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DNA and RNA

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... uracil Adenine bonds to uracil Guanine bonds to cytosine RNA gets its code from the DNA code 3 types of RNA Messenger (mRNA) carries protein building ... – PowerPoint PPT presentation

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Title: DNA and RNA


1
DNA and RNA
  • Chapters 12 13

2
Hershey and Chase
  • Performed two experiments to show that DNA is
    genetic material.
  • Worked with viruses to determine if it was the
    protein or the DNA that contained the genetic
    information.

3
Experiment One
  • Bacteria were grown with a radioisotope of
    sulfur. The sulfur was used as a tracer.
  • Viruses (bacteriophages) were allowed to infect
    the bacterial cells.
  • Viral proteins were made within the host cell and
    contained the sulfur tracer.

4
  • The viruses were then allowed to infect a group
    of bacteria without the tracers.
  • The colonies were spun in a blender to remove the
    viral protein coat.
  • There was no tracer in the fluid medium, but
    there was still tracer within the bacterial cells.

5
Experiment Two
  • This was a repeat of experiment one, but
    phosphorous was added as a trace.

6
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7
Watson and Crick
  • Working with everything they knew about the
    chemical properties of DNA, they were able to
    construct a model of DNA out of wire and metal
    pieces.

8
Parts of a nucleotide
  • 5-Carbon Sugar called deoxyribose (in DNA) or
    ribose (in RNA)
  • Phosphate Group
  • Nitrogenous Base these are what make the
    nucleotides different.

9
  • Purines are 2 ringed Adenine or Guanine

10
  • Pyrimidines are 1 ringed Thymine or Cytosine

11
  • Adenine binds to Thymine
  • Guanine binds to Cytosine
  • A purine will always bind to a pyrimidine to
    produce a base pair

12
  • Two strands of nucleotides are held together by
    hydrogen bonds between bases. They coil to form a
    Double Helix.

13
Replication of DNA occurs during the S-phase of
Interphase
  1. Proteins and enzymes (helicase) break the
    hydrogen bond between the bases causing the helix
    to unwind and expose the bases
  2. Free Nucleotides (those within the nucleus) pair
    with the exposed bases with the help of DNA
    polymerase.
  3. DNA Ligase (enzyme) ensures that all parts of the
    DNA strand are connected.

14
  • 4. The DNA Strands will coil again creating two
    new identical strands.
  • Result Each strand will have one side from the
    original DNA and one side that is new.

15
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16
RNA
  • Single Strand not a double helix
  • The four bases are different adenine, cytosine,
    guanine, uracil
  • Adenine bonds to uracil
  • Guanine bonds to cytosine
  • RNA gets its code from the DNA code

17
3 types of RNA
  • Messenger (mRNA) carries protein building
    instructions. Goes from the DNA in the nucleus to
    the ribosome
  • Ribosomal (rRNA) makes up the ribosome
  • Transfer (tRNA) delivers amino acids to the
    ribosomes. Has an anticodon specific to the amino
    acid.

18
Protein Synthesis
  • Occurs in 2 processes
  • Transcription mRNA forms from DNA code in the
    nucleus and moves to the ribosome
  • Translation tRNA matches its anticodon to the
    codons on mRNA creating an amino acid chain.

19
Transcription
  1. One gene on the DNA strand unzips and is copied
    with RNA bases
  2. Transcription begins at a promoter a sequence
    of bases that tells the RNA to begin binding.
  3. When the DNA is transcribed, mRNA leaves the
    nucleus and goes to the ribosome for translation.

20
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21
Translation
  • mRNA is translated into a protein
  • mRNA arrives at the ribosome - 3 bases of mRNA
    1 codon (initiation)
  • tRNA comes to the ribosome and the anticodon
    matches to the codon on mRNA (elongation)
  • Amino Acids break off to form proteins
    (termination)

22
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23
Mutations
  • An inheritable change in genetic code, which may
    or may not cause a change in the proteins made.

24
  • Deletion one or more base pairs are removed
    from the DNA sequence
  • Example A T G G C A C C G A T T T A A with
    deletion A T G G C G A T T T A A

25
  • Insertion one or more base pairs are inserted
    into the gene sequence
  • Example A T G G C A C C G A T T T A A A T G G
    C C A C A C C G A T T T A A

26
  • Base Pair Substitution - one or more base pairs
    are replaced with other base pairs
  • Example A T G G C A C C G A T T T A A base pair
    substituted A T G G G G T C C G A T T T A A

27
  • ghs.gresham.k12.or.us/.../chpt14/chpt14.htm
  • http//cnx.org/content/m12382/latest/dna.gif
  • http//www.chemsoc.org/ExemplarChem/entries/2003/i
    mperial_Burgoine/replication.jpg
  • http//fig.cox.miami.edu/cmallery/150/gene/c7.17.
    7b.transcription.jpg
  • http//sps.k12.ar.us/massengale/images/584ELONGATI
    ON3.gif
  • http//www.flyfishingdevon.co.uk/salmon/year3/psy3
    39evolutionarypsychologyroots/watson-crick-dna.jpg
  • http//osulibrary.orst.edu/specialcollections/coll
    /pauling/dna/pictures/hersheychase1953.jpg
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