about 1,000 participants aims at presenting the latest developments in this field. It starts on Sunday, 18 August, and is jointly organised by the Technical University of Vienna and the University of Vienna. In addition to the academic programme which features renowned participants, the conference offers a diverse range of events for all those who would like to learn more about crystallography: public lectures, a science slam as well as the presentation of the world’s largest crystal model as part of an exhibition in the Arcaded Courtyard of the University of Vienna.
DNA double strand breaks (DSB) are an essential feature during meiosis, a cell division process found in all sexually reproducing organisms. Repair of these breaks mediates exchange of genetic information between parental genomes. Errors during this process can cause genome instability. The lab of Peter Schlögelhofer has discovered that the non-homologous end joining (NHEJ) DNA repair mechanism plays an important role in repairing ribosomal DNA during meiosis. The findings are published in the current issue of The Plant Cell.
Professor Hans Tuppy, born in 1924, started his studies in Chemistry at a time when Europe was struck by World War II. The war took both his father and brother. After graduation in 1945, his career brought him to Cambridge where he worked in the world-famous lab of Fred Sanger on the sequencing of insulin. His next career step was the Carlsberg Laboratory in Copenhagen, from where he returned to the University of Vienna. Later in his career, he shaped Austria’s scientific landscape as Minister of Science and as Rector of the University of Vienna among many other positions. Today, at the age of 95, he still comes to work in his office at the Max Perutz Labs.
Mitosis is the process by which the genetic information encoded on chromosomes is equally distributed to two daughter cells, a fundamental feature of all life on earth. Scientists led by Alexander Dammermann at the Max Perutz Labs, a joint venture of the University of Vienna and the Medical University of Vienna, now examine how centrioles contribute to this process. The findings, published in “Developmental Cell”, help to elucidate the function of these tiny cellular structures in mitosis.
Upon infection cells manage to quickly switch from normal operation to immune reaction in a matter of minutes. This innate immunity requires a cellular signal cascade that activates antimicrobial or antiviral gene expression. Scientists led by Thomas Decker at the Max Perutz Labs have discovered that an alternative version of the activator of antimicrobial gene expression is constantly present on DNA. A molecular switch between the alternative and the regular version enables a quick onset of the immune response. The findings are published in the journal “Nature Communications”.
The Max Perutz Labs are embedded in the Vienna Biocenter, providing access to outstanding core facilities shared by all members of the campus in addition to facilities unique to our institute.
With a strong molecular focus and a diversity of model organisms, we aim to bridge basic research with biomedicine.
Cells communicate at every level and molecular misunderstandings must be avoided.
Cracking the genetic code and understanding how it can be corrupted.
Making sense of big data to drive hypothesis-based research.
Visualising the biochemistry of macromolecules in health and disease.
To honour an extraordinary teacher and scientist, the Max Perutz Labs were named after Max Ferdinand Perutz, who, together with John C. Kendrew, was awarded the 1962 Nobel Prize in Chemistry for his studies on the structure of globular proteins ...
The Max Perutz Labs seek to educate students to think critically and analytically, challenge them to set ambitious goals, and instill in them both broad horizons and deep understanding. In doing so, we aspire to furnish them with the necessary knowledge and skills to push forward the frontiers of 21st century biomedical science.