p63 is a p53 homologue required for limb and epidermal morphogenesis (original) (raw)

References

1. Livingston, L. R. et al. Altered cell cycle arrest and gene amplification potential accompany loss of wild-type p53. Cell 70, 923–935 (1992).
   Article Google Scholar
2. Lowe, S. W., Schmitt, E. M., Smith, S. W., Osborne, B. A. & Jacks, T. p53 is required for radiation-induced apoptosis in mouse thymocytes. Nature 362, 847–849 (1993).
   Article ADS CAS Google Scholar
3. Donehower, L. A. et al. Mice deficient for p53 are developmentally normal but susceptible to spontaneous tumours. Nature 356, 215–221 (1992).
   Article ADS CAS Google Scholar
4. Kaghad, M. et al. Monoallelically expressed gene related to p53 at 1p36, a region frequently deleted in neuroblastoma and other human cancers. Cell 90, 809–819 (1997).
   Article CAS Google Scholar
5. Schmale, H. & Bamberger, C. Anovel protein with strong homology to the tumor suppressor p53. Oncogene 15, 1363–1367 (1997).
   Article CAS Google Scholar
6. Trink, B. et al. Anew human p53 homologue. Nature Med. 4, 747–748 (1998).
   Article Google Scholar
7. Osada, M. et al. Cloning and functional analysis of human p51, which structurally and functionally resembles p53. Nature med. 4, 839–843 (1998).
   Article CAS Google Scholar
8. Yang, A. et al. p63, a p53 homolog at 3q27-29, encodes mutliple products with transactivating, death-inducing, and dominant-negative activities. Mol. Cell 2, 305–316 (1998).
   Article CAS Google Scholar
9. Valancius, V. & Smithies, O. Double-strand gap repair in a mammalian gene targeting reaction. Mol. Cell. Biol. 11, 4389–4397 (1991).
   Article CAS Google Scholar
10. Cygan, J. A., Johnson, R. L. & McMahon, A. P. Novel regulatory interactions revealed by studies of murine limb pattern in Wnt-7a and En-1 mutants. Development 124, 5021–5032 (1997).
    CAS PubMed Google Scholar
11. Voge., A., Rodriguez, C. & Izpisua-Belmonte, J. C. Involvement of FGF-8 in initiation, outgrowth and patterning of the vertebrate limb. Development 122, 1737–1750 (1996).
    Google Scholar
12. Wang, Y. & Sassoon, D. Ectoderm-mesenchyme and mesenchyme-mesenchyme interactions regulated Msx-1 expression and cellular differentiation in the murine limb bud. Dev. Biol. 168, 374–382 (1995).
    Article CAS Google Scholar
13. Grieshammer, U., Minowada, G., Pisenti, J. M., Abbot, U. K. & Martin, G. R. The chick limbless mutation causes abnormalities in limb bud dorsal–ventral patterning: implications for the mechanism of apical ridge formation. Development 122, 3851–3861 (1996).
    CAS PubMed Google Scholar
14. Summerbell, D., Lewis, J. H. & Wolpert, L. Positional information in chick limb morphogenesis. Nature 244, 492–496 (1973).
    Article ADS CAS Google Scholar
15. Zhou, P., Byrne, C., Jacobs, J. & Fuchs, E. Lymphoid enhancer factor 1 directs hair follicle patterning and epithelial cell fate. Genes Dev. 9, 700–713 (1995).
    Article CAS Google Scholar
16. Roop, D. R., Krieg, T. M., Mehrel, T., Cheng, C. K. & Yuspa, S. H. Transcriptional control of high molecular weight keratin gene expression in multistage mouse skin carcinogenesis. Cancer Res. 48, 3245–3252 (1988).
    CAS PubMed Google Scholar
17. Rothnagel, J. A., Mehrel, T., Idler, W. W., Roop, D. R. & Steinert, P. M. The gene for mouse epidermal filaggrin precursor. Its partial characterization, expression, and sequence of a repeating filaggrin unit. J. Biol. Chem. 262, 15643–15648 (1987).
    CAS PubMed Google Scholar
18. Mehrel, T. et al. Identification of a major keratinocyte cell envelope protein, loricrin. Cell 71, 1103–1112 (1990).
    Article Google Scholar
19. Byrne, C., Tainsky, M. & Fuchs, E. Programming gene expression in developing epidermis. Development 120, 2369–2383 (1994).
    CAS PubMed Google Scholar
20. Hardy, M. H. & Vielkind, U. Changing patterns of cell adhesion molecules during mouse pelage hair follicle development. 1. Follicle morphogenesis in wild-type mice. Acta Anal. 157, 169–182 (1996).
    Article CAS Google Scholar
21. Bickenbach, J. R., Greer, J. M., bundman, D. S., Rothnagel, J. A. & Roop, D. R. Loricrin expression is coordinated with other epidermal proteins and the appearance of lipid lamellar granules in development. J. Invest. Dermatol. 104, 405–410 (1995).
    Article CAS Google Scholar
22. Hinchliffe, J. R. & Ede, D. A. Cell death and the development of limb form and skeletal pattern in normal and wingless (ws) chick embryos. J. Embryol. Exp. Morpho. 30, 753–772 (1973).
    CAS Google Scholar
23. Prahlad, K. V., Skala, G., Jones, D. G. & Briles, W. E. Limbless: a new genetic mutant in the chick. J. Exp. Zool. 209, 427–434 (1979).
    Article CAS Google Scholar
24. McNeish, J. D., Scott, W. J. J & Potter, S. S. Legless, a novel mutation found in PHT1-1 transgenic mice. Science 241, 837–839 (1988).
    Article ADS CAS Google Scholar
25. Ramirez-Solis, R., Liu, P. & Bradley, A. Chromosome engineering in mice. Nature 378, 720–724 (1995).
    Article ADS CAS Google Scholar
26. Osoegawa, K. et al. An improved approach for construction of bacterial artificial chromosome libraries. Genomics 51, 1–8 (1998).
    Article Google Scholar
27. Liu, P., Zhang, H., McLellan, A., Vogel, H. & Bradley, A. Embryonic lethality and tumorigenesis caused by segmental aneuploidy on mouse chromosome 11. Genetics 150, 155–1168 (1998).
    Google Scholar
28. Bradley, A. in Teratocarcinomas and Embryonic Stem Cells — a Practical Approach (ed. Robertson, E. J.) 113–151 (IRI, Oxford, 1987).
    Google Scholar
29. Wilkinson, D. G. In situ hybridization. A practical approach. (ed. Wilkinson, D. G.) (Oxford University Press, Oxford, 1992).
30. Wang, X. J., Greenhalgh, D. A., Lu, X. R., Bickenbach, J. R. & Roop, D. R. TGF alpha and v-fos cooperation in transgenic mouse epidermis induces aberrant keratinocyte differentiation and stable, autonomous papillomas. Oncogene 10, 279–289 (1995).
    CAS PubMed Google Scholar
31. Zheng, B., Mills, A. M. & Bradley, A. Asystem for rapid generation of coat color tagged knockouts and defined chromosomal rearrangements in mice. Nucleic Acids Res.(in the press).

Download references