First cycle
degree courses
Second cycle
degree courses
Single cycle
degree courses
School of Science
Course unit
SC06100858, A.A. 2015/16

Information concerning the students who enrolled in A.Y. 2015/16

Information on the course unit
Degree course Second cycle degree in
SC1176, Degree course structure A.Y. 2014/15, A.Y. 2015/16
bring this page
with you
Number of ECTS credits allocated 6.0
Type of assessment Mark
Course unit English denomination BIOINFORMATIC 2
Website of the academic structure
Department of reference Department of Mathematics
Mandatory attendance No
Language of instruction Italian
Single Course unit The Course unit can be attended under the option Single Course unit attendance
Optional Course unit The Course unit can be chosen as Optional Course unit

Teacher in charge SILVIO TOSATTO BIO/10
Other lecturers GIUSEPPE ZANOTTI BIO/10

ECTS: details
Type Scientific-Disciplinary Sector Credits allocated
Educational activities in elective or integrative disciplines BIO/10 Biochemistry 6.0

Course unit organization
Period Second semester
Year 1st Year
Teaching method frontal

Type of hours Credits Teaching
Hours of
Individual study
Practice 2.0 16 34.0 No turn
Lecture 4.0 32 68.0 No turn

Start of activities 01/03/2016
End of activities 15/06/2016
Show course schedule 2019/20 Reg.2014 course timetable

Examination board
Examination board not defined

Prerequisites: Basic knowledge of optimization methods and machine learning. C++ and/or Java programming languages.
Target skills and knowledge: The course intends to communicate basic knowledge on structure and function of living material as well as the main computational methods for its study. Moreover, it intends to enable the student to autonomously develop a research project in bioinformatics, defining the state of the art for an open problem and providing an attempt to solve it through the extension of existing software libraries and the critical evaluation of obtained results.
Examination methods: The exam covers three separate parts, which have to be all passed: (relative weights in parenthesis)
1) Written test of the biochemistry concepts (ca. 30%)
2) Software project (ca. 40%)
3) Project presentation and critical evaluation (ca. 30%)
Assessment criteria: 1) understanding of concepts and algorithms presented in class
2) the ability to apply the described concepts on real problems
3) the critical capacity of being able to use the methods in the most appropriate ways, choosing between the alternatives
4) the ability to develop reusable software by extending existing libraries
5) the ability for critical presentation and discussion
Course unit contents: The course consists of two parts:
1) Introduction to living matter (2 credits):
1.1) Introduction to organic chemistry
1.2) Weak interactions and energy
1.3) Structure and function of DNA and proteins
1.4) Lipids, membranes and cellular transport

2) Computational Biochemistry (4 credits):
2.1) Biological Databases
2.2) Software libraries and concepts for sequence alignments, profiles and database searches
2.3) Sequence - structure - function relationship in proteins and classification
2.4) Methods for the prediction of protein structure from sequence. The CASP experiment.
2.5) Methods for the prediction of protein function. The CAFA experiment.
2.6) Introduction to network and systems biology.
2.7) Genotype – phenotype correlations. The CAGI experiment.
Planned learning activities and teaching methods: The course consists of lectures, practical computer exercises, lecture note contribution and the development of a project and presentation of the same with critical discussion. The exercises are intended to familiarize the student with software libraries to use for a bioinformatics project on a current problem differentiated for each group. The project presentation will require a discussion in which to bring out the strengths and weakness of the implemented software.
Additional notes about suggested reading: Many materials for the course are made available on the E-learning site. These include the transparencies of the course (as soon as available) and audio recordings (podcasts), lecture notes and literature used for the projects. The lecture notes can be downloaded in PDF format containing over 300 pages to facilitate the study.
Textbooks (and optional supplementary readings)
  • K.C. Mathews, K.E. Van Holde, K.G. Ahern, Biochimica (3° edizione). --: Casa Editrice Ambrosiana, 2004. Cerca nel catalogo
  • S. Pascarella, A. Paiardini, Bioinformatica. --: Zanichelli, 2011. Cerca nel catalogo