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Classic DNA Studies: I. Fredrick Griffith – 1928 Griffith was trying to find a vaccine against Streptococcus pneumoniae, a bacterium with two strains –one.

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Presentation on theme: "Classic DNA Studies: I. Fredrick Griffith – 1928 Griffith was trying to find a vaccine against Streptococcus pneumoniae, a bacterium with two strains –one."— Presentation transcript:

1 Classic DNA Studies: I. Fredrick Griffith – 1928 Griffith was trying to find a vaccine against Streptococcus pneumoniae, a bacterium with two strains –one that causes pneumonia in mammals.

2 Avery, McCarty, MacLeod -1944 DNA was the “transforming agent” in Griffith’s experiment

3 Hershey and Chase- 1952 DNA of bacteriophages enters bacterial cells, not protein capsid

4 Chargraff - 1947 A=T and G=C as nucleotide ratios

5 Pauling, Wilkins, Franklin, Crick, Watson In 1953, Watson and Crick publish DNA structure

6 DNA – deoxyribonucleic acid Composed of nucleotides: a) deoxyribose sugar b) phosphate c) nitrogenous base Adenine and Guanine are purines Cytosine & Thymine are pyrimidines

7 Adenine pairs with Thymine via 2 H bonds Cytosine pairs with Guanine via 3 H bonds DNA double helix makes one full turn every 3.4 nm There are 10 base pairs per turn (.34 nm apart)

8 DNA replication In 1950s, Meselson and Stahl proved the semisconservative model of replication

9 DNA replication cast of characters I.DNA polymerase - adds nucleoside triphospates only by elongating in the 5’  3’ direction. Cannot start from scratch. II.Primase – adds complementary RNA primer to lagging strand for polymerase attachment III.DNA ligase – “welds” sugar phosphate backbones between non-continuous, synthesized strands

10 IV. Helicase – unwinds helix/separates strands V. Single stranded binding protein – holds original DNA strands apart during replication VI. Nuclease – can “cut out” improper DNA segments VII. Telomerase – carries an RNA template to elongate the 3’ end of a telomere by adding DNA nucleotides

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