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1. Introduction
2. Interest in the genetics of learning and memory
3. Psychology of learning and memory
4. From rat to fly
5. Hallmark experiment in operant conditioning
6. Classical conditioning
7. Pavlov's flies
8. Behavioral properties of Pavlovian learning
9. The behavioral property of acquisition
10. The behavioral property of order dependence
11. Benzer and genetic dissection of behavior
12. CalTech learning and memory mutant
13. Princeton learning and memory mutants
14. Brandeis learning and memory mutants
15. Molecular identity of L&M genes
16. Mammalian homologs of Drosophila L&M genes
17. Genetic dissection of memory
18. Memory (the behavior)
19. Memory phases
20. Long-term memory in the fruit fly
21. LTM depends on protein synthesis
22. Genetic pathways
23. Genetic dissection of the biochemistry of memory
24. Temporal control of transgene expression
25. CREB repressor blocks LTM
26. CREB activator enhances memory
27. Memory formation is a biological function
28. dCREB2 homologs
29. CREB enhances memory in mammals
30. CREB and synapse-specific growth
31. The neurobiology of memory
32. Genes downstream of CREB
33. RoboTrainer - an automated training device
34. CSHL memory mutants
35. Tsinghua memory mutants
36. Pavlov's dogs
37. Milord-2
38. Drosophila DNA microarrays
39. Spaced - massed = gene transcription
40. The pumilio/staufen pathway (1)
41. LTM is disrupted in staufen mutant
42. The pumilio/staufen pathway (2)
43. Vertebrate homologs of staufen
44. Neural granules
45. Staufen interacts with FMRP
46. Drosophila homolog of FMR
47. Fly models of human disease
48. Fmr1 mutants disrupt LTM
49. Staufen and dFMR1 interact
50. Learning also is disrupted in Fmr1 mutants
51. Brain development is disrupted in Fmr1 mutants
52. Temporal control of gene disruption
53. Acute disruption of Fmr1 impairs LTM
54. Other disease genes and memory mutants
55. Anatomical dissection of L&M
56. Brain development and L&M mutants
57. Chemical ablation of mushroom body
58. Ablation of MB disrupts olfactory learning
59. Enhancer-trap expression
60. Enhancer-trap for mushroom body
61. Preferential MB expression and L&M mutants
62. Spatio-temporal control of transgene express. (1)
63. Acute expression of rut+ rescues learning defect
64. Acute expression of ben+ rescues LTM defect
65. Reverse homologs and L&M mutants
66. NMDAR homologs
67. Ruslan enhancer trap expression
68. Feb170 enhancer trap expression
69. NMDAR expressed preferentially in ellipsoid body
70. Spatio-temporal control of transgene express. (2)
71. Spatio-temporal disruption of NR2 blocks LTM
72. Genetics of learning & memory in Drosophila
73. Acknowledgements
74. The pockets

Topics Covered

• Drosophila mutants defective in Pavlovian learning and memory
• Training protocols and long-term memory formation
• Pavlov's dogs
• Biochemical signaling pathways, gene transcription and local control of protein translation
• Models of mental retardation
• NMDA receptors and the anatomy of long-term memory formation

Links

Series:

• The Legacy of Drosophila Genetics

Categories:

• Genetics & Epigenetics
• Neuroscience

Therapeutic Areas:

• Neurology

Talk Citation

Publication History

• Published on September 29, 2008
• Reviewed on May 31, 2018

Financial Disclosures

• Prof. Tim Tully has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.