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Fig 11-1
Chapter 11: recombinant DNA and related techniques
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Recombinant (chimeric) DNA: fused DNA from two different organisms
Recombinant clone:
vector (bacterial plasmid, virus)+
insert (DNA fragment to be cloned)
Recombinant (transgenic) organisms:
host genome+
clone from another organism
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cDNA: “complementary DNA”; DNA complementary to RNA
• Usually made against mRNA
• cDNA is essentially an intron-less copy of a gene, minus 5’ and 3’ flanking regulatory regions of the gene
• Prepared using reverse transcriptase (an RNA- dependent DNA polymerase enzyme of RNA viruses)
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Fig 11-2
Creating cDNA(DNA complementary to mRNA)
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Fig 11-2
Creating cDNA(DNA complementary to mRNA)
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Fig 11-2
Creating cDNA(DNA complementary to mRNA)
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Fig 11-2
Creating cDNA(DNA complementary to mRNA)
Creates clonable DNA copy ofspecific mRNA or
can make cDNA library (representing mRNA population)
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Fig 11-3
Using restriction sitesto create a
recombinant molecule
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Fig 11-4
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Fig 11-4
4-6
4-4
pallindromic sequence cohesive ends
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Fig 11-5
Using restriction sitesto create a
recombinant molecule
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Fig 11-5
Using restriction sitesto create a
recombinant molecule
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Fig 11-6
Cells receiving a completeplasmid form colony
Grow and purify DNAfrom single colony
Useful for inserts <10kb
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Fig 11-6
Using antibiotic resistance markers to select plasmid-bearing colonies
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Bacteriophage lambda: engineered as vector for cloning large DNA fragments
• Central 1/3 of genome (~45 kb) contains lysogenic function genes
• Can substitute ~15 kb cloned DNA into genome and the virus is still capable of lytic infection
e.g., the Drosophila genome (~150,000 kb) can be contained in a minimum of 10,000 recombinant lambda clones (can fit on one 15 cm Petri plate)
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Fig 11-7
Creating a genomic library in bacteriophage lambda
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Fig 11-7
Creating a genomic library in bacteriophage lambda
Useful for inserts 10-20kb
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Fig 11-8Useful for inserts 100-300kb
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Fig 11-9
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Identifying a desired clone/gene in a library:
• Use a probe (previously cloned DNA, oligonucleotide, or antibody)
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Fig 11-11
Detecting & isolatinga specific clonewithin a libraryby hybridization
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Fig 11-1
Using an antibody todetect & isolatea specific clonewithin a library
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Identifying a desired clone/gene in a library:
• Use a probe (previously cloned DNA, oligonucleotide, or antibody)
• Functional complementation (useful in organisms with small genomes)
• Positional cloning (chromosome “walk” to mutant rearrangement site)
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Fig 11-15
Chromosome walking to identify/isolate a region containing a gene
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Fig 11-13
Agarose gel electrophoresis separates DNA fragments by size:
• restrict cloned DNA
• electrophoresis
• stain with ethidium bromide
• visualize under UV
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Fig 11-14
Southern/Northern blot analysis
• agarose gel electrophoresis
• transfer to nitrocellulose
• hybridize with radioactive probe
• autoradiograph to detect bands containing probe sequence
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Fig 11-16
Using restriction sites as markers to map a DNA fragment
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Fig 11-16
Using restriction sites as markers to map a DNA fragment
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Fig 11-17
Dideoxynucleotide used for Sanger DNA sequencing
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Fig 11-18
Sanger dideoxy DNA sequencing
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Fig 11-18
Sanger dideoxy DNA sequencing
Mixture of ddATP + dATP permits formation of chains of various lengths
• common 5’ end (primer)
• vary by 3’ ends, marking locations of A residues (T residues on template)
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Fig 11-18
Sanger dideoxy DNA sequencing
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Fig 11-18
Sanger dideoxy DNA sequencing
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Fig 11-19
Automated sequencing readout ofSanger dideoxy DNA sequencing
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Fig 11-20
An initial bioinformatic analysisScan sequence for exceptionally long ORFs
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Polymerase chain reaction (PCR)
• Uses heat-stable DNA polymerase (e.g., Taq polymerase)
• Requires two opposite-strand primers; ~100 bp - ~3 kb apart on the target template
• Uses a regimen of temperature cycling to amplify the DNA target between the two primers
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Fig 11-21
Polymerase chain reaction
Specific primers permitspecific amplification of
a DNA segment
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Fig 11-22
Understanding alkaptonuria
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Fig 11-24
Detecting sickle-cell β–globin allele
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Fig 11-24
Detecting sickle-cell β–globin allele
Heterozygote?
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Fig 11-28
Ti plasmid: a vehicle for making transgenic plants
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Fig 11-29
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Fig 11-30
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Fig 11-31Inherited as a Mendelian dominant marker
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Engineering of mammalian genomes
Insert a gene (relatively easy)
Destroy a gene (“knockout”)
Replace a gene (e.g., gene therapy)
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Insertions at random (ectopic) sites
Ectopic transformation of mouse embryos
Fig 11-34
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Making a targeted mutation (“knockout”) in mouse cells
Fig 11-35
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Making a targeted mutation (“knockout”) in mouse cells
Fig 11-35
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Making a targeted mutation (“knockout”) in mouse cells
Fig 11-35
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Fig 11-36
Using embryonic stem cells to make a knockout mouse
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Fig 11-36
Using embryonic stem cells to make a knockout mouse
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Gene replacement therapy of lit mice
Fig 11-38
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Gene replacement therapy of lit mice
Fig 11-38
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Complications arising with germline gene therapy to cure genetic diseases in mammals is that most transgene integration events are random (not targeted)
• Transgene does not replace defective gene (just complements it)
• Transgene insert might disrupt another gene (creating an undesired mutation)
• Transgene will usually segregate independently from the disease-causing gene
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Alternatives in gene therapy
Fig 11-39e.g., transgene on viral vector
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Fig 11-
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Fig 11-
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Fig 11-
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Fig 11-
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Fig 11-
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Fig 11-
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Fig 11-
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Fig 11-
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Fig 11-
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