In order to successfully obtain a Masters qualification, you will need to obtain a number of credits by passing individual modules. Most taught Masters will have a number of core modules which you must take and pass in order to obtain the qualification. The assessment of research Masters is almost always entirely by a single dissertation module or project.
Bioinformatics deals with the application of computer approaches to make sense of biological systems. It has become a key focus for industry, especially in the post-genomic age.
Europe, one of the world's seven continents, is usually known as the westernmost peninsula of Eurasia. Second smallest continent, with 10,180,000 (km2), the area regroups 50 countries.
Master's in Bioinformatics in Europe
Biomedical imaging has emerged as one of the most important technology areas in basic bioscience and biomedical research as well as in clinical medicine and translational research. The current technologies enable detailed real-time and non-invasive visualization of molecules, structures and events in cells, tissues, and whole organisms. [+]
Studies on a programme Computer Science, run by a Faculty of Computer and Material Sciences, do not teach only the usage of well-known tools, but rather focus on creating new solutions in informatics. A graduate of the programme receives a solid preparation in the field of the computer science, including not only its theoretical basis and mathematical knowledge, but also gains knowledge in areas such as operating system and computer network architecture, algorithms and basics of programming. [+]
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. [+]
Sup'Biotech’s programs are designed around the model created by the reform in European higher education (LMD). This provides a higher level of standardization and acceptance of European diplomas on the international level. [+]
The Interdisciplinary Approaches in Life Sciences (AIV) Master of Paris Diderot and Descartes universities is an interdisciplinary two- year program tackling with quantitative approaches on different interfaces with Life Sciences. It aims at training creative and talented students to develop their research in an environment as enriching as the best world graduate programs. [+]
This course prepares the graduate to work in the paramedical professions as a Biomedical Engineer. The learning outcomes are of very high quality, as the professions are well regulated by Czech law, which informs the standards and quality of the teaching programme. [+]
The programme is a unique collaboration between Karolinska Institutet, KTH Royal Institute of Technology and Stockholm University, in the environment of Science for Life Laboratory, Stockholm. [+]
Computational biology is one of the most exciting areas of modern science. With the latest technological advancements molecular biology and related fields approach information sciences, algorithms, computer tools and analysis of massive data bases. [+]
Bioinformatics is a strategic science essential to understanding the avalanche of newly generated biological data, to explaining how biological systems function and to generating new resources, goods and services produced by this new knowledge and technologies. [+]
The master's programme in Bioinformatics for Health Sciences is designed to provide professionals and researchers with skills and abilities geared towards the development of new computational strategies and IT systems for use in biomedical research. One of the key features of this programme is the large percentage of optional subjects it offers, allowing students to train in a wide range of bioinformatics disciplines. At the same time, it has a... [+]
Nutritional Molecular Medicine and Bioinformatics is a two-year international Master's programme based on PBL (Problem Based Learning) and designed to offer students scientific knowledge and competences to understand the complex bidirectional [+]
This programme combines molecular and cell biology, computer science and mathematical modelling to integrate vast amounts of biological data into fundamental... [+]
Master in Bioinformatics and Systems Biology
Vast amounts of data have been collected through genomics initiatives. They provide a golden opportunity to research the secrets of life, to understand more of its complexities, to improve quality of life and to conquer major diseases. Converting this huge volume of data into real understanding is the basic challenge of Bioinformatics research.High-throughput methods like massively parallel sequencing and mass spectrometry generate more raw data than conventional computer models can handle efficiently. To process and analyse this data, computational techniques from Bioinformatics – such as sequence alignment, sequence assembly, biostatistics and machine learning – are required in order to make predictions about health outcome and to decide on a personalized treatment for the patient.Both Bioinformatics and Systems Biology are strongly interdisciplinary fields. This programme combines molecular and cell biology, computer science and mathematical modelling to integrate vast amounts of biological data into fundamental knowledge. You will develop a strong feel for scientific research and high levels of abstraction, and learn to combine the rapid developments in these fields.... [-]
Bioinformatics is a broad subject in which biology, medicine, computer science and statistics intertwine. [+]
Bioinformatics is a broad subject in which biology, medicine, computer science and statistics intertwine. The basis for bioinformatics is the massive amount of biological sequence data derived from genomic studies and structural biology and stored in large databases. Computational biology also involves mathematical modelling of biological systems.
Special features of the programme:A combination of advanced research with training of current techniques, as well as the development of novel software tools Close connections to research in an international environment Proteomics, genomics and transcriptomics data will be analysed and combined to gain a global understanding of an organism or groups of organisms. ... [-]