Transgenesis involves introducing foreign DNA into an animal's genome. This allows for the production of transgenic animals that exhibit new traits. Common methods for creating transgenic animals include pronuclear microinjection, embryonic stem cell manipulation, and retrovirus-mediated gene transfer. Examples of transgenic animals include glowing fish, disease models like Alzheimer's mice, and farm animals engineered for increased wool/milk. While transgenic technology has benefits for research, agriculture, and medicine, it also carries some risks that require further study.
3. Process of introducing foreign or exogenous DNA into an
animals genome is called transgenesis.
Transgenesis is the process of introducing
an exogenous gene called a transgene into a living
organism so that the organism will exhibit a new property and
transmit that property to its offspring.
Transgenesis can be facilitated by liposomes
by liposomes, enzymes, plasmid vectors, viral
vectors, pronuclear injection, protoplast fusion, and ballistic
DNA injection.
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5. A transgenic animal is one that carries a foreign gene
that has been deliberately inserted into its genome.
Foreign genes are inserted into the germ line of the
animal , so it can be transmitted to the progeny.
Transgenic technology has led to the development of
fishes, live stock and other animals with altered genetic
profiles which are useful to mankind.
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7. Transgenic animals are the genetically modified
organisms which have a foreign gene in their
genome due to which they show certain properties
which are different from non- genetically modified
organisms.
Glow fish as pets.
Sheep with more wool.
Cow producing more milk with lower cholesterol.
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10. Example – “Dolly”
(sheep)
Dolly was a
female domestic sheep,
and the
first mammal cloned from
an adult somatic cell,
using the process
of nuclear transfer. Born5
July 1996
She was cloned by Sir
Ian Wilmut, Keith
Campbell and colleagues
at the Roslin Institute,
part of the University of
Edinburgh, Scotland.
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11. Example –
“supermouse”
First transgenic animal
was a “Supermouse”
created by ‘Ralph
Brinster’ and ‘Richard
Palmiter’ In 1982.
It was created by
inserting a human
growth hormone gene in
mouse genome.
The offspring was
much larger than the
parents.
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13. Transgenic technology has been developed and
perfected in the laboratory mouse.
Since the early1980’s hundreds of different
genes have been introduced into various mouse
strains.
These studies have contributed to understanding
of gene regulation
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14. Step 1- construction of a transgene.
Transgene made of three parts-
• Promoter
• Gene to be expressed
• Termination sequence
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15. Step 2- Introduction of foreign gene into
the animal.
Pronuclear microinjection method.
Embryonic stem cell method.
Retrovirus-mediated gene transfer method.
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16. Step 3 – Screening for transgenic positives.
Transgenic progenies are screened by PCR to
examine the site of incorporation of the gene.
Some transgenes may not be expressed if
integrated into a transcriptionally inactive site.
Step 4 – Further animal breeding is done to obtain
maximal expression.
Heterozygous offspring's homozygous strains are
mated to form.
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17. Retroviruses can be used for the transfer of foreign genes
into animal genomes.
This can best be done at 4-16 cell stage embryos.
Completion of this process requires that the host cell
undergoes the S phase of the cell cycle. Therefore,
retroviruses effectively transduce only mitotically active
cells.
Very high rates of gene transfer are achieved with the
use of retroviruses.
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19. Limitations on the size of the foreign DNA insert (usually 9 to
15 kb) transferred.
The genome of the retroviral strain can be integrated into the
same nucleus as the transgene. This means that the virus
itself could be produced by the transgenic organism and
create a problem especially if the animal will be used for
production of food.
Low copy number integration.
Additional steps required to produce retroviruses.
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20. A female animal is superovulated
and eggs are collected.
The eggs are fertilized in vitro.
The transgene containing solution is
Injected into the male pronucleus.
Eggs with the transgenes are kept overnight in an incubator
to develop.
The eggs are then implanted into the uterus of a pseudo
pregnant female.
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21. Because of the disadvantages of the retroviral vectors,
microinjection of DNA is currently the preferred method for
producing transgenic mice.
The mouse was the first animal to undergo successful gene
transfer using DNA microinjection .
This method involves:- transfer of a desired gene
constructed from another member in the same or different
species into the pronucleus of a reproductive cell.
Then it will be cultured in vitro until reaches embryonic phase
then transferred to the recipient cell.
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23. Transgenic animals can be created by manipulating embryonic
stem cell.
ES cells are obtained from the inner cell mass of the blastocyst.
Transgenic stem cells are grown in vitro.
Then they are inserted into a host uterus to grow normally.
Harvest the Inner Cell Mass (ICM) from 3 day old blastocysts.
Inject the transgenic ES cells into the blastocoele of a new 3-day old host
blastocyst.
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26. Super fish
•Growth hormone gene inserted into fertilized egg.
•Increased growth and size.
•Transgenic fish grows about 10-11 time faster than
normal fish.
Glo fish
•Genetically modified zebra fish.
•Produced by integrating a fluorescent protein gene from
jelly fish into embryo of fish.
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28. Onco mouse
•Mouse model to study cancer.
•Made by inserting activated oncogenes.
Alzheimer’s mouse
•In the brain of Alzheimer’s patients, dead nerve cells are
entangled in a protein called amyloid.
•Mouse made by introducing amyloid precursor gene into
fertilized egg of mice.
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30. Enviro pig
•Pigs have trouble fully digesting a compound known as
phytate in many cereal grains used to feed them.
•Transgenic pigs are created by introducing phytase gene
of Ecoli.
•Phytase enzyme is thus produced in the salivary gland
of pig.
•It degrades indigestible phytate with the release of
phosphate that is readily digested by pigs.
Pig for organ transplant
•Pigs with human genes, in order to decrease the chance
of organ rejection by human body.
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33. “ANDI” was the first transgenic monkey, born in 2000.
ANDI proves that transgenic primates can be created
and can express a foreign gene delivered into their
genome.
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34. “ROSIE” was the first transgenic cow , born in 1997.
Produced human protein enriched milk at 2.4g/lt contains
human gene Alpha lactalbumin.
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35. Transgenic goats engineered to produce human
breast milk.
•University of California scientists created the transgenic
goats by transferring human genes for breast milk
enzymes and proteins into goat embryos.
•Produce 60% of the lysozyme and lactoferrin found in
human mother’s milk.
•For babies of mother’s who aren’t present or can’t nurse
them, milk from these transgenic goats could provide the
next best alternative.
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37. Industrial importance –
•Toxicity sensitive transgenic animals to test chemicals.
•Spider silk in milk of goat.
Medical importance –
•Disease model.
•Xenotransplantation.
Agriculture importance –
•Disease resistant animals.
•For improving quality & quantity of milk, meat, eggs & wool
production.
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38. Production of organs for transplant.
Surgical techniques.
Cancer models.
Antibody production.
Study of role of gene.
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39. There may be health risks associated with
transgenics.
There may be long term effects on the environment
when transgenic animals are released into the field.
Abnormalities suffered are more.
Reduced fertility.
Respiratory and circulatory problems.
Weak immune system.
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40. With proper research and careful use the
transgenic animals can go a long way in solving
several problems for which science doesn't have
a solution till now.
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