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What must DNA do?

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What must DNA do? Replicate to be passed on to the next generation Store information Undergo mutations to provide genetic diversity DNA structure: A review Double ... – PowerPoint PPT presentation

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Title: What must DNA do?


1
What must DNA do?
  1. Replicate to be passed on to the next generation
  2. Store information
  3. Undergo mutations to provide genetic diversity

2
DNA structure A review
  • Double-stranded helix
  • Composed of repeating nucleotides (made of a
    pentose sugar, phosphate and a nitrogenous base)
  • Sugar and phosphate make up the backbone while
    the bases make up the rungs of the ladder
  • Bases have complementary pairing with cytosine
    (C) pairs with guanine (G) and adenine (A) pairs
    with thymine (T)

3
DNA structure
4
How does DNA replicate?
  • The two strands unwind by breaking the H bonds
  • Complementary nucleotides are added to each
    strand by DNA polymerase
  • Each new double-stranded helix is made of one new
    strand and one old strand (semiconservative
    replication)
  • The sequence of bases makes each individual unique

5
DNA replication
6
Check out the Animation!
  • http//www.dnai.org/a/index.html

7
RNA structure and function
  • Single-stranded
  • Composed of repeating nucleotides
  • Sugar-phosphate backbone
  • Bases are A, C, G and uracil (U)
  • Three types of RNA
  • Ribosomal (rRNA) joins with proteins to form
    ribosomes
  • Messenger (mRNA) carries genetic information
    from DNA to the ribosomes
  • Transfer (tRNA) transfers amino acids to a
    ribosome where they are added to a forming
    protein

8
RNA structure
9
Sum It Up!!!
  • Make a Venn Diagram in your notes to compare and
    contrast DNA and RNA.

10
Comparing DNA and RNA
  • Similarities
  • Are nucleic acids
  • Are made of nucleotides
  • Have sugar-phosphate backbones
  • Are found in the nucleus
  • Differences
  • DNA is double stranded while RNA is single
    stranded
  • DNA has T while RNA has U
  • RNA is also found in the cytoplasm as well as the
    nucleus while DNA is not

11
Proteins A review
  • Composed of subunits of amino acids
  • Sequence of amino acids determines the shape of
    the protein
  • Synthesized at the ribosomes
  • Important for diverse functions in the body
    including hormones, enzymes and transport
  • Can denature causing a loss of function

12
Proteins A review of structure
13
2 steps of gene expression
  • Transcription DNA is read to make a mRNA in the
    nucleus of our cells
  • Translation Reading the mRNA to make a protein
    in the cytoplasm

14
Check out the Animation!
  • http//www.dnai.org/a/index.html

15
Overview of transcription and translation
Bio
16
Check out the Animation!
  • http//www.dnai.org/a/index.html

17
The genetic code
  • Made of 4 bases
  • Bases act as a code for amino acids in
    translation
  • Every 3 bases on the mRNA is called a codon that
    codes for a particular amino acid in translation

18
What did we learn from the human genome project
(HGP)?
  • Humans consist of about 3 billion bases and
    25,000 genes
  • Human genome sequenced in 2003
  • There are many polymorphisms or small regions of
    DNA that vary among individuals were identified
  • Genome size is not correlated with the number of
    genes or complexity of the organisms

19
What is the next step in the HGP?
  • Functional genomics
  • Understanding how the 25,000 genes function
  • Understanding the function of gene deserts (82
    regions that make up 3 of the genome lacking
    identifiable genes)
  • Comparative genomics
  • Help understand how species have evolved
  • Comparing genomes may help identify base
    sequences that cause human illness
  • Help in our understanding of gene regulation

20
How can we modify a persons genome?
  • Gene therapy - insertion of genetic material
    into human cells to treat a disorder
  • Ex vivo therapy cells are removed for a person
    altered and then returned to the patient
  • In vivo therapy a gene is directly inserted
    into an individual through a vector (e.g.
    viruses) or directly injected to replace mutated
    genes or to restore normal controls over gene
    activity
  • Gene therapy has been most successful in treating
    cancer

21
Ex vivo gene therapy
22
DNA technology terms
  • Genetic engineering altering DNA in bacteria,
    viruses, plants and animal cells through
    recombinant DNA techonology
  • Recombinant DNA contains DNA from 2 or more
    different sources
  • Transgenic organisms organisms that have a
    foreign gene inserted into them
  • Biotechnology using natural biological systems
    to create a product or to achieve an end desired
    by humans
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