Structure and Function of Proteins

Type

Elective

Course Code

ΓΜΠ69

Teaching Semester

A semester

Teaching Hours per Week

4

ECTS Credits

10

Syllabus

  1. Introduction
    Peptide bonding, secondary structures, forces that create the three-dimensional structure of proteins
  2. Folding and evolution of proteins
    Forces responsible for protein folding, thermostable proteins, ways of evolution of protein functions
  3. Protein domains
    Role of protein domains, role of intramolecular domains
  4. Oligomers
    Forces responsible for the formation of oligomers. Specification and control. Prokaryotic and eukaryotic transcription factors
  5. Protein interactions in vivo
    Proteins in the cell, modes of substrate recognition, specificity
  6. Polyenzyme complexes: Catalytic nanomachines
    Experimental approaches to study protein interactions, channel enzyme complexes, swing arm enzyme complexes
  7. Self-assembly of proteins
    Cytoskeletal proteins, Viral structures and functions
  8. Membrane proteins
    Asymmetry of membranous proteins, interactions with the lipid bilayer, monolayer membrane proteins
  9. Cell signal
    Generation and transport within the cell, effect on cell metabolism
  10. Transport
    Role of membrane proteins in transport, control and specificity, chemical energy production

Learning Outcomes

The course aims at understanding the structure and function of proteins and their role in organisms so that students are able to understand the molecular mechanisms that govern life. The course introduces the methodology of studying protein structure and the function of biological membranes. Then, the aim is to link the knowledge of proteins and the basic processes in which they participate to the understanding of the molecular basis of diseases and how therapeutic approaches work.

Upon successful completion of the course, students will

  • will have a basic understanding of the structure of proteins, their interactions and supramolecular self-organisation
  • have the basic knowledge to understand the molecular basis of protein function in organisms.
  • will have been exposed to the molecular basis of disease and the use of proteins as therapeutic targets

Student Performance Evaluation

  • 60% from two oral presentations
  • 40% from the final oral examination, lasting 1 hour for each student

Prerequisite courses

Basic knowledge of Biochemistry and Biology

Navigate to Courses

Biocatalysis and Applications in Organic Synthesis

Biological Membrane Systems

Chemistry of Natural Products

Medicinal Chemistry

Nuclear Magnetic Resonance Spectroscopy (NMR) – Theory and Applications

Organic Photochemistry

Protein Engineering

Stereochemistry – Mechanisms of Organic Reactions

Structure and Function of Proteins

Synthetic Organic Chemistry

Frequently asked questions

Who can apply?

The program is addressed to graduates of Faculties of Sciences and Technology, Faculties of Engineering, Schools of Agriculture, and other Faculties of related subjects of Higher Education Institutions.

What is the methodology used?

The training curriculum consists of a number of specialized lectures on the above mentioned topics, laboratory and field work, hands-on exercises on data analysis and numerical modeling.

Is the programme full time?

Yes, and it lasts 4 semesters

What is the cost of the programme?

There are no tuition fees.

Is the programme tought in English?

The courses are taught in Greek or English depending on the audience. The Master thesis can be written in Greek or English after approval from the overseen committee.