Protein engineering and molecular enzymology

A.A. 2020/2021
6
Crediti massimi
48
Ore totali
SSD
BIO/10
Lingua
Inglese
Obiettivi formativi
Protein engineering is a novel and dynamic field, which leads to production of modified proteins used to elucidate biological processes, structure-function relations of proteins, for the development of bioactive compounds and applications of proteins in all domains of biotechnologies. This class mainly aims to provide (i) the theoretical bases for the understanding and design of protein engineering approaches exploiting structural and functional information on the target proteins and (ii) the tools to carry out protein engineering and analyzing engineered proteins.
The course is ideally linked to those dealing with metabolic engineering, structural biology, bioinformatics, nanotechnologies and molecular parasitology.
Risultati apprendimento attesi
At the end of this class , the students are expected to:
(1) have refreshed basic concepts in protein structure-function relations and enzyme catalysis;
(2) have acquired an advanced understanding of theoretical aspects of enzyme catalysis and of the experimental approaches used to correlate structure-function relations with an emphasis on the use of this knowledge to engineer novel enzyme forms in the context of fundamental science projects and biotechnological applications;
(3) have understood the rational of current protein engineering approaches and methods;
(4) have acquired the ability to correlate the theoretical and experimental connections among the disciplines involved and their relevance to biotechnological developments;
(5) have acquired the technical vocabulary needed to critically read research articles and to present them in oral and written forms.
Programma e organizzazione didattica

Edizione unica

Periodo
Secondo semestre
Metodi didattici e modalità di erogazione
Verranno rese disponibili lezioni asincrone (videolezioni costituite da registrazione del desktop del docente con commento audio), organizzate per coprire gli argomenti di ogni lezione dell'insegnamento. Le lezioni registrate verranno rese disponibili agli studenti sulla piattaforma ARIEL dell'insegnamento per tutto il semestre e caricate sul sito secondo l'orario dell'insegnamento. Inoltre, periodicamente verranno organizzati degli incontri sincroni con gli studenti, utilizzando la piattaforma Microsoft Teams al fine di fornire chiarimenti ed approfondimenti sugli argomenti dell'insegnamento e rispondere alle domande degli studenti. Anche l'attivita' di Journal Club, che consisterà nella presentazione e discussione di articoli di ricerca da parte di gruppi di studenti, sarà svolta in modalita' sincrona tramite MS Teams.
Modalità di verifica dell'apprendimento e criteri di valutazione
L'esame si svolgerà in forma orale utilizzando la piattaforma Microsoft Teams o, laddove la regolamentazione lo consentisse, in presenza, in forma scritta.
L'esame, in particolare, sarà volto a:
- accertare il raggiungimento degli obiettivi del corso in termini di conoscenza e capacità di comprensione;
- accertare la capacità di applicare conoscenza e comprensione e verificare l'autonomia di giudizio attraverso la discussione di esempi analizzati durante le lezioni;
- accertare la padronanza del linguaggio specifico che attiene all'ambito della biochimica e, in particolar modo dell'enzimologia e della ingegneria proteica, e la capacità di esporre gli argomenti in modo chiaro e logico, con i dovuti collegamenti al contenuto di altri corsi di insegnamento del Corso di laurea.
Programma
The lectures will first review information on: (i) protein structure, folding and structure-function relations, (ii) the principles of enzyme catalysis and kinetic tools to study enzyme catalytic properties; (iii) spectroscopic techniques for the study of proteins and their function; (iv) techniques and strategies for the overexpression, purification and modification of molecular targets, especially proteins and enzymes.
Lectures will then be largely based on the discussion of articles from specialized journals, and will cover:
- protein engineering goals and strategies
- design, expression, selection, isolation, and characterization of protein variants.
Examples of successful protein engineering experiments will be discussed during classes.
Prof. Nardini (2 CFU) and Prof. Vanoni (4 CFU) will share the teaching of this class by focusing on structural biology (Prof. Nardini) , and enzymology aspects applied to protein engineering, as well as protein engineering methods (Prof. Vanoni)..
Prerequisiti
A revision of the topics covered by the basic biochemistry and molecular biology classes included in the bachelor curriculum before attending the course is highly recommended.
Metodi didattici
Teaching Mode: Classroom lectures supported by projected material with common discussions on experimental design, data analysis, and specific case studies. Attendance is highly recommended.
Materiale di riferimento
. Voet, D. & Voet, J.G Biochemistry , 4th Edition, J. Wiley & Sons
· Fersht, A. Structure and mechanism in protein science (Freeman)
· Frey, P.A. & Hegeman, A.D. Enzymatic Reaction Mechanisms, Oxford University Press (2007)
· Petsko, G.A. & Ringe, D. Protein structure and function, New Science Press, 2004
Articles on which lectures will be based.

Copies of the slides projected in the classroom as well as other materials will be made available through the course website on the ARIEL platform of the University of Milano (https://mavanonipeme.ariel.ctu.unimi.it/v5/Home). By no means this material replaces the lectures or a textbook. The material is made available only to registered students of the Degree Course in Molecular Biotechnology and Bioinformatics and should not be distributed to others.
Modalità di verifica dell’apprendimento e criteri di valutazione
The evaluation of the student's performance will be based on a "journal club" activity and a written examination with open-answer questions spanning all topics covered in the class (2 hours).
For the "journal club" activity students will work in small groups. Presentations will be done at the end of the class and before the written exam. The evaluation of the Journal club activity will account for up to 2 points of the final grade. After receiving a proposed score resulting from the joint evaluation of the journal club and the written exam by the teachers, students will have the possibility (if they wish) to integrate the written exam with an oral discussion of the written paper to clarify their actual mastering of the topics.
The final grade will result from the joint evaluation of each candidate by the two teachers, and will be communicated through the online UNIMI platform.
BIO/10 - BIOCHIMICA - CFU: 6
Lectures: 48 ore
Docente/i
Ricevimento:
Giovedi, ore 10:30-12:30
Dip. di Bioscienze, Torre C, 5 piano
Ricevimento:
Lunedi' ore 13-14
Unita' di Biochimica delle proteine, Edifici Biologici, Via Celoria 26, 5C