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.
The people, language, and culture of the Netherlands is referred to as "Dutch". A modern European country today, Netherlands preserved its highly international character and is known for its liberal mentality. The Netherlands has many universities. The country has recently converted their own titles into the bachelor/master system. There are two types of universities: Academic (focussing more on theoretical knowledge, aka "Universiteit") or Applied Sciences (focussing more on practical knowledge, aka "Hogeschool")
The capital city of Netherlands, Amsterdam has well known universities such as the University of Amsterdam and Universiteitsbibliotheek Amsterdam. These educational institutions tend to provide diversified graduate and post graduate degree programs, and they have top notch Research and Development facilities.
Request Information Master's Degrees in Bioinformatics in Amsterdam in Netherlands 2017
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.... [-]