DEPARTAMENTO DE FÍSICA

 

Molecular Biotechnology - EB3

Ano letivo: 2019-2020
Specification sheet

Specific details
course codecycle os studiesacademic semestercredits ECTSteaching language
2005318116pt


Learning goals
This course aims to present advanced knowledge in the field of molecular biotechnology. The course is organized in two parts. In the first one fundamental aspects will be presented such as: recombinant DNA technology, recombinant protein production and protein engineering. In the second part we discuss applications of this technology in the areas of molecular diagnostics, genomics and proteomics, and gene therapy.
The students should acquire fundamental knowledge in molecular biotecnhology and apply the acquired concepts in the design of new cloning strategies and production of recombinant proteins. The student should be able to analyze and discuss scientific papers, and plan small research projects in the area of protein engineering and gene therapy.
Syllabus
1.Cloning Strategies
2.Production of recombinant proteins:
-Manipulation of gene expression on prokaryotes
- Heterologous protein production in Eukaryotic cells (yeast, insect cells and mammalian cells in culture). Methods and applications.
3. Protein Engineering: directed mutagenesis and random mutagenesis, methods and applications. Enzyme Redesign
4. Genomics, proteomics and metabolomics: new omics technologies and applications.
5. Molecular Diagnostics: Fundamentals, methods and applications.
6. Gene Therapy: Targeted Diseases. Clinical trial protocols.
6.1 Gene delivery systems: non-viral and viral systems. Advantages and limitations.
6.2 The use of liposomes in gene therapy: modulation of their properties towards in vivo application Studies of therapeutic activity in animal model.
Prerequisites
Knowledge of Biochemistry and Molecular Biology
Generic skills to reach
. Competence in analysis and synthesis;
. Competence in oral and written communication;
. Competence for working in group;
. Competence in understanding the language of other specialists;
. Competence in applying theoretical knowledge in practice;
. Competence in organization and planning;
. Critical thinking;
. Competence in autonomous learning;
. Adaptability to new situations;
. Research skills;
(by decreasing order of importance)
Teaching hours per semester
lectures15
theory-practical classes5
laboratory classes20
total of teaching hours40

Assessment
Project30 %
Exam40 %
Otherapresentação e discussão de artigos científicos /presentation and discussion of scientific papers 30 %

Bibliography of reference
1.Molecular Biotechnology, 3ª edição, (2010) B.R. Glick e J. Pasternak. ASM Press, Washington DC.
2. Molecular Diagnostics: Current Technology and Applications (2006) Juluri R. Rao Horizon Bioscience.
3. Non-viral vectors for gene therapy (Leaf Huang, Mien-Chie Hung and Ernst
Wagner, Editors) Elsevier, Academic Press, second edition, Parts I and II
(2005).
Teaching method
The course will run intensively for 4 weeks with lectures and practical classes. In the lectures the fundamental knowledges and recent developments in the area are presented that, later are explored by students, in the classroom with the realization of a project proposal and discussion of relevant scientific articles in the field of protein engineering and gene therapy .
Resources used