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Fundamentals of Structural Biochemistry

Objectives

This discipline intends to teach the students the basic principles that determine the protein structure and structure-function relationships, as well as the fundamentals of the most used techniques for the determination of 3D structures of proteins. At the end of the semester, the students should have acquired the necessary knowledge in: (1) principles that determine the macromolecular structure,(2) main protein classes and biological implications, (3) biological implications of the quaternary structure. (4) Moreover, they will have acquired basic knowledge on the 3 main techniques for structure determination: X-ray Crystallography, Nuclear Magnetic Resonance and Cryo-electron Microscopy. (5) Finally they must have the necessary abilities to interpret the structural results and to use validation tools. (6) They should master on-line computational tools as well as programs of visualization and molecular representation.

General characterization

Code

10702

Credits

6.0

Responsible teacher

Maria dos Anjos Lopes de Macedo, Teresa Sacadura Santos Silva

Hours

Weekly - 4

Total - 58

Teaching language

Português

Prerequisites

not applied

Bibliography

- “Introduction to Protein Structure”   Branden, C.-I. & Tooze, J. Garland Pub. (1999)

- “Crystallography made Crystal Clear- A Guide for users of Macromolecular Models” G. Rhodes, 2nd Ed., Academic Press: San Diego, London (2000)

- “Biomolecular NMR Spectroscopy”, Evans, J.N.S., Oxford University Press (1995)

- Teng, Q. “Structural Biology: Practical NMR applications” Springer Science, USA (2005)

- Wüthrich, K. “NMR of Protein and Nucleic Acids”, Wiley-Interscience Pub., (1986)

- Friebolin, H. “Basic One- and Two-Dimensional NMR Spectroscopy”, VCH publishers, New York-Germany, 2ª ed. (1993)

- Determinação de estruturas tridimensionais de proteinas, Anjos L. Macedo & Brian J. Goodfellow, Quimica, 63, 1996

Teaching method

Available soon

Evaluation method

Available soon

Subject matter

Chapter 1 - Introduction. Basic Structural principles - secondary, supersecondary and tertiary structure of proteins. Structural domains and motifs. Quaternary protein structure. Biological implications of the quaternary structure and of the type of folding. Main classes of proteins and homologous protein families.

Chapter 2 - Determination of the Three-dimensional Structure of Proteins - 2,1 – Basics of X-ray Crystallography. Protein crystallization. X-ray diffraction and measurement of the experimental data. The structural model and its validation. Biological and enzymatic activity of crystalline proteins. 2.2 - NMR - Basic theory of 1D and 2D NMR. Structural Information: angles, distances, chemical environment. Experimental Methods: Sequences of pulses for acquisition of data and spectral attribution. Bi-dimensional (homo- and heteronuclear) and tri-dimensional methods. Protein structure by NMR. Methodology: proteins 15kDa; isotopic labeling: 2 H, 13 C, 15 N.

2.3 – Cryo-EM / Alphafold2 2.4 - Interpretation of the structural results - Validation Criteria. Databases. Conformacional analysis, quality of the model and accuracy of the three-dimensional structure. Validation. Comparison of crystalline structures and solution structures. Comparison of protein.

Programs

Programs where the course is taught: