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Bacterial Genetics & Transformation

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Presentation on theme: "Bacterial Genetics & Transformation"— Presentation transcript:

1 Bacterial Genetics & Transformation
Preparation for the pGlo Lab

2 Bacterial Genome Circular Little protein Condensed DNA = nucleoid

3 Mutation as a Source of Genetic Variation
Bacteria reproduce asexually by binary fission Mutation can increase genetic diversity when reproduction rates are high b/c of short generations (fitness)

4 Genetic Recombination
Combining DNA from two sources Usually two bacterial cells or bacteria & a phage

5 Conjugation & Plasmids
Conjugation: Direct transfer of genetic material b/w bacterial cells via a sex pilus that attaches to the recipient

6 Plasmids Small circular piece of DNA, separate from bacterial chromosome can be reversably integrated into the bacteria’s chromosome Confer favorable traits

7 pGLO Bacterial Transformation Lab
Transform e. coli bacteria Move genes from one organism to another with the aid of a plasmid

8 P GLO Plasmid pGLO plasmid encodes the gene for GFP and a gene for resistance to the antibiotic ampicillin pGLO gene is turned on (regulated) in the presence of the sugar, arabinose

9 Gene Regulation Not all genes are “on” all the time—why?
Promoter: Located on the DNA template where RNA polymerase begins transcription of Mrna Operon: A cluster of genes controlled by a single promoter

10 Arabinose Operon Bacteria produce three enzymes (araB, araA and araD) to break down arabinose sugar The “ara” genes are clustered together and controlled by a single promoter (Pbad).

11 Expression of Green Fluorsecent Protein

12 Predict Which Plates Will Glow

13

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