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Transcript
http://philos.biol.mun.ca/~b4241/4241_kmf/4241kmfmain.html A.D. Hershey and Martha Chase (1952). Independent Function of Viral Protein and Nucleic Acid in Growth of Bacteriophage. Journal of General Physiology. 36: 39-56. A.D. Hershey and Martha Chase Presented By: Jordan Dinn Keelia Farrell Meghan O'Leary Donald Shepherd Background Alfred Day Hershey (1908-1997) and Martha Chase (1928-2003) Genetics timeline 1865 - Gregor Mendel- heredity is transmitted in units 1869 - Frederick Miescher - isolates DNA or “nuclein” from cells 1879- Walter Flemming - chromosome behaviour during cell division described 1902- Waltor Sutton - observed that chromosome segregate in a pattern that match Mendels segregation pattern. 1911- Thomas Hunt Morgan - use Drosophila melanogaster to show chromosomes carry genes. http://philos.biol.mun.ca/~b4241/4241_kmf/4241kmfmain.html Around this time people many people realized that chromosomes must be part of the heredity material. But, since chromosomes are made of both protein and DNA, the question still remained as to which of the two conferred heritable information. 1928- Frederick Griffith - showed that heat killed virulent bacteria can transform a non-virulent strain. 1944- Avery, MacLeod, McCarty - report they have isolated the transforming principle in Griffiths experiment and that the principle is DNA. 1950- Erwin Chargaff - discovered one to one ratio of adenine/thymine and cytosine/ guanine 1951- Rosalind Franklin - obtained sharp X-ray diffraction photos of DNA. Even though Avery, MacLeod, and McCarty showed that DNA was the molecule of heredity, many individuals where still skeptical. The relative complexity of proteins, with 20 amino acids and diverse configurations, compared to DNA, with 4 subunits and a linear structure, made a strong case for proteins. So the question of the day was, once and for all…. Is DNA or protein the molecule of heredity? The Experiment: 1. Preparation of radioactive phage 2. Osmotic shock experiments 3. Freezing and thawing experiments 4. Experiments with bacterial debris 5. Waring blender experiments 6. Transfer of parental radioactivity to progeny 7. Phage inactivation by formaldehyde Conclusion: "The sulfur-containing protein of resting phage particles is confined to a protective coat that is responsible for the adsorption to bacteria, and functions as an instrument for the injection of the phage DNA into the cell. This protein probably has no function in the growth of intracellular phage. The DNA has some function. Further chemical inferences should not be drawn from the experiments presented."
