Subscribe to RSS
DOI: 10.1055/s-2000-16640
Temporal and Spatial Expression of MADS Box Genes, FBP7 and FBP11, During Initiation and Early Development of Ovules in Wild Type and Mutant Petunia hybrida
Publication History
July 12, 2000
October 5, 2000
Publication Date:
27 August 2001 (online)
Abstract
The temporal and spatial distribution of the Petunia Floral Binding Proteins 7 and 11 (FBP7/11) were determined immunocytochemically during ovule initiation and development. In wild type plants, FBP7/11 were first detected in the placenta before ovule primordia were formed. At ovule primordium stage, FBP7/11 levels increased in the placenta and appeared in ovule primordia at the sites where integument primordia developed. At the megagametogenesis stage, FBP7/11 were present at high levels in the placenta, funicle and integument, but not in the nucellus or gametophyte.
Transgenics with cosuppression of FBP7/11 formed normal ovule primordia on the placenta from which both normal ovules and carpel-like structures developed. The amount of FBP7/11 was low in the ovules and undetectable in the carpel-like structures. Plants with ectopic expression of FBP7/11 developed normal ovules on the placenta and, in addition, ovule- and carpel-like structures on sepals. Placental and sepal ovules showed the same labeling pattern as observed in wild type ovules. FBP7/11 levels were, however, low or undetectable in the carpel-like structures.
The results indicate that FBP7/11 only have indirect roles in ovule primordium initiation. However, at least small quantities are needed for proper ovule differentiation. Thus, the amount of FBP7/11 is related to the type of development after primordium formation, i.e., towards the formation of real ovules or carpel-like structures.
Abbreviation
FBP: Floral Binding Protein
Key words
Petunia - ovule development - immunocytochemistry - FBP7/11 - MADS box genes
References
- 01 Angenent, C. G.,, Franken, J.,, Busscher, M.,, van Dijken, A.,, van Went, J. L.,, Dons, H. J. M.,, and van Tunen, A. J.. (1995); A novel class of MADS box genes is involved in ovule development in Petunia. . Plant Cell. 7 1569-1582
- 02 Angenent, C. G.,, Busscher, M.,, Franken, J.,, Mol, J. N. M.,, and van Tunen, A. J.. (1992); Differential expression of two MADS box genes in wild-type and mutant petunia flowers. Plant Cell. 4 983-993
-
03 Bouman, F.. (1984)
The ovule. Embryology of angiosperms. Jori, B.M., ed. Berlin; Springer-Verlag pp. 123-157 - 04 Cañas, L. A.,, Busscher, M.,, Angenent, G. C.,, Beltran, J. P.,, and van Tunen, A. J.. (1994); Nuclear localization of the Petunia MADS box protein FBP1. Plant J. 6 597-604
- 05 Coen, E. S., and Meyerowitz, E. M.. (1991); The war of the whorls: genetic interactions controlling flower development. Nature. 353 31-37
- 06 Colombo, L. C.,, 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 1859-1868
- 07 Colombo, L.,, Franken, J.,, van der Krol, A. R.,, Wittich, P. E.,, Dons, H. J. M.,, and Angenent, G. C.. (1997); Downregulation of ovule-specific MADS box genes from Petunia results in maternally controlled defects in seed development. Plant Cell. 9 703-715
- 08 Kater, M. M.,, Colombo, L.,, Franken, J.,, Busscher, M.,, Masiero, S.,, Campagne, M. M. V.,, and Angenent, G. C.. (1998); Multiple AGAMOUS homologs from cucumber and petunia differ in their ability to induce reproductive organ fate. Plant Cell. 10 171-182
- 09 Lee, H. S.,, Chung, Y. Y.,, Das, C.,, Karunanandaa, B.,, Went, J. L.,, van Mariani, C.,, and Kao, T. H.. (1997); Embryo sac development is affected in Petunia inflata plants transformed with an antisense gene encoding the extracellular domain of receptor kinase PRK1. Sex Plant Reprod. 10 341-350
- 10 Reiser, L., and Fischer, R. L.. (1993); The ovule and the embryo sac. The Plant Cell. 5 1291-1301
- 11 Schneitz, K.,, Balasubramanian, S.,, and Schiefthaler, U.. (1998); Organogenesis in plants: the molecular and genetic control of ovule development. Trends in Plant Science. 3 468-472
- 12 Stelly, D. M.,, Peloquin, S. J.,, Palmer, R. G.,, and Crane, C. F.. (1984); Mayer's hemalum-methyl salicylate: A stain-clearing technique for observation within whole ovules. Stain Technology. 59 155-161
- 13 van Went, J. L.. (1970); The ultrastructure of the egg and central cell of Petunia. . Acta Bot. Neerl.. 19 313-322
- 14 van Went, J. L., and Kwee, H. S.. (1990); Enzymatic isolation of living embryo sacs of Petunia. . Sex Plant Reprod. 3 257-262
- 15 Villanueva, J. C.,, Broadhvest, J.,, Hauser, B. A.,, Meister, R. J.,, Schneitz, K.,, and Gasser, C. S.. (1999); INNER NO OUTER regulates abaxial-adaxial patterning in Arabidopsis ovules. Genes and Development. 13 3160-3169
- 16 Western, T. L., and Haughn, G. W.. (1999); BELL1 and AGAMOUS genes promote ovule identity in Arabidopsis thaliana. . Plant Journal. 18 329-336
-
17 Willemse, M. T. M., and van Went, J. L.. (1984)
The female gametophyte. Embryology of angiosperms. Johri, B. M., ed. Berlin; Springer-Verlag pp. 159-196 - 18 Wittich, P. E.,, de Heer, R. F.,, Cheng, X. F.,, Kieft, H.,, Colombo, L.,, Angenent, G. C.,, and van Lammeren, A. A. M.. (1999); Immunolocalization of the Petunia Floral Binding Proteins 7 and 11 during seed development in Petunia hybrida. . Protoplasma. 208 224-229
- 19 Yanofsky, M. F.,, Ma, H.,, Bowman, J. L.,, Drews, G. H.,, Feldman, K. A.,, and Meyerowitz, E. M.. (1990); Agamous: an Arabidopsis gene whose product resembles transcription factors. Nature. 346 35-39
A. A. M. van Lammeren
Laboratory of Experimental Plant Morphology and Cell Biology
Department of Plant Sciences
Wageningen University
Arboretumlaan 4
6703 BD Wageningen
The Netherlands
Email: andre.vanlammeren@PCB.DPW.wag-ur.nl
Section Editor: M. Koornneef