- Prokaryotic Genetics
- Genomes-definition, size and complexity, circular and linear chromosomes, plasmids
- Mutation, the basis for diversity-point mutations, deletions, frameshifting, insertions, inversions, phasevariation, reversion, conditional lethal mutants, suppression, complementation, genotype and phenotype, mutagenesis, mutant selection,auxotrophy, the Ames test
- Recombination and repair-homologous, site specific and illegitimate recombination, transposition, IS elements, transposons, integrons
- Bacteriophage genetics-bacteriophage l, lysogenic and lytic life cycles, control of lysogeny, other bacteriophages, M13, T4, Gene transfer in bacteria-transformation, discovery, mechanisms, transduction, specialised and generalised, conjugation, the F factor, Hfr and F prime strains, mapping the Escherichia coli genome, R factors, antibiotic resistance, conjugativetransposons, plasmid mobilisationGenetic organisation and regulation-operons and regulons, regulators, repression and activation, the lactose and arabinose operons, post transcriptional regulation, global regulators, quorum sensing
- Example of genetic structure and function in bacteria-the virulence of Vibrio choleraeEukaryotic
- GeneticsHeredity - Historical Prospective, Mendelian Genetics, Extensions of Mendelian GeneticsQuantitative Genetics, Linkage Crossing Over and Mapping in EukaryotesSex Determination and Sex Chromosomes, Extrachromosomal inheritanceChromosome Mutations: Variation in Chromosome Number and arrangement. Genetics of Organisms and Populations - Developmental Genetics, Genetics and Cancer, Genetics and Immunity - Genetics and Behaviour, Population Genetics, Evolution.
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