Lecture Topic
|
Pages
in text |
Assigned
Problems page: problem numbers |
| 1. An introduction to genetics |
1-15 |
15: 2-10 |
| 2. Mitosis and meiosis |
17-43 |
41: 1-6, 8-22 |
| 3. Mendelian genetics |
44-75 |
70: 1-36 |
| 4. Extensions of Mendelian genetics |
77-113 |
106: 1-36 |
| 5. Quantitative genetics |
115-135 |
131: 1, 3, 5, 6 |
| 6. Linkage, crossing-over, and mapping in eukaryotes |
137-175 |
169: 1-6, 8-10, 12-17, 19-20,
22-28, 31-34 |
| 7. Extranuclear inheritance |
209-225 |
222: 1, 3-6 |
| 8. Sex determination and sex chromosomes |
227-249 |
247: 3-15 |
| 9. Chromosome mutations |
250-281 |
277: 1-17, 19-20 |
| 10. DNA structure and analysis |
283-319 |
315: 1-30 |
| 11. DNA replication and recombination |
321-347 |
343 1-7 |
| 12. The genetic code and transcription |
349-379 |
375: 1-10 |
| 13. Translation and proteins |
381-411 |
406: 1-24 |
| 14. Regulation of gene expression in prokaryotes |
413-431 |
428: 1-4 |
| 15. Regulation of gene expression in eukaryotes |
433-453 |
450: 1-3 |
| 16. Genetic recombination and mapping in bacteria and
phages |
177-207 |
203: 1-10 |
| 17. Gene
mutation, DNA repair, and transposable elements |
455-497 |
494: 1-10 |
| 18. Construction and
analysis of DNA clones |
499-529 |
No assigned problems |
| 19. Chromosome
structure and DNA sequence organization |
531-551 |
No assigned problems |
| 20. Population genetics |
683-711 |
No assigned problems |