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Sections 9.3

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Sections 9.3 9.5 Transcription, RNA Processing, & Translation 9.3 RNA Synthesis (Transcription) General Info Produces molecules of RNA One strand of DNA acts as ... – PowerPoint PPT presentation

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Title: Sections 9.3


1
Sections 9.3 9.5
  • Transcription, RNA Processing, Translation

2
9.3 RNA Synthesis (Transcription)
  • General Info
  • Produces molecules of RNA
  • One strand of DNA acts as the template for RNA
    synthesis (C ? G A ? U T ? A)
  • Happens in the nucleus.
  • Main enzyme RNA polymerase, which adds the RNA
    nucelotides to pair with the DNA
  • Transcription occurs in 3 stages.

3
9.3 RNA Synthesis (Transcription)
  • 3 Stages
  • 1. Initiation
  • - RNA polymerase binds to the DNA at the
    promoter region. It is directed to this region
    by proteins called initiation factors.

4
9.3 RNA Synthesis (Transcription)
  • 3 Stages
  • 2. Elongation
  • - RNA polymerase moves along the coding strand
    of DNA away from the promoter, building the RNA
    strand.
  • - RNA polymerase adds the RNA nucleotides to
    their complements on the coding strand (A now
    bonds to U), forming the primary transcript.

5
9.3 RNA Synthesis (Transcription)
  • 3 Stages
  • 3. Termination
  • - RNA polymerase reaches the terminator region
    of the DNA is released from the DNA with the
    primary transcript.
  • - The primary transcript is considered
    unfinished, and now needs to undergo processing
    before a protein can be made.

6
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7
9.4 RNA Processing
  • General Info
  • All 3 types of RNA (mRNA, tRNA, rRNA) are
    processed in the nucleus before they leave it.
  • This can involve adding, chemically changing,
    and/or removing nucleotides.

8
9.4 RNA Processing
  • All RNA transcripts undergo the following
  • Enzymes attach a methyl-guanine (mG) cap to the
    starting end of the RNA molecule.

9
9.4 RNA Processing
  • All RNA transcripts undergo the following
  • Other enzymes add 100-200 adenine nucleotides to
    the other end (called the poly-A tail).
  • These 2 additions help transport RNA out of the
    nucleus protect the RNA from enzymes found in
    the cytoplasm.

10
9.4 RNA Processing
  • All RNA transcripts undergo the following
  • All RNA transcripts also undergo splicing.
  • The removal of meaningless segments of RNA,
    called introns, and fusing together the
    remaining, meaningful sections, called exons.
  • Requires precise recognition of the site to be
    cut.

11
9.4 RNA Processing
  • After the 3 major changes, what happens to the
    RNA if it becomes.
  • mRNA ? it is completed.
  • tRNA ? the molecule is folded into a cloverleaf
    shape.
  • rRNA ? proteins are added to it to form the
    ribosome of a cell.

12
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13
  • Transcription Animation
  • Cap Tail Animation

14
9.5 Translation (Protein Synthesis)
  • General Info
  • The sequence of mRNA is translated into the amino
    acid sequence of a protein.
  • It happens on ribosomes in the cytoplasm.
  • tRNA acts as a carrier molecule that brings
    specific amino acids to the ribosome.
  • A tRNA anticodon matches with an mRNA codon.
    (They are complementary)
  • ATP provides the energy to form the bonds.
  • Divided into same 3 stages as Transcription
    initiation, elongation, termination.

15
9.5 Translation (Protein Synthesis)
  • Initiation
  • Ribosomal subunits bind to the mRNA at the start
    codon (AUG).

16
9.5 Translation (Protein Synthesis)
  • Elongation
  • tRNA molecules pick up their specific amino acids
    bring them to the ribosome.
  • Each tRNA molecules anticodon is complementary
    to a codon on the mRNA.
  • The amino acid from the previous tRNA is joined
    to the next amino acid via a peptide bond.
  • This continues the polypeptide chain grows.

17
9.5 Translation (Protein Synthesis)
  • Elongation
  • (3 sites)
  • A site The next site in line for arrival of a
    tRNA.
  • P site This is where the newly arriving amino
    acid will join with the previously arrived amino
    acid by a peptide bond.
  • E site After a tRNA has dropped off the amino
    acid, it will exit go pick up another amino
    acid.

18
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19
9.5 Translation (Protein Synthesis)
  • Termination
  • Elongation continues until a codon is reached for
    which there is no complementary anticodon (no
    tRNA). No amino acid arrives the polypeptide
    chain ends. This is called a stop codon (UAA,
    UAG, UGA).
  • Instead of tRNA, a protein called a release
    factor, knocks the protein factory apart,
    releasing the ribosome, mRNA, the polypeptide.
  • The polypeptide is then used to build a
    functional protein for the organism.

20
  • Translation Animation
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