Boiten Hilde, Azmi Abdelkrim, Dillen Willy, De Schepper Sandra, Debergh Pierre, Gerats Tom, Van Onckelen Harry, Prinsen Els
Laboratory of Plant Biochemistry and Physiology, Department of Biology, University of Antwerp (UA), B-2610 Antwerp, Belgium.
Department of Plant Systems Biology, University of Ghent (RUG), B-9000 Ghent, Belgium.
New Phytol. 2004 Mar;161(3):761-771. doi: 10.1111/j.1469-8137.2004.00993.x. Epub 2004 Jan 14.
• Cytokinin (CK) metabolism was analyzed in tomato (Lycopersicon esculentum) Rg-1 hybrids during in vitro shoot organogenesis from root explants. • Data were obtained by combining physicochemical analysis with quantification and in situ detection methods. • Although exogenous zeatin is added in all classical regeneration protocols, we show here that regenerating (Rg ) tomato explants did not require an exogenous CK source for regeneration. Irrespective of the presence or absence of exogenous zeatin, the endogenous CK levels were not affected by Rg-1 in the initial explants or in the early callus phase. In a later stage, and related to the presence of numerous shoots, the Rg explants showed much lower endogenous CK concentrations than the nonregenerating (rg ) explants. Cells of rg explants were not able to differentiate, despite their high endogenous CK content, and did not respond to exogenously applied CKs. • We show that the insensitivity of rg explants to a hormonal signal, normally initiating regeneration, is not related to an altered endogenous CK metabolism. We therefore postulate that Rg-1 action involves a regeneration-specific CK receptor or a regeneration-specific CK signal transduction pathway.
• 在番茄(Lycopersicon esculentum)Rg-1杂种从根外植体进行离体芽器官发生过程中,对细胞分裂素(CK)代谢进行了分析。
• 通过将物理化学分析与定量和原位检测方法相结合获得数据。
• 尽管在所有经典再生方案中都添加了外源玉米素,但我们在此表明,再生(Rg)番茄外植体再生不需要外源CK来源。无论是否存在外源玉米素,初始外植体或早期愈伤组织阶段的内源CK水平均不受Rg-1影响。在后期,与大量芽的存在相关,Rg外植体的内源CK浓度远低于非再生(rg)外植体。rg外植体细胞尽管内源CK含量高,但无法分化,对外源施加的CKs无反应。
• 我们表明,rg外植体对通常启动再生的激素信号不敏感与内源CK代谢改变无关。因此,我们推测Rg-1的作用涉及再生特异性CK受体或再生特异性CK信号转导途径。
