Download Genetic engineering and the Human Genome Project

Biotechnology
& Recombinant DNA
What is
biotechnology?

Using living
microorganisms or
cell components to
make products

Often via genetic
engineering and
using recombinant
DNA
Recombinant DNA technology:

Insertion or
modification of genes
to produce desired
proteins.
What is
recombinant DNA?



Inserting foreign DNA
into a bacterial cell
Use restriction
enzymes, plasmids,
ligase and bacterial
host
Restriction enzymes


Defense against viruses
Clone gene or make
gene product
How is recombinant DNA made?

Recall: happens
naturally


Researchers can also
produce it


Transposons
Use bacterial plasmids or
viruses (bacteriophages)
Uses


Bacteria make insulin
yeast help make
components of Hepatitis
B vaccine
What are restriction enzymes?

Naturally occur
in bacteria





Bacteria use
these to
combat viral
infection
Bacteria DNA
uneffected
because some
is methylated
Sequencespecific
Restriction
enzymes
Cloning
animation
This can be used as a vector…
What is a vector?



Different from a disease
vector!
plasmid animation
Plasmid or virus




Used to insert DNA into host
cell
Must be able to self-replicate!
Must be small so not fragile
Both types of vectors can
allow researchers to clone
DNA

But there’s another approach
to DNA amplification…
PCR: making copies of DNA
What is PCR?
Stands for _____________
Need primers of about 20 bp
to start
DNA polymerase doesn’t
start reaction, only
lengthens
Primers recognize
regions which flank
target gene
Ingredients
primers
DNA polymerase from
TAC (Thermus aquaticus)
Individual nucleotides
Can you go over that one
more time? …PCR animation
Figure 9.4 (1 of 2)
What is PCR?
Stands for _____________
Need primers of about 20 bp
to start
DNA polymerase doesn’t
start reaction, only
lengthens
Primers recognize
regions which flank
target gene
Ingredients
primers
DNA polymerase from
TAC (Thermus aquaticus)
Individual nucleotides
Can you go over that one
more time? …PCR animation
Figure 9.4 (2 of 2)
Why would you use PCR?

Detect small amounts
of DNA

Can you think of
examples?




Forensics
Infectious agents
Gene mapping




Get in groups and
discuss!
Human Genome
Project
Taxonomy and
systematics studies
Cancer and study of
other human diseases
Sequencing of rRNA
and mRNA via cDNA
DNA fingerprinting
Let’s take a brief look at some of
these…
What is gel electrophoresis?


Sorting DNA segments by size
DNA fingerprinting

Restriction enzymes create restriction fragment length
polymorphisms (RFLPs)
Gel
electrophoresis
animation
What is Southern
blotting?





After gel
electrophoresis
Filter paper blots DNA
off
Radioactive probes
added
Autoradiography
pinpoints sequence
Southern Blot
animation
The scientific applications



Understanding of
DNA
Sequencing
organisms' genomes
DNA fingerprinting
for identification
Figure 9.17
Why E. Coli is used!



Used because it is easily grown and its
genomics are known
Need to eliminate endotoxin from products
Cells must be lysed to get product
Inserting Foreign DNA into Cells

DNA can be inserted into a cell by





Transformation
Electroporation
Protoplast fusion
Microinjection
Gene gun
What is RNA Interference (RNAi)?
RNAi animation
Figure 9.14
Cloning
How do researchers get the DNA they
want to clone?



Gene libraries are made
of pieces of an entire
genome stored in
plasmids or phages.
cDNA is made from
mRNA by reverse
transcriptase.
Synthetic DNA is made
by a DNA synthesis
machine.
So what’s the problem?





Fine for prokaryotic DNA
Problem with eukaryotic
DNA…
Eukaryotic DNA has
introns…
 Must make
complementary DNA
(cDNA)
 Use reverse trasncriptase
cDNA animation
Now DNA can be inserted…
What do they do with the cloned DNA?

Lots of different things!
Is this the only way to “look” at DNA?



No—we can sequence it, too!
Random shotgun sequencing
Start with a whole genome or a large piece of the DNA (a BAC).



BAC-bacterial artificial choromosme
Shear the DNA into many different, random segments.
Sequence each of the random segments Put the pieces back together
in original order
What are bioreactors?

Using bacteria to
produce gene products




Insulin: diabetes
Human growth
hormone
Cellulase (break down
cell wall for animal
feed)
Factor VIII: hemophilia
What are plant GMOs?

Genetically modified organisms

Transgenic plant or animal

Bioreactors filled with these

Plants




Cotton, corn, potato to make pest resistant
Soybeans resistant to common herbicide
Some corn, cotton are herbicide and pest resistant
Could produce human hormones, clotting factors, antibodies on seeds
in future
What are animal GMOs?


Foreign genes into
embryos
produce animals that
manufacture human
hormones, etc. = gene
pharming





Blood clotting factor
goats
Sheep milk with
human alpha-1antitrypsin (used to
treat heritable
emphysema)
1997, Dolly
Since then, cloned
sheep, cows, goats, mice
Humans: moratorium
What is gene
therapy?

Insertion of genetic
material into human
cells to treat a disorder


Healthy genes to make
up for faulty genes



Use retrovirus to insert
normal gene into cell
Severe combined
immunodeficiency syndrome
1990, girl received normal
gene in white blood cells
Using genes to treat
other illnesses