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DNA History and Structure

DNA History and Structure. Friedrich Miescher. Published in 1871 First to isolate and identify DNA and suggested its role in heredity . Griffith and Transformation In 1928, British scientist Fredrick Griffith was trying to learn how certain types of bacteria caused pneumonia.

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DNA History and Structure

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  1. DNA History and Structure

  2. Friedrich Miescher • Published in 1871 • First to isolate and identify DNA and suggested its role in heredity.

  3. Griffith and Transformation In 1928, British scientist Fredrick Griffith was trying to learn how certain types of bacteria caused pneumonia.

  4. Griffith called this process transformation because one strain of bacteria (the harmless strain) had changed permanently into another (the disease-causing strain). • Griffith hypothesized that a factor must contain information that could change harmless bacteria into disease-causing ones.

  5. History • Avery and DNA • Oswald Avery repeated Griffith’s work to determine which molecule was most important for transformation. • Avery and his colleagues made an extract from the heat-killed bacteria that they treated with enzymes. • The enzymes destroyed proteins, lipids, carbohydrates, and other molecules, including the nucleic acid RNA. • Transformation still occurred.

  6. History • Avery and other scientists repeated the experiment using enzymes that would break down DNA. • When DNA was destroyed, transformation did not occur. Therefore, they concluded that DNA was the transforming factor. • Avery and other scientists discovered that the nucleic acid DNA stores and transmits the genetic information from one generation of an organism to the next.

  7. Knowledge Check • What is transformation? • Critical Thinking: How did Griffith use the principle of transformation to explain his results? • How did Avery build on the work of Griffith? • What was Avery’s final discovery?

  8. Hershey and Chase • Alfred Hershey and Martha Chase studied viruses • A virus that infects bacteria is known as a bacteriophage. • Bacteriophages are composed of a DNA or RNA core and a protein coat. • the genetic material of the bacteriophage was DNA, not protein.

  9. Critical Thinking • What do you think that Hershey and Chase learned from their work with viruses that would make them influential in the discovery of DNA?

  10. What does DNA look like? • macroscopic view: • nanoscopic view:

  11. General Function of DNA • DNA is an organism’s “blueprint” • Tells your cells what proteins they need to make • Proteins determine what physical traits and characteristics you (and all organisms) have • DNA stands for DeoxyriboNucleic Acid

  12. Components and Structure of DNA • DNA is made up of nucleotides. • A nucleotide is a monomer of nucleic acids made up of: • Deoxyribose – 5-carbon Sugar • Phosphate Group • Nitrogenous Base

  13. Components and Structure of DNA There are four kinds of bases in in DNA: • adenine • guanine • cytosine • thymine

  14. Components and Structure of DNA • Chargaff's Rules • The percentages of guanine [G] and cytosine [C] bases are almost equal in any sample of DNA. • The percentages of adenine [A] and thymine [T] bases are almost equal in any sample of DNA.

  15. Knowledge Check • What is a nucleotide? • What makes up a nucleotide? • What are the 4 bases? • Which 2 are purines? • Which 2 are pyrimidines?

  16. Components and Structure of DNA • X-Ray Evidence  • Rosalind Franklin used X-ray diffraction to get information about the structure of DNA. • She aimed an X-ray beam at concentrated DNA samples and recorded the scattering pattern of the X-rays on film.

  17. Components and Structure of DNA • Using clues from Franklin’s pattern, James Watson and Francis Crick built a model that explained how DNA carried information and could be copied. • Watson and Crick's model of DNA was a double helix, in which two strands were wound around each other. • Base pairing • bonds can form only between certain base pairs—adenine and thymine, and guanine and cytosine.

  18. The Double Helix • A “twisted ladder” • Two parts: • Backbone: composed of the sugar & the phosphate groups of each nucleotide • Steps: the nitrogenous bases (A,C,T,G)

  19. The Double Helix • Watson & Crick explained that hydrogen bonds hold the nitrogen bases together: • A always pairs with T • C always pairs with G • Hydrogen bonds provide just enough force to hold the strands together, yet can be easily broken if needed.

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