瓜类两个ctr1样基因的克隆及特征分析:在雌雄花发育过程中的表达调控。

Susana Manzano, Cecilia Martínez, Pedro Gómez, Dolores Garrido, Manuel Jamilena
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引用次数: 18

摘要

乙烯是葫芦花发育的重要调节剂,控制着性表达和花器官的分化和成熟。为了研究乙烯在雌雄花发育过程中的作用机制,我们鉴定了两个CTR1同源物CpCTR1和CpCTR2,并分析了它们在雌雄花发育过程中的表达以及对乙烯处理的响应。CpCTR1和CpCTR2与植物ctr1样激酶具有高度同源性,但与拟南芥EDR1和番茄LeCTR2等相关激酶不同。CpCTR1和CpCTR2的c末端都具有Ser/Thr激酶结构域的所有保守基序,包括atp结合特征和蛋白激酶活性位点一致序列,这表明CpCTR1和CpCTR2在乙烯信号传导中可能具有与CTR1相同的功能。这两个基因的转录本在植物的不同器官中都有检测到,包括根、叶和芽,但主要集中在成熟的花中。在雄花和雌花发育过程中,CpCTR1和CpCTR2的表达伴随着乙烯的产生,这表明这两个基因至少在花中可以被乙烯上调。此外,乙烯外处理虽然没有改变这两个基因在幼苗和叶片中的表达,但能够上调它们在花中的表达。在花发育的早期阶段,当乙烯产量非常低时,CpCTR1和CpCTR2在雄性花器官中的表达较高,这与这些基因作为乙烯信号负调控因子的作用一致,并解释了雄花比雌花对乙烯的敏感性低。讨论了这两个基因在雌花发育后期乙烯产量增加时的上调作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cloning and characterisation of two CTR1-like genes in Cucurbita pepo: regulation of their expression during male and female flower development.

Ethylene is an essential regulator of flower development in Cucurbita pepo, controlling the sexual expression, and the differentiation and maturation of floral organs. To study the action mechanism of ethylene during the male and female flower development, we have identified two CTR1 homologues from C. pepo, CpCTR1 and CpCTR2, and analysed their expressions during female and male flower development and in response to external treatments with ethylene. CpCTR1 and CpCTR2 share a high homology with plant CTR1-like kinases, but differ from other related kinases such as the Arabidopsis EDR1 and the tomato LeCTR2. The C-terminal ends of both CpCTR1 and CpCTR2 have all the conserved motifs of Ser/Thr kinase domains, including the ATP-binding signature and the protein kinase active site consensus sequence, which suggests that CpCTR1 and CpCTR2 could have the same function as CTR1 in ethylene signalling. The transcripts of both genes were detected in different organs of the plant, including roots, leaves and shoots, but were mostly accumulated in mature flowers. During the development of male and female flowers, CpCTR1 and CpCTR2 expressions were concomitant with ethylene production, which indicates that both genes could be upregulated by ethylene, at least in flowers. Moreover, external treatments with ethylene, although did not alter the expression of these two genes in seedlings and leaves, were able to upregulate their expression in flowers. In the earlier stages of flower development, when ethylene production is very low, the expression of CpCTR1 and CpCTR2 is higher in male floral organs, which agrees with the role of these genes as negative regulators of ethylene signalling, and explain the lower ethylene sensitivity of male flowers in comparison with female flowers. The function of the upregulation of these two genes in later stages of female flower development, when the production of ethylene is also increased, is discussed.

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Sexual Plant Reproduction
Sexual Plant Reproduction 生物-生殖生物学
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