Objectives of Programme's Learning Outcomes

• Understand, describe, analyse and prioritise biological phenomena
• Understand basic scientific knowledge and be able to use it
• Problem-solve
• Understand the expression of biological realities in absolute or relative terms, the orders of magnitude, proportions and probability
• Abstract, understand and apply mathematical translations of the main laws and biological phenomena
• Understand and use different graphical representations of numerical values and their relationships
• Perceive spatial distribution, and understand two- and three-dimensional representations and interconvert them
• Understand the chronology of a phenomenon and master the time scales and their representations
• Manipulate concepts of concentration and prepare solutions
• Control the molecular, morphological and functional approaches of normal and pathological conditions
• Understand the learning of physiological and pharmacological reasoning
• Understand experimental protocols in the biomedical domain
• Integrate concepts from different approaches/disciplines in a complex biomedical problem
• Explain how molecular, morphological and functional modifications constitute pathological states and vice versa
• Develop reasoning skills
• Understand and apply the basic principles of reasoning (obtaining data, analysis, synthesis, comparison, the rule of three, syllogism, analogy, Boolean logic, etc.)
• Understand the statistical and/or epidemiological methods
• Work with efficiency / accuracy / precision
• Present a hypothesis and hypothetical-deductive reasoning
• Develop critical thinking, test and monitor conclusions understanding the domain of validity, and explore alternative hypotheses
• Manage doubt and uncertainty
• Demonstrate developed interpersonal skills
• Use a rich vocabulary linking concepts and words accurately
• Adapt lexical and syntactic choices in communication register (everyday language, medical language or scientific terminology)
• Summarise, explain, and argue
• Work in a team
• Share knowledge and information
• Submit reviews, reports and give oral presentations
• Manage resources
• Manage time
• Prioritise
• Use basic IT and bibliographic resources.
• Manage their studies
• Locate scientific information efficiently
• Compare different sources of information
• Read, interpret, and critique a scientific article
• Self-assess and give feedback
• Be open to research and demonstrate scientific curiosity
• Show a good knowledge of scientific English
• Understand and summarise a scientific article in English

Learning Outcomes of UE

At the end of this course unit, students will be able to understand the biological basis of heredity, the modes of transmission of traits, genetic variability in humans, and its consequences. They will master the principles of a wide range of modern techniques and experimental models in genetics and biotechnology (advantages and limitations) as well as their applications in biomedical sciences and human health.

UE Content: description and pedagogical relevance

Recent technical advances in the fields of molecular biology, genetics, and biotechnology have significantly improved the understanding of diseases, the development of drugs, vaccines, and diagnostic tests. This course will provide an overview of basic and emerging techniques used for the detection of genetic variants and pathogens (genome analysis). Students will also explore advanced concepts in genetics, which are essential for understanding complex molecular mechanisms. By the end of this course, students will understand the different experimental approaches and available experimental models, as well as their applications to biomedical research and human health in general.

Prior Experience

Good knowledge of biology, biochemistry, and molecular biology