Text of 4.4. Genetic Engineering and Biotechnology 4.4.7 to 4.4.8 Part 2
Slide 1
4.4. Genetic Engineering and Biotechnology 4.4.7 to 4.4.8 Part
2
Slide 2
4.4.7 State that, when genes are transferred between species,
the amino acid sequence of polypeptides translated from them is
unchanged because the genetic code is universal Genetic engineering
refers to the deliberate manipulation It is possible to move
genetic material between species because the genetic code is
universal. This means that, for every organism, the same RNA codon
codes for the same amino acid in an mRNA strand. UUU and UUC both
code for the amino acid phenylalanine while CUU, CUC, CUA, and CUG
all code for leucine, regardless of the species.
Slide 3
Genetic code is Universal Since the genetic code is universal,
it is possible to transfer genetic material from one species to
another. Because the code is universal, it is possible to introduce
a human gene for making insulin into a bacterium. The bacterium
will then produce the human protein hormone insulin, which is
responsible for making cells take up more glucose and convert it to
glycogen.
Slide 4
Gene Transfer The technique of taking a gene out of one
organism ( the donor organism, e.g. a fish) and placing it in
another organism ( the host organism, e.g. a tomato) is a genetic
engineering procedure called gene transfer. Such a transfer was
done to make tomatoes more resistant to cold and frost.
Slide 5
Gene Transfer It is possible to put one species gene into
anothers genetic make up because DNA is universal. In the example
of tomatoes, proteins used by fish to resist the icy temperatures
of arctic waters are now produced by the modified tomatoes to make
them more resistant to cold. Another example of gene transfer is
found in Bt- corn, which has been genetically engineered to produce
toxins that kill the bugs which attack it.
Slide 6
Bt-Corn The gene, as well as the name come from a soil
bacterium, Bacillus thuringiensis, which has the ability to produce
a protein that is fatal to the larvae of certain crop-eating
pests.
Slide 7
Questions to Ponder Is it ethically acceptable to alter an
organisms genetic integrity? If the organism did not have the gene
in the first place, could there be a good reason for its absence?
Why are people so worried about this new technology? In selective
breeding, thousands of genes are mixed and matched. With GMOs only
one gene is changed. Is that not less risky and dangerous than
artificial selection? Would strict vegetarians be able to eat a
tomato which has a fish gene in it? Does research involving GM
animals add a whole new level to animal cruelty and suffering in
laboratories? If Btcrops kill insects, what happens to the local
ecosystem which relies on the insects for food for
pollination?
Slide 8
4.4.8 Outline a basic technique used for gene transfer
involving plasmids, a host cell (bacterium, yeast or other cell),
restriction enzymes (endonucleases) and DNA ligase Gene transfer
involves the following elements: A vector A host cell Restriction
enzymes DNA ligase The vector is what is needed to carry the gene
into the host cell. Plasmids are often used as vectors. Bacteria
carry all the required genetic information on one large circular
DNA. However, most bacteria also possess extra DNA in the form of
plasmids. Plasmids are bits of genetic material carrying 2-30
genes. Plasmids my replicate at the time the chromose replicates or
at toehr times.
Slide 9
Steps in cloning a gene http://highered.mcgraw-
hill.com/olcweb/cgi/pluginpop.cgi?it=swf::535
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ro10.swf::Steps%20in%20Cloning%20a%20Ge ne http://highered.mcgraw-
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http://www.youtube.com/watch?v=d_YJZn- ft_Q
http://www.youtube.com/watch?v=d_YJZn- ft_Q Gene therapy video
Slide 10
Gene transfer in insulin production from abpi schools
http://www.abpischools.org.uk/res/coResourc
eImport/modules/hormones/en- flash/geneticeng.cfm
http://www.abpischools.org.uk/res/coResourc
eImport/modules/hormones/en- flash/geneticeng.cfm
Slide 11
The general technique of gene transfer
Slide 12
Technique of gene transfer Plasmids are used to clone a desired
gene. First you splice or introduce a desired gene into a plasmid
and transfer it into a bacterial cell. Then, culture these
bacteria; many of them will have the plasmid with the desired gene.
Use a section of nucleotides, complementary to the desired gene,
but also attached to a (radioactive) label to find out which
plasmids have the gene and which do not. Use restriction enzymes to
cut the desired gene out of the plasmids and purify the gen using
gel electrophoesis.
Slide 13
The host cell is the cell which is to receive the genetic
material. A bacterium may be the host cell and produce a protein
desired by humans. Restriction enzymes (endonucelases) are used to
cut a desired section of the DNA. Bacteria produce these enzymes
naturally as a defense against invading viruses.
Slide 14
- One commonly used restriction enzymes recognizes sequence
GATTC and cuts both strands of the DNA between G and A. When
preparing to transfer DNA, the same restriction enzyme is used for
the host and the donor so the cuts are made in the same way. This
way, the same sticky ends are created so that the donor DNA can fit
in between the host DNA. The result is the uneven cut in the DNA
and the ends of the DNA are referred to as sticky ends. If the same
sequence is found on another section of DNA and is cut in the same
way, the two strands can be combined. To attach the two cut
sections of DNA, the enzyme DNA ligase is used to create the
required covalent bonds.
