Expansion of tandem gene clusters

1. Expansion of tandem gene clusters Gene duplication by unequal crossing-over Divergence of coding and regulatory sequences

2. Evolution of HOX clusters

3. The homeobox is a highly conserved DNA-binding domain HOX4 homeodomain Drosophila Amphioxus Mouse Human Chick Frog Fugu Zebrafish

4. Evolution of HOX clusters in vertebrates - Vertebrates have multiple HOX clusters - Paralogous HOX genes may have partly redundant functions Mouse - Some genes and clusters become specialized for distinct functions Fugu - Different lineages lose some genes and acquire new functions for others Zebrafish

5. Using gene replacement to test HOX gene function

6. Using gene replacement to test HOX gene function

7. Functionally equivalent HOX paralogs

8. HOX gene labial required for tritocerebral commissure

9. Genetic rescue strategy - lab-Gal4 lab ; lab-Gal4 / UAS - lab red = HRP; green = Lab

10. Other HOX genes can partially substitute for lab

11. Other HOX genes can partially substitute for lab

12. Distinct roles of Ubx and abd-A in the midgut dpp expression in the fly midgut is activated by Ubx, but repressed by abd-A Activation and repression are mediated by the same binding sites within a dpp enhancer

13. Onychophoran Ubx causes homeotic transformations in Drosophila

14. Onychophoran Ubx can regulate some Drosophila target genes dSRF dpp

15. Onychophoran Ubx cannot fully substitute for Drosophila Ubx

16. Chimeric Ubx proteins

17. Mapping the functional specificity of Onychophoran Ubx

18. Functional specificity of Ubx maps outside the homeodomain

19. Conservation and change in Ubx proteins

20. Mapping the functional specificity of Ubx proteins

21. Functional comparison of Drosophila and Artemia Ubx

22. Evolution of a new repression domain

23. Non-HOX functions of derived HOX genes

24. Maternal gradient of bicoid establishes Anterior-Posterior axis in the Drosophila embryo

25. bicoid gradient formation in Drosophila

26. zen functions in Dorso-Ventral patterning sna sog zen

27. zen is a derived HOX gene

28. HOX-like expression of zen homologue in Cupiennius

29. Evolution of zen and bcd from an ancestral HOX gene

30. Genetic control of segmentation in Drosophila

31. ftz deletion does not affect segmentation in Tribolium Antennae

32. HOX-like expression of the Chelicerate ftz homologue Archegozetes longisetosus

33. Effects of ectopic ftz expression in Drosophila Dm 36% 4% Sg en expression

34. A homeodomain-deficient ftz allele

35. ftz expression in Schistocerca

36. Homeotic antenna to leg transformations Dm-ftz Tc-ftz Tc-ftz Dll-Gal4 Sg-ftz

37. Tribolium ftz retains homeotic potential wt Dm-ftz Tc-ftz Dm-Scr wt Dm-ftz Tc-ftz Dm-Antp

38. Evolution of ftz function

39. Comparison of ftz proteins between Drosophila and Schistocerca

40. Expression and function of ftz-F1 ftz-F1 ftz ftz-F1 mutant en

41. ftz-F1 encodes a nuclear hormone receptor

42. Physical interaction between ftz and ftz-F1

43. Transcriptional activation by ftz / ftz-F1 complex In yeast In Drosophila embryos

44. Novel functions of divergent HOX genes

45. Loss and gain of protein-protein interaction motifs