Checking date: 02/04/2019

Course: 2019/2020

Computational Biology
Study: Bachelor in Biomedical Engineering (257)

Coordinating teacher: JORCANO NOVAL, JOSE LUIS

Department assigned to the subject: Department of Bioengineering and Aerospace Engineering

Type: Compulsory
ECTS Credits: 6.0 ECTS


Students are expected to have completed
It is strongly advised to have completed Mathematics, Programming, Fundamentals of Biology and Biochemistry.
Competences and skills that will be acquired and learning results. Further information on this link
The student will acquire the ability to apply different computational techniques to solve complex problems typical of biology and medicine. Such problems are characterized by involving the analysis of large quantities of information (data base searching, comparative analysis of sequences of DNA, RNA, microRNA and protein, domain searching, evaluation of the pathogenicity of variants, evolutionary conservation, phylogeny .. ), so that in practice only they are approachable through intensive computing techniques, in which the student is formed.
Description of contents: programme
Topics covered include computational approaches and techniques for searching sequence, structural and expression databases and its relationship with disease databases, alignment and comparison of sequences by using dynamic programming, gene structure prediction, search for restriction sites, secondary structure prediction, generation of recombinant vectors in silico, obtaining the protein sequence encoded, folding and protein structure prediction, prediction of functional and protein-binding domains, protein interactions prediction, evaluating the pathogenicity of disease variants, molecular evolution and phylogenetic sequences analysis. Different examples will be reviewed in different areas and students make use of computational biology tools for analysis.
Learning activities and methodology
The teaching methodology will include: -Lectures, which will present the skills that students should acquire. To facilitate its development students will receive class notes and baseline texts that facilitates follow lessons and develop further work. -Classes of problems, in which the problems will be developed and discussed with the students. -Practices in computer lab.
Assessment System
  • % end-of-term-examination 60
  • % of continuous assessment (assigments, laboratory, practicals...) 40
Basic Bibliography
  • - Lesk, A.M.. Introduction to BioInformatics. Oxford University Press. Third Edition
  • - Mount, DW. Bioinformatics, Sequence and Genome Analysis. Cold Spring Harbor Laboratory Press. Second Edition

The course syllabus and the academic weekly planning may change due academic events or other reasons.