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General Information: BIOINFORMATICS

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GENERAL INFORMATION:

1. Definitions
2. The Need for Bioinformatics
3. Fields of Study - Expertise areas
4. The Bioinformatics Postgraduate Programme
5. Admissions, Fees and Curiculum (General Information)

REGULATIONS OF STUDY (in Greek):

1. Γενικές διατάξεις
2. Όργανα του Π.Μ.Σ.
3. Οργανωτική και Διοικητική Δομή
4. Προκήρυξη θέσεων - Επιλογή Μεταπτυχιακών Φοιτητών
5. Προϋποθέσεις για την απόκτηση Μεταπτυχιακού Διπλώματος Ειδίκευσης
6. Προϋποθέσεις για την απόκτηση Διδακτορικού Διπλώματος
7. Περιεχόμενο, διάρκεια και παρακολούθηση των μεταπτυχιακών μαθημάτων
8. Ακαδημαϊκοί Σύμβουλοι Μεταπτυχιακών Φοιτητών
9. Παροχές - Συμμετοχή των Μεταπτυχιακών Φοιτητών σε Παν/κά Όργανα
10. Τελική βαθμολογία - Απονομή των Διπλωμάτων
11. Ανάθεση μαθημάτων
12. Κόστος Λειτουργίας
13. Διαγραφές Μεταπτυχιακών Φοιτητών
14. Υποτροφίες
15. Διάφορα

USEFUL WEB SITES ABOUT 
BIOINFORMATICS:
EMBnet
Sanger Centre
HGMP-RC
EBI
EMBL
ExPASy
MIPS
NCBI
Entrez
ISCB
IEEE
UOA Biophysics lab links
University of Cambridge links

The rapid growth of Bioinformatics calls for postgraduate studies of exceptional quality.

Professor C. Vorgias, Director of Studies

GENERAL INFORMATION

1.  Definitions
Bioinformatics is conceptualizing Biology in terms of molecules (in the sense of Physical Chemistry) and applying "informatics techniques" (derived from disciplines such as applied mathematics, computer science and statistics) to understand and organize the information associated with these molecules, on a large scale. It explores new ways for approaching biological problems and aims at the comprehension of basic principles of Biology.
Bioinformatics interacts strongly with modern structural, molecular and environmental biology, as well as with pharmaceutical and medicinal chemistry. Nowadays, the field is rapidly developing worldwide; several important goals have already been accomplished, while large investments from various sources are continuously attracted. Bioinformatics occupies a central position in the recent developments of Life Sciences, with the most sound example being the analysis of data derived from all genome sequencing efforts, including the Human Genome Project.
2. The need for Bioinformatics
The major advancements in Molecular and Structural Biology during the last decades, along with the development of large-scale genome technologies and the need to study complex biological systems, have led to the exponential growth of the biological information produced. There is an absolute necessity for tools and methodologies aiming to manage, control and analyse the amount of biological information available, in order to infer meaningful insights. As a direct consequence, a need has emerged to develop algorithms and computational tools, as well as to adapt existing technologies, in order to store, manipulate, analyse and display biological data.
3. Fields of Study - Expertise Areas
Bioinformatics preexisted the burst of genomic, proteomic and population data, since it emerged in the early 1970s. Certain today's advancements are based on the foundations placed during that period. The wealth and diversity of the biological information available nowadays, gave a new boost in Bioinformatics research, which is now a part of the cutting-edge basic and applied biomedical research.
Recruitment of experts from several disciplines (Biology, Computer Science, Mathematics, Physics, Chemistry), aiming to apply mathematical and computational methods to analyse and model biological systems, has been a common paradigm in Bioinformatics. The continuously increasing complexity and diversion of the available data, calls for the contribution and collaboration of experts from with diverse backgrounds. Suitable training on the principles and methods of modern Bioinformatics is essential, so that they can face the increased challenges in research and production.
4.  The Bioinformatics Postgraduate Programme
Given the explosion in Biotechnology research (including, among others, Pharmacogenomics and Molecular Medicine) the Bioinformatics Postgraduate Programme aims to satisfy the need for high-quality training of young scientists, with the intention to enter the challenging field of Bioinformatics. The emergence of a critical mass of scientists with a foundation in Bioinformatics, should lead to the advancement of modern biological research in our country, in both academia and industry.
The Bioinformatics Postgraduate Programme is organized and coordinated by the Faculty of Biology of the National and Kapodistrian University of Athens. At the same time, the Programme collaborates with a number of prominent Universities and Research Institutions including the Agricultular University of Athens, the University of Thessaly, the National Technical University of Athens,. the Harokopio University the Biomedical Research Foundation of the Academy of Athens (BRFAA), The National Hellenic Research Foundation (NHRF) and the National Centre for Scientific Research "Demokritos". The Programme's courses are taught by Professors and Researchers from the above institutions, as well as invited speakers from other institutions, both in Greece and abroad. The Programme is accommodated in the Department of Cell Biology and Biophysics, Faculty of Biology at the campus of the University of Athens.
5.  Admissions and Curiculum (General Information)
The Bioinformatics Postgraduate Programme admits University graduates from Schools of Sciences (Biology, Physics,Chemistry, Mathematics, Informatics etc), Medical Schools and departments associated with Medical Sciences, Polytechnical, Agricultural and Economical faculties and Universities, as well as graduates of Technological Educational Institutes (T.E.I.) in related disciplines. The total number of students admitted to the Programme each year should not exceed twenty (20). Each applicant to the Programme is evaluated based on their scientific background, undergraduate performance and knowledge of the English language, as well as through an interview with the members of the Programme's Scientific Committee. Fees are set to 3,000 euros for the entire programme. Detailed information on admissions to the Programme and fees can be found in the Admissions page.
The Programme lasts 24 months and involves three semesters of teaching (in Greek). In addition, each Graduate Student undertakes an individual research project under the supervision of a member of the Programme's Faculty, that will lead to a Master Diploma Thesis. The Programme's curiculum is organized in both compulsory and elective courses that cover multiple subjects, derived from both the fields of Biological Sciences (Molecular Biology, Biomolecular Structure and Function, Molecular Recognition, Drug Design, Genomics etc) and the application of Mathematics and Informatics in Biological research (Sequence and Structure analysis, Biostatistics, Biological Database Design, Complex Adaptive Systems, Microarray Technologies and Applications etc). Additionally, the Programme curiculum gives emphasis on topics of general interest such as the Methodology of Research, as well as the application of Bioinformatics in the study and preservation of Biodiversity and the environment. Attendance of lectures and the involvement of students in the educational process are compulsory. It is left to the instructor to decide how these will participate in the final assessment of the student's performance. Detailed information on the Programme's curiculum and courses can be found in the Courses page.

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