1. Biotechnology

2. Biotechnology today Genetic Engineering Electrophoresis
Recombinant Technology
Polymerase Chain Reaction
Transgenics/GMO’s
Cloning

3. Recombinant Technology
rDNA is DNA with 2 or more sources
Bacteria are used to copy DNA and make desired proteins
Identify gene of interest and cut it out
insert new gene into a plasmid
insert plasmid into bacteria
Vector – plasmid carrying new gene into host
bacteria can express new gene or make copies of inserted DNA

5. Restriction Enzymes – Cut the DNA!
a.k.a.restriction endonucleases
evolved in bacteria to cut up foreign DNA from viruses
Molecular scissors that cut between specific bases
“Sticky Ends” are where the enzyme cut allow for joining with another piece of DNA cut with the same enzyme

6. Recombinant tech. Transformation
insert recombinant plasmid into bacteria
grow recombinant bacteria in agar cultures
bacteria make lots of copies of plasmid
“cloning” the plasmid
production of many copies of inserted gene
production of “new” protein
transformed phenotype
DNA  RNA  protein  trait

7. insert “gene we want” into plasmid... “glue” together
Recombinant Plasmid
Plasmids used to insert new genes into bacteria
cut DNA
gene we want
like what?
…insulin
…HGH
…lactase
cut plasmid DNA
Cut DNA?
DNA scissors?
ligase
insert “gene we want” into plasmid... “glue” together
recombinant plasmid

8. Grow bacteria…make more
transformed bacteria
gene from other organism +
recombinant plasmid
vector
plasmid
grow bacteria
harvest (purify) protein

9. Transgenics – organisms with foreign DNA
Genetically modified organisms (GMO)
enabling plants to produce new proteins
Protect crops from insects: BT corn
corn produces a bacterial toxin that kills corn borer (caterpillar pest of corn)
Extend growing season: fishberries
strawberries with an anti-freezing gene from flounder
Improve quality of food: golden rice
rice producing vitamin A improves nutritional value
For example, a transgenic rice plant has been developed that produces yellow grains containing beta-carotene.
Humans use beta-carotene to make vitamin A.
Currently, 70% of children under the age of 5 in Southeast Asia are deficient in vitamin A, leading to vision impairment and increased disease rates.

10. Transformed vertebrates
Green with envy??
Jelly fish “GFP”
Transformed vertebrates

11. Many uses of restriction enzymes…
Now that we can cut DNA with restriction enzymes…
we can cut up DNA from different people… or different organisms… and compare it
why?
forensics
medical diagnostics
paternity
evolutionary relationships
and more…

12. Copy DNA without plasmids? PCR!
Polymerase Chain Reaction
method for making many, many copies of a specific segment of DNA
~only need 1 cell of DNA to start
It’s a DNA
copy machine!

13. What does 90°C do to our DNA polymerase?
PCR process
What do you need to do?
in tube: DNA, DNA polymerase enzyme, primer, nucleotides
denature DNA: heat (90°C) DNA to separate strands
anneal DNA: cool to hybridize with primers & build DNA (extension)
What does 90°C do to our DNA polymerase?

14. Can’t we just add those little marshmallows?
Comparing cut up DNA
How do we compare DNA fragments?
separate fragments by size
How do we separate DNA fragments?
run it through a gelatin
agarose
made from algae
gel electrophoresis
DNA jello??
Can’t we just add those little marshmallows?

15. “swimming through Jello”
Gel electrophoresis
DNA moves in an electrical field…
DNA is negatively charged
size of DNA fragment affects how far it travels
small pieces travel farther
large pieces travel slower & lag behind
DNA        – +
“swimming through Jello”

16. Gel Electrophoresis - + DNA & restriction enzyme wells gel
longer fragments
power
source
gel
shorter fragments +
completed gel

17. Uses: Evolutionary relationships
Comparing DNA samples from different organisms to measure evolutionary relationships
turtle
snake
rat
squirrel
fruitfly – 1 3 2 4 5 1 2 3 4 5
DNA  +

18. Uses: Medical diagnostic
Comparing normal allele to disease allele
chromosome with normal allele 1
chromosome with disease-causing allele 2
allele 1
allele 2 –
DNA 
Example: test for Huntington’s disease +

19. Uses: Forensics
Comparing DNA sample from crime scene with suspects & victim
suspects
crime scene sample S1 S2 S3 V –
DNA  +

20. Electrophoresis use in forensics
Evidence from murder trial
Do you think the suspect is guilty?
blood sample 1 from crime scene
blood sample 2 from crime scene
blood sample 3 from crime scene
“standard”
blood sample from suspect
OJ Simpson
blood sample from victim 1
N Brown
blood sample from victim 2
R Goldman
“standard”

21. Uses: Paternity
Who’s the father? –
Mom F1 F2
child
DNA  +

22. Clone
A genetically identical organism or a group of cells derived from a single cell

23. Cloning Process The nucleus from a somatic (body) cell is harvested
An egg is harvested and the nucleus of the egg is removed
The nucleus from the somatic cell is then transferred into the egg
An electric shock causes the cell to replicate
The embryo is now implanted into the uterus to grow into a new individual

24. Big Ideas of Biotechnology
Genes from virtually any organism can be cloned using plasmid transformation or using PCR.
Electrophoresis and restriction enzymes are widely used in DNA analysis.
GMO’s and cloned animals and plants can be given beneficial characteristics or make needed products such as pharmaceuticals.