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Regulation of Gene Expression in Prokaryotes

Chapter 16 Lecture. Concepts of Genetics Tenth Edition. Regulation of Gene Expression in Prokaryotes. Chapter 3 Lecture. Chapter 3 Lecture. 16.1 Prokaryotes Regulate Gene Expressions in Response to Environmental Conditions.

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Regulation of Gene Expression in Prokaryotes

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  1. Chapter 16 Lecture Concepts of Genetics Tenth Edition Regulation ofGene Expressionin Prokaryotes Chapter 3 Lecture Chapter 3 Lecture

  2. 16.1 Prokaryotes Regulate Gene Expressions in Response to Environmental Conditions

  3. 16.2 Lactose Metabolism in E. coli Is Regulated by an Inducible System

  4. Figure 16.1

  5. 16.2 Lactose Metabolism in E. coli Is Regulated by an Inducible System • Structural Genes

  6. Figure 16.2

  7. Figure 16.3

  8. Figure 16.4

  9. 16.2 Lactose Metabolism in E. coli Is Regulated by an Inducible System • The Discovery of Regulatory Mutations

  10. 16.2 Lactose Metabolism in E. coli Is Regulated by an Inducible System • The Operon Model: Negative Control

  11. Figure 16.5

  12. Figure 16.5a

  13. Figure 16.5b

  14. Figure 16.5c

  15. Figure 16.6a

  16. Figure 16.6b

  17. 17.2 Lactose Metabolism in E. coli Is Regulated by an Inducible System • Genetic Proof of the Operon Model

  18. constitutive trans element cis element Table 16.1

  19. Figure 16.7

  20. 16.3 The Catabolite-Activating Protein (CAP) Exerts Positive Control over the lac Operon

  21. Figure 16.8

  22. Figure 16.8a

  23. Figure 16.8b

  24. Figure 16.9

  25. 16.4 Crystal Structure Analysis of Repressor Complexes Has Confirmed the Operon Model

  26. Figure 16.10

  27. Figure 16.11c

  28. 16.5 The Tryptophan (trp) Operon in E. coli Is a Repressible Gene System

  29. Figure 16.12

  30. Figure 16.12a

  31. Figure 16.12b

  32. Figure 16.12c

  33. 16.6 Attenuation Is a Critical Process during the Regulation of the trp Operon in E. coli

  34. Figure 16.13

  35. Figure 16.13ab

  36. Figure 16.13c

  37. Figure 16.13d

  38. TRAP and AT Proteins Govern Attenuation in B. subtilis TRAP = trp RNA-binding attenuation protein AT = anti-TRAP

  39. Figure 16.14

  40. Figure 16.14a

  41. Figure 16.14b

  42. 16.7 Riboswitches Utilize Metabolite-sensing • RNAs to Regulate Gene Expression

  43. 16.8 The ara Operon Is Controlled by a Regulator Protein That Exerts Both Positive and Negative Control

  44. Figure 16.16

  45. Figure 16.16a

  46. Figure 16.16b

  47. Figure 16.16c

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