Molecular analytical methods - PROTEOMICA (2010/2011)

Course code
4S02774
Credits
3
Other available courses
Other available courses
    Academic sector
    CHIM/01 - ANALYTICAL CHEMISTRY
    Language of instruction
    Italian
    Teaching is organised as follows:
    Activity Credits Period Academic staff Timetable
    Teoria 2 II semestre Daniela Cecconi
    Laboratorio 1 II semestre Daniela Cecconi

    Lesson timetable

    II semestre
    Activity Day Time Type Place Note
    Teoria Tuesday 9:30 AM - 11:30 AM lesson Lecture Hall L from Mar 29, 2011  to Jun 15, 2011

    Learning outcomes

    Advanced proteomic: comprehensive program focused on the concepts and technologies for studying the proteome, including the innovative new tools.

    Syllabus

    1. Introduction. The “Omics” sciences. Expressional, Functional, and Structural Proteomics.
    2. Chromatographic methods (bi and multi dimensional) applied to proteome analysis. Multidimensional protein identification technology (MudPIT) and MultiDimensional Liquid Chromatography (MDLC).
    3. Electrophoretic methods for proteome analysis. Isoelectrofocusing (carrier ampholytes IEF, and immobilized pH gradient, IPG). Polyacrylamide gel electrophoresis, PAGE (SDS-, Native-, and Gradient-PAGE). Two dimensional maps.
    4. Sample preparation for proteomic analysis. Cell disruption, removal of interfering substances, protein solubilization, and protein quantification.
    5. Pre-fractionation of the sample for the proteome analysis of low abundance proteins. Dynamic range. Differential centrifugation; immunoprecipitation; multi-step extraction of protein; affinity removal (albumin depletion, and Protein Equalizer Technology); and isoelectric focusing based fractionation (Rotofor, and Multi-compartment electrolyzer).
    6. Image analysis: PDQuest and other softwares. Comparative proteomic analysis.
    7. Mass spectrometry analysis. Mass spectra. Hard (electron impact EI) and soft ionization methods (chemical ionization CI, fast atom bombardment FAB, matrix assisted laser desorption ionization MALDI, and electrospray ionization ESI). Analyzers (magnetic sectors, quadrupole Q, time-of-flight TOF, ion trap IT, and Fourier Transform ion cyclotron resonance FT ICR). Detectors.
    8. Tandem mass spectrometry MS/MS. Fragmenting a peptide. Tandem-in-space approach (TripleQ, Q-TOF, and TOF/TOF). Tandem-in-time approach (MALDI-TOF post source decay PSD, and IT).
    9. Analysis of mass spectra. Data Base searching softwares and Data Bases for protein identification. Peptide Mass Fingerprinting (PMF), and Tandem MS data.
    10. Quantitative proteomic analysis: Difference gel electrophoresis (DIGE), minimal and saturation labeling; stable isotope labeling by amino acid in cell culture (SILAC); isotope coded affinity tags (ICAT); isobaric tags for relative and absolute quantification (iTRAQ); absolute quantification (AQUA); acrylamide d0/d3; enzymatic labeling (H218O/ H216O); label free quantification (surface enhanced laser desorption/ionization SELDI-MS).
    11. Post-translational modifications characterization. Glycosylation, nitration and nitrosylation, and phosphorylation. (IMAC; immunoprecipitation; biotin-switch, and other approaches).
    12. Applications of proteomic analysis.

    Assessment methods and criteria

    written