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引用次数: 0
摘要
主要结论在被子植物根尖分生组织中,全倍 DNA 含量与细胞周期时间没有直接关系。相反,倍性、染色体数目和类群是影响这种相互作用的关键因素。一般认为,被子植物根尖分生组织的细胞周期时间与整倍体DNA含量直接相关,这是核型效应的表现之一。在本文中,我们利用胸苷法和细胞生成率法大大扩展了之前报道的细胞周期时间数据,并研究了不同分类群、不同染色体数目的二倍体以及不同倍性水平物种的核型效应。核型效应在染色体数小于 17 的二倍体中最为明显,尤其是在天门冬目和百合科中。在染色体数为 17 或更多的二倍体和多倍体中,核型效应只在这两个目中明显,在其余被子植物中几乎不存在,因为它们的全倍体 DNA 含量和每条染色体的平均 DNA 含量普遍较低。总之,我们的研究表明,在被子植物中,根尖分生组织的细胞周期时间与全倍 DNA 含量之间的关系复杂而不均匀,而且与细胞周期时间没有直接关系。相反,倍性、染色体数目和类群是影响这种相互作用的关键因素。
Cell cycle time in the root apical meristem of angiosperms and its dependence on holoploid DNA content.
Main conclusion: In the angiosperm root apical meristem, the holoploid DNA content is not directly related to cell cycle time. Instead, ploidy, chromosome number, and taxa emerge as key factors that influence this interaction. It is commonly considered that cell cycle time in the angiosperm root apical meristem is directly related to the holoploid DNA content, and this is one of the manifestations of the nucleotypic effect. In this paper, we significantly expanded the previously reported data on cell cycle time using the thymidine method and the rate-of-cell-production method and investigated the nucleotypic effect in different taxonomic groups, in diploids with varying numbers of chromosomes, and in species of different ploidy levels. The nucleotypic effect was most pronounced in diploids with a chromosome number of less than 17, especially in the orders Asparagales and Liliales. In diploids with 17 and a greater number of chromosomes, and in polyploids, the nucleotypic effect was only evident in these two orders and was practically absent in the rest of angiosperms, which have generally lower the holoploid DNA content and average DNA content per chromosome. Overall, our work demonstrates that in angiosperms the relationship between cell cycle time in the root apical meristem and the holoploid DNA content is complex and not homogeneous and it is not directly related to cell cycle time. Instead, ploidy, chromosome number, and taxa emerge as key factors that influence this interaction.
期刊介绍:
Planta publishes timely and substantial articles on all aspects of plant biology.
We welcome original research papers on any plant species. Areas of interest include biochemistry, bioenergy, biotechnology, cell biology, development, ecological and environmental physiology, growth, metabolism, morphogenesis, molecular biology, new methods, physiology, plant-microbe interactions, structural biology, and systems biology.