SEARCH

SEARCH BY CITATION

References

  • Alvarez, J., Guli, C.L., Yu, X.-H., Smith, D.R. (1992) Terminal flower: a gene affecting inflorescence development in Arabidopsis thaliana. Plant J. 2 (1), 103116.
  • Bechtold, N., Ellis, J., Pelletier, G. (1993) In-planta Agrobacterium-mediated gene-transfer by infiltration of adult Arabidopsis thaliana plants. Compt. Rend. Acad. Sci. Ser. III-Life Sci. 316, 11941199.
  • Becker, D., Kemper, E., Schell, J., Masterson, R. (1992) New plant binary vectors with selectable markers located proximal to the left T-DNA border. Plant Mol. Biol. 20, 11951197.
  • Berbel, A., Navarro, C., Ferrándiz, C., Cañas, L.A., Madueño, F., Beltrán, J.-P. (2001) Analysis of PEAM4, the pea AP1 functional homologue supports a model for, AP1-like genes controlling both floral meristem and floral organ identity in different plant species. Plant J. 25 (4), 441451.
  • Bradley, D., Carpenter, R., Sommer, H., Hartley, N., Coen, E. (1993) Complementary floral homeotic phenotypes result from opposite orientations of a transposon at the plena locus of Antirrhinum. Cell, 72, 8595.
  • Bradley, D., Ratcliffe, O., Vincent, C., Carpenter, R., Coen, E. (1997) Inflorescence commitment and architecture in Arabidopsis. Science, 275, 8083.DOI: 10.1126/science.275.5296.80
  • Davies, B., Motte, P., Keck, E., Saedler, H., Sommer, H., Schwarz-Sommer, Z. (1999) PLENA and FARINELLI: redundancy and regulatory interactions between two Antirrhinum MADS-box factors controlling flower development. EMBO J. 18 (14), 40234034.
  • Egea-Cortines, M., Saedler, H., Sommer, H. (1999) Ternary complex formation between the MADS-box proteins SQUAMOSA, DEFICIENS and GLOBOSA is involved in the control of floral architecture in Antirrhinum majus. EMBO J. 18 (19), 53705379.
  • Esau, K. (1977) The flower: structure and development. In: Anatomy of Seed Plants. John Wiley & Sons, Inc. pp. 375401.
  • Ferrándiz, C., Pelaz, S., Yanofsky, M.F. (1999) Control of carpel and fruit development in Arabidopsis. Annu. Rev. Biochem. 68, 321354.
  • Ferrándiz, C., Gu, Q., Martienssen, R., Yanofsky, M.F. (2000a) Redundant regulation of meristem identity and plant architecture by FRUITFULL, APETALA1 and CAULIFLOWER. Development, 127, 725734.
  • Ferrándiz, C., Liljegren, S., Yanofsky, M.F. (2000b) Negative regulation of the SHATTERPROOF genes by FRUITFULL during Arabidopsis fruit development. Science, 289, 436438.DOI: 10.1126/science.289.5478.436
  • Gu, Q., Ferrándiz, C., Yanofsky, M.F., Martienssen, R. (1998) The FRUITFULL MADS-box gene mediates cell differentiation during Arabidopsis fruit development. Development, 125, 15091517.
  • Heidmann, I., Efremova, N., Saedler, H., Schwarz-Sommer, Z. (1998) A protocol for transformation and regeneration of Antirrhinum majus. Plant J. 13 (5), 723728.
  • Huijser, P., Klein, J., Lönnig, W.-E., Meijer, H., Saedler, H., Sommer, H. (1992) Bracteomania, an inflorescence anomaly, is caused by the loss of function of the MADS-box gene squamosa in Antirrhinum majus. EMBO J. 11 (4), 12391249.
  • Immink, R.G.H., Hannapel, D.J., Ferrario, S., Busscher, M., Franken, J., Campagne, M.M.L., Angenent, G.C. (1999) A petunia MADS box gene involved in the transition from vegetative to reproductive development. Development, 126, 51175126.
  • Irish, V.F. & Sussex, I.M. (1990) Function of the APETALA-1 gene during Arabidopsis floral development. Plant Cell, 2, 741753.
  • Kempin, S.A., Savidge, B., Yanofsky, M.F. (1995) Molecular basis of the cauliflower phenotype in Arabidopsis. Science, 267, 522525.
  • Koncz, C. & Schell, J. (1986) The promoter of T-L DNA gene 5 controls the tissue-specific expression of chimeric genes carried by a novel type of Agrobacterium binary vector. Mol. Gen. Genet. 204 (3), 383396.
  • Kyozuka, J., Harcourt, R., Peacock, W.J., Dennis, E.S. (1997) Eucalyptus has functional equivalents of the Arabidopsis AP1 gene. Plant Mol. Biol. 35, 573584.
  • Liljegren, S.J., Ditta, G.S., Eshed, Y., Savidge, B., Bowman, J.L., Yanofsky, M.F. (2000) SHATTERPROOF MADS-box genes control seed dispersal in Arabidopsis. Nature, 404, 766770.
  • Mandel, M.A., Gustafson-Brown, C., Savidge, B., Yanofsky, M.F. (1992) Molecular characterization of the Arabidopsis floral homeotic gene APETALA1. Nature, 360, 273277.
  • Mandel, M.A. & Yanofsky, M.F. (1995a) A gene triggering flower formation in Arabidopsis. Nature, 377, 522524.
  • Mandel, M.A. & Yanofsky, M.F. (1995b) The Arabidopsis AGL8 MADS-box gene is expressed in inflorescence meristems and is negatively regulated by APETALA1. Plant Cell, 7, 17631771.
  • MacLeod, J. (1981). Harvesting in Oilseed Rape. In Oilseed Rape Book. Cambridge, UK.Agricultural Publishing, pp. 107120.
  • Perbal, M.-C., Haughn, G., Saedler, H., Schwarz-Sommer, Z. (1996) Non-cell-autonomous function of the Antirrhinum floral homeotic proteins DEFICIENS and GLOBOSA is exerted by their polar cell-to-cell trafficking. Development, 122, 34333441.
  • Puri, V. (1952) Placentation in Angiosperms. The Bot. Review, XVIII (9), 603651.
  • Ratcliffe, O.J., Bradley, D.J., Coen, E.S. (1999) Separation of shoot and floral identity in Arabidopsis. Development, 126, 11091120.
  • Savidge, B., Rounsley, S.D., Yanofsky, M.F. (1995) Temporal relationship between the transcription of two Arabidopsis MADS-box genes and the organ identity genes. Plant Cell, 7, 721733.
  • Schwarz-Sommer, Z., Hue, I., Huijser, P., Flor, P.J., Hansen, R., Tetens, F., Lönnig, W.-E., Saedler, H., Sommer, H. (1992) Characterization of the Antirrhinum floral homeotic MADS-box gene deficiens: evidence for DNA binding and autoregulation of its persistent expression throughout flower development. EMBO J. 11, 251263.
  • Shannon, S. & Meeks-Wagner, D.R. (1991) A mutation in the Arabidopsis TFL1 gene affects inflorescence meristem development. Plant Cell, 3, 877892.
  • Sommer, H., Beltrán, J.P., Huijser, P., Pape, H., Lönnig, W.-E., Saedler, H., Schwarz-Sommer, Z. (1990) Deficiens, a homeotic gene involved in the control of flower morphogenesis in Antirrhinum majus: the protein shows homology to transcription factors. EMBO J. 11, 46934704.
  • Spence, J., Vercher, Y., Gates, P., Harris, N. (1996) ‘Pod shatter’ in Arabidopsis thaliana, Brassica napus and B. juncea. J. Microscopy, 181 (2), 195203.
  • Sutton, D.A. (1988) Diagrammatic representation of capsule dehiscence in the Antirrhineae. In: A Revision of the Tribe Antirrhineae. British Museum (Nat. Hist.), London & Oxford, UK: Oxford University Press, p. 33.
  • Theißen, G., Kim, J.T., Saedler, H. (1996) Classification and phylogeny of the MADS-box multigene family suggest defined roles of MADS-box gene subfamilies in the morphological evolution of eukaryotes. J. Mol. Evol. 43, 484516.
  • Theißen, G., Becker, A., Di Rosa, A., Kanno, A., Kim, J.T., Münster, T., Winter, K.-U., Saedler, H. (2000a) A short history of MADS-box genes in plants. Plant Mol. Biol. 42, 115149.
  • Theißen, G. (2000b) Shattering developments. Nature, 404, 711713.
  • Tröbner, W., Ramirez, L., Motte, P., Hue, I., Huijser, P., Lönnig, W.-E., Saedler, H., Sommer, H., Schwarz-Sommer, Z. (1992) GLOBOSA: a homeotic gene which interacts with DEFICIENS in the control of Antirrhinum floral organogeneis. EMBO J. 11, 46934704.
  • Winter, K.-U., Becker, A., Münster, T., Kim, J.T., Saedler, H., Theißen, G. (1999) MADS-box genes reveal that gnetophytes are more closely related to conifers than to flowering plants. Proc. Natl Acad. Sci. 96, 73427347.
  • Yalovsky, S., Rodriguez-Concepción, M., Bracha, K., Toledo-Ortiz, G., Gruissem, W. (2000) Prenylation of the floral transcription factor APETALA1 modulates its function. Plant Cell, 12, 12571266.
  • Yanofsky, M.F., Ma, H., Bowman, J.L., Drews, G.N., Feldmann, K.A., Meyerowitz, E.M. (1990) The protein encoded by the Arabidopsis homeotic gene agamous resembles transcription factors. Nature, 346, 3539.
  • Zachgo, S., Saedler, H., Schwarz-Sommer, Z. (1997) Pollen-specific expression of DEFH125, a MADS-box transcription factor in Antirrhinum with unusual features. Plant J. 11 (5), 10431050.