Prunet Nathanaël, Morel Patrice, Thierry Anne-Marie, Eshed Yuval, Bowman John L, Negrutiu Ioan, Trehin Christophe
Laboratoire de Reproduction et Développement des Plantes, Université de Lyon, Centre National de la Recherche Scientifique, Institut National de la Recherche Agronomique/Ecole Normale Supérieure, F-69347 Lyon cedex 07, France.
Plant Cell. 2008 Apr;20(4):901-19. doi: 10.1105/tpc.107.053306. Epub 2008 Apr 25.
In Arabidopsis thaliana, flowers are determinate, showing a fixed number of whorls. Here, we report on three independent genes, a novel gene REBELOTE (RBL; protein of unknown function), SQUINT (SQN; a cyclophilin), and ULTRAPETALA1 (ULT1; a putative transcription factor) that redundantly influence floral meristem (FM) termination. Their mutations, combined with each other or with crabs claw, the genetic background in which they were isolated, trigger a strong FM indeterminacy with reiterations of extra floral whorls in the center of the flower. The range of phenotypes suggests that, in Arabidopsis, FM termination is initiated from stages 3 to 4 onwards and needs to be maintained through stage 6 and beyond, and that RBL, SQN, and ULT1 are required for this continuous regulation. We show that mutant phenotypes result from a decrease of AGAMOUS (AG) expression in an inner 4th whorl subdomain. However, the defect of AG activity alone does not explain all reported phenotypes, and our genetic data suggest that RBL, SQN, and, to a lesser extent, ULT1 also influence SUPERMAN activity. Finally, from all the molecular and genetic data presented, we argue that these genes contribute to the more stable and uniform development of flowers, termed floral developmental homeostasis.
在拟南芥中,花是有限生长的,具有固定数量的轮状结构。在此,我们报道了三个独立的基因,一个新基因REBELOTE(RBL;功能未知的蛋白质)、SQUINT(SQN;一种亲环蛋白)和ULTRAPETALA1(ULT1;一种假定的转录因子),它们对花分生组织(FM)的终止具有冗余影响。它们的突变,相互组合或与分离出它们的遗传背景“蟹爪”组合,会引发强烈的FM不确定性,在花的中心出现额外花轮的重复。表型范围表明,在拟南芥中,FM终止从第3阶段到第4阶段开始,并且需要维持到第6阶段及以后,而RBL、SQN和ULT1是这种持续调节所必需的。我们表明,突变表型是由于第4轮内部子域中AGAMOUS(AG)表达的降低所致。然而,单独的AG活性缺陷并不能解释所有报道的表型,我们的遗传数据表明,RBL、SQN以及在较小程度上ULT1也影响SUPERMAN活性。最后,根据所呈现的所有分子和遗传数据,我们认为这些基因有助于花的更稳定和均匀发育,即花发育稳态。