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DNA Information and Heredity, Cellular Basis of Life

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Title: DNA Information and Heredity, Cellular Basis of Life


1
DNAInformation and Heredity, Cellular Basis of
Life
  • Chapter 12(M)

2
Genes are made of DNA
  • The following scientists proved that
  • DNA is the genetic material
  • Fredrick Griffith (1928)
  • Oswald Avery ( 1944)
  • Hershey and Chase (1952)

3
Fredrick Griffith (1928)
  • The discovery of the genetic role of DNA began
    with research by Frederick Griffith.
  • He studied Streptococcus pneumoniae, a bacterium
    that causes pneumonia in mammals.
  • One strain, the R strain, was harmless.
  • The other strain, the S strain, was pathogenic.

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  • When Griffith mixed heat-killed S strain with
    live R strain bacteria and injected this into a
    mouse it died.
  • He recovered the pathogenic strain from the dead
    mouses blood.
  • Some harmless bacteria had been transformed
    into the deadly strain
  • For the next 14 years scientists tried to
    identify the transforming substance.

9
Transforming Substance?
  • Could be
  • DNA
  • Proteins
  • Because scientists already knew chromosomes
    consist of these substances. So the debate
    started.

10
Oswald Avery ( 1944)
  • Treated Griffiths mixture with
  • Protein digesting enzymes ? remove all proteins
  • DNA digesting enzymes? remove all DNA

11
Avery contd.
  • Is Protein the transforming factor?
  • treated Griffiths mixture of heat treated deadly
    strain and live harmless strains with
    protein-destroying enzymes? grew the strains
  • The bacterial colonies were still transformed
  • Concluded that protein could not be the
    transforming factor

12
Avery contd.
  • Is DNA the transforming factor?
  • treated the mixture with DNA-destroying enzymes?
    grew the strains
  • The bacterial colonies failed to transform
  • Concluded that DNA is the genetic material of the
    cell
  • Scientists were still skeptical ? proteins made
    of 20 AAs, DNA only 4 bases

13
Hershey and Chase (1952)
  • Used viruses to prove that DNA is the genetic
    material.
  • Viruses consist of a DNA (sometimes RNA) enclosed
    by a protective coat of protein.
  • To replicate, a virus infects a host cell and
    takes over the cells metabolic machinery.
  • Viruses that specifically attack bacteria are
    called bacteriophages or just phages.

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Conclusion
  • Phage DNA entered the bacterial cell, proteins
    did not
  • DNA carries the genetic information.

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The Role of DNA
  • Storing Information? The genetic material stores
    information needed by every living cell
  • Copying Information? before a cell divides this
    info must be copied
  • Transmitting Information? Each daughter cell must
    receive a complete copy of all the information

18
Structure of DNA
  • Ch 12.2

19
Building Blocks Of DNA
  • Nucleotides
  • A ring-shaped sugar called deoxyribose
  • A phosphate group (a phosphorus atom surrounded
    by four oxygen atoms)
  • A nitrogenous base ("nitrogen-containing") a
    single or double ring of carbon and nitrogen
    atoms with functional groups

20
Nitrogenous Bases
  • The four nucleotides in DNA differ only in their
    nitrogenous bases
  • Bases
  • Thymine (T) ? single ring
  • Cytosine (C)? single ring
  • Adenine (A)? double ring
  • Guanine (G)? double ring

21
Bases
22
Structure of DNA
  • Early 1950s R. Franklin
  • DNA ? helix with2 strands with the phosphate
    linked to the sugar, diameter is 2nm, each turn
    has 10 bases
  • Watson Crick (1953)
  • Using Franklins work built a model of DNA
  • Each strand is complementary to the other
  • A pairs with T, G with C

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Base Pairing
  • Chargaffs Rule
  • Adenine forms a base pair with Thymine
  • Guanine forms a base pair with Cytosine
  • Amounts are about the same

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The Double Helix
26
Figure 16.5 The double helix
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DNA Strands
  • Two strands? double helix
  • Compared to a ladder
  • Sides? Sugar phosphate backbone
  • Rungs? pairs of nitrogenous bases
  • Order of bases? genetic code
  • Difference in order gives individuality to each
    living organism
  • Base pairing is the key that allows DNA to be
    copied
  • A pairs with T, G with C

28
Replication of DNA
  • Ch 12.3

29
Replication
  • Complete set of genetic instructions passes from
    one generation to the next
  • The DNA molecule must be copied
  • Base pairing allows DNA to be copied
  • DNA? 2 strands, one is used as a template
  • Replication ?Process by which DNA is copied

30
Mechanism of Replication
  • Takes place in the nucleus
  • DNA untwists both strands are replicated almost
    simultaneously
  • 50 bases /sec are added
  • The parent DNA strands serve as a template for
    making a new strand

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  • DNA polymerase unzips the 2 strands
  • Each strand is used as a template
  • Free nucleotides present in the nucleus, pair
    with the exposed bases
  • A with T, G with C
  • As bases pair DNA Ligase an enzyme links the
    phosphate of each nucleotide to the sugar of the
    previous one
  • Pairing bonding continue till 2 new strands are
    formed.

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  • Enzyme works from 5?3
  • Synthesis is anti parallel 5?3 and 3?5
  • As bases pair DNA Ligase an enzyme links the
    phosphate of each nucleotide to the sugar of the
    previous one
  • Pairing bonding continue till 2 new strands are
    formed.

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DNA Replication is Semi conservative
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