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Ch. 10: Nucleic Acids and Protein Synthesis

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Title: Ch. 10: Nucleic Acids and Protein Synthesis


1
Ch. 10 Nucleic Acids and Protein Synthesis
  • DNA controls the production of proteins within
    the cell.
  • - These proteins form the structural units of
    cells and control the chemical processes.

2
  • DNAs 2 primary functions
  • Store and use information to direct activities of
    the cell.
  • Make an exact copy of itself to pass on to new
    cells.
  • Where is DNA stored in the cell?
  • In the cells nucleus.

3
Structure of DNA
  • DNA is an organic molecule made up of repeating
    subunits called nucleotides.
  • Nucleotide 3 main parts
  • 1) Sugar molecule called deoxyribose
  • 2) Phosphate group
  • 3) Nitrogen base

4
  • There are 4 nitrogen-containing bases found in
    DNA nucleotides
  • 1. Adenine (A)
  • 2. Cytosine (C)
  • 3. Thymine (T)
  • 4. Guanine (G)
  • The 4 nitrogen bases are placed into 2 structural
    groups
  • 1) Purines double ring of carbon (A,G)
  • 2) Pyrimidines single ring of carbon
    (T,C)

5
  • DNA is a double helix (twisted ladder)
  • Base Pairing Rules
  • A-T
  • C-G
  • Or vice versa
  • -Double ring always
  • Bonds w/ single
  • ring

6
DNA Replication
  • The process of duplicating a molecule of DNA
  • An enzyme called DNA helicase attaches to the DNA
    molecule and breaks the bonds or unzips the
    double helix.
  • In the nucleus of the cell, free-floating
    nucleotides bond to the unzipped portion of the
    DNA molecule.
  • 3) The replication is complete after an enzyme
    called DNA polymerase bonds all nucleotides
    together forming 2 DNA molecules, both with one
    old strand and one new strand.

7
Accuracy and Repair
  • The cell has a built-in proof-reading function.
  • About 1 error per billion nucleotides.
  • Body heat, radiation, chemicals, etc. can damage
    your DNA.
  • 4) A group of 20 or more enzymes designed to
    seek out and replace damaged nucleotides.

8
Homework- due Tues.
  • Research on the web, in magazines or
  • books something interesting about DNA.
  • Ex
  • - How is DNA used to solve crimes?
  • - What are some things that can happen as a
    result of DNA damage?
  • - What is the human genome project?
  • - What are some things modern science is studying
    about DNA?

9
  • Some helpful search words for the web
  • - DNA
  • - Nucleic Acids
  • - Human genome project
  • - DNA and forensic science
  • - Neatly write or type 1-2 paragraphs describing
    what you found out. Be prepared to share in
    class on Tues.
  • - Dont forget to cite your sources!

10
Section 10-2 RNA
  • How does RNA differ from DNA?
  • RNA is a nucleic acid made up of repeating
  • nucleotides. However, the sugar molecule of
    every RNA nucleotide is Ribose, whereas DNA
    nucleotides contain Deoxyribose Sugar.
  • Uracil, a nitrogen-containing pyrimidine (one
    ring of carbon), usually replaces thymine in RNA.
    Therefore, uracil pairs with adenine in RNA.

11
3 Types of RNA
  • Type of RNA that consists of RNA nucleotides in
    the form of a single uncoiled chain. This RNA is
    responsible for carrying genetic information from
    the DNA in the nucleus to the cytosol of a
    eukaryotic cell
  • Messenger RNA (mRNA).

12
  • This RNA consists of a single chain of about 80
    RNA nucleotides folded into a hairpin shape that
    binds to specific amino acids. There are about
    45 varieties of this RNA Transfer RNA (tRNA).
  • This is the most abundant form of RNA. It
    consists of RNA nucleotides in a globular form.
    Joined by proteins, it makes up the ribosomes
    where proteins are made
  • Ribosomal RNA (rRNA).

13
Transcription
  • Lets think of transcription as an analogy.
    Think of DNA as a reference book in a library.
    These books can not be taken out because they are
    very valuable and may risk getting damaged if
    they leave the confines of the library. If DNA
    were to leave the nucleus and enter the cytosol,
    it would enter an environment that would make it
    more vulnerable to getting damaged from radiation
    and chemicals.

14
So, how do we get information from the reference
book/DNA without taking it out of the
library/nucleus?
  • We make a copy.
  • This is where mRNA enters the picture.
    The RNA is the messenger, or copier, responsible
    for carrying the genetic information from DNA in
    the nucleus to the cytosol, where it can be used
    to produce proteins.

15
  • Transcription is
  • Process by which genetic information is copied
    from DNA to RNA
  • We will now go through the process of
    transcription together. Please fill in notes
    where indicated.
  • http//www-class.unl.edu/biochem/gp2/m_biology/ani
    mation/gene/gene_a2.html

16
Some things to remember
  • As in replication, a small section of the DNA
    double helix unwinds, and the bases on the 2
    strands are exposed.
  • RNA nucleotides line up in the proper order by
    hydrogen-bonding to their complementary bases on
    DNA.
  • The nucleotides are joined together by a
    DNA-dependent RNA polymerase enzyme, and mRNA
    results.

17
How is Transcription different from Replication?
  • In transcription, only 1 strand of DNA is
    transcribed into mRNA (remember that RNA is a
    single-stranded molecule).
  • The DNA strand that is transcribed is called the
    template strand.

18
What determines where transcription will begin
and end?
  • In other words, where does one gene start and the
    next begin?
  • The starting point of a gene is marked by a
    certain base sequence which is called a promoter
    site.
  • These sites act as a start sign .
    Similarly, there are other base sequences at the
    end of a gene that signal a to mRNA
    synthesis.
  • This DNA region is referred to as a termination
    signal.

19
What are the products of transcription?
  • The transcripts are the different types of RNA
    molecules, including mRNA, tRNA and rRNA.
  • Even though the instructions are for making a
    protein are copied from DNA into mRNA, all 3
    types of RNA are involved in the synthesis of
    proteins.
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