Т.Б.2.Class 2. Nucleic acids: levels of DNA compactification. DNA replication and repair: mechanisms and biomedical significance. DNA structure damage and repair mechanisms. Medicine that inhibit replication.
Т.Б.3.Class 3. Stages of realization of genetic information. Structure and functions of various types of RNA. Molecular mechanisms of transcription and translation. Part 1, 2.
Т.Б.4.Class 4. Regulation of gene expression in prokaryotes. The theory of the "operon". Mechanisms of gene induction and repression in eukaryotes. Medicines that modulate gene expression. Part 1, 2.
Т.Б.5.Class 5. Molecular genetic technologies in the development and study of medicines. Prospects of gene therapy in the treatment of diseases. Part 1, 2.
Т.Б.6. Final lesson for training module No. 1: “Structure and functions of nucleic acids. Peculiarities of regulation of gene expression in prokaryotes and eukaryotes.” Part 1.2
Class 8. Post-translational modifications of the protein. Protein folding and its disorders. Molecular mechanisms of proteinopathies. Proteins and enzymes as biomarkers
Class 10. Structure and functions of biological membranes. Membrane proteins. Mechanisms of transport of substances through the membrane. Intercellular contacts
Т.Б.12. Class 12. Catalytic receptors. Molecular mechanisms of signal transduction from nuclear and cytoplasmic receptors. Regulation of receptor activity
Т.Б.15. Cell damage. Pathobiochemical aspects of necrosis. Types of programmed cell death. The role of apoptosis in normal and pathological conditions. Part 1.2