CONTENTS AND COURSE
- Microbial cell structure and function. Gram negative, Archaea. The cell membrane and the secretion and transport systems. Capsules and S-layers. Flagella and swimming motility. Chemotaxis and other taxis. Fimbriae and pili. Cytoplasm. Ribosomes. Nucleoid. Cell inclusions.
- Microbial growth. Cell chemistry and nutritional requirements. Nutritional classes of microorganisms. Classes of culture media: defined, complex, selective and differential. Enrichment and pure culture techniques. Population growth. Measuring microbial growth: biomass and cell number determinations. Quantitative aspects and growth curve. Effects of environmental factors on microbial growth: temperature, pH, water availability, oxygen availability. Control of microbial growth: chemical and physical methods.
- Metabolism. Energy production. Chemiotrophy. Fermentation. Aerobic respiration. Anaerobic respiration: denitrification, desulfurication, methanogenesis, homoacetogenesis. Chemiolitotrophy and classes of chemiolitotrophic microorganisms. Oxygenic and anoxygenic photosynthesis. Biosynthesis. Organic compound and CO2 assimilation. Nitrogen fixation and assimilation. P and S assimilation.
- Systematics. Species concept in microbiology. Classification and nomenclature. Conventional and molecular taxonomy methods.
- Virus. General properties. Structure of the virion. Virus life cycle: overview. Culturing, detecting and counting viruses. Life cycles of some selected bacteriophages and animal viruses.
- Bacterial genetics. Microbial genomes. Chromosome, plasmids, and other genetic elements. Mutations and mutants. Classes of mutants and selection methods. Horizontal gene transfer: conjugation, transformation, transduction. Genome plasticity and evolution.
- Regulation of gene expression. How microorganisms sense the environment. Major modes of regulation: overview. Positive and negative transcriptional regulation of catabolic and anabolic operons. Global control networks: an overview.
- Differentiation. Adaptation and differentiation. Endospores. Morphologic and physiologic differentiation in Streptomyces. Quorum sensing. Biofilm formation.
- Microbial interactions with humans. Normal human microflora. Pathogenic bacteria: reservoirs and transmission. Pathogenicity and virulence. Virulence factors. Endotoxins and esotoxins. Molecular mechanisms of some selected exotoxins. Host defences: an overview.
- Antibiotics. Producers. Classification. Mechanisms of action. Methods for evaluating bacteria sensitivity to antibiotics. Biochemistry and genetics of antibiotic resistance in bacteria.
For each topic, representative groups of microorganisms will be described.