Combined Bachelor's + Master's degree in Medicine and Surgery

Biology

Course code
4S00303
Name of lecturers
Monica Mottes, Maria Romanelli
Coordinator
Monica Mottes
Number of ECTS credits allocated
6
Academic sector
BIO/13 - EXPERIMENTAL BIOLOGY
Language of instruction
Italian
Period
1° semestre dal Sep 30, 2019 al Jan 10, 2020.

Lesson timetable

Go to lesson schedule

Learning outcomes

Educational goals of the course: To provide a general and updated perspective of General, Cellular, Developmental and Aging Biology, with a particular emphasis on biomedical problems. To train students to evaluate critically experimental data, through the critical discussion of historical and current relevant experiments. To introduce students to instruments and techniques employed for the investigation of biological molecules. To impress upon students all possible application of basic biological knowledge to medical practice

Syllabus

Macromolecules common to living organisms: basic characteristics. Life’s origin: the chemical evolution hypothesis (Urey and Miller experiment).
The evolutionary theory proposed by Darwin. The modern vision of evolutionism. “Nothing in biology makes sense but in the light of evolution”. The evolution of human species. Model organisms in biology
Three major groups of living organisms: Eubacteria, Archea, Eukarya.
Main characteristics of Prokaryotes: cell structure, cell wall structure, genome, reproduction, habitats, interactions with other living organisms. Cyanobacteria: how they changed the terrestrial athmosphere.
Evolution of eukaryotes, the endosymbiontic theory. Brief recall of organelles structure and functions (from the Citology module); roles and functions of the cell memebrane. From unicellular to multicellular eukaryotes.
Cell communication, signal molecules. Cell growth and energetic metabolism in brief.
Cell cycle and its regulation. Cell division (mitosis). The nucleus; DNA, chromatin, chromosomes.
Cell death: apoptosis and necrosis.
Ploidy and reproductive strategies; sexual reproduction. Meiosis and human gametogenesis.
Nomal and pathological human karyotype. Methods of prenatal and post natal analysis . Cytogenetic anomalies and
syndromes.
Molecular biology: the historical experiments that led to the discovery of DNA as the genetic material (F.Miescher; Griffith, McLeod e McCarty, Hershey e Chase) . The structure of the double helix (R.Franklin, M. Wilkins, J Watson and
F Crick); DNA replication (Meselson and Stahl). RNA is an informational molecule as well (Fraenkel- Conrat)..
DNA polymerase and DNA replication “in vivo”( in prokaryotes and eukaryotes) and “in vitro” (the PCR technique).
Telomerase and telomeres replication. Denaturation, renaturation, hybridization of DNA molecules; molecular probes applications (FISH). The informational flow: from DNA to proteins. A. Garrod’s studies, the “one gene-one enzyme hypothesis by Beedle and Tatum, the central dogma of molecular biology. Roles of various RNA species in the informational flow. Gene expression in prokaryotes, polycistronic RNAs, the operons. Gene transcription in eukaryotes, promoters, RNA polymerase II, RNA processing (splicing mechanism), alternative splicing and its evolutionary significance. Messenger RNA translation, the genetic code, codons and anticodons, the “wobbling” theory. Protein synthesis in the eukaryotic cell, post-translational modifications, protein sorting and secretion. The regulation of gene expression in eukaryotes.
Chromatin structure and modifications. X chromosome inactivation in female somatic cells. DNA binding proteins which act as activators/repressors of transcription, DNA binding motives. The role of non-coding RNAs (nc-RNAs)
The beta globin genes cluster: a paradigm of space/time regulation of gene expression
Developmental biology. Master genes (e.g. the HOX selector genes) ; model organisms (Drosophila)
Master genes which act in tooth development
Cell reprogramming: from the beginning to nowadays (the experiments of Briggs, Wilmut and Dolly sheep, S. Yamanaka)
Gene expression and sex determination (SRY and DAX1 genes).
The human genome and its plasticity. Transposable elements, gene families, repeated sequences, pseudogenes. Genome evolution. Mutations: pre-adactativity (the replica-plating test by J and E Lederberg); mutations and selection, m. and fitness. Spontaneous mutations: how do they occur; induced mutations , types of mutagens , mode of action.
DNA repair systems: Proof-read repair, MMR; DSB repair, BER, NER. Ames’ test for the identification of mutagens.
Ionizing radiations, definition of LET and EBR.
Somatic mutations and cancer: target genes in tumorigenesis (proto-oncogenes, oncosuppressor genes, DNA repair genes). The process of cell ageing: causes, consequences, antidotes.
Bone biology: bone tissue composition, cell types and their roles. Molecular pathways which control the process of osteogenesis and bone remodeling.
DIDACTIC MODES
Attendance to lessons is mandatory. Classes will consist of theorical lessons covering the whole exam program. Oral explanations will be coadiuvated by PowerPoint presentations and videos, which will be made available to students through a dedicated Department web site. In particular, the Bone Biology module will be proposed in English in a elearning modality (Power point slides + selected reviews). Additional didactic supports (multiple choice quizzes for self-assessment, journal articles , reviews, etc.) may be suggested during the course and will be made available to students for download. During the whole Academic Year, students may request personal reception to the teachers, by e mail.
SUGGESTED TEXT BOOKS
The following suggested text books may be found at the Meneghetti Library:
-Molecole, Cellule e Organismi a cura di E. Ginelli e M. Malcovati. 2016, EdiSES s.r.l Napoli. ISBN 978 88 7959 914 6
-Biologia molecolare della cellula. B.Alberts et al. VI edizione italiana a cura di A. Pagano. 2016, Zanichelli ed. S.p.A. Bologna ISBN: 9788808621269
-



Reference books
Author Title Publisher Year ISBN Note
Becker Il mondo della cellula (Edizione 9) Pearson 2018 9788891904492
Ginelli et al. Molecole, cellule e organismi EdiSES 2016

Assessment methods and criteria

Written test (25 multiple choice quizzes plus 5 open questions) concernin the entire program. Goals of the written test are: a) to monitor students’ learning process, b) to monitor students’ capacity of personal re-elaboration of notions, c) to monitor students’ ability to apply theoretical notions to experimental queries.
Score (in /30) of the written test strongly influences final outcome. An oral examination may follow only if written text score is ≥ 18/30. Students can either retire from the examination or refuse the prosed score at any time. In both cases they shall enroll again for the whole examination (written and oral)





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