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Bacteria Bacteria – single- celled organisms that are prokaryotic (no true nucleus)

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Page 1: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

Bacteria

Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

Page 2: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

BacteriaBacteria are often used

in Biotech to study genes.

Simple to grow

Grow rapidly

24 hours

370C

Why use bacteria?

Page 3: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

BacteriaTo grow bacteria, need:

1.Correct nutrients – LB agar (solid) or LB broth (liquid).

2. Correct temperature – 370C.

3. Can divide every 20 minutes.

Page 4: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

Transformation

Changing an organism’s traits by adding a new gene.

Page 5: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

Why transform bacteria?

Study genes of complex organisms in much simpler ones.

Page 6: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

Ways to get DNA into a cell:Electroporation

Using electricity to poke holes in cell membrane; DNA rushes into cell.

Page 7: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

Ways to get DNA into a cell:Virus Infection

- Replace “disease” genes with “healthy” genes.

- Virus “infects” cell with new gene.

Page 8: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

Ways to get DNA into a cell:Gene Gun

- DNA attached to gold pellet.

- Pellet fired into cell.

- Typically used with plants. Why?

Gene Gun Animation

Page 9: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

Ways to get DNA into a cell:Heat Shock

Using heat to open pores in cell membrane. (see sketch on board).

Page 10: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

Transformation Efficiency

# of bacterial cells on plate# bacterial cells possible on plate

For heat shock, this number is <0.01% (plate hold about 1 million colonies)

Page 11: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

How do you know which cells have been transformed?

Selectable marker – gene which allows only transformed cells to survive.

Ex. Antibiotic resistance genes

Page 12: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

What DNA will we transform into cells?

Plasmid – small, circular DNA

small “easy” to get into cells

familiar genes will be used to make proteins

vector can carry other genes into bacteria

Page 13: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

What DNA will we transform into cells?

pVIB

luciferase – gene encoding Bioluminescence video

ampr = ampicillin-resistance gene

Any bacteria with this gene can grow in presence of ampicillin (antibiotic)

Page 14: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

What DNA will we transform into cells?

pGREEN

GFP –

GreenFluorescentProtein

Also ampr

Page 15: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

What type of bacterial cells are we going to transform?

E. Coli that are “competent”.

Competent – ready to be transformed.

Page 16: Bacteria Bacteria – single-celled organisms that are prokaryotic (no true nucleus)

How are we going to make competent cells?

Treat cells with CaCl2

In solution CaCl2 Ca2+ + 2 Cl-

Positively charged Ca2+ coats negatively charged pores. DNA can move into cell.Heat Shock Animation


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