Master's Degree in Molecular Sciences in Rome in Italy

View all Masters Programs in Molecular Sciences 2017 in Rome in Italy

Molecular Sciences

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.

 

Study in molecular sciences can open up many innovative and new scientific fields to pursue, including molecular neuroscience, cytogenetics, molecular genetics, molecular basis of monogenic diseases, molecular virology and immunology, and the molecular basis of complex diseases.

Officially known as the Italian Republic, the country is found in southern Europe. The official language is Italian and the cultural rich capital is Rome. Many of the world's oldest universities are located in Italy, in particular the University of Bologna (founded in 1088). There are three Superior Graduate Schools with "university status", three institutes with the status of Doctoral Colleges, which function at graduate and post-graduate level.

For those who are interested in studying in a capital city with a rich heritage, Rome is the right place. It has distinctive universities such as the University of Rome that provides degree programs in a variety of disciplines like history and Engineering. This city is peaceful and ideal to live.

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Masters Programme in Genetics and Molecular Biology

Sapienza University of Rome
Campus Full time 2 years October 2017 Italy Rome

The Masters Programme in Genetics and Molecular Biology will provide students with the theoretical and practical preparation necessary to manage bio-molecular research (basic and applied to biomedicine). [+]

Masters in Molecular Sciences in Rome in Italy. The Masters Programme in Genetics and Molecular Biology will provide students with the theoretical and practical preparation necessary to manage bio-molecular research (basic and applied to biomedicine). The programme focuses on individual student progress and their understanding of scientific issues and experimental strategies that are relevant to the programme objectives, as well as the final student thesis, which must be based on original experimental work, in coordination with a department professor. Learning Outcomes Advanced knowledge of unicellular and multicellular organisms that can be used as model systems for the study of the basic mechanisms of gene expression or more complex processes such as cellular development, differentiation and transformation; Acquisition of relevant concepts and methodologies, especially in terms of gene studies related to complex processes and the study of human populations; Advanced knowledge of the molecular basis of the main processes involved in the regulation of the structure and function of nucleic acids and proteins; Understanding of basic methodologies for the study and manipulation of biological macro-molecules; Ability to develop and improve basic methodologies that may be applied to research in biomedical and biotechnological research; Understanding of genetic and molecular concepts applied to the diagnosis and cure of genetic diseases; Ability to identify the biological processes underlying the basic physiopathology of organs and systems and their modulation, especially in mankind. [-]