Studying at the University of Verona

A.A. 2009/2010

Academic calendar

Il calendario accademico riporta le scadenze, gli adempimenti e i periodi rilevanti per la componente studentesca, personale docente e personale dell'Università. Sono inoltre indicate le festività e le chiusure ufficiali dell'Ateneo.
L’anno accademico inizia il 1° ottobre e termina il 30 settembre dell'anno successivo.

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
1st Semester Oct 1, 2009 Jan 31, 2010
2nd Semester Mar 1, 2010 Jun 15, 2010
Exam sessions
Session From To
Sessione straordinaria Feb 1, 2010 Feb 28, 2010
Sessione estiva Jun 16, 2010 Jul 31, 2010
Sessione autunnale Sep 1, 2010 Sep 30, 2010
Degree sessions
Session From To
Sessione autunnale Oct 1, 2009 Oct 1, 2009
Sessione straordinaria Dec 3, 2009 Dec 3, 2009
Sessione invernale Mar 24, 2010 Mar 24, 2010
Sessione estiva Jul 19, 2010 Jul 19, 2010
Holidays
Period From To
Festa di Ognissanti Nov 1, 2009 Nov 1, 2009
Festa dell'Immacolata Concezione Dec 8, 2009 Dec 8, 2009
Vacanze Natalizie Dec 21, 2009 Jan 6, 2010
Vacanze Pasquali Apr 2, 2010 Apr 6, 2010
Festa della Liberazione Apr 25, 2010 Apr 25, 2010
Festa del Lavoro May 1, 2010 May 1, 2010
Festa del Santo Patrono di Verona S. Zeno May 21, 2010 May 21, 2010
Festa della Repubblica Jun 2, 2010 Jun 2, 2010
Vacanze Estive Aug 9, 2010 Aug 15, 2010

Exam calendar

The exam roll calls are centrally administered by the operational unit   Science and Engineering Teaching and Student Services Unit
Exam Session Calendar and Roll call enrolment   sistema ESSE3 . If you forget your password to the online services, please contact the technical office in your Faculty or to the service credential recovery .

Exam calendar

Per dubbi o domande Read the answers to the more serious and frequent questions - F.A.Q. Examination enrolment

Academic staff

A B C D F G M P Q T V

Assfalg Michael

michael.assfalg@univr.it +39 045 802 7949

Bicego Manuele

manuele.bicego@univr.it +39 045 802 7072

Bombieri Cristina

cristina.bombieri@univr.it 045-8027209

Bonacina Maria Paola

mariapaola.bonacina@univr.it +39 045 802 7046

Bos Leonard Peter

leonardpeter.bos@univr.it +39 045 802 7987

Buffelli Mario Rosario

mario.buffelli@univr.it +39 0458027268

Capaldi Stefano

stefano.capaldi@univr.it +39 045 802 7907

Combi Carlo

carlo.combi@univr.it 045 802 7985

Cristani Matteo

matteo.cristani@univr.it 045 802 7983

Delledonne Massimo

massimo.delledonne@univr.it 045 802 7962; Lab: 045 802 7058

Dominici Paola

paola.dominici@univr.it 045 802 7966; Lab: 045 802 7956-7086

Farinelli Alessandro

alessandro.farinelli@univr.it +39 045 802 7842

Franco Giuditta

giuditta.franco@univr.it +39 045 802 7045

Giorgetti Alejandro

alejandro.giorgetti@univr.it 045 802 7982

Gregorio Enrico

Enrico.Gregorio@univr.it 045 802 7937

Mariotto Gino

gino.mariotto@univr.it +39 045 8027031

Mastrogiacomo Elisa

Menegaz Gloria

gloria.menegaz@univr.it +39 045 802 7024

Piccinelli Fabio

fabio.piccinelli@univr.it +39 045 802 7097

Quaglia Davide

davide.quaglia@univr.it +39 045 802 7811

Todorov Velitchko

velitchko.todorov@univr.it

Trabetti Elisabetta

elisabetta.trabetti@univr.it 045/8027209

Vigano' Luca

luca.vigano@univr.it

Villa Tiziano

tiziano.villa@univr.it +39 045 802 7034

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 enrolment year.

2° Anno

TeachingsCreditsTAFSSD
12
B
(INF/01)
12
C
(BIO/10)
6
C
(BIO/18)

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.




SPlacements in companies, public or private institutions and professional associations

Teaching code

4S00997

Credits

6

Scientific Disciplinary Sector (SSD)

BIO/13 - EXPERIMENTAL BIOLOGY

Language of instruction

Italian

Period

2nd Semester dal Mar 1, 2010 al Jun 15, 2010.

Learning outcomes

The course purposes are:
• To give basic knowledge about living organism characteristic: procariots, eucariots, viruses, through the acquisition of the fundamental concepts of biology and of the structural, functional and molecular principles of cellular processes.
• To educate to the critical evaluation of experimental data, describing and discussing past and contemporary important experiments.
• To let know the current methodologies used in the biological molecules study


CONTENTS:
• Organization levels of living organisms
• Chemistry of living organisms and biological molecules
• Energetic bases of life: energetic metabolism, photosynthesis, cellular respiration. Enzymes.
• Structure, function, replication of the eukaryotic and prokaryotic cell. Role of the cell compartmentation.
• Methods and Instruments of cell investigations
• Plasmatic membrane: structure, properties and function
• Cell communication
• Cell cycle and its regulation, mitosis, meiosis
• Nucleic acids gene value and experimental demonstration
• DNA: structure, function, replication
• DNA mutation and repair
• Informational pathway: transcription, translation. Regulation of gene expression in eukaryotes and prokaryotes
• Hereditary character transmission and Mendel’s laws
• Recombinant DNA technology and genomics.
• The human genome
• Somatic mutations and cancer
• Evolutionary theory. Speciation, selection, evolution, adaptation
• General biology of Viruses and Prokaryotes.
• Developmental and aging biology

Program

OVERVIEW ON BIOLOGY. Characteristics of the living beings: prokaryotic and eukaryotic cell, growth and development, regulation of metabolism, ability to respond to stimuli, reproduction, evolution and adaptation. Levels of biological organization. Transmission of information between organisms and across generations. Evolution and hierarchical classification of living organisms. Energy flow through ecosystems.

CHEMICAL ELEMENTS OF LIFE. Chemical elements in living organisms. Covalent, ionic, polar, nonpolar, hydrogen bonds; intermolecular interactions, the van der Waals forces. Redox reactions, pH, salts, acids, bases, buffers. Functional groups. Geometrical and structural isomers. Organic molecules and macromolecules. Carbohydrates, proteins, lipids, nucleic acids. Enantiomers. Importance of water in biology.

PRINCIPAL INSTRUMENTS AND METHODS OF CELL INVESTIGATIONS: light microscopy, electron microscopy, cell fractionation

PROKARYOTIC AND EUKARYOTIC CELL. Cell theory. Organization of the cell. Internal membranes and compartmentalization. Organelles, characteristics and functions: Nucleus, ribosomes, RER, REL, Golgi, lysosomes, peroxisomes, cytoskeleton (microtubules, microfilaments, intermediate filaments, centrioles), cilia, flagella, cell wall, extracellular matrix. Animal and plant cells. Mitochondria and plastids (chloroplasts, amyloplasts, chromoplasts) and endosymbiont theory.

BIOLOGICAL MEMBRANES. Structure and proposed models. Kinds of membrane lipids and proteins. Function of membrane constituents. Passage of materials across cell membranes: passive transport (facilitated diffusion and simple), osmosis, directly and indirectly active transport, co-transport. Exocytosis and endocytosis. Anchoring, tight and gap cell junctions in animal and plant cells.

CELL COMMUNICATION. Types of cellular communication: endocrine, paracrine, autocrine and iuxtacrine. Sending and receiving the signal. Surface and intracellular receptors. Receptors coupled to ion channels, G protein, enzymes. Signal transduction and second messengers. The response to signals. Negative signal transduction.

ENERGY FLOW THROUGH LIVING ORGANISMS.
Energy and metabolism: energy and biological work; exo-and endo-ergonic reactions, metabolism, anabolism and catabolism, reduction-oxidation reactions, energy coupling; ATP; energy transfer systems: transport of phosphate groups, electrons and other active groups.
Enzymes. Activation energy, active site, features, functioning, control systems, activation and inhibition of enzyme activity, metabolic pathways, cofactors, coenzymes, prosthetic groups.

ATP SYNTHESIS AND METABOLIC PATHWAYS THAT RELEASE ENERGY. Redox reactions. Glycolysis, aerobic respiraton, Krebs cycle, electron transport chain: oxidative phosphorylation and chemiosmosis. Anaerobic respiraton. Fermentation.
Photosynthesis. Chlorophyll and other pigments. Antenna pigments. Light-dependent reactions. Photosystems I and II. Cyclical and not-cyclical transport of electrons. Chemiosmosis and photophosphorylation. Light-independent reactions and C fixation. Calvin Benson cycle. C4 cycle. Crassulacean acid metabolism (CAM). Photorespiration.
Heterotrophic, autotrophic, phototrophic, chemotrophic organisms.

ORGANIZATION OF DNA IN CHROMOSOMES, MITOSIS AND MEIOSIS. DNA and proteins, nucleosomes, heterochromatin, euchromatin, chromosome condensation. The cell cycle and its regulation. Mitosis, meiosis and sexual reproduction.

PRINCIPLES OF MENDEL’S HEREDITY. Definition of phenotype, genotype, locus, gene, dominant and recessive allele, homozygosity and heterozygosity. Segregation and independent assortment. Independence and association. Crossing-over and recombination. Genetic determination of sex. Gene interactions. Incomplete dominance, condominance, multiple alleles, epistasis and polygeny.

DNA AND GENETIC MATERIAL. Transforming principle in bacteria. Bacterial Transformation and Griffith experiments. Hershey and Chase experiment. DNA structure. Replication. Meselson and Stahl experiment and semiconservative replication. DNA synthesis and error repair.

GENE EXPRESSION IN DIFFERENT ORGANISMS. Gene/protein relationship. Gene/enzyme hypothesis, Beadle and Tatum experiment. Genetic information pathway. Transcription, mRNA synthesis and maturation. Genetic code, tRNA and translation. Post-transcriptional and post-translational modifications. Coding and noncoding sequences. Prokaryotic and eukaryotic genes. Several types of RNA and gene expression control. DNA mutations and mutagenesis.

GENERAL ASPECTS OF GENE REGULATION IN PROKARYOTES AND EUKARYOTES. Operons, promoters, inducible and repressible genes, repressors and activators. Positive and negative control of gene transcription. Post-transcriptional and post-translational controls. Epigenetic inheritance. Imprinting. Gene amplification. Promoters, TATA box and UPE. Transcription factors, enhancers. RNA maturation and alternative splicing. RNA stability. Maturation of proteins.

RECOMBINANT DNA TECHNOLOGY AND GENOMICS. DNA cloning, restriction enzymes, vectors and genomic libraries. Genetic probes. DNA amplification in vitro by polymerase chain reaction (PCR). DNA analysis by means of electrophoresis: Southern, Northern and Western blot. Polymorphisms and DNA sequencing. Definition of structural, functional and comparative genomics. DNA microarray. Human Genome Project, Bioinformatics, Pharmacogenomics and Proteomics.

HUMAN GENOME. Karyotype analysis and pedigrees. Mouse models for studying genetic diseases in humans. Chromosomal abnormalities and genetic mutations. Autosomal recessive, autosomal dominant, X-linked diseases.

DEVELOPMENT BIOLOGY. Cell differentiation and morphogenesis. Differential gene expression. Somatic and germ cells. Stem cells. Cloning. Transgenic organisms. Genetic control of development. Model organisms: Drosophila, Caenorbiditis elegans, Mouse, Arabidospsis. Maternal effect genes, the segmentation genes, homeotic genes. Mosaic development, apoptosis. Transgenic mice. Aging process. Plant development. Cancer and cell growth. Growth factors.

DARWIN AND EVOLUTION. Natural selection. Micro and macro-evolution. Synthetic theory of evolution (neo-Darwinism). Effect of chance. Evidence for evolution. Sedimentary rocks. Fossils. Comparative anatomy. Biogeography, geology (plate tectonics and continents drift) and correlations with evolution. Developmental biology and evolutionary patterns. Molecular comparison among organisms. Universality of the genetic code, evolutionary changes in proteins and DNA. Phylogenetic trees, speciation and divergence between species. Evolutionary hypothesis.

GENERAL BIOLOGY OF VIRUES AND PROKARIOTES. DNA viruses, RNA viruses (retroviruses) and phages. Origin of the virus. Lytic cycle and virulence. Lysogenic cycle and temperate viruses. Lysogenic conversion. Viruses of vertebrates and viral infections. Elements of plant viruses. Viroids and prions.
Prokaryotes. Archea and Bacteria domains. Gram+ and Gram-. Cilia, flagella, chemotaxis. Binary fission and reproduction of bacteria. Transfer of genetic information. Processing, translation, conjugation. Evolution of bacterial populations. Sporulation. Biofilm. Metabolism: dependence on oxygen and other energy sources. Colonization of extreme environments. Prokaryotes and environment: parasites, saprophytes, symbionts. Prokaryotes and diseases. Antibiotics and resistance. Prokaryotes and commercial processes.

Examination Methods

Written test (multiple choice quiz and open questions) based on the educational content of the course.
Students who have received at least 25/30 in the written test and aiming for a better rate can support an oral exam.

Tipologia di Attività formativa D e F

Academic year

Course not yet included

Career prospects


Avvisi degli insegnamenti e del corso di studio

Per la comunità studentesca

Se sei già iscritta/o a un corso di studio, puoi consultare tutti gli avvisi relativi al tuo corso di studi nella tua area riservata MyUnivr.
In questo portale potrai visualizzare informazioni, risorse e servizi utili che riguardano la tua carriera universitaria (libretto online, gestione della carriera Esse3, corsi e-learning, email istituzionale, modulistica di segreteria, procedure amministrative, ecc.).
Entra in MyUnivr con le tue credenziali GIA.

Tutorato per gli studenti

I docenti dei singoli Corsi di Studio erogano un servizio di tutorato volto a orientare e assistere gli studenti del triennio, in particolare le matricole, per renderli partecipi dell’intero processo formativo, con l’obiettivo di prevenire la dispersione e il ritardo negli studi, oltre che promuovere una proficua partecipazione attiva alla vita universitaria in tutte le sue forme.

TUTORATO PER GLI STUDENTI DELL’AREA DI SCIENZE E INGEGNERIA
Tutorato finalizzato a offrire loro un’attività di orientamento che possa essere di supporto per gli aspetti organizzativi e amministrativi della vita universitaria.
Le tutor attualemente di riferimento sono:
  • Dott.ssa Luana Uda, luana.uda@univr.it
  • Dott.ssa Roberta RIgaglia, roberta.rigaglia@univr.it

University Language Centre - CLA

Allegati


Tirocini e stage

Le attività di stage sono finalizzate a far acquisire allo studente una conoscenza diretta in settori di particolare attività per l’inserimento nel mondo del lavoro e per l’acquisizione di abilità specifiche di interesse professionale.
Le attività di stage sono svolte sotto la diretta responsabilità di un singolo docente presso studi professionali, enti della pubblica amministrazione, aziende accreditate dall’Ateneo veronese.
I crediti maturati in seguito ad attività di stage saranno attribuiti secondo quanto disposto nel dettaglio dal “Regolamento d’Ateneo per il riconoscimento dei crediti maturati negli stage universitari” vigente.

Tutte le informazioni in merito agli stage sono reperibili al link https://www.univr.it/it/i-nostri-servizi/stage-e-tirocini.
 

Graduation

List of theses and work experience proposals

Stage Research area
Correlated mutations Various topics

Further services

I servizi e le attività di orientamento sono pensati per fornire alle future matricole gli strumenti e le informazioni che consentano loro di compiere una scelta consapevole del corso di studi universitario.