Cell biology and histology 1100-1BO16

This course consists of two parts. One is devoted to the cell biology and the other to histology. The aim of the part devoted to cell biology is to acquaint students with the basis of contemporary knowledge concerning the structure and biochemistry of eukaryotic cell. The lecture gives also the basic knowledge concerning the problems of embryonic development, stem cells (embryonal and induced) and carcinogenesis.
Programme:
- Cell theory and chemistry of the cell
- The origin of cell, comparison of prokayotic and eukaryotic cell
The RNA world; Szostak's theory, the origin of eukaryotic cell
Comparison of procaryotic and eukaryotic cell
- Plasma membrane and its functions
The lipid bilayer; phospholipids and membrane mobility; endoplasmic reticulum, the model of liquid mosaic; cell signaling
- The Mitochondrion
Structure and function; oxidative phosphorylation
- Chloroplasts and photosynthesis
- The Cytoskeleton
microtubules, microfilaments, intermediate filaments, molecular motors and the transport of particles
- The Nucleus
the origin of cell nucleus; stucture; nuclear envelope; nuclear pore complex; active and passive transport into the nucleus; NLS
The Nucleolus: structure and function. Formation of pre-ribosomes
The Chromatin
Chromatin structurep; nucleosomes; chromatin remodeling; post translational modifications of core histones; histone code; euchromatin and heterochromatin
- DNA replication
The palce of DNA replication in the cell cycle; DNA structure; replication as a semiconservative process; the chemistry of DNA synthesis; origins of DNA relication (ori); formation of pre-replicative complexes; initiation of replication; DNA polymerases; the replication forks; DNA repair
- Transcription and translation
RNA structure; RNA polymerases (I, II, III); initiation of trasncription in eukaryotic cells; from DNA to RNA; RNA cappinig and splicing; RNA export
Translation
from rNA to the polypetide; initiation of translation; STOP codons; protein folding and degradation, proteasom
- Cell Cycle
Cell cycle phases; regulation of cell cycle; the main cyclins and cyclin dependent kinases (Cdk); regulation of Cdks activity; check points; mitogens; growth factors; survival factors
Apoptosis - programmed cell death
Cell division (mitosis)
- Meiosis, germ cells and embryonic cells
Mitosis and Meiosis - the comparison; diploid and haploid generations in plants and animals; coniugation of bivalents; synaptonemal complex; crossing-over; genetic diversity
Primordial germ cells; the testis and the ovary; oogenesis and spermatogenesis; meiotic maturation; fertilization and the first cell cycle; cleavage; gastrulation and formation of ectoderm, endoderm and mesoderm; regulatory abilities of early mammalian embryo
- Stem cells
embryonic stem cells; induced stem cells; therapeutic cloning; cell therapies

The aim of the lecture is to introduce students to general human histology.
The program includes topics on:
1) microscopy and histological techniques
2) general morphological and functional characteristics of tissues, in particular:
- epithelium
- fat tissue
- connective tissue
- cartilage and bone
- muscle
- nerve tissue
- blood
3) organ morphology