Studying at the University of Verona

Here you can find information on the organisational aspects of the Programme, lecture timetables, learning activities and useful contact details for your time at the University, from enrolment to graduation.

Academic calendar

The academic calendar shows the deadlines and scheduled events that are relevant to students, teaching and technical-administrative staff of the University. Public holidays and University closures are also indicated. The academic year normally begins on 1 October each year and ends on 30 September of the following year.

Academic calendar

Course calendar

The Academic Calendar sets out the degree programme lecture and exam timetables, as well as the relevant university closure dates..

Definition of lesson periods
Period From To
I semestre Oct 1, 2019 Jan 31, 2020
II semestre Mar 2, 2020 Jun 12, 2020
Exam sessions
Session From To
Sessione invernale d'esame Feb 3, 2020 Feb 28, 2020
Sessione estiva d'esame Jun 15, 2020 Jul 31, 2020
Sessione autunnale d'esame Sep 1, 2020 Sep 30, 2020
Degree sessions
Session From To
Sessione estiva di laurea Jul 17, 2020 Jul 17, 2020
Sessione autunnale di laurea Oct 13, 2020 Oct 13, 2020
Sessione autunnale di laurea - Dicembre Dec 9, 2020 Dec 9, 2020
Sessione invernale di laurea Mar 10, 2021 Mar 10, 2021
Holidays
Period From To
Festa di Ognissanti Nov 1, 2019 Nov 1, 2019
Festa dell'Immacolata Dec 8, 2019 Dec 8, 2019
Vacanze di Natale Dec 23, 2019 Jan 6, 2020
Vacanze di Pasqua Apr 10, 2020 Apr 14, 2020
Festa della Liberazione Apr 25, 2020 Apr 25, 2020
Festa del lavoro May 1, 2020 May 1, 2020
Festa del Santo Patrono May 21, 2020 May 21, 2020
Festa della Repubblica Jun 2, 2020 Jun 2, 2020
Vacanze estive Aug 10, 2020 Aug 23, 2020

Exam calendar

Exam dates and rounds are managed by the relevant Science and Engineering Teaching and Student Services Unit.
To view all the exam sessions available, please use the Exam dashboard on ESSE3.
If you forgot your login details or have problems logging in, please contact the relevant IT HelpDesk, or check the login details recovery web page.

Exam calendar

Should you have any doubts or questions, please check the Enrollment FAQs

Academic staff

A B C D F G L M P R S T U V Z

Assfalg Michael

symbol email michael.assfalg@univr.it symbol phone-number +39 045 802 7949

Avesani Linda

symbol email linda.avesani@univr.it symbol phone-number +39 045 802 7839

Ballottari Matteo

symbol email matteo.ballottari@univr.it symbol phone-number 045 802 7823

Bassi Roberto

symbol email roberto.bassi@univr.it symbol phone-number 045 8027916

Bellin Diana

symbol email diana.bellin@univr.it symbol phone-number 045 802 7090

Bettinelli Marco Giovanni

symbol email marco.bettinelli@univr.it symbol phone-number 045 802 7902

Bolzonella David

symbol email david.bolzonella@univr.it symbol phone-number 045 802 7965

Buffelli Mario Rosario

symbol email mario.buffelli@univr.it symbol phone-number +39 0458027268

Capuani Rossana

symbol email rossana.capuani@univr.it

Cazzaniga Stefano

symbol email stefano.cazzaniga@univr.it symbol phone-number +39 045 8027075

Cecconi Daniela

symbol email daniela.cecconi@univr.it symbol phone-number +39 045 802 7056; Lab: +39 045 802 7087

Chignola Roberto

symbol email roberto.chignola@univr.it symbol phone-number 045 802 7953

Chiurco Carlo

symbol email carlo.chiurco@univr.it symbol phone-number +390458028159

Cozza Vittoria

symbol email vittoria.cozza@univr.it

Crimi Massimo

symbol email massimo.crimi@univr.it symbol phone-number 045 802 7924; Lab: 045 802 7050

Dall'Osto Luca

symbol email luca.dallosto@univr.it symbol phone-number +39 045 802 7806

Delledonne Massimo

symbol email massimo.delledonne@univr.it symbol phone-number 045 802 7962; Lab: 045 802 7058

Dominici Paola

symbol email paola.dominici@univr.it symbol phone-number 045 802 7966; Lab: 045 802 7956-7086

Fiammengo Roberto

symbol email roberto.fiammengo@univr.it symbol phone-number 0458027038

Frison Nicola

symbol email nicola.frison@univr.it symbol phone-number 045 802 7857

Furini Antonella

symbol email antonella.furini@univr.it symbol phone-number 045 802 7950; Lab: 045 802 7043

Gregorio Enrico

symbol email Enrico.Gregorio@univr.it symbol phone-number 045 802 7937

Guardavaccaro Daniele

symbol email daniele.guardavaccaro@univr.it symbol phone-number +39 045 802 7903

Lampis Silvia

symbol email silvia.lampis@univr.it symbol phone-number 045 802 7095

Marino Valerio

symbol email valerio.marino@univr.it symbol phone-number +39 045 802 7227

Munari Francesca

symbol email francesca.munari@univr.it symbol phone-number +39 045 802 7920

Pandolfini Tiziana

symbol email tiziana.pandolfini@univr.it symbol phone-number 045 802 7918

Pasetto Luca

symbol email luca.pasetto@univr.it

Pezzotti Mario

symbol email mario.pezzotti@univr.it symbol phone-number +39045 802 7951

Romeo Alessandro

symbol email alessandro.romeo@univr.it symbol phone-number +39 045 802 7936; Lab: +39 045 802 7808

Simonato Barbara

symbol email barbara.simonato@univr.it symbol phone-number +39 045 802 7832; Lab. 7960

Speghini Adolfo

symbol email adolfo.speghini@univr.it symbol phone-number +39 045 8027900

Tomazzoli Claudio

symbol email claudio.tomazzoli@univr.it

Torriani Sandra

symbol email sandra.torriani@univr.it symbol phone-number 045 802 7921

Ugel Stefano

symbol email stefano.ugel@univr.it symbol phone-number 045-8126451

Vettori Andrea

symbol email andrea.vettori@univr.it symbol phone-number 045 802 7861/7862

Vitulo Nicola

symbol email nicola.vitulo@univr.it symbol phone-number 0458027982

Zaccone Claudio

symbol email claudio.zaccone@univr.it symbol phone-number +39 045 8027864

Zapparoli Giacomo

symbol email giacomo.zapparoli@univr.it symbol phone-number +390458027047

Zenoni Sara

symbol email sara.zenoni@univr.it symbol phone-number 045 802 7941

Zipeto Donato

symbol email donato.zipeto@univr.it symbol phone-number +39 045 802 7204

Zivcovich Franco

symbol email franco.zivcovich@univr.it

Zoccatelli Gianni

symbol email gianni.zoccatelli@univr.it symbol phone-number +39 045 802 7952

Study Plan

The Study Plan includes all modules, teaching and learning activities that each student will need to undertake during their time at the University.
Please select your Study Plan based on your enrollment year.

CURRICULUM TIPO:
ModulesCreditsTAFSSD
12
B
BIO/04
6
A
FIS/07
English B1
6
E
-

Legend | Type of training activity (TTA)

TAF (Type of Educational Activity) All courses and activities are classified into different types of educational activities, indicated by a letter.




S Placements in companies, public or private institutions and professional associations

Teaching code

4S02696

Credits

12

Coordinator

Paola Dominici

Language

Italian

Also offered in courses:

The teaching is organized as follows:

BIOCHIMICA

Credits

8

Period

I semestre

Academic staff

Paola Dominici

BIOCHIMICA ANALITICA

Credits

4

Period

See the unit page

Academic staff

See the unit page

Learning outcomes

Biochemistry is a branch of life sciences which deals with the study of chemical reactions and their organization in living cells and organisms. It takes into account the studies related to the nature of the chemical constituents of living matter, their transformations in biological systems and the energy changes associated with these transformations. Students will be guided through the course to understand the relationships between structure and function of macromolecules, and the regulatory strategies, with particular focus on metabolic pathways. The experimental activities are aimed at understanding the rationale behind the basic biochemical protocols developed to investigate the macromolecules and their functions. Pratical knowledge of basic biochemical techniques by means of lessons and experiments. Students will gain a thorough competence on the main technique used in biochemistry labs, in particular they will learn isolation, identification and structure- function relationship of macromolecules, with a focus on proteins.

Program

------------------------
MM: BIOCHIMICA
------------------------
The properties that characterize living systems Biological molecules: Hierarchy among biological molecules: simple molecules as units of complex structures Water, pH and ionic balances Amino acids Acid-base properties of amino acids. Proteins: biological functions and primary structure Peptide bond. Architecture of protein molecules The three-dimensional structure of proteins: The secondary structure: description of helices and folded sheets. Ramachandran's graphs Globular proteins: tertiary structure and functional diversity Folding models. Factors determining the secondary and tertiary structure Information and thermodynamics of the survey. Conformational diseases. Quaternary structure of proteins Lipids and membranes: Fatty acids. Triacylglycerols. Membranes: Fluid mosaic model. Membrane transport Nucleotides and nucleic acids. DNA and RNA. Properties of nucleotides. Stability and formation of the phosphodiester bond. DNA denaturation and renaturation. Enzymes: catalytic power, specificity and regulation. Enzymatic kinetics: Free energy of activation and action of catalysts. The Michaelis-Menten equation. Steady state assumption. The kinetic parameters. Linear graphic methods. Enzymatic inhibition: irreversible and reversible. Competitive and non-competitive. Control mechanisms of enzymatic activity. Oxygen transport and storage: the role of hemoglobin and myoglobin. Structure-function relationship of Mb and Hb Hemoglobin: cooperative binding and allosteria. Models for the transition to allosteria in hemoglobin: the symmetrical model and the sequential model. Homotropic and heterotropic effectors. Bioenergetics. Basic thermodynamic concepts. Entropy and free energy. The course of a reaction, the variation of standard free energy. Effect of pH and cancentration on standard free energies. The importance of coupled processes in living systems. ATP and high-energy compounds: group transfer potential. The energy charge. The metabolism. The central metabolic pathways and energy metabolism. Existence of independent degradative and biosynthetic pathways. Oxidations as a source of metabolic energy. Main metabolism control mechanisms. Glycolysis: General aspects. The importance of coupled reactions in glycolysis. reactions of glycolysis. The metabolic fates of NADH and pyruvate The cycle of tricarboxylic acids: The connection phase: the oxidative decarboxylation of pyruvate. The reactions of the cycle. The cycle of TCAs as a source of intermediates for the biosynthetic pathways. Anaplerotic reactions. Electron transport and oxidative phosphorylation: Reduction potentials. The complexes of the electron transport chain. The thermodynamic approach to the chemoosmotic coupling hypothesis. ATP synthase. Shuttle systems for the transport of cytosolic NADH into mitochondria. Gluconeogenesis, glycogen metabolism and hormonal regulation. Hormones and second messengers: cAMP and G. The beta-oxidation of fatty acids with an equal number of saturated C atoms. The pentose phosphate pathway: reactions and control. Nitrogen metabolism: Transamination reactions; Fate of the carbonaceous skeleton of amino acids; fate of the amino group; urea cycle. NUCLEIC ACIDS: how the structure carries information. Structural levels of nucleic acids (DNA, RNA). DNA denaturation. TRANSFER OF INFORMATION DNA replication. Replication enzymology: structure / function of DNA polymerases. DNA replication fidelity.
------------------------
MM: BIOCHIMICA ANALITICA
------------------------
------------------------ MM: teoria ------------------------ Protein purification Ionic properties of amino acids and proteins. Isoelectric point. Sample preparation. Methods of cell disruption and production of the initial crude extracts. Protein solubilization methods. Saline swabs. Fractionation and precipitation techniques. Filtration, dialysis, sample concentration. Spectroscopic techniques. Properties of electromagnetic radiation. Light-matter interaction. States and processes involved in the phenomena of absorption, emission and decay. Absorption spectroscopy in ultraviolet and visible. Qualitative and quantitative aspects of light absorption. Colorimetric and spectroscopic methods applied to the determination of protein concentration. Spectrophotometers. Fluorescence and emission spectroscopy. Intrinsic and extrinsic fluorophores. Green fluorescent protein Spectrofluorimeters. Fluorescence resonance energy transfer (FRET). Circular dichroism. Chromatographic techniques. Principles of chromatography. The chromatogram. Parameters that determine the chromatographic performance. Van Deemter equation. Column chromatography: ion exchange, molecular exclusion, affinity, hydrophobic interaction and their applications. Electrophoretic techniques. General principles and electrophoretic mobility. Support materials. Nucleic acid electrophoresis. Protein electrophoresis. SDS PAGE. Electrophoresis in native conditions. Protein coloring on gel. Protein blotting (western blotting). Isoelectrofocusing. Basics of: Capillary electrophoresis. Two-dimensional electrophoresis gel. ------------------------ MM: laboratorio ------------------------ 1. Determination of the concentration of an unknown protein by absorption at 280 nm and by Bradford colorimetric method. 2. Determination of the kinetic parameters, Michaelis-Menten constant, turnover number, and inhibition constant of the acid phosphatase enzyme using the Lineweaver-Burk graphical linearization method. 3. Determination of the absorption spectrum of the pyridine coenzyme NADH (reduced form) and determination of the molar extinction coefficient of NADPH. 4. Determination of the molecular weight of an unknown protein by molecular exclusion chromatography. 5. Protein separation by electrophoresis under denaturing conditions (SDS-PAGE) followed by visualization of the bands by Coomassie Blue staining 6. Transfer of proteins onto the nitrocellulose membrane by electroblotting followed by immunodetection of the proteins for the identification of one or more proteins by exploiting the specificity of binding with an antibody (WESTERN BLOT). ------------------------ MM: laboratorio ------------------------ 1. Determination of the concentration of an unknown protein by absorption at 280 nm and by Bradford colorimetric method. 2. Determination of the kinetic parameters, Michaelis-Menten constant, turnover number, and inhibition constant of the acid phosphatase enzyme using the Lineweaver-Burk graphical linearization method. 3. Determination of the absorption spectrum of the pyridine coenzyme NADH (reduced form) and determination of the molar extinction coefficient of NADPH. 4. Determination of the molecular weight of an unknown protein by molecular exclusion chromatography. 5. Protein separation by electrophoresis under denaturing conditions (SDS-PAGE) followed by visualization of the bands by Coomassie Blue staining 6. Transfer of proteins onto the nitrocellulose membrane by electroblotting followed by immunodetection of the proteins for the identification of one or more proteins by exploiting the specificity of binding with an antibody (WESTERN BLOT).

Bibliography

Reference texts
Author Title Publishing house Year ISBN Notes
R.H.Garret; C.M. Grisham BIOCHIMICA (Edizione 5) Piccin 2014
CAMPBELL M.K. FARRELL S.O. MCDOUGAL M. BIOCHIMICA (Edizione 5) EDISES 2019
Loredano Pollegioni FONDAMENTI di BIOCHIMICA (Edizione 1) Edises 2021 9788836230358 Copertina Flessibile 57 Euro e-book 42 Euro
M. C. Bonaccorsi di Patti, R. Contestabile, M. L. Di Salvo Metodologie Biochimiche (Edizione 2) Zanichelli 2019

Examination Methods

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MM: BIOCHIMICA
------------------------
The objective of the exam is to verify the level of knowledge and depth of the topics of the course program and the reasoning skills developed by the student. The evaluation is expressed out of thirty (minimum grade 18). The final exam (written for Bioinformatics students) will focus on all the topics of the program. The student will have to answer a series of open-ended questions, demonstrating that they understand and be able to use the fundamental concepts of each topic. The final exam (oral for Biotechnology students) will focus on all the topics of the program. The student will have to answer a series of questions, demonstrating that they understand and be able to use the fundamental concepts of each topic.
------------------------
MM: BIOCHIMICA ANALITICA
------------------------
------------------------ MM: teoria ------------------------ The final (written) exam will focus on all the topics of the program. The student will have to demonstrate that they understand and be able to use the fundamental concepts of each topic. ------------------------ MM: laboratorio ------------------------ The written exam of Analytical Biochemistry will contain questions related to laboratory experiences ------------------------ MM: laboratorio ------------------------ The written exam of Analytical Biochemistry will contain questions related to laboratory experiences

Students with disabilities or specific learning disorders (SLD), who intend to request the adaptation of the exam, must follow the instructions given HERE

Type D and Type F activities

I semestre From 10/1/19 To 1/31/20
years Modules TAF Teacher
Python programming language D Maurizio Boscaini (Coordinator)
Model organism in biotechnology research D Andrea Vettori (Coordinator)
II semestre From 3/2/20 To 6/12/20
years Modules TAF Teacher
LaTeX Language D Enrico Gregorio (Coordinator)

Career prospects


Module/Programme news

News for students

There you will find information, resources and services useful during your time at the University (Student’s exam record, your study plan on ESSE3, Distance Learning courses, university email account, office forms, administrative procedures, etc.). You can log into MyUnivr with your GIA login details: only in this way will you be able to receive notification of all the notices from your teachers and your secretariat via email and soon also via the Univr app.

Graduation

For schedules, administrative requirements and notices on graduation sessions, please refer to the Graduation Sessions - Science and Engineering service.

List of theses and work experience proposals

theses proposals Research area
Studio delle proprietà di luminescenza di lantanidi in matrici proteiche Synthetic Chemistry and Materials: Materials synthesis, structure-properties relations, functional and advanced materials, molecular architecture, organic chemistry - Colloid chemistry
Multifunctional organic-inorganic hybrid nanomaterials for applications in Biotechnology and Green Chemistry Synthetic Chemistry and Materials: Materials synthesis, structure-properties relations, functional and advanced materials, molecular architecture, organic chemistry - New materials: oxides, alloys, composite, organic-inorganic hybrid, nanoparticles
Dinamiche della metilazione del DNA e loro contributo durante il processo di maturazione della bacca di vite. Various topics
Risposte trascrittomiche a sollecitazioni ambientali in vite Various topics
Studio delle basi genomico-funzionali del processo di embriogenesi somatica in vite Various topics

Attendance

As stated in the Teaching Regulations for the A.Y. 2022/2023, attendance is not mandatory. However, professors may require students to attend lectures for a minimum of hours in order to be able to take the module exam, in which case the methods that will be used to check attendance will be explained at the beginning of the module. 
 


Career management


Student login and resources


Erasmus+ and other experiences abroad