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Biological Chemistry II

Biological Chemistry II

Prof. JoAnne Stubbe and Prof. Elizabeth Nolan via MIT OpenCourseWare Direct link

R7. Application of Single Molecule Methods

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R7. Application of Single Molecule Methods

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Biological Chemistry II

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  1. 1 1. Introduction to Biological Chemistry II
  2. 2 2. Protein Synthesis 1
  3. 3 R1. Determining, Analyzing, and Understanding Protein Structures
  4. 4 3. Protein Synthesis 2
  5. 5 4. Protein Synthesis 3
  6. 6 5. Protein Synthesis 4
  7. 7 R2. Pre-Steady State and Steady-State Kinetic Methods Applied to Translation
  8. 8 6. Protein Synthesis 5
  9. 9 7. Protein Synthesis 6
  10. 10 8. Protein Folding 1
  11. 11 R3. Pre-Steady State and Steady-State Kinetic Methods Applied to Translation
  12. 12 9. Protein Folding 2
  13. 13 10. Protein Folding 3
  14. 14 11. Protein Folding 4
  15. 15 R4. Purification of Native and Mutant Ribosomes, Protein Purification
  16. 16 12. Protein Degradation 1
  17. 17 13. Protein Degradation 2
  18. 18 14. Protein Degradation 3
  19. 19 R5. Overview of Cross-Linking, Including Photo-Reactive Cross-Linking Methods
  20. 20 15. PK and NRP Synthases 1
  21. 21 16. PK and NRP Synthases 2
  22. 22 R6. Macromolecular Electron Microscopy Applied to Fatty Acid Synthase
  23. 23 17. PK and NRP Synthases 3
  24. 24 18. PK and NRP Synthases 4
  25. 25 R7. Application of Single Molecule Methods
  26. 26 19. Cholesterol Biosynthesis 1
  27. 27 20. Cholesterol Biosynthesis 2
  28. 28 21. Cholesterol Biosynthesis 3 & Cholesterol Homeostasis 1
  29. 29 R8. Application of CRISPR to Study Cholesterol Regulation
  30. 30 22. Cholesterol Homeostasis 2
  31. 31 23. Cholesterol Homeostasis 3
  32. 32 24. Cholesterol Homeostasis 4
  33. 33 R9. Cholesterol Homeostasis and Sensing
  34. 34 25. Cholesterol Homeostasis 5 & Metal Ion Homeostasis 1
  35. 35 26. Metal Ion Homeostasis 2
  36. 36 27. Metal Ion Homeostasis 3
  37. 37 R10. Metal-Binding Studies and Dissociation Constant Determination
  38. 38 28. Metal Ion Homeostasis 4
  39. 39 29. Metal Ion Homeostasis 5
  40. 40 R11. Mass Spectrometry
  41. 41 30. Metal Ion Homeostasis 6
  42. 42 31. Metal Ion Homeostasis 7 & Reactive Oxygen Species 1
  43. 43 R12. Mass Spectrometry of the Cysteine Proteome
  44. 44 32. Reactive Oxygen Species 2
  45. 45 33. Reactive Oxygen Species 3
  46. 46 34. Reactive Oxygen Species 4 & Nucleotide Metabolism 1
  47. 47 R13. Fluorescence Methods
  48. 48 35. Nucleotide Metabolism 2
  49. 49 36. Nucleotide Metabolism 3

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