Embryo sexing pppt
20,080 views
40 slides
May 20, 2013
Slide 1 of 40
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
About This Presentation
Embryo sexing in animals and related techniques.
Slide Content
Animal Biotechnology
Alkhazraji,A.A.H.
Senior Scientific Researcher
PHD Animal Breeding
MOST-Agric.Res.Diroctarate
[email protected]
Alkhazraji,A.A.H.
Senior Scientific Researcher
PHD Animal Breeding
MOST-Agric.Res.Diroctarate
[email protected]
Biotechnology has been practiced
in animal husbandry since the
beginning of human history. In
1919, Karl Ereky, a Hungarian
engineer coined the term
‘biotechnology’ and described it as
the process by which products
could be synthesized from raw
materials with the aid of living
organisms.
in animal husbandry since the
beginning of human history. In
1919, Karl Ereky, a Hungarian
engineer coined the term
‘biotechnology’ and described it as
the process by which products
could be synthesized from raw
materials with the aid of living
organisms.
Artificial insemination:
Semen is collected from donor
male animals, diluted in suitable
diluents and preserved in liquid
nitrogen. Fresh or frozen diluted
semen is manually inseminated
into the reproductive tract of an
ovulating female to achieve
pregnancy.
Semen is collected from donor
male animals, diluted in suitable
diluents and preserved in liquid
nitrogen. Fresh or frozen diluted
semen is manually inseminated
into the reproductive tract of an
ovulating female to achieve
pregnancy.
A highly specific antibody is used to measure the
concentration of progesterone (the antigen) in
blood or milk. This is particularly useful for
identifying animals that are anoestrous or non-
pregnant, improving the efficiency of AI.
Radioactivity (radioimmunoassay – RIA) or
fluorescence (enzyme-linked immunosorbent
assay – ELISA) are used for quantification. The
concentrations of many molecules of biological or
agricultural interest can be measured using such
procedures.
concentration of progesterone (the antigen) in
blood or milk. This is particularly useful for
identifying animals that are anoestrous or non-
pregnant, improving the efficiency of AI.
Radioactivity (radioimmunoassay – RIA) or
fluorescence (enzyme-linked immunosorbent
assay – ELISA) are used for quantification. The
concentrations of many molecules of biological or
agricultural interest can be measured using such
procedures.
This is the process of bringing female animals into
oestrus at a desired time by using a progesterone-
releasing intravaginal device, intravaginal
progesterone sponges, progesterone ear implant or
prostaglandin treatment. The systematic
administration of a combination of hormones such as
gonadotrophins, prostaglandins, progesterone or
oestradiol is also used. It assists in large-scale use of
AI and can decrease the amount of labour used to
monitor cattle for oestrus.
oestrus at a desired time by using a progesterone-
releasing intravaginal device, intravaginal
progesterone sponges, progesterone ear implant or
prostaglandin treatment. The systematic
administration of a combination of hormones such as
gonadotrophins, prostaglandins, progesterone or
oestradiol is also used. It assists in large-scale use of
AI and can decrease the amount of labour used to
monitor cattle for oestrus.
ET is the transfer of an embryo from one female to
another. A donor animal is induced to superovulate
through hormonal treatment. The ova obtained are then
fertilized within the donor, the embryos develop and are
then removed and implanted in a recipient animal for
the remainder of the gestation period. The embryos can
also be frozen for 8 later use. Multiple ovulation and
embryo transfer (MOET) increases the scope to select
females – whereas AI limits selection to males – but its
success depends upon the accurate identification of
superior females and its application requires greater
technical expertise and infrastructure than AI.
another. A donor animal is induced to superovulate
through hormonal treatment. The ova obtained are then
fertilized within the donor, the embryos develop and are
then removed and implanted in a recipient animal for
the remainder of the gestation period. The embryos can
also be frozen for 8 later use. Multiple ovulation and
embryo transfer (MOET) increases the scope to select
females – whereas AI limits selection to males – but its
success depends upon the accurate identification of
superior females and its application requires greater
technical expertise and infrastructure than AI.
ET - Scheme
Heifers are preferred by the dairy industry and
bulls by the beef industry. The pig industry
generally prefers females due to higher quality
and lower cost of production. Y-chromosome
probes are used for sexing the embryos.
Karyotyping antibodies specific for male antigens
and X-linked activity enzymes are also used for
embryo sexing, but the use of Y-chromosome
specific probes seems to be the most reliable and
practical method.
bulls by the beef industry. The pig industry
generally prefers females due to higher quality
and lower cost of production. Y-chromosome
probes are used for sexing the embryos.
Karyotyping antibodies specific for male antigens
and X-linked activity enzymes are also used for
embryo sexing, but the use of Y-chromosome
specific probes seems to be the most reliable and
practical method.
Introduction of new genetics
Import/Export
Twinning
Coupling with other
biotechnologies
Import/Export
Twinning
Coupling with other
biotechnologies
Depending on the species, X chromosome-
bearing sperm contain 2–5 percent more
DNA than sperm bearing the Y-
chromosome. The different sperm will have
distinct emission patterns when they are
stained with a fluorescent dye and exposed
to light. This difference allows the sperm to
be separated by a flow cytometry machine.
The sorted sperm can subsequently be used
for AI to obtain offspring of the desired sex.
bearing sperm contain 2–5 percent more
DNA than sperm bearing the Y-
chromosome. The different sperm will have
distinct emission patterns when they are
stained with a fluorescent dye and exposed
to light. This difference allows the sperm to
be separated by a flow cytometry machine.
The sorted sperm can subsequently be used
for AI to obtain offspring of the desired sex.
Human 2.9
Cattle 3.8
Chinchilla 7.5
Turkey 0
X Chromosome has
more DNA!!!
Cattle 3.8
Chinchilla 7.5
Turkey 0
X Chromosome has
more DNA!!!
Abdul Jabbar A.H.Alkhazraji
PHD in Animal Breeding
Ministry of Science and Technology
Agricultural Research Directorate
PHD in Animal Breeding
Ministry of Science and Technology
Agricultural Research Directorate
Preselection of sex
Earlier approaches superstition based
Modern techniques make it possible now
Either X-Y sperm sorting or Embryo sexing
Earlier approaches superstition based
Modern techniques make it possible now
Either X-Y sperm sorting or Embryo sexing
Sex determined in pre-implantation embryos
Approach- either invasive or non invasive
Splitting of sexed embryos
First successful embryo sexing done by Gardner,
1968 in rabbits by cytological method (Barr body
observation)
Approach- either invasive or non invasive
Splitting of sexed embryos
First successful embryo sexing done by Gardner,
1968 in rabbits by cytological method (Barr body
observation)
Non invasive Methods--
Immunological assay of HY antigen
Quantification of X-linked enzyme
William et al., 1986
Differential growth of male & female
embryo
Yadav et al., 1992
Invasive Methods--
Cytogenetic analysis
--observing Barr bodies
--chromosome analysis
Y-specific DNA probe
Y-specific DNA primer & PCR
Immunological assay of HY antigen
Quantification of X-linked enzyme
William et al., 1986
Differential growth of male & female
embryo
Yadav et al., 1992
Invasive Methods--
Cytogenetic analysis
--observing Barr bodies
--chromosome analysis
Y-specific DNA probe
Y-specific DNA primer & PCR
H-Y detection used for murine,bovine,porcine
embryo.
Detection as early as 8 cell stage.
Can have two approaches cytotoxic or
immunofluorscent. White et al., 1982
In pigs detected only after removal of zona
pellucida.
Accuracy 84%cattle,85%goat,81%pigs.
G.B.Anderson, 1987
embryo.
Detection as early as 8 cell stage.
Can have two approaches cytotoxic or
immunofluorscent. White et al., 1982
In pigs detected only after removal of zona
pellucida.
Accuracy 84%cattle,85%goat,81%pigs.
G.B.Anderson, 1987
Large hue and cry against prenatal sex
determination
In animal science the technology can be a great
boon
Progressive & rich dairy farmers are now willing to
spend money for new technologies to improve
profitability of their herd
determination
In animal science the technology can be a great
boon
Progressive & rich dairy farmers are now willing to
spend money for new technologies to improve
profitability of their herd
Poor quality embryo show fluorescence
unrelated to presence of antigen
detection stage specific
Monoclonal and polyclonal antibodies has equal
effect
Hossipian V.F.M.,1993
unrelated to presence of antigen
detection stage specific
Monoclonal and polyclonal antibodies has equal
effect
Hossipian V.F.M.,1993
In male and female different no. of X in initial
stages
Different amount of enzymes produced
William 1986, reported activity of G-6PD in
whole embryo; accuracy was 64%
Monk & Handyside measured activity of
HPRT & expressed activity as a ratio of
autosomal encoded APRT
reported accuracy of 95%
stages
Different amount of enzymes produced
William 1986, reported activity of G-6PD in
whole embryo; accuracy was 64%
Monk & Handyside measured activity of
HPRT & expressed activity as a ratio of
autosomal encoded APRT
reported accuracy of 95%
Collection of embryos produced in vitro or in vivo
Selection of grade one or grade two embryos
Embryo washed with PBS & placed in a drop containing 200
mM sucrose under micromanipulator
Zona pellucida cut open with fine micro blade
Few blastomere sucked with fine aspiration pipette
Washed in KCl & transferred to Eppendorf tube
Selection of grade one or grade two embryos
Embryo washed with PBS & placed in a drop containing 200
mM sucrose under micromanipulator
Zona pellucida cut open with fine micro blade
Few blastomere sucked with fine aspiration pipette
Washed in KCl & transferred to Eppendorf tube
Biopsy in 0.5 ml Eppendorf tube + Proteinase-K + 9 μL of
lysis buffer
Overlaid with 25 μL of mineral oil
Incubated at 37° C for 10- 60 min
Inactivation of proteinase-K at 98 ° C for 10 min.
Cooled at 4 ° C
lysis buffer
Overlaid with 25 μL of mineral oil
Incubated at 37° C for 10- 60 min
Inactivation of proteinase-K at 98 ° C for 10 min.
Cooled at 4 ° C
Revolutionized the technique of embryo
sexing
Reduced time requirement
Increased efficiency
Embryos have been successfully sexed in a
number of farm animals by using this
technique
sexing
Reduced time requirement
Increased efficiency
Embryos have been successfully sexed in a
number of farm animals by using this
technique
15 μL of PCR reaction mixture(PCR reaction
buffer, primers, 1.5 μL of Taq DNA polymerase &
125 μg of Ethidium bromide) is added to the tube
Subjected to PCR cycling
3 min. denaturation at 94 ° C 10 cycles of
denaturation at 92 ° C Annealing at 50 ° C (80
seconds) Extension at 72 ° C for 20 seconds
Further 40 cycles at 60 ° C of annealing
temperature Final extension achieved by 5 min.
incubation at 72 ° C
buffer, primers, 1.5 μL of Taq DNA polymerase &
125 μg of Ethidium bromide) is added to the tube
Subjected to PCR cycling
3 min. denaturation at 94 ° C 10 cycles of
denaturation at 92 ° C Annealing at 50 ° C (80
seconds) Extension at 72 ° C for 20 seconds
Further 40 cycles at 60 ° C of annealing
temperature Final extension achieved by 5 min.
incubation at 72 ° C
Embryo sexing done for cattle, sheep, pigs, horses,
goats, buffalo & humped cattle
Apparao et al., 1992
Differential growth rate not applicable to choose
embryos
Evanova et al., 1997
Single cell is sufficient for sexing Chrenek et al., 2000
Rapid sexing within 2 hours by using multiplex PCR
they used BOV-97M & bovine 1.715 satellite DNA
sequence PARK et al., 2001
Non Electrophoretic method for PCR sexing
reduced time requirement to less than 2 hours
Hasaler et al., 2002
goats, buffalo & humped cattle
Apparao et al., 1992
Differential growth rate not applicable to choose
embryos
Evanova et al., 1997
Single cell is sufficient for sexing Chrenek et al., 2000
Rapid sexing within 2 hours by using multiplex PCR
they used BOV-97M & bovine 1.715 satellite DNA
sequence PARK et al., 2001
Non Electrophoretic method for PCR sexing
reduced time requirement to less than 2 hours
Hasaler et al., 2002
Altering the male & female sex ratio in farm
animals
Increase in milk & meat production
Control of incidence of freemartinism
Getting quality bulls for P.T. programs
Conservation of rare breeds of farm animals
animals
Increase in milk & meat production
Control of incidence of freemartinism
Getting quality bulls for P.T. programs
Conservation of rare breeds of farm animals
Y-specific probe used for sexing bovine
blastocyst (6--8 days)
High accuracy
Minimum time required to conduct assay is
10 days
blastocyst (6--8 days)
High accuracy
Minimum time required to conduct assay is
10 days
Based on physical differences
HY antigen
Albumin gradient & percoll gradient
Electrophoretic separation (motility loss)
Flow cytometry (most successful)
HY antigen
Albumin gradient & percoll gradient
Electrophoretic separation (motility loss)
Flow cytometry (most successful)
Sexing from Trophoblast biopsy, day 12 -- 15
Accuracy 58.5--68% Hare et al., 1976
Mustafa, (1978), sexed embryo at 6-7 days
but low efficiency & low survival rate reported
Sharma A. et al.(1987) reported 57%
efficiency by this technique
Slides prepared at metaphase stage
Depends on how many cells at metaphase
stage
Takes an expert 5 hours to process 12 - 15
embryo
Accuracy 58.5--68% Hare et al., 1976
Mustafa, (1978), sexed embryo at 6-7 days
but low efficiency & low survival rate reported
Sharma A. et al.(1987) reported 57%
efficiency by this technique
Slides prepared at metaphase stage
Depends on how many cells at metaphase
stage
Takes an expert 5 hours to process 12 - 15
embryo
Very costly
Decreased viability of spermatozoa
Less number of spermatozoa sorted per hour
(3.5x 10
5
) Jafar & Flint, 1996
Will not be economically viable till 2005
Amman, 1999
Decreased viability of spermatozoa
Less number of spermatozoa sorted per hour
(3.5x 10
5
) Jafar & Flint, 1996
Will not be economically viable till 2005
Amman, 1999
It can be done by two approaches--
i) Electrophoretic method-- In PCR second pair
of primer added to increase accuracy After
electrophoresis Y-specific bands are observed
Autosomal primer
commonly used is C1C2ii) Direct observation
under UV light-- tubes having male DNA show
bright pink fluorescence
Hasler et al., 2002 sexed embryos within 2
hours.
i) Electrophoretic method-- In PCR second pair
of primer added to increase accuracy After
electrophoresis Y-specific bands are observed
Autosomal primer
commonly used is C1C2ii) Direct observation
under UV light-- tubes having male DNA show
bright pink fluorescence
Hasler et al., 2002 sexed embryos within 2
hours.
Poor infrastructure facilities
Low level of education & training
High cost of the technology
Difference between research & field
conditions
Less availability of indigenous technology &
materials
Lack of 3 D’s
Low level of education & training
High cost of the technology
Difference between research & field
conditions
Less availability of indigenous technology &
materials
Lack of 3 D’s
Great progress in scientific fields in spite of
constraints
As time advances technology becomes more
affordable
constraints
As time advances technology becomes more
affordable
Technicians at research institutes master the
methodology
Perform in presence of field workers
In second stage infrastructure set up at local
places
Finally, mobile laboratories are set up
Constant monitoring & guidance by research
workers
Use of indigenous products
methodology
Perform in presence of field workers
In second stage infrastructure set up at local
places
Finally, mobile laboratories are set up
Constant monitoring & guidance by research
workers
Use of indigenous products
Tags
Categories
GeneralDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 20,080
- Slides 40
- Favorites 25
- Age 4590 days
Related Slideshows
22
Pray For The Peace Of Jerusalem and You Will Prosper
RodolfoMoralesMarcuc
38 views
26
Don_t_Waste_Your_Life_God.....powerpoint
chalobrido8
41 views
31
VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf
JaiJai148317
37 views
14
Fertility awareness methods for women in the society
Isaiah47
35 views
35
Chapter 5 Arithmetic Functions Computer Organisation and Architecture
RitikSharma297999
33 views
5
syakira bhasa inggris (1) (1).pptx.......
ourcommunity56
36 views