History of DNA Scientific history The journey to understanding that DNA is our genetic material T.H....
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Transcript of History of DNA Scientific history The journey to understanding that DNA is our genetic material T.H....
![Page 1: History of DNA Scientific history The journey to understanding that DNA is our genetic material T.H. Morgan (1908) Frederick Griffith (1928) Avery, McCarty,](https://reader035.fdocuments.in/reader035/viewer/2022070605/5a4d1ae47f8b9ab0599786bf/html5/thumbnails/1.jpg)
History of DNA
![Page 2: History of DNA Scientific history The journey to understanding that DNA is our genetic material T.H. Morgan (1908) Frederick Griffith (1928) Avery, McCarty,](https://reader035.fdocuments.in/reader035/viewer/2022070605/5a4d1ae47f8b9ab0599786bf/html5/thumbnails/2.jpg)
Scientific history• The journey to understanding that DNA is our genetic
material• T.H. Morgan (1908)• Frederick Griffith (1928)• Avery, McCarty, & MacLeod (1944)• Erwin Chargaff (1947)• Hersey & Chase (1952)• Rosalind Franklin (1952)• Watson & Crick (1953)• Meselson & Stahl (1958)
![Page 3: History of DNA Scientific history The journey to understanding that DNA is our genetic material T.H. Morgan (1908) Frederick Griffith (1928) Avery, McCarty,](https://reader035.fdocuments.in/reader035/viewer/2022070605/5a4d1ae47f8b9ab0599786bf/html5/thumbnails/3.jpg)
T.H. Morgan
• Chromosomes are related to phenotype• Worked with Drosophila
• Fruit flies• Associated phenotype with
specific chromosomes• White-eyed male had a specific
X chromosome
![Page 4: History of DNA Scientific history The journey to understanding that DNA is our genetic material T.H. Morgan (1908) Frederick Griffith (1928) Avery, McCarty,](https://reader035.fdocuments.in/reader035/viewer/2022070605/5a4d1ae47f8b9ab0599786bf/html5/thumbnails/4.jpg)
T.H. Morgan
• Conclusion• Genes are on chromosomes• But is it the protein or the DNA
of the chromosome that codes for the gene?• Initially proteins were thought to
contain genetic information … why?
What’s so impressiveabout proteins?!
![Page 5: History of DNA Scientific history The journey to understanding that DNA is our genetic material T.H. Morgan (1908) Frederick Griffith (1928) Avery, McCarty,](https://reader035.fdocuments.in/reader035/viewer/2022070605/5a4d1ae47f8b9ab0599786bf/html5/thumbnails/5.jpg)
Frederick Griffith• Streptococcus pneumonia bacteria• Was working to find a cure for
pneumonia• Harmless live bacteria (“rough”)
mixed with heat-killed pathogenic bacteria (“smooth”) causes fatal disease in mice• A substance passed from dead
bacteria to live bacteria to change their phenotype• “Transforming Principle”
![Page 6: History of DNA Scientific history The journey to understanding that DNA is our genetic material T.H. Morgan (1908) Frederick Griffith (1928) Avery, McCarty,](https://reader035.fdocuments.in/reader035/viewer/2022070605/5a4d1ae47f8b9ab0599786bf/html5/thumbnails/6.jpg)
Frederick Griffith – Transforming Principle
Transformation = change in phenotypesomething in heat-killed bacteria could still transmit disease-causing properties
live pathogenicstrain of bacteria
live non-pathogenicstrain of bacteria
mice die mice live
heat-killed pathogenic bacteria
mix heat-killed pathogenic & non-pathogenicbacteria
mice live mice die
A. B. C. D.
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Avery, McCarty, & MacLeod
• Purified both DNA and proteins separately from Streptococcus pneumonia bacteria• Which will transform non-pathogenic bacteria?
• Injected protein into bacteria• No effect
• Injected DNA into bacteria• Transformed harmless bacteria into virulent
bacteriamice die
What’s theconclusion?
![Page 8: History of DNA Scientific history The journey to understanding that DNA is our genetic material T.H. Morgan (1908) Frederick Griffith (1928) Avery, McCarty,](https://reader035.fdocuments.in/reader035/viewer/2022070605/5a4d1ae47f8b9ab0599786bf/html5/thumbnails/8.jpg)
Avery, McCarty, & MacLeod
• Conclusion• DNA is the “Transforming
Principle”• First experimental evidence
that DNA housed the genetic material
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Hershey & Chase
• Confirmation of DNA• Classic “blender” experiment• Worked with bacteriophage
• Viruses that infect bacteria• Grew phage virus in 2 media, both
radioactively labeled• 35S in the proteins• 32P in the DNA
• Infected bacteria with labeled phagesWhy use Sulfurvs. Phosphorus?
![Page 10: History of DNA Scientific history The journey to understanding that DNA is our genetic material T.H. Morgan (1908) Frederick Griffith (1928) Avery, McCarty,](https://reader035.fdocuments.in/reader035/viewer/2022070605/5a4d1ae47f8b9ab0599786bf/html5/thumbnails/10.jpg)
Hershey & ChaseProtein coat labeled
with 35S DNA labeled with 32P
bacteriophages infectbacterial cells
T2 bacteriophagesare labeled with
radioactive isotopesS vs. P
bacterial cells are agitatedto remove viral protein coats
35S radioactivityfound in the medium
32P radioactivity foundin the bacterial cells
Which radioactive marker is found inside the cell?
Which molecule carries viral genetic info?
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Hershey & Chase
• Blender experiment• Radioactive phage & bacteria in blender• 35S phage
• Radioactive proteins stayed in supernatant• Therefore viral protein did NOT enter
bacteria• 32P phage
• Radioactive DNA stayed in pellet• Therefore viral DNA did enter bacteria
• Confirmed DNA is transforming factorTaaa-Daaa!
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Chargaff
• DNA composition: “Chargaff’s rules”• Varies from species to species• All 4 bases not in equal quantity• Bases present in characteristic ratios
• Humans• A = 30.9%• T = 29.4%• G = 19.9%• C = 19.8%
That’s interesting!What do you notice?
RulesA = TC = G
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Rosalind Franklin
• 1st to “photograph” DNA molecule• X-ray crystallography
Raymond Gosling : lab assistant; actually took the pictureMaurice Wilkins: 1st to attempt technique; set-up lab Franklin used
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Watson & Crick
• Developed double helix model of DNA• 1953 article in
Nature
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Meselson & Stahl
• How is DNA copied?• Base pairing suggests that it
will allow each side to serve as a template for a new strand
“It has not escaped our notice that the specific pairing we have postulated immediately suggests a possible copying mechanism for the genetic material.” — Watson & Crick
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Meselson & Stahl
• Alternate models presented• Become
experimental predictions
conservative semiconservative dispersive
1
2
P
Can you designa nifty experiment
to verify?
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Meselson & Stahl
• Label “parent” nucleotides in DNA strands with heavy nitrogen = 15N• Label new nucleotides with
lighter nitrogen isotope = 14N
“The Most Beautiful Experiment in Biology”
Make predictions…
15N parent strands
15N/15N
parent replication
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Meselson & Stahl
1st round of
replication
conservative
15N/15N
14N/14N
semi-conservative
15N/14N
dispersive
15N/14N
conservative
15N/15N
14N/14N
semi-conservative
15N/14N
dispersive
15N/14N
2nd round of
replication14N/14N
15N parent strands
15N/15N
1
Experimentpredictions
Experimentresults
2
![Page 20: History of DNA Scientific history The journey to understanding that DNA is our genetic material T.H. Morgan (1908) Frederick Griffith (1928) Avery, McCarty,](https://reader035.fdocuments.in/reader035/viewer/2022070605/5a4d1ae47f8b9ab0599786bf/html5/thumbnails/20.jpg)
Scientific history• The journey to understanding that DNA is our genetic material
• T.H. Morgan (1908)• Genes are on chromosomes
• Frederick Griffith (1928)• A transforming factor can change phenotype
• Avery, McCarty, & MacLeod (1944)• Transforming factor is DNA
• Erwin Chargaff (1947)• Chargaff’s rules: A = T, C = G
• Hersey & Chase (1952)• Confirmation that DNA is genetic material
• Rosalind Franklin (1952)• Photographed DNA molecule
• Watson & Crick (1953)• Determined double helix structure of DNA
• Meselson & Stahl (1958)• Semi-conservative replication
![Page 21: History of DNA Scientific history The journey to understanding that DNA is our genetic material T.H. Morgan (1908) Frederick Griffith (1928) Avery, McCarty,](https://reader035.fdocuments.in/reader035/viewer/2022070605/5a4d1ae47f8b9ab0599786bf/html5/thumbnails/21.jpg)
Any Questions??