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Transcript
Chromosome mapping in bacteria Bacterial colonies, each derived from a single cell Mixing bacterial genotypes produces rare recombinants Mixing bacterial genotypes produces rare recombinants Hayes Experiment Conjugation between two auxotrophic strains A y B Streptomycin: antibiotic “kill” bacteria, but it does not destroy them Conclusion: both strains do not have the same role – Strain A: donor, with fertility factor F – Strain B: receptor, it must survive F plasmids transfer during conjugation Integration of the F plasmid creates an Hfr strain Isolated by Hayes y Cavalli-Sforza from strains F+ Transfer gene frequency 1000 times higher than F+ Do not transfer plasmid/fertility Hfr (High Frequency of Recombinants) Integration of the F plasmid F in the chromosome The “blender” experiment” Wollman y Jacob, 1957 Mating – Hfr aziR tonR lac+ gal+ StrS – F- aziS tonS lac- gal- StrR Each phenotype number is counted in every sample (exconjugants) Colony number goes up as the sample extraction time The F integration site determines the order of gene transfer in HFRs Two types of DNA transfer can take place during conjugation A single crossover cannot produce a viable recombinant Figure 5-16 The generation of various recombinants by crossing over in different regions Faulty outlooping produces F´, an F plasmid that contains chromosomal DNA Bacteria exchange DNA by several processes Cycle of a phage that lyses the host cells Transduction Lederberg y Zinder (1951) – Experiments on Salmonella – Transfer of genes between two strains without contact – If filter pore size was smaller than a virus, transfer did not take place Generalised transduction by random incorporation of bacterial DNA into phage heads Frequency of cotransduction • Donor: leu+ thr+ azir • It is infected by the phage. Phage lysate collected removing surviving donor bacteria • Used to infect receptor bacteria • Receptor: leu– thr– azis • One of the markers (phenotypes) is selected • Then, checked colony phenotypes for the other genes Fcotransductionleu-azi = nº colonies leu+ azi+ nº colonies leu+ Selected marker Unselected markers 1 leu+ 50% azir, 2% thr+ 2 thr+ 3% leu+, 0% azir 3 leu+ y thr+ 0% azir Cotransduction map • Frequency of cotransduction: frequency of colonies showing the selected marker and one of the not selected markers • The closer two genes are to each other, the more likely they are to be transducted by the same transductant particle • Cotransduction frequency is an inverse measure of distance thr leu 2/3 azi 50 thr La FC es mayor entre thr-leu que entre thr-azi
