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281 lec6 double_helix

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The double helix structure (history, experiments and findings)

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Lecture 6: DNA: The double helix structure Readings (chapter 2) Course 281
Lessons for life
AIMS • Understand the molecular structure of DNA (the double helix). • Learn the elements that led to the discovery of DNA structure. • Enjoy the fact that what you are learning few people around the world know and enjoy studying ☺
Structure? Now the chemical composition is understood What about the structure? Experiments and findings
Chargaff’s rule Erwin Chargaff • In a chemical study E. Chargaff found that pyrimidines and purines have equal ratios. • 50% of nucleotides were purines and 50% were pyrimidines.
Chargaff’s rule • The amount of Adenine = the amount of Thymine. • The amount of Guanine = the amount of Cytosine. • He failed to make a connection to the structure of DNA. • Indicated that DNA is symmetrical.
Pauling protein modeling Linus Pauling discovered the alpha helix protein structure through modeling and x-ray diffraction.
Pauling protein modeling • Worked on the DNA structure but not very smart findings. • Proposed three helices with bases pointing outside and phosphate- sugar backbone pointing inside.
Pauling protein modeling • Entering the race to find the structure of DNA was a blessing. • His alpha helix is similar to that of DNA. • His son Peter was a friend of James Watson and Francis Crick. • They knew Pauling was after the structure so they wanted to win.
X-ray diffraction X-ray diffraction was the method to study the fine structure of molecules. DNA was no different!
DNA X-ray diffraction • At King’s College London, Rosalind Franklin and Maurice Wilkin were working on X-ray diffraction of DNA.
DNA X-ray diffraction • R. Franklin produced the best diffraction photo (called photo 51). • Her findings were shared (with or without her approval) Watson and Crick by Wilkin.
Watson and Crick • Watson and Crick used the empirical data of Franklin, Wilkin, and Chargaff to come up with a model of the DNA structure. • It was an important finding to the field of molecular biology and genetics.
Watson and Crick • They published a 900 words paper and Franklin and Wilkin also published on the same issue of Nature.
DNA structure 1) DNA is a double helix.
2) Two polynucleotides chains. DNA structure
DNA structure 3) The two chains wind around right handedly - right handed double helix.
DNA structure 4) The two chains are in an anti-parallel orientation. (one strand 5’ – 3’ orientation and the other 3’ – 5’).
DNA structure 5) Sugar-phosphate backbone is located on the outside of the helix.
DNA structure 6) The nitrogenous bases located on the inside of the helix.
DNA structure 7) The bases are stacked flat and perpendicular to the axis of the helix. The bases are on top of each other following the twist of the helix.
8) The bases of the two polynucleotides are bonded together via hydrogen bonds on the inside of the helix. DNA structure
9) Bases of the two polynucleotide chains are base-pairing to maintain similar diameter of the double helix. DNA structure
10) A Pyrimidine always basepair with Purine forming complementary base pairs. DNA structure
11) Thymine (T) basepair with Adenine (A), and Cytosine basepair with Guanine (G). Chargaff rule !!!! DNA structure
12) Two hydrogen bonds involve the base-pairing of (A and T) and three hydrogen bonds between (G and C). DNA structure
13) The sequence of one chain (strand) is enough to predict the complementary one in the other orientation. DNA structure
Quiz What is the complementary sequence of the following? 5’ A-T-G-C-G-G-G-A-A-A-T-T-T-C-C-C ‘3 a) 5’ A-T-G-C-G-G-G-A-A-A-T-T-T-C-C-C ‘3 b) 5’ T-A-C-G-C-C-C-T-T-T-A-A-A-G-G-G ‘3 c) 5’ G-G-G-A-A-A-T-T-T-C-C-C-G-C-A-T ‘3 d) a and b e) b and c
14) The bases are 0.34 nm apart (nm = 10-9). DNA structure
15) One turn of the helix is achieved (360°) every 10 basepairs or 3.4 nm. DNA structure
16) The double helix external diameter is 2nm. DNA structure
17) A major and minor groove result from the unequal spacing of the phosphate-sugar backbone. DNA structure
I think this much is enough for one day ☺ DNA structure
Summary
To  study Nucleotide deoxyribose 2-deoxyribose DNA RNA DNA backbone RNA backbone Phosphodiester bond Polynucleotide Chargaff rule 5’ carbon 3’ carbon 2’ carbon Thymine Guanine Cytosine Adenine Uracil Pyrimidine Major groove Minor groove 0.34nm 3.4nm 2nm Hydrogen bond basepair antiparallel ribose
Expectations • You know the structure of DNA. • You know the story behind the discovery of the structure. • Study the terms (They are my source for exam questions). • Share your knowledge with people around you. Try to make simple for them.
For a smile

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281 lec6 double_helix

  • 1. Lecture 6: DNA: The double helix structure Readings (chapter 2) Course 281
  • 3. AIMS • Understand the molecular structure of DNA (the double helix). • Learn the elements that led to the discovery of DNA structure. • Enjoy the fact that what you are learning few people around the world know and enjoy studying ☺
  • 4. Structure? Now the chemical composition is understood What about the structure? Experiments and findings
  • 5. Chargaff’s rule Erwin Chargaff • In a chemical study E. Chargaff found that pyrimidines and purines have equal ratios. • 50% of nucleotides were purines and 50% were pyrimidines.
  • 6. Chargaff’s rule • The amount of Adenine = the amount of Thymine. • The amount of Guanine = the amount of Cytosine. • He failed to make a connection to the structure of DNA. • Indicated that DNA is symmetrical.
  • 7. Pauling protein modeling Linus Pauling discovered the alpha helix protein structure through modeling and x-ray diffraction.
  • 8. Pauling protein modeling • Worked on the DNA structure but not very smart findings. • Proposed three helices with bases pointing outside and phosphate- sugar backbone pointing inside.
  • 9. Pauling protein modeling • Entering the race to find the structure of DNA was a blessing. • His alpha helix is similar to that of DNA. • His son Peter was a friend of James Watson and Francis Crick. • They knew Pauling was after the structure so they wanted to win.
  • 10. X-ray diffraction X-ray diffraction was the method to study the fine structure of molecules. DNA was no different!
  • 11. DNA X-ray diffraction • At King’s College London, Rosalind Franklin and Maurice Wilkin were working on X-ray diffraction of DNA.
  • 12. DNA X-ray diffraction • R. Franklin produced the best diffraction photo (called photo 51). • Her findings were shared (with or without her approval) Watson and Crick by Wilkin.
  • 13. Watson and Crick • Watson and Crick used the empirical data of Franklin, Wilkin, and Chargaff to come up with a model of the DNA structure. • It was an important finding to the field of molecular biology and genetics.
  • 14. Watson and Crick • They published a 900 words paper and Franklin and Wilkin also published on the same issue of Nature.
  • 15. DNA structure 1) DNA is a double helix.
  • 16. 2) Two polynucleotides chains. DNA structure
  • 17. DNA structure 3) The two chains wind around right handedly - right handed double helix.
  • 18. DNA structure 4) The two chains are in an anti-parallel orientation. (one strand 5’ – 3’ orientation and the other 3’ – 5’).
  • 19. DNA structure 5) Sugar-phosphate backbone is located on the outside of the helix.
  • 20. DNA structure 6) The nitrogenous bases located on the inside of the helix.
  • 21. DNA structure 7) The bases are stacked flat and perpendicular to the axis of the helix. The bases are on top of each other following the twist of the helix.
  • 22. 8) The bases of the two polynucleotides are bonded together via hydrogen bonds on the inside of the helix. DNA structure
  • 23. 9) Bases of the two polynucleotide chains are base-pairing to maintain similar diameter of the double helix. DNA structure
  • 24. 10) A Pyrimidine always basepair with Purine forming complementary base pairs. DNA structure
  • 25. 11) Thymine (T) basepair with Adenine (A), and Cytosine basepair with Guanine (G). Chargaff rule !!!! DNA structure
  • 26. 12) Two hydrogen bonds involve the base-pairing of (A and T) and three hydrogen bonds between (G and C). DNA structure
  • 27. 13) The sequence of one chain (strand) is enough to predict the complementary one in the other orientation. DNA structure
  • 28. Quiz What is the complementary sequence of the following? 5’ A-T-G-C-G-G-G-A-A-A-T-T-T-C-C-C ‘3 a) 5’ A-T-G-C-G-G-G-A-A-A-T-T-T-C-C-C ‘3 b) 5’ T-A-C-G-C-C-C-T-T-T-A-A-A-G-G-G ‘3 c) 5’ G-G-G-A-A-A-T-T-T-C-C-C-G-C-A-T ‘3 d) a and b e) b and c
  • 29. 14) The bases are 0.34 nm apart (nm = 10-9). DNA structure
  • 30. 15) One turn of the helix is achieved (360°) every 10 basepairs or 3.4 nm. DNA structure
  • 31. 16) The double helix external diameter is 2nm. DNA structure
  • 32. 17) A major and minor groove result from the unequal spacing of the phosphate-sugar backbone. DNA structure
  • 33. I think this much is enough for one day ☺ DNA structure
  • 35. To  study Nucleotide deoxyribose 2-deoxyribose DNA RNA DNA backbone RNA backbone Phosphodiester bond Polynucleotide Chargaff rule 5’ carbon 3’ carbon 2’ carbon Thymine Guanine Cytosine Adenine Uracil Pyrimidine Major groove Minor groove 0.34nm 3.4nm 2nm Hydrogen bond basepair antiparallel ribose
  • 36. Expectations • You know the structure of DNA. • You know the story behind the discovery of the structure. • Study the terms (They are my source for exam questions). • Share your knowledge with people around you. Try to make simple for them.