spacer gif spacer gif spacer gif spacer gif spacer gif
QUICK SEARCH:   [advanced]


spacer gif
     Home     Help     Feedback     Subscriptions     Archive     Search     Table of Contents    

This Article
Right arrow Summary Freely available
Right arrow Full Text (PDF)
Right arrow Alert me when this article is cited
Right arrow Alert me if a correction is posted
Services
Right arrow Email this article to a friend
Right arrow Similar articles in this journal
Right arrow Similar articles in PubMed
Right arrow Alert me to new issues of the journal
Right arrow Download to citation manager
Right arrow reprints & permissions
Citing Articles
Right arrow Citing Articles via HighWire
Right arrow Citing Articles via Google Scholar
Google Scholar
Right arrow Articles by Motte, P.
Right arrow Articles by Schwarz-Sommer, Z.
Right arrow Search for Related Content
PubMed
Right arrow PubMed Citation
Right arrow Articles by Motte, P.
Right arrow Articles by Schwarz-Sommer, Z.
Bowman, J. L., Alvarez, J., Weigel, D., Meyerowitz, E. and Smyth, D. R (1993). Control of flower development in Arabidopsis thaliana by APETALA1 and interacting genes. Development 119, 721-743.[Abstract]

Bradley, D., Carpenter, R., Sommer, H., Hartley, N. and Coen, E (1993). Complementary floral homeotic phenotypes result from opposite orientations of a transposon at the plena locus of Antirrhinum. Cell 72, 85-95.[Medline]

Carpenter, R. and Coen, E. S (1990). Floral homeotic mutations produced by transposon-mutagenesis in Antirrhinum majus. Genes Dev 4, 1483-1493.[Abstract/Free Full Text]

Carpenter, R., Copsey, L., Vincent, C., Doyle, S., Magrath, R. and Coen, E (1995). Control of flower development and phyllotaxy by meristem identity genes in Antirrhinum. Plant Cell 7, 2001-2011.[Abstract]

Coen, E. S. and Meyerowitz, E. M (1991). The war of the whorls: genetic interactions controlling flower development. Nature 353, 31-37.[Medline]

Coen, E. S., Romero, J. M., Doyle, S., Elliott, R., Murphy, G. and Carpenter, R (1990). floricaula : a homeotic gene required for flower development in Antirrhinum majus. Cell 63, 1311-1322.[Medline]

Goodrich, J., Puangsomlee, P., Martin, M., Long, D., Meyerowitz, E. M. and Coupland, G (1997). A Polycomb-group gene regulates homeotic gene expression in Arabidopsis. Nature 386, 44-51.[Medline]

Gustafson-Brown, C., Savidge, B. and Yanofsky, M. F (1994). Regulation of the Arabidopsis floral homeotic gene APETALA1. Cell 76, 131-143.[Medline]

Hantke, S. S., Carpenter, R. and Coen, E. S (1995). Expression of floricaula in single cell layers of periclinal chimeras activates downstream homeotic genes in all layers of floral meristems. Development 121, 27-35.[Abstract]

Haughn, G. W., Schultz, E. A. and Martinez-Zapater, J. M (1995). The regulation of flowering in Arabidopsis thaliana \320 meristems, morphogenesis, and mutants. Can. J. Bot 73, 959-981.

Haughn, G. W. and Somerville, C. R (1988). Genetic control of morphogenesis in Arabidopsis. Dev. Genet 9, 73-89.

Huijser, P., Klein, J., L\232nnig, W.-E., Meijer, H., Saedler, H. and Sommer, H (1992). Bractomania, an inflorescence anomaly, is caused by the loss of function of the MADS-box gene squamosa in Antirrhinum majus. EMBO J 11, 1239-1249.[Medline]

Jack, T., Sieburth, L. and Meyerowitz, M (1997). Targeted misexpression of AGAMOUS in whorl 2 of Arabidopsis flowers. Plant J 11, 825-839.[Medline]

Jofuku, K. D., den Boer, B. G. W., Van Montagu, M. and Okamuro, J. K (1994). Control of Arabidopsis flower and seed development by the homeotic gene APETALA2. Plant Cell 6, 1211-1225.[Abstract]

Liu, Z. and Meyerowitz, E. M (1995). LEUNIG regulates AGAMOUS expression in Arabidopsis flowers. Development 121, 975-991.[Abstract]

L\232nnig, W. E. and Saedler, H (1994). The homeotic Macho mutant of Antirrhinum majus reverts to wild-type or mutates to the homeotic plena phenotype. Mol. Gen. Genet 245, 636-643.[Medline]

Mandel, M. A., Gustafson-Brown, C., Savidge, B. and Yanofsky, M. F (1992). Molecular characterization of the Arabidopsis floral homeotic gene APETALA1. Nature 360, 273-277.[Medline]

Okamuro, J. K., den Boer, B. G. W. and Jofuku, K. D (1993). Regulation of Arabidopsis flower development. Plant Cell 5, 1183-1193.[Free Full Text]

Okamuro, J. K., Szeto, W., Lotys-Prass, C. and Jofuku, K. D (1997). Photo and hormonal control of meristem identity in the Arabidopsis flower mutants apetala2 and apetala1. Plant Cell 9, 37-47.[Abstract]

Perbal, M.-C., Haughn, G., Saedler, H. and 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, 3433-3441.[Abstract]

Samach, A., Kohalmi, S. E., Motte, P., Datla, R. and Haughn, G. W (1997). Divergence of function and regulation of class B floral organ identity genes. Plant Cell 9, 559-570.[Abstract]

Scanlon, M. J., Scheeberger, R. G. and Freeling, M (1996). The maize mutant narrow sheath fails to establish leaf margin identity in a meristematic domain. Development 122, 1683-1691.[Abstract]

Schultz, E. A. and Haughn, G. W (1993). Genetic analysis of the floral initiation process (FLIP) in Arabidopsis. Development 119, 745-765.[Abstract]

Schwarz-Sommer, Z., Hue, I., Huijser, P., Flor, P. J., Hansen, R., Tetens, F., L\232nnig, W.-E., Saedler, H. and 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, 251-263.[Medline]

Schwarz-Sommer, Z., Huijser, P., Nacken, W., Saedler, H. and Sommer, H (1990). Genetic control of flower development by homeotic genes in Antirrhinum majus. Science 250, 931-936.[Abstract/Free Full Text]

Simon, R., Carpenter, R., Doyle, S. and Coen, E (1994). Fimbriata controls flower development by mediating between meristem and organ identity genes. Cell 78, 99-107.[Medline]

Sommer, H., Beltran, J. P., Huijser, P., Pape, H., L\232nnig, W. E., Saedler, H. and Schwarz-Sommer, Z (1990). Deficiens , a homeotic gene involved in the control of flower morphogenesis in Antirrhinummajus : the protein shows homology to transcription factors. EMBO J 9, 605-613.[Medline]

Tr\232bner, W., Ramirez, L., Motte, P., Hue, I., Huijser, P., L\232nnig, W.-E., Saedler, H., Sommer, H. and Schwarz-Sommer, Z (1992). GLOBOSA : a homeotic gene which interacts with DEFICIENS in the control of Antirrhinum floral organogenesis. EMBO J 11, 4693-4704.[Medline]

Tsuchimoto, S., van der Krol, A. R. and Chua, N. H (1993). Ectopic expression of pMADS3 in transgenic petunia phenocopies the petunia blind mutant. Plant Cell 5, 843-853.[Abstract/Free Full Text]

Weigel, D. and Meyerowitz, E. M (1994). The ABCs of floral homeotic genes. Cell 78, 203-209.[Medline]

Yanofsky, M. F., Ma, H., Bowman, J. L., Drews, G. N., Feldmann, K. A. and Meyerowitz, E. M (1990). The protein encoded by the Arabidopsis homeotic gene agamous resembles transcription factors. Nature 346, 35-39.[Medline]

Zachgo, S., de Andrade Silva, E., Motte, P., Tr\232bner, W., Saedler, H. and Schwarz-Sommer, Z (1995). Functional analysis of the Antirrhinum floral homeotic DEFICIENS gene in vivo and in vitro by using a temperature-sensitive mutant. Development 121, 2861-2875.[Abstract]


This article has been cited by other articles:


Home page
 DevelopmentHome page
C. Navarro, N. Efremova, J. F. Golz, R. Rubiera, M. Kuckenberg, R. Castillo, O. Tietz, H. Saedler, and Z. Schwarz-Sommer
Molecular and genetic interactions between STYLOSA and GRAMINIFOLIA in the control of Antirrhinum vegetative and reproductive development
Development, August 1, 2004; 131(15): 3649 - 3659.
[Abstract] [Full Text] [PDF]

Home page
 Plant CellHome page
T. Maes, N. Van de Steene, J. Zethof, M. Karimi, M. D'Hauw, G. Mares, M. Van Montagu, and T. Gerats
Petunia Ap2-like Genes and Their Role in Flower and Seed Development
PLANT CELL, February 1, 2001; 13(2): 229 - 244.
[Abstract] [Full Text]

Home page
 DevelopmentHome page
M Wilkinson, E de Andrade Silva, S Zachgo, H Saedler, and Z Schwarz-Sommer
CHORIPETALA and DESPENTEADO: general regulators during plant development and potential floral targets of FIMBRIATA-mediated degradation
Development, January 9, 2000; 127(17): 3725 - 3734.
[Abstract] [PDF]

Home page
 ScienceHome page
M. A. Busch, K. Bomblies, and D. Weigel
Activation of a Floral Homeotic Gene in Arabidopsis
Science, July 23, 1999; 285(5427): 585 - 587.
[Abstract] [Full Text]

Home page
 DevelopmentHome page
P. McSteen, C. Vincent, S Doyle, R Carpenter, and E. Coen
Control of floral homeotic gene expression and organ morphogenesis in Antirrhinum
Development, January 7, 1998; 125(13): 2359 - 2369.
[Abstract] [PDF]

This Article
Right arrow Summary Freely available
Right arrow Full Text (PDF)
Right arrow Alert me when this article is cited
Right arrow Alert me if a correction is posted
Services
Right arrow Email this article to a friend
Right arrow Similar articles in this journal
Right arrow Similar articles in PubMed
Right arrow Alert me to new issues of the journal
Right arrow Download to citation manager
Right arrow reprints & permissions
Citing Articles
Right arrow Citing Articles via HighWire
Right arrow Citing Articles via Google Scholar
Google Scholar
Right arrow Articles by Motte, P.
Right arrow Articles by Schwarz-Sommer, Z.
Right arrow Search for Related Content
PubMed
Right arrow PubMed Citation
Right arrow Articles by Motte, P.
Right arrow Articles by Schwarz-Sommer, Z.