Mutagenesis Slideshare 66853 | Targeted Gene Modification2015 2 5p15 46

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File: Mutagenesis Slideshare 66853 | Targeted Gene Modification2015 2 5p15 46

targeted mutagenesis using embryonic stem es cells used to inactivate genes to investigate function x lodish et al molecular cell biology 2004 molecular genetic techniques and genomics chap 9 p ...

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Targeted mutagenesis using embryonic stem (ES) cells
Used to inactivate genes to investigate function
(X-)
Lodish et al., Molecular cell biology. (2004) Molecular genetic techniques and genomics. Chap. 9 p. 351-403. New York: W.H. Freeman and Company
ES cells heterozygous for a
disrupted gene are used to
produce homozygous ‘knock outs’
Genetic chimeras are easily identified
according to coat colour
If transgenic ES cells contribute
to germ line, crossing chimeras
to wt mice will result in
heterozygous off-spring.
Lodish et al., Molecular cell biology. (2004) Molecular genetic techniques and genomics. Chap. 9 p. 351-403. New York: W.H. Freeman and Company
ES cells heterozygous for a
disrupted gene are used to
produce homozygous ‘knock outs’
Only 50% of brown progeny will
contain the transgene
Molecular screening to identify
- +
X/X heterozygotes
(Approx 25%)
Investigate phenotype
Lodish et al., Molecular cell biology. (2004) Molecular genetic techniques and genomics. Chap. 9 p. 351-403. New York: W.H. Freeman and Company
Targeted genome modification in mammalian cells
Capecchi, M. R. (2005). Gene targeting in mice: functional analysis of the mammalian genome for the twenty-first century. Nature Reviews Genetics, 6(6), 507-512.
Technologies for achieving targeted gene modification
•
Zinc Finger Nucleases (ZFNs)
•
Transcription Activator-Like Effector Nucleases (TALENs)
•
Type II clustered, regularly interspaced, short palindromic repeat system (CRISPR)
(provides prokaryotes with adaptive immunity to viruses and plasmids)
Mussolino, C., & Cathomen, T. (2013). RNA guides genome engineering. Nature biotechnology, 31(3), 208-209.

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...Targeted mutagenesis using embryonic stem es cells used to inactivate genes investigate function x lodish et al molecular cell biology genetic techniques and genomics chap p new york w h freeman company heterozygous for a disrupted gene are produce homozygous knock outs chimeras easily identified according coat colour if transgenic contribute germ line crossing wt mice will result in off spring only of brown progeny contain the transgene screening identify heterozygotes approx phenotype genome modification mammalian capecchi m r targeting functional analysis twenty first century nature reviews genetics technologies achieving zinc finger nucleases zfns transcription activator like effector talens type ii clustered regularly interspaced short palindromic repeat system crispr provides prokaryotes with adaptive immunity viruses plasmids mussolino c cathomen t rna guides engineering biotechnology...

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