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M 2/25 EXAM 1 Chapters 1, 3, 4, and pp185-201

M 2/25 EXAM 1 Chapters 1, 3, 4, and pp185-201 W 2/27 Ch. 2 More molecular development of Drosophila M 3/3 CLASS MEETS IN THE LIBRARY, Room 518 of the Glickman Library . Please bring a copy of the primary research article you have selected

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M 2/25 EXAM 1 Chapters 1, 3, 4, and pp185-201

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  1. M 2/25 EXAM 1 Chapters 1, 3, 4, and pp185-201 W 2/27 Ch. 2 More molecular development of Drosophila M 3/3 CLASS MEETS IN THE LIBRARY, Room 518 of the Glickman Library. Please bring a copy of the primary research article you have selected (or more than one if you haven’t decided) plus your notes on the article. W 3/5 Ch. 6 Plant development M 3/10 More plant development W 3/12 Ch. 7 Mechanisms of morphogenesis M 3/17 More mechanisms of morphogenesis W 3/19 Ch. 8 Cell differentiation M 3/24 no class - Spring Break W 3/26 no class - Spring Break M 3/31 Ch. 9 Organogenesis W 4/2 EXAM 2 Chapters 2, 6, 7, 8, and some of 14 M 4/7 Ch. 10 Development of the nervous system Review paper is due at the beginning of class on Wednesday, 4/9

  2. The BioClub is going to visit the Gulf of Maine Research Institute (on the waterfront in Portland) this Friday, March 14th You can meet outside of room 105 Science Building at 11:30 to carpool and will return to campus by 2:00.

  3. A seminar this Friday:

  4. 6.1 Arabidopsis thaliana thale cress or wall cress

  5. Comparing animals and plants: Invented multicellularity independently No germ line cells in plants (plants are easy to clone. No maternal factors???) No morphogenesis in plants (very simple fate maps) Plant cells contain plasmodesmata (a type of gap junction between cells)

  6. Comparing animals and plants: Invented multicellularity independently No germ line cells in plants (plants are easy to clone) No morphogenesis in plants (very simple fate maps) Plant cells contain plasmodesmata (a type of gap junction between cells) Fig. 1.23

  7. Fig. 6.35 FT mRNA is transcribed in leaves and then the mRNA goes through plasmodesmata on the way to cells in the shoot meristem where it is translated into a transcription factor protein that regulates transcription of genes for flowering. Fig. 1.23

  8. 6.1 Arabidopsis thaliana

  9. 6.4 fate map

  10. 6.6 auxin patterning

  11. 6.9 stem/leaf pattern

  12. 6.14 chimera

  13. 6.11 stem cell regulation

  14. 6.12 apical meristem

  15. 6.16 Arabidopsis fate maps

  16. 6.15 corn meristem fates

  17. 6.18 leaf primordia

  18. 6.19 leaf lateral inhibition

  19. 6.20 auxin and leaf primordia

  20. 6.21 root meristem

  21. 6.22 root fates

  22. 6.33 flowering control

  23. 6.35 flowering control 3

  24. 6.34 flowering control 2

  25. 6.24 inflorescence meristem

  26. 6.25 floral anatomy

  27. 6.26 floral mutants

  28. Box 6C

  29. Box 6C

  30. 6.27 whorl cartoon

  31. 6.28 floral in situs

  32. 6.29 ABC cartoon with genes

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