DNA Structure & Function Chapter 13. DNA Structure & Function 2 Mr. Karns Genetic Material  Transformation DNA Structure  Watson and Crick DNA Replication.

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Presentation transcript:

DNA Structure & Function Chapter 13

DNA Structure & Function 2 Mr. Karns Genetic Material  Transformation DNA Structure  Watson and Crick DNA Replication  Prokaryotic versus Eukaryotic  Replication Errors

DNA Structure & Function 3 Genetic Material Frederick Griffith investigated virulence of Streptococcus pneumoniae  Concluded that virulence passed from the dead strain to the living strain  Transformation Further research by Avery et al  Discovered that DNA is the transforming substance  DNA from dead cell was being incorporated into genome of living cells

4 Griffith’s Transformation Experiment

DNA Structure & Function 5 Reproduction of Viruses Viruses consist of a protein coat (capsid) surrounding a nucleic acid core Bacteriophages are viruses that infect bacteria Hershey and Chase:  Radioactively labeled the DNA core and protein capsid of a phage  Results indicated that DNA, not the protein, enters the host  The DNA of the phage contains genetic information for producing new phages

6 Bacteria and Bacteriophages

7 Hershey and Chase Experiments

DNA Structure & Function 8 Structure of DNA DNA contains:  Two Nucleotides with purine bases Adenine (A) Guanine (G)  Two Nucleotides with pyrimidine bases Thymine (T) Cytosine (C)

DNA Structure & Function 9 Chargaff’s Rules The amounts of A, T, G, and C in DNA:  Identical in identical twins  Varies between individuals of a species  Varies more from species to species In each species, there are equal amounts of:  A & T  G & C All this suggests DNA uses complementary base pairing to store genetic info Human chromosome estimated to contain, on average, 140 million base pairs Number of possible nucleotide sequences 4,140,000,000

10 Nucleotide Composition of DNA

DNA Structure & Function 11 Watson and Crick Model Watson and Crick, 1953  Constructed a model of DNA  Double-helix model is similar to a twisted ladder Sugar-phosphate backbones make up the sides Hydrogen-bonded bases make up the rungs  Received a Nobel Prize in 1962

12 X-Ray Diffraction of DNA

13 Watson/Crick Model of DNA

DNA Structure & Function 14 Replication: Prokaryotic vs. Eukaryotic Prokaryotic Replication  Bacteria have a single circular loop  Replication moves around the circular DNA molecule in both directions  Produces two identical circles  Cell divides between circles, as fast as every 20 minutes

DNA Structure & Function 15 Replication: Prokaryotic vs. Eukaryotic Eukaryotic Replication  DNA replication begins at numerous points along linear chromosome  DNA Unwinds and unzips into two strands  Each old strand of DNA serves as a template for a new strand  Complementary base-pairing forms new strand on each old strand  Replication bubbles spread bi-directionally until they meet Semiconservative:  One original strand is conserved in each daughter molecule

16 Semiconservative Replication of DNA

17 Meselson and Stahl’s DNA replication experiment

18 Replication: Prokaryotic vs. Eukaryotic

DNA Structure & Function 19 Replication Errors Genetic variations are the raw material for evolutionary change Mutation:  A permanent (but unplanned) change in base- pair sequence Some due to errors in DNA replication Others are due to to DNA damage  DNA repair enzymes are usually available to reverse most errors

DNA Structure & Function 20Review Genetic Material  Transformation DNA Structure  Watson and Crick DNA Replication  Prokaryotic versus Eukaryotic  Replication Errors

DNA Structure & Function Ending Slide Chapter 13