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Colossians 1:16, 17 16 For by him were all things created, that are in heaven, and that are in earth, visible and invisible, whether they be thrones, or.

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Presentation on theme: "Colossians 1:16, 17 16 For by him were all things created, that are in heaven, and that are in earth, visible and invisible, whether they be thrones, or."— Presentation transcript:

1 Colossians 1:16, 17 16 For by him were all things created, that are in heaven, and that are in earth, visible and invisible, whether they be thrones, or dominions, or principalities, or powers: all things were created by him, and for him: 17 And he is before all things, and by him all things consist.

2 Bacterial Genetics Timothy G. Standish, Ph. D.

3 Bacteria Have Circular Chromosomes
Cell Wall Cytoplasm Cell Membrane Chromosome Origin of Replication Termination of Replication

4 Replication Replication goes in both directions Original Chromosome
Start of replication Theta (q) structure End of replication Two chromosomes Mid replication

5 Binary Fission

6 Genetic Recombination
If bacteria were incapable of genetic recombination, all members of a given species would be clones with differences arising only due to mutations in different lines If bacteria could not share genetic information as other organisms do in sexual reproduction, there would be vastly less opportunity to adapt to different environments As it turns out, bacteria are notorious for their ability to adapt, thus it is not surprising that elegant mechanisms exist for sharing genetic information

7 Ways Bacteria Exchange Genetic Material
Transformation - Bacteria take up DNA from their environment and incorporate it into their genome (i.e., the Griffith experiment) Conjugation - The direct transfer of DNA by bacteria usually via plasmids Transduction - Movement of DNA between bacteria by viruses

8 1 Transformation Crossing over Insertion

9 1 Transformation

10 1 Transformation

11 1 Transformation

12 1 Transformation

13 1 Transformation

14 Crossover Frequency Following binary fission, one daughter cell will have the recombinant strand and thus have a recombinant chromosome Mapping bacterial genes following transformation is not significantly different from eukaryotic mapping. The closer two genes are to one another, the lower the probability of a crossover event between them and thus the higher the probability that they will be co-transformed A B C Transformation with A and C is unlikely A B C

15 2 Conjugation F plasmid F plasmid F+ bacteria F- bacteria
Mating Bridge F- bacteria F plasmid

16 2 Conjugation F plasmid F plasmid F+ bacteria F- bacteria
Mating Bridge F plasmid

17 2 Conjugation F plasmid F plasmid F+ bacteria F- bacteria
Mating Bridge F plasmid

18 2 Conjugation F plasmid F plasmid F+ bacteria F- bacteria
Mating Bridge F plasmid

19 2 Conjugation F plasmid F plasmid F plasmid F+ bacteria F- bacteria
Mating Bridge F plasmid F plasmid

20 Transfer of genetic material
Hfr Recombination F+ bacteria F plasmid Integration Hfr cell Transfer of genetic material F- bacteria

21 Transfer of genetic material
Hfr Recombination F+ bacteria F plasmid Integration Hfr cell Interruption of conjugation F- bacteria Crossing over Transfer of genetic material

22 Hfr Recombination F+ bacteria F plasmid Integration Hfr cell
Recombinant Bacteria

23 3 Transduction Generalized
Destruction of the bacteria’s DNA Infection Replication of the viral genome Production of viral parts Packaging Lysis

24 3 Transduction Specialized
Temperate Phage Part of the bacteria’s DNA Replication of the viral genome Production of viral parts Packaging Lysis

25 The End

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