Vai al contenuto principale
Oggetto:
Oggetto:

STRUCTURE OF MACROMOLECULES AND PROTEOMICS

Oggetto:

STRUCTURE OF MACROMOLECULES AND PROTEOMICS

Oggetto:

Academic year 2022/2023

Course ID
SVB0049
Teaching staff
Giovanna Di Nardo
Sheila Sadeghi
Degree course
Cellular and Molecular Biology
Year
2nd year
Teaching period
Semester 1
Type
Distinctive
Credits/Recognition
6
Course disciplinary sector (SSD)
BIO/10 - biochemistry
Delivery
Blended
Language
English
Attendance
Lessons optional and laboratories mandatory
Type of examination
Written and interview (optional)
Oggetto:

Sommario del corso

Oggetto:

Course objectives

This teaching contributes to the learning objectives included into the Biomolecular area of the Master in Cellular and Molecular Biology - Biologia Cellulare e Molecolare - providing an in-depth and integrated knowledge of biological systems at molecular level focusing on quantitative and qualitative analysis of biological macromolecules and bioinformatic analyses.

In particular, the course provides the student the fundamental knowledge of:

- protein folding,

- structure and the spectroscopic techniques used to study protein conformation and solve their 3D structure,

- protein crystallography,

- instrumentation and techniques employed in the field of proteomics,

- startegies for the construction of protein arrays and protein chips.

Laboratory-based experiments on protein crystallization and protein stability analysis through calorimetry (DSC) will provide the student a practical overview of the approaches that can be used for protein folding and structure studies. 

Moreover, the student will learn the use of up to date bioinformatics tools for protein modeling and docking. 

Oggetto:

Results of learning outcomes

KNOWLEDGE AND UNDERSTANDING .

At the end of the course, the students should know:

- the different levels of protein structure and their graphical representation;

- structural interpretation in terms of polypeptide chain folding;

- structure-function relationships of biological macromolecules,

- the study of protein folding,

- evolution of protein structures and protein modules,

- spectroscopy applied to biological macromolecules,

- X-ray crystallography,

- techniques for the study of the proteome,

- protein arrays and protein chips.

 APPLYING KNOWLEDGE AND UNDERSTANDING. 

At the end of the course, the student will be able to:

- Recognize and classify protein structures

- Select the appropriate spectroscopic technique for structural and functional protein studies

- Understand and apply the techniques of protein immobilization for biochips

- Understand the principles of mass spectrometry applied to protomics

- Use databases of sequences and protein structures

- Visualize, calculate and study the protein structures using molecular graphics software.

JUDGEMENT. Recognition of molecules and structures in the graphical representation in databases. Interpretation of Molecular Biology basic protocols.

COMMUNICATIONS SKILLS. Written test on the practicals part about molecular mechanics approaches .

LEARNING ABILITY. Familiar with protein databases and tools available online.

Oggetto:

Course delivery

Lectures: 40 hours; Practicals: 16 hours

All lessons will be delivered in presence. Alternative online teaching (by streaming) may be introduced according to the University recommendations related to the status of the COVID-19 pandemic.

 

Oggetto:

Learning assessment methods

Exams will take place exclusively in presence with the only exception of students who self-declare, in relation to Covid-19, personal fragility or positivity.

Remote examinations may be introduced according to the University recommendations related to the status of the COVID-19 pandemic. 

In any case, there will be 3 open questions:

- one question on the module of Prof. Di Nardo (60% of the final grade)

- one of them on the module of Prof. Sadeghi (30% of the final grade)

- one question on the Lecture and Practicals of "Protein bioinformatics" (10% of the final grade)

Students should gain a sufficient grade (18 out of 30 or more) on all the three questions in order to pass the exam.

The final grade will be expressed in a maximum of 30 cum laude.

 

 

 

Oggetto:

Program

PROTEIN STRUCTURE

  • Protein structure classification , superscondary structure, protein domain classification, function and evolution
  • Membrane proteins: how the structure supports the function
  • Protein folding: Key concepts and methods, Thermodynamics, Kinetics, Effect of denaturants on rates of folding and unfolding, Protein misfolding and chaperons, Proteins misfolding and disease, Principles of calorimetry for the study of protein folding
  • Biological spectroscopy: fluorescence, circular dichroism and IR applied to the study of protein structure and dynamics
  • Methods to study the 3D structure of macromolecules: NMR, x-ray crystallography and cryo-EM.
  • Methods for crystallization adn rtructure resolution by X-ray crystallography
  • Practical 1: crystallization of lysozyme and basics on analysis of x-ray diffraction images
  • Practical 2: molecular modelling: construction and evaluation of protein models, ligand docking, docking of protein structures and domains

 

• PROTEOMICS

 

• Technical background on electrophoretic methods-2DE-DIGE

• Obtaining and scanning gel maps, Image analysis software for matching and semi-quantitative analysis.

• Mass spectrometry (MS) for proteomics (Maldi, ESI, De novo sequencing). Data analysis.

• Examples of application of 2DE and MS for diagnostics and research: presentation of recent papers on various fields of proteomics research.

• Protein array and protein chip: overview on available approaches and detection (SPR, fluorescence).

• Immobilisation strategies for arrays and chips. Nanoarrays and nanotechnologies applied to the development of protein chips. Examples of protein chips applications.

• Functional proteomics: activity based protein profiling (ABPP), theory and examples.

Suggested readings and bibliography

Oggetto:

- A.M-Lesk: Introduction to protein science. Architecture, functions and genomics, Oxford University Press
- AC supply Orengo, D.T. Jones & J.M. Thornton: Bioinformatics. Genes, protein & Computers
- BIOS Scientific Publishers Limited It 'strongly advised to use the following material for insights and additions:
- Powerpoint presentations and lecture notes;
- Articles and reviews taken from the literature as shown in class.



Oggetto:
Last update: 02/09/2022 09:01
Location: https://cmb.campusnet.unito.it/robots.html
Non cliccare qui!