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Chapter 12 DNA

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Title: Chapter 12 DNA


1
Chapter 12DNA RNA
2
12-1 DNA
  • How do genes work?
  • What are they made of?
  • How do they determine characteristics of
    organisms?
  • In the middle of the 1900s, questions like these
    were on the minds of biologists everywhere.

3
Griffith and Transformation
  • 1928 British scientist Frederick Griffith was
    trying to figure out how bacteria make people
    sick.
  • Griffith wanted to learn how certain types of
    bacteria produce a serious lung infection known
    as pneumonia.

4
Frederick Griffith
5
What did he do?
  • isolated two slightly different strains of
    pneumonia bacteria from mice
  • Both strains grew very well, but only one of the
    strains caused pneumonia.
  • disease-causing strain of bacteria smooth
    colonies
  • harmless strain colonies with rough edges

6
Griffith's Experiments
  • injected mice with the S bacteria ? pneumonia and
    died.
  • mice injected with R bacteria ? totally healthy.
  • Griffith wondered if the disease-causing bacteria
    might produce a poison.

7
  • Heat killed S bacteria into mice ? Healthy mice!
  • The mice survived, suggesting that the cause of
    pneumonia was not a chemical poison released by
    the disease-causing bacteria.
  • Heat killed S bacteria R bacteria in mice ?
    DEAD mice!
  • He found their lungs filled with the deadly S
    bacteria.
  • Some factor from the dead bacteria had
    transformed the harmless bacteria into
    disease-causing ones.

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Transformation 
  • process in which one strain of bacteria is
    changed by a gene or genes from another strain of
    bacteria
  • Griffith hypothesized since the ability to cause
    disease was inherited by the transformed
    bacteria's offspring, the transforming factor
    might be a gene (genetic material)

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  • Although Griffith made a great discovery, he did
    not follow through and figure out what actually
    transformed the bacteria. 
  • Avery came along and did that.

12
Avery and DNA
  • 1944, a group of scientists led by Canadian
    biologist Oswald Avery at the Rockefeller
    Institute in New York decided to repeat
    Griffith's work.
  • to determine which molecule was the genetic
    material responsible for transformation.

13
  • Oswald Avery

14
Averys experiment
  • Made an extract from the heat killed bacteria
  • Used enzymes that destroy the lipids,
    carbohydrates, proteins, and RNA.
  • Transformation still occurred.
  • Used DNA destroying enzyme.
  • Transformation did NOT occur.
  • DNA must be the genetic material.
  • Avery and other scientists discovered that the
    nucleic acid DNA stores and transmits the genetic
    information from one generation of an organism to
    the next.

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  • Scientists are skeptical.
  • Scientists dont always believe things with proof
    from only one experiment
  • So other scientists set out to prove what the
    genetic/hereditary information of an organism is.

17
Hershey Chase
  • Alfred Hershey and Martha Chase
  • 1952, American scientists
  • Studied viruses (non living particles)

18
Martha Chase and Alfred Hershey
19
The Hershey-Chase Experiment
  • Used bacteriophages (virus that infects bacteria)
  • composed of a DNA or RNA core and a protein coat
  • When a bacteriophage attacks a bacterium, it
    injects its genetic information into the
    bacterium.
  • Those genes take over the cell, producing many
    new viruses.

20
Bacteriophage
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Nucleic Acid or protein??
  • They wanted to find out which part of the phage
    (DNA or protein), produced new phages.
  • Grew bacteriophages with radioactive markers
  • phosphorus-32 (32P) only in DNA
  • sulfur-35 (35S) only in Protein

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  • mixed the marked viruses with bacteria
  • waited a few minutes for the viruses to inject
    their genetic material.
  • separated the viruses from the bacteria and
    tested the bacteria for radioactivity.
  • Nearly all the radioactivity in the bacteria was
    from phosphorus (32P), the marker found in DNA.

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  • Hershey and Chase concluded that the genetic
    material of the bacteriophage was DNA, not
    protein.

28
  • The
  • Components
  • and Structure
  • of DNA

29
DNA components
  • DNA is a long molecule made up of units called
    nucleotides.
  • Nucleotides are made up of three basic
    components
  • 5-carbon sugar (deoxyribose)
  • a phosphate group
  • a nitrogenous base
  • 4 kind of nitrogen bases found in DNA
  • adenine (A), guanine (G) double ringed
    (purines)
  • cytosine (C), thymine (T) single ringed
    (pyrimidines)

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DNA structure
  • backbone of a DNA chain sugar and phosphate
    groups of each nucleotide.
  • The nitrogenous bases stick out sideways from the
    chain.
  • The nucleotides can be joined together in any
    order
  • any sequence of bases is possible.
  • With 4 bases millions of different combinations
    are possible

32
DNA
33
Erwin Chargaff
  • American biochemist, 1940s
  • discovered that the percentages of guanine G
    and cytosine C bases are almost equal in any
    sample of DNA
  • Later found that A T
  • Scientists had NO idea what this was

34
Chargaff's Rules 
35
Franklin Wilkins
  • British scientists, 1952
  • used a technique called X-ray diffraction to get
    information about the structure of the DNA
    molecule
  • X-shaped pattern shows that the strands in DNA
    are twisted around each other like the coils of a
    spring
  • a shape known as a helix
  • the X suggests that there are two strands in the
    structure
  • Other clues suggest that the nitrogenous bases
    are near the center of the molecule

36
Franklin
  • Wilkins

X-shaped DNA (from X-ray Diffraction
37
Watson Crick
  • Francis Crick, a British physicist
  • James Watson, an American biologist
  • trying to understand the structure of DNA
  • by building three-dimensional models of the
    molecule
  • 1953, they are shown a picture of Franklins
    x-ray and immediately knew the structure
  • Watson and Crick's model of DNA was a double
    helix, in which two strands were wound around
    each other.

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Double Helix
  • Twisted ladder or spiral staircase
  • realized that the double helix accounted for many
    of the features in Franklin's X-ray pattern
  • did not explain what forces held the two strands
    together.
  • discovered that hydrogen bonds could form between
    certain nitrogenous bases and provide just enough
    force to hold the two strands together

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Base Pairing
  • hydrogen bonds can form only between certain base
    pairs
  • adenine (A) with thymine (T)
  • guanine (G) with cytosine (C)

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