SEARCH

SEARCH BY CITATION

References

  • Adams, K.L., Cronn, R., Percifield, R. and Wendel, J.F. (2003) Genes duplicated by polyploidy show unequal contributions to the transcriptome and organ-specific reciprocal silencing. Proc. Natl Acad. Sci. USA, 100, 46494654.
  • Ainsworth, C. (2000) Boys and girls come out to play: the molecular biology of dioecious plants. Ann. Bot. 86, 211221.
  • Ainsworth, C., Crossley, S., Buchanan-Wollaston, V., Thangavelu, M. and Parker, J. (1995) Male and female flowers of the dioecious plant sorrel show different patterns of MADS box gene expression. Plant Cell, 7, 15831598.
  • Bowman, J.L., Smyth, D.R. and Meyerowitz, E.M. (1989) Genes directing flower development in Arabidopsis. Plant Cell, 1, 3752.
  • Bowman, J.L., Smyth, D.R. and Meyerowitz, E.M. (1991a) Genetic interactions among floral homeotic genes of Arabidopsis. Development, 112, 120.
  • Bowman, J.L., Drews, G.N. and Meyerowitz, E.M. (1991b) Expression of the Arabidopsis floral homeotic gene agamous is restricted to specific cell types late in flower development. Plant Cell, 3, 749758.
  • Brunet, J. and Liston, A. (2000) Breeding system evolution in the genus Thalictrum (meadow rue) Ranunculaceae. In Abstracts of the Botanical Society of America Meetings, Portland, OR.
  • Charlesworth, D. (1985) Distribution of dioecy and self-incompatibility in angiosperms. In Evolution – Essays in Honour of John Maynard Smith (Greenwood, P.J. and Slatkin, M., eds). Cambridge: Cambridge University Press, pp. 237268.
  • Coen, E.S. and Meyerowitz, E.M. (1991) The war of the whorls: genetic interactions controlling flower development. Nature, 353, 3137.
  • Colombo, L., Franken, J., Koetje, E., Van Went, J., Dons, H.J.M., Angenent, G.C. and Van Tunen, A.J. (1995) The petunia MADS box gene FBP11 determines ovule identity. Plant Cell, 7, 18591868.
  • Crossley, S.J. and Ainsworth, C.C. (1994) Structural and molecular aspects of dioecy in Rumex acetosa. Biochem. Soc. Trans. 22, 79S.
  • Davis, S.L. (1997) Stamens are not essential as an attractant for pollinators in females of cryptically dioecious Thalictrum pubescens Pursch. (Ranunculaceae). Sex. Plant Reprod. 10, 293299.
  • Dellaporta, S.L. and Calderon-Urrea, A. (1994) The sex determination process in maize. Science, 266, 15011505.
  • Farbos, I., Oliveira, M. and Negrutiu, I. (1997) Sex organ determination and differentiation in the dioecious plant Melandrium album (Silene latifolia): a cytological and histological analysis. Sex. Plant Reprod. 10, 155167.
  • Force, A., Lynch, M., Pickett, F.B., Amores, A., Yan, Y.-L. and Postlethwait, J. (1999) Preservation of duplicate genes by complementary, degenerative mutations. Genetics, 151, 15311545.
  • Glover, B.J. and Martin, C. (2000) Specification of epidermal cell morphology. In Advances in Botanical Research Incorporating Advances in Plant Pathology (Callow, J.A., ed). San Diego, CA: Academic Press, Vol. 31. pp. 193217.
  • Grant, S., Houben, A., Vyskot, B., Siroky, J., Pan, W.H., Macas, J. and Saedler, H. (1994) Genetics of sex determination in flowering plants. Dev. Genet. 15, 214230.
  • Gregory, W.C. (1941) Phylogenetic and cytological studies in the Ranunculaceae. Trans. Am. Philos. Soc. 31, 446497.
  • Hardenack, S., Ye, D., Saedler, H. and Grant, S. (1994) Comparison of Mads box gene expression in developing male and female flowers of the dioecious plant white campion. Plant Cell, 6, 17751787.
  • Hill, L.M. (1989) IOPB chromosome data 1. Int. Org. Plant Biosyst. Newslett. 13, 1719.
  • Jack, T., Brockman, L.L. and Meyerowitz, E.M. (1992) The homeotic gene APETALA3 of Arabidopsis thaliana encodes a MADS box and is expressed in petals and stamens. Cell, 68, 683697.
  • Kaplan, S.M. and Mulcahy, D.L. (1971) Mode of pollination and floral sexuality in Thalictrum. Evolution, 25, 659668.
  • Kater, M.M., Franken, J., Carney, K.J., Colombo, L. and Angenent, G.C. (2001) Sex determination in the monoecious species cucumber is confined to specific floral whorls. Plant Cell, 13, 481493.
  • Kay, Q.O.N., Daoud, H.S. and Stirto, C.H. (1981) Pigment distribution, light reflection and cell structure in petals. Bot. J. Linn. Soc. 83, 3784.
  • Kramer, E.M. and Irish, V.F. (1999) Evolution of genetic mechanisms controlling petal development. Nature, 399, 144148.
  • Kramer, E.M., Dorit, R.L. and Irish, V.F. (1998) Molecular evolution of genes controlling petal and stamen development: Duplication and divergence within the APETALA3 and PISTILLATA MADS-box gene lineages. Genetics, 149, 765783.
  • Kramer, E.M., Di Stilio, V.S. and Schluter, P. (2003) Complex patterns of gene duplication in the APETALA3 and PISTILLATA lineages of the Ranunculaceae. IJPS, 164, 111.
  • Kramer, E.M., Jaramillo, M.A. and Di Stilio, V.S. (2004) Patterns of gene duplication and functional evolution during the diversification of the AGAMOUS subfamily of MADS box genes in angiosperms. Genetics, 166, 10111023.
  • Krizek, B.A. and Meyerowitz, E.M. (1996) The Arabidopsis homeotic genes APETALA3 and PISTILLATA are sufficient to provide the B class organ identity function. Development, 122, 1122.
  • Kuhn, E. (1930) Uber Kreuzungen des getrenntgeschlechtigen Thallictrum fendleri mit gemischtgeschlechtigen. Arten. Biol. Zentr. 50, 79102.
  • Kuhn, E. (1939) Selbstbestäubungen subdiözischer Blütenpflanzen, ein neuer Beweis für die genetische Theorie der Geschlechtsbestimmung. Planta, 30, 457470.
  • Lebel-Hardenack and Grant, S. (1997) Genetics of sex determination in flowering plants. Trends Plant Sci. 2, 130136.
  • Liljegren, S.J., Ditta, G.S., Eshed, Y., Savidge, B., Bowman, J.L. and Yanofsky, M.F. (2000) SHATTERPROOF MADS-box genes control seed dispersal in Arabidopsis. Nature, 404, 766770.
  • Linke, B., Nothnagel, T. and Borner, T. (2003) Flower development in carrot CMS plants: mitochondria affect the expression of MADS box genes homologous to GLOBOSA and DEFICIENS. Plant J. 34, 2737.
  • Liu, J.Y., Huang, Y.H., Ding, B. and Tauer, C.G. (1999) cDNA cloning and expression of a sweetgum gene that shows homology with Arabidopsis AGAMOUS. Plant Sci. 142, 7382.
  • Lloyd, D.G. (1980) The distribution of gender in four angiosperm species illustrating two evolutionary pathways to dioecy. Evolution, 34, 123134.
  • Long, J.A., Moan, E.I., Medford, J.I. and Barton, M.K. (1996) A member of the KNOTTED class of homeodomain proteins encoded by the STM gene of Arabidopsis. Nature, 379, 6669.
  • Malepszy, S. and Niemirowicz-Szczytt, K. (1991) Sex determination in cucumber (Cucumis sativus) as a model system for molecular biology. Plant Sci. 80, 3947.
  • Park, J.H., Ishijawa Y., Yoshida, R., Kanno, A. and Kameya, T. (2003) Expression of AODEF, a B-functional MADS-box gene, in stamens and inner tepals of the dioecious species Asparagus officinalis L. Plant Mol. Biol. 51, 867875.
  • Renner, S.S. and Ricklefs, R.E. (1995) Dioecy and its correlates in the flowering plants. Am. J. Bot. 82, 596606.
  • Ross, M.D. (1970) Evolution of dioecy from gynodioecy. Evolution, 24, 827828.
  • Samanami, N., Park, S.-U. and Facchini, P.J. (2002) In vitro regeneration and genetic transformation of the berberine-producing plant, Thalictrum flavum ssp. glaucum. Physiol. Plant. 116, 7986.
  • Swofford, D.L. (2001) Phylogenetic Analysis Using Parsimony (*and other methods). Sunderland, MA: Sinauer Associates.
  • Tamura, M. (1993) Ranunculaceae. In The Families and Genera of Vascular Plants. 2. Flowering plants. Dicotyledons. Magnoliid, Hamamelid and Caryophyllid Families, (Kubitzki, K., Rohwer, J.G. and Bittrich, V., eds). Berlin: Springer, pp. 563583.
  • Theissen, G., Becker, A., Di Rosa, A., Kanno, A., Kim, J.T., Munster, T., Winter, K.-U. and Saedler, H. (2000) A short history of MADS-box genes in plants. Plant Mol. Biol. 42, 115149.
  • Trelease, W. (1886) North American species of Thalictrum. Proc. Boston Soc. Nat. Hist. 23, 293304.
  • Westergaard, M. (1958) The mechanism of sex determination in dioecious flowering plants. Adv. Genet. 9, 217281.
  • Yu, D., Kotilainen, M., Pöllänen, E., Mehto, M., Elomaa, P., Helariutta, Y., Albert, V.A. and Teeri, T.H. (1999) Organ identity and modified patterns of flower development in Gerbera hybrida (Asteraceae). Plant J. 17, 5162.