Genetic Interactions Among Late-Flowering Mutants of Arabidopsis

Genetic Interactions Among Late-Flowering Mutants of Arabidopsis

M. Koornneef^a, C. Alonso-Blanco^a, H. Blankestijn-de Vries^a, C. J. Hanhart^a, and A. J. M. Peeters^a
^a Laboratory of Genetics, Graduate School Experimental Plant Sciences,Wageningen Agricultural University, NL-6703 HA, Wageningen, The Netherlands

Corresponding author: M. Koornneef, Laboratory of Genetics, Wageningen Agricultural University, 2 Dreijenlaan, NL-6703 HA, Wageningen, The Netherlands, maarten.koornneef{at}botgen.el.wau.nl (E-mail).

Communicating editor: J. CHORY

Flowering time in Arabidopsis is controlled by a large numberof genes, identified by induced mutations. Forty-two doublemutants involving 10 of these loci were obtained and analyzedfor their flowering behavior under long-day conditions, withand without vernalization, and under short-day conditions. Thegenetic interactions between the various mutants proved to becomplex, although a major epistatic group (called group A) couldbe identified corresponding to the mutants, which are relativelyinsensitive to vernalization and daylength. In contrast, thegenetic behavior of the mutants much more responsive to theseenvironmental factors (group B) is more complex. The vernalizationresponsiveness of the group B mutants did not compensate forthe lateness of the group A mutants. This indicated that thesegenes do not control vernalization sensitivity as such, butprovide a factor that becomes limiting in short days. The classificationof these mutants in different physiological groups is discussedin relation to the detected genetic interactions, and basedon these interactions a more detailed model of their role inflowering initiation is proposed.

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				T.-S. Tseng, P. A. Salome, C. R. McClung, and N. E. Olszewski SPINDLY and GIGANTEA Interact and Act in Arabidopsis thaliana Pathways Involved in Light Responses, Flowering, and Rhythms in Cotyledon Movements PLANT CELL, June 1, 2004; 16(6): 1550 - 1563. [Abstract] [Full Text] [PDF]

				P. K. Boss, R. M. Bastow, J. S. Mylne, and C. Dean Multiple Pathways in the Decision to Flower: Enabling, Promoting, and Resetting PLANT CELL, June 1, 2004; 16(suppl_1): S18 - S31. [Full Text] [PDF]

				M. Nakagawa and Y. Komeda Flowering of Arabidopsis cop1 Mutants in Darkness Plant Cell Physiol., April 15, 2004; 45(4): 398 - 406. [Abstract] [Full Text] [PDF]

				M.-H. Lim, J. Kim, Y.-S. Kim, K.-S. Chung, Y.-H. Seo, I. Lee, J. Kim, C. B. Hong, H.-J. Kim, and C.-M. Park A New Arabidopsis Gene, FLK, Encodes an RNA Binding Protein with K Homology Motifs and Regulates Flowering Time via FLOWERING LOCUS C PLANT CELL, March 1, 2004; 16(3): 731 - 740. [Abstract] [Full Text] [PDF]

				K. A. Franklin and G. C. Whitelam Light signals, phytochromes and cross-talk with other environmental cues J. Exp. Bot., January 2, 2004; 55(395): 271 - 276. [Abstract] [Full Text] [PDF]

				M. Schmid, N. H. Uhlenhaut, F. Godard, M. Demar, R. Bressan, D. Weigel, and J. U. Lohmann Dissection of floral induction pathways using global expression analysis Development, December 15, 2003; 130(24): 6001 - 6012. [Abstract] [Full Text] [PDF]

				Y. He, S. D. Michaels, and R. M. Amasino Regulation of Flowering Time by Histone Acetylation in Arabidopsis Science, December 5, 2003; 302(5651): 1751 - 1754. [Abstract] [Full Text] [PDF]

				S. El-Din El-Assal, C. Alonso-Blanco, A. J.M. Peeters, C. Wagemaker, J. L. Weller, and M. Koornneef The Role of Cryptochrome 2 in Flowering in Arabidopsis Plant Physiology, December 1, 2003; 133(4): 1504 - 1516. [Abstract] [Full Text] [PDF]

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				H. Zhang, C. Ransom, P. Ludwig, and S. van Nocker Genetic Analysis of Early Flowering Mutants in Arabidopsis Defines a Class of Pleiotropic Developmental Regulator Required for Expression of the Flowering-Time Switch Flowering Locus C Genetics, May 1, 2003; 164(1): 347 - 358. [Abstract] [Full Text] [PDF]