Transgenic animals
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Sep 02, 2016
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About This Presentation
by Prachee Rajput, Barkatullah University, Bhopal (INDIA)
Slide Content
TRANSGENIC ANIMALS AND THEIR APPLICATIONS
TOPIC:-BIOSYNTHESIS OF NUCLEOTIDES
PRESENTED
BY
Prachee Rajput
(M.Sc ZOOLOGY, 1ST SEM. )
DEPARTMENT OF ZOOLOGY &
APPLIED AQUA- CULTURE
BARKATULLAH UNIVERSITY
BHOPAL(M.P)
TOPIC:-BIOSYNTHESIS OF NUCLEOTIDES
PRESENTED
BY
Prachee Rajput
(M.Sc ZOOLOGY, 1ST SEM. )
DEPARTMENT OF ZOOLOGY &
APPLIED AQUA- CULTURE
BARKATULLAH UNIVERSITY
BHOPAL(M.P)
•TRANSGENIC ANIMALS
Definitions
Transgenesis
process of introducing foreign or exogenous
DNA into an animal’s genome
Transgene
DNA introduced
•Mice
•Cows
•Fish
•Birds
•Sheep
•Goats
Transgenesis
process of introducing foreign or exogenous
DNA into an animal’s genome
Transgene
DNA introduced
•Mice
•Cows
•Fish
•Birds
•Sheep
•Goats
Why Transgenesis?
•Improve genetic Features of domesticated Animals
•Provide animal models for study of human diseases
•Pharming
using farm animals for production of human
pharmaceuticals
-mammary glands
•Study the genes regulation, development of animals
How to Get the Transgene Inserted
•Retroviral Vectors
•Microinjection
•Embryonic stem cells
•Improve genetic Features of domesticated Animals
•Provide animal models for study of human diseases
•Pharming
using farm animals for production of human
pharmaceuticals
-mammary glands
•Study the genes regulation, development of animals
How to Get the Transgene Inserted
•Retroviral Vectors
•Microinjection
•Embryonic stem cells
Microinjection
FIGURE 22.13
A. Remove eggs
B. Fertilize in vitro
C. DNA is microinjected into male pronucleus (prior to nuclear fusion)
100-1000 copies of gene
D. Implant eggs into surrogate
FIGURE 22.13
A. Remove eggs
B. Fertilize in vitro
C. DNA is microinjected into male pronucleus (prior to nuclear fusion)
100-1000 copies of gene
D. Implant eggs into surrogate
Fig 22.13 The production of transgenic animals by
microinjection of DNA into fertilized eggs.
© 2003 John Wiley and Sons Publishers
microinjection of DNA into fertilized eggs.
© 2003 John Wiley and Sons Publishers
Retroviral Vectors
FIGURE 22.8 (19.1)
Infect early stage embryo with replication-defective retrovirus
Limitations
only small DNA inserts
no regulatory sequences
safety
FIGURE 22.8 (19.1)
Infect early stage embryo with replication-defective retrovirus
Limitations
only small DNA inserts
no regulatory sequences
safety
Engineered Embryonic Stem
Cells
FIGURE 19.4
• Remove pluripotent ES cells from blastocyst
• Transfect ES
• [Site specific Integration - advantage]
• Selection
• Microinject back into blastocyst
• Implant
Cells
FIGURE 19.4
• Remove pluripotent ES cells from blastocyst
• Transfect ES
• [Site specific Integration - advantage]
• Selection
• Microinject back into blastocyst
• Implant
Creation of Transgenic Line
1. Determine whether the progeny are TRANSGENIC
piece of tail, PCR, Southern Blot
2. Mate this transgenic animal to determine whether the
transgene is in GERM line
3. Breed to get homogenous transgenic line
Integration of DNA
G
0
generation -Mosiacs
(G
1
progeny)
all cells contain transgene
1. Determine whether the progeny are TRANSGENIC
piece of tail, PCR, Southern Blot
2. Mate this transgenic animal to determine whether the
transgene is in GERM line
3. Breed to get homogenous transgenic line
Integration of DNA
G
0
generation -Mosiacs
(G
1
progeny)
all cells contain transgene
Cloning by Nuclear Transfer
Quiescent [G0] cells Plus EGG
First 3 cell division of Fertilized Egg
•no gene expression
•embryo-initiating protein factors in
cytoplasm bind to embryonic
development genes
When G0 nucleus is transferred
•cell specific regulatory proteins are stripped
•EIPF bind to EDG
Quiescent [G0] cells Plus EGG
First 3 cell division of Fertilized Egg
•no gene expression
•embryo-initiating protein factors in
cytoplasm bind to embryonic
development genes
When G0 nucleus is transferred
•cell specific regulatory proteins are stripped
•EIPF bind to EDG
Mice make Human Antibodies
YACs contained many of these heavy and light chain segments
Knock out Mouse Segments, replace wuth Human segment genes
Fully human antibody made
YACs contained many of these heavy and light chain segments
Knock out Mouse Segments, replace wuth Human segment genes
Fully human antibody made
Transgenic Cattle
Applications
•Increasing casein content of milk increase cheese production
•Lactose free milk (transgene lactase)
•Resistance to bacterial infections
•In vivo immunization
•transgene is specific Heavy and Light chain genes which
•create mAn against a specific antigen
Applications
•Increasing casein content of milk increase cheese production
•Lactose free milk (transgene lactase)
•Resistance to bacterial infections
•In vivo immunization
•transgene is specific Heavy and Light chain genes which
•create mAn against a specific antigen
Why Express rProtein in Milk
Easy to purify - few other proteins in milk
Doesn’t harm transgenic animal- no change to physiology
rProtein is authentically modified post-translationally
Large quantities
Renewable source
Mammary Gland-specific Promoters
promoter and transcription termination sequences are present
Easy to purify - few other proteins in milk
Doesn’t harm transgenic animal- no change to physiology
rProtein is authentically modified post-translationally
Large quantities
Renewable source
Mammary Gland-specific Promoters
promoter and transcription termination sequences are present
Sheep and Pigs
PIGS
PST porcine somatotropin (growth hormone)
adverse effects- kidney, stomach, heart, sterility
human Hemoglobin
to replace whole blood transfusions
SHEEP
Increase wool production
keratin promoter
growth factor
PIGS
PST porcine somatotropin (growth hormone)
adverse effects- kidney, stomach, heart, sterility
human Hemoglobin
to replace whole blood transfusions
SHEEP
Increase wool production
keratin promoter
growth factor
Organ Transplant
P
r
Problem: Rejection
Antibodies from Host bind to Donor Organ
Elicits Inflammatory Response
Transplanted Organ Lost
Solution:
Transgene in Donor for Complement-Inhibiting Protein
P
r
Problem: Rejection
Antibodies from Host bind to Donor Organ
Elicits Inflammatory Response
Transplanted Organ Lost
Solution:
Transgene in Donor for Complement-Inhibiting Protein
Birds and Fish
Birds
traditional methods can not be used
because of avian embryogenesis differences
no ES cells found
ALV resistant chickens
transgene - defective ALV genome
makes viral RNA and protein
but blocks assembly of wt viral particles
Fish
aquaculture
transgene - growth hormone
Birds
traditional methods can not be used
because of avian embryogenesis differences
no ES cells found
ALV resistant chickens
transgene - defective ALV genome
makes viral RNA and protein
but blocks assembly of wt viral particles
Fish
aquaculture
transgene - growth hormone
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