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Ability to replicate independently (so that a lot of copies could be generated) A recognition sequence for a restriction enzyme (so that we can introduce.

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Presentation on theme: "Ability to replicate independently (so that a lot of copies could be generated) A recognition sequence for a restriction enzyme (so that we can introduce."— Presentation transcript:

1 Ability to replicate independently (so that a lot of copies could be generated) A recognition sequence for a restriction enzyme (so that we can introduce our DNA of interest) Reporter genes (to confirm we have successfully introduced the vector into the host cell) Small size in comparison with host’s chromosomes (for easy manipulation) Characterstics of a vector

2 Recombinant DNA Technology Vectors –Generally plasmids or viruses Plasmids –Small circular DNA molecule –Introduced into bacteria by transformation

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4 Small size in comparison with host’s chromosomes (for easy manipulation) Ability to replicate independently (so that a lot of copies could be generated) A recognition sequence for a restriction enzyme (so that we can introduce our DNA of interest) Reporter genes (to confirm we have successfully introduced the vector into the host cell) Characterstics of a vector

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6 Transform E.coli with plasmid –Treat with CaCl 2 –Makes walls more permeable to small DNA molecules –Can also be introduced by electroporation

7 Two challenges remain: First, how can you make sure that all the bacteria that is growing contain a plasmid? Second, how can you identify which of the bacteria contains the recombinant plasmid. Bacterial plasmids carry two reporter genes to overcome these challenges. First problem is solved with the help of antibiotic (ampicillin) resistance on the plasmid vector. Recombinant DNA Technology

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9 Second challenge is solved with the help of lacZ gene.

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11 Recombinant DNA Technology Lac Z gene Genetic indicator system –From lac operon –Codes for enzyme beta-galactosidase –Cleaves beta-galactoside bonds Cleaves a synthetic beta-galactoside –5-bromo-4-chloro-3-indoyl-beta-D-galactoside (X-gal) –Galactose with a blue dye attached by a beta- galactoside bond

12 Recombinant DNA Technology X-gal (galactose + blue dye) is colorless If the beta-galactoside bond in X-gal is cleaved after taken up by the bacteria: –The dye is released from X-gal –Results in blue colonies of bacteria Why? –The lac Z is not interrupted –Beta-galactosidase is produced –X-gal is cleaved releasing the dye –The colonies are blue

13 Recombinant DNA Technology X-gal (galactose + blue dye) is colorless If the lac Z gene is interrupted with a foreign DNA –The gene is inactivated (the beta-galactosidase is inactive) –The dye is not released –The colonies are white Final confirmation is obtained by retrieving the plasmid DNA from E. coli cells and performing restriction digestion to examine cloned DNA

14 Viewing DNA Fragments Gels: –Are porous –Agarose (a polysaccharide from red algae) Use electrophoresis to separate molecules on the basis of: –Size and electrical charge

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18 Eco RI + Cut vector Insert DNA Size stds

19 DNA of interest can also be isolated by PCR amplification

20 http://bcs.whfreeman.com/mga2e/pages/bcs- main.asp?s=003&n=84&i=168&v=category&o=|26|132|1 31.1|37|14|60|72|84|&ns=209&uid=0&rau=0http://bcs.whfreeman.com/mga2e/pages/bcs- main.asp?s=003&n=84&i=168&v=category&o=|26|132|1 31.1|37|14|60|72|84|&ns=209&uid=0&rau=0 DNA of interest can also be isolated by PCR amplification


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