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DNA The mechanism. DNA and inheritance Could predict patterns (Mendel) Did not know why Knew Chromosomes played some role Knew protein and nucleic acid.

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Presentation on theme: "DNA The mechanism. DNA and inheritance Could predict patterns (Mendel) Did not know why Knew Chromosomes played some role Knew protein and nucleic acid."— Presentation transcript:

1 DNA The mechanism

2 DNA and inheritance Could predict patterns (Mendel) Did not know why Knew Chromosomes played some role Knew protein and nucleic acid located on chromosome Did not know which was most important

3 Griffith (1928) Used pneumonia to show passing on of genetic material 2 forms of pneumonia he used Smooth and Rough Smooth strain kills Rough strain no affect Varied types of strain given to mice to measure effect

4

5 Griffith Results

6 Conclusions 1) This guy had too much time on his hands 2) He was incredibly bright 3) A nonliving component of a cell could be expressed in another living cell 4) Something in a cell governs how it behaves/lives

7

8 Avery (1944) 1 st to identify the substance that causes this transformation Isolated the macromolecules in a killed S cell (centrifuge) Exposed live R cells separately

9 The experiment R cell exposed to S DNA became lethal

10 Conclusion 1) He was also very bright 2) DNA is in charge of gene expression Results were not widely accepted, too simplistic

11

12 Hershey & Chase (1952) Confirm Avery’s findings Used a bacteriophage (Virus that infects bacteria) Bacteriophage: Protein and DNA

13 Bacteriophage Bacteriophage: Protein and DNA Cannot replicate themselves Depend upon host bacteria to replicate them If bacteria starts making viruses, know it’s infected

14 The experiment One set radioactively labeled Phosphorous ( 32 P) One set radioactively labeled Sulfur ( 35 S) Only DNA has phosphorous Only protein has sulfur

15 The experiment Inject each set of bacteriophage into a bacteria Wash the virus off Observe bacteria under luminescent light

16 Results Group 2 Bacteria had radioactivley labeled 32 P Group 1 Bacteria did not have radioactivley labeled 35 S Later viruses had the 32 P as well Bacteria did produce virus

17 Conclusion DNA is the genetic material More questions than answers Shape of DNA and how it passes genetic information on

18

19 Nucleotides (1920s) Subunit of Nucleic Acid 5-carbon sugar, phosphate, & nitrogen base 4 possible nitrogen bases DNA, RNA Adenine Guanine Cytosine Thymine: Uracil

20 Purine & Pyrimidine Purine Bases Adenine & Guanine Double ringed Pyrimidine Bases Thymine (Uracil) & Cytosine Single ring

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