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5.1 Proteomics tools on ExPASy

5.1 Proteomics tools on ExPASy. 5.2 (Part 1) Primary, secondary, and tertiary protein structure. 5.2 (Part 2) Primary, secondary, and tertiary protein structure. 5.3 (Part 1) Protein structural profiles. 5.3 (Part 2) Protein structural profiles. 5.3 (Part 3) Protein structural profiles.

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5.1 Proteomics tools on ExPASy

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  1. 5.1 Proteomics tools on ExPASy

  2. 5.2 (Part 1) Primary, secondary, and tertiary protein structure

  3. 5.2 (Part 2) Primary, secondary, and tertiary protein structure

  4. 5.3 (Part 1) Protein structural profiles

  5. 5.3 (Part 2) Protein structural profiles

  6. 5.3 (Part 3) Protein structural profiles

  7. 5.4 (Part 1) Two-dimensional polyacrylamide gel electrophoresis

  8. 5.4 (Part 2) Two-dimensional polyacrylamide gel electrophoresis

  9. 5.5 Affinity chromatography

  10. 5.6 (Part 1) Basis of mass spectrometry peptide sequencing

  11. 5.6 (Part 2) Basis of mass spectrometry peptide sequencing

  12. 5.6 (Part 3) Basis of mass spectrometry peptide sequencing

  13. 5.7 (Part 1) Peptide sequencing by tandem mass spectrometry

  14. 5.7 (Part 2) Peptide sequencing by tandem mass spectrometry

  15. 5.8 (Part 1) Quantitative proteomics using ICAT reagents

  16. 5.8 (Part 2) Quantitative proteomics using ICAT reagents

  17. 5.8 (Part 3) Quantitative proteomics using ICAT reagents

  18. 5.8 (Part 4) Quantitative proteomics using ICAT reagents

  19. 5.9 (Part 1) Antibodies and immunohistochemistry

  20. 5.9 (Part 2) Antibodies and immunohistochemistry

  21. 5.10 Protein microarrays

  22. 5.11 Self-assembling NAPPA protein microarrays

  23. 5.12 (Part 1) Yeast two-hybrid (Y2H) screens

  24. 5.12 (Part 2) Yeast two-hybrid (Y2H) screens

  25. 5.13 Applications of structural proteomics

  26. 5.14 Flow diagram for solving a protein structure

  27. 5.15 The Drosophila Engrailed homeodomain dimer bound to DNA

  28. 5.16 (Part 1) Fold recognition

  29. 5.16 (Part 2) Fold recognition

  30. 5.17 Frequency of mutations recovered in “saturation” screens

  31. 5.18 (Part 1) The three major types of mutagen

  32. 5.18 (Part 2) The three major types of mutagen

  33. 5.18 (Part 3) The three major types of mutagen

  34. 5.19 (Part 1) F1 and F3 genetic screens

  35. 5.19 (Part 2) F1 and F3 genetic screens

  36. 5.20 (Part 1) Targeted mutagenesis

  37. 5.20 (Part 2) Targeted mutagenesis

  38. 5.21 (Part 1) Inhibitory RNA expression (RNAi)

  39. 5.21 (Part 2) Inhibitory RNA expression (RNAi)

  40. 5.22 Targeted loss- and gain-of-function genetics

  41. 5.23 Deficiency mapping

  42. 5.24 Transposon mutagenesis and enhancer trap screens

  43. 5.25 Floxing mice

  44. 5.26 Genetic fingerprinting

  45. Box 5.1 (Part 1) Hidden Markov Models in Domain Profiling

  46. Box 5.1 (Part 2) Hidden Markov Models in Domain Profiling

  47. Box 5.2 (Part 1) Biological Networks In Genome Science

  48. Box 5.2 (Part 2) Biological Networks In Genome Science

  49. Box 5.2 (Part 3) Biological Networks In Genome Science

  50. Box 5.2 (Part 4) Biological Networks In Genome Science

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