Master Program in Biotechnology in Austria

Compare Masters Programs in Biotechnology in Austria

Biotechnology

A masters is the first level of graduate coursework and can be obtained after you receive a bachelor’s degree. Earning a masters usually requires two years of full-time study, which amounts to 36 to 54 semester credits.

 

Biotechnology is a challenging area that combines science and engineering concepts. Students who pursue this educational path will likely gain knowledge in microbiology, chemistry, genetics, cell biology, bioethics, gene cloning, bioinstrumentation, bioinformatics, genomics, and biometrics.

If you are thinking of furthering your education in an institution, where academic excellence is adhered to then Austria offers the best destination. These institutions are research based thus enabling students to get ideas on how solve real life problems.

Masters in Biotechnology in Austria

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MSc Evolutionary Systems Biology

University of Vienna
Campus Full time October 2017 Austria Vienna

With the proliferation of huge data sets (DNA/RNA sequences, 4D imaging and geometric morphometrics), modern biology is rapidly becoming a quantitative science. Research laboratories and biotech companies around the world are looking for people who can use these data to solve biological and medical problems. [+]

Top Master's Degrees in Biotechnology in Austria. A joint Master's programme at the University of Vienna & University of Veterinary Medicine Vienna For detailed information, see the Evolutionary Systems Biology Website With the proliferation of huge data sets (DNA/RNA sequences, 4D imaging and geometric morphometrics), modern biology is rapidly becoming a quantitative science. Research laboratories and biotech companies around the world are looking for people who can use these data to solve biological and medical problems. To fulfill this demand, the new Evolutionary Systems Biology (ESB) Master's program (start: Winter Term 2016) provides the training necessary for this new type of scientist. Specifically, ESB master's students will: Learn how to understand and handle modern “- omics” data sets. Develop key computational skills and delve into biological modelling. Combine experimental “wet-lab” technologies with quantitative “dry-lab” methods. Apply these skills to questions arising from evolutionary biology, development, comparative genomics, and systems biology. Vienna offers a unique scientific environment for the ESB Master's program, which will benefit from the expertise of research groups in population genetics, evo-devo, systems biology, and biomathematics at the University of Vienna and the Vetmeduni Vienna. Master's students will be able to draw upon the resources of two Universities, and on established connections to world-class research institutes such as the Gregor Mendel Institute, IST Austria, the Vienna Graduate School of Population Genetics, and the evolVienna network. Course Overview The ESB master’s programme aims to provide hands-on education, with practical skills courses designed to complement all lectures in the core curriculum. Furthermore, there is a strong emphasis on research, with two lab rotations and a research-based master's thesis project providing training in cutting-edge research methods. This programme particularly includes: Courses covering population genetics, comparative genomics, molecular evolution, EvoDevo and systems biology. Practical courses introducing modelling, programming, and statistical data analysis for biologists. An extensive research component, including rotations in multiple research groups, one-on-one training, and individual research projects. Special skill courses on giving scientific talks and writing successful grant proposals. The expected length of the Master in ESB programme is four semesters. In line with the curriculum nine modules (MES1-9), a Master’s Thesis and an Oral Defense, totalling 120 ECTS, have to be completed to be awarded the degree. Admission The ESB master's programme is aimed at students with an interest in biological research and quantitative methods. As an entry requirement applicants must hold a bachelor's degree in biology or in a related field (such as biotechnology, biomedicine, or bioinformatics). Advanced quantitative skills are not a prerequisite. Applicants with a BSc in other natural sciences (e.g. Physics) or mathematics and statistics may also be admitted to the ESB master's programme, provided that they complete additional courses in basic biology. Non-native speakers are required to prove their English language competence. After Graduation An ESB master's degree will provide degree holders with an excellent foundation which will either enable them to pursue a doctorate, such as a PhD in quantitative biological research, or will open up a wide variety of career opportunities in research-oriented biomedical/biotechnological companies. For further information, please see here [-]

Master in Biotechnology

Graz University of Technology (TU Graz)
Campus Full time October 2017 Austria Graz

Through the interdisciplinary NAWI Graz master’s programme Biotechnology, internationally recognized instructors provide you with knowledge about technological processes occurring in biosystems as well as about the development and use of biotechnological applications and methods. [+]

Through the interdisciplinary NAWI Graz master’s programme Biotechnology, internationally recognized instructors provide you with knowledge about technological processes occurring in biosystems as well as about the development and use of biotechnological applications and methods. The core areas are molecular biotechnology, biocatalysis, and environmental, food, enzyme and bioprocess technology. Students benefit from access to the excellently equipped laboratories and modern infrastructure. Content You learn working and analytical methods used in the fields of microbiology, molecular biology, biochemistry, and gene, enzyme and fermentation technology. You independently perform cutting-edge scientific and technological experiments. You assess the results of experiments, identify problems and propose solutions. You learn to develop new strategies by considering and assessing current research findings. You use modern information technology in bioinformatics. You work in teams and present results. Core areas Molecular Biotechnology and Bioinformatics Bioprocess Technology Environmental and Food Biotechnology Specialisation subjects You may choose 2 of the following areas of specialisation: Enzyme and Protein Technology Systems and Synthetic Biotechnology Bioprocess Engineering Environmental and Food Biotechnology Career Options Graduates are employed in leading positions in both the basic and applied sciences in academia and industry. Biotechnologists plan experiments and analyses, implement these and examine existing solutions. Their problem-solving skills are needed for research and technological development. Graduates work in the following areas: industrial biotechnology, chemical manufacturing using biocatalytic processes, pharmaceutical research, food technology, environmental biotechnology, agricultural research, in relevant university and non-university research institutions and with public authorities or in public offices. Registration Deadlines Summer semester 2016: 7 January to 30 April 2016 Winter semester 2016/17: 11 July to 30 November 2016 [-]