Vascular Cambium Development.

The arabidopsis book Pub Date : 2015-05-21 eCollection Date: 2015-01-01 DOI:10.1199/tab.0177
Kaisa Nieminen, Tiina Blomster, Ykä Helariutta, Ari Pekka Mähönen
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Abstract

Secondary phloem and xylem tissues are produced through the activity of vascular cambium, the cylindrical secondary meristem which arises among the primary plant tissues. Most dicotyledonous species undergo secondary development, among them Arabidopsis. Despite its small size and herbaceous nature, Arabidopsis displays prominent secondary growth in several organs, including the root, hypocotyl and shoot. Together with the vast genetic resources and molecular research methods available for it, this has made Arabidopsis a versatile and accessible model organism for studying cambial development and wood formation. In this review, we discuss and compare the development and function of the vascular cambium in the Arabidopsis root, hypocotyl, and shoot. We describe the current understanding of the molecular regulation of vascular cambium and compare it to the function of primary meristems. We conclude with a look at the future prospects of cambium research, including opportunities provided by phenotyping and modelling approaches, complemented by studies of natural variation and comparative genetic studies in perennial and woody plant species.

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血管柬发育
次生韧皮部和木质部组织是通过维管束韧皮部的活动产生的,维管束韧皮部是产生于植物原生组织中的圆柱形次生分生组织。大多数双子叶植物都会进行二次发育,拟南芥就是其中之一。尽管拟南芥体型较小,又是草本植物,但它的多个器官(包括根、下胚轴和芽)都有显著的二次生长。再加上大量的遗传资源和分子研究方法,这使得拟南芥成为研究骨架发育和木质部形成的多用途、易获取的模式生物。在这篇综述中,我们讨论并比较了拟南芥根、下胚轴和芽中维管凸起的发育和功能。我们描述了目前对维管凸起分子调控的理解,并将其与初级分生组织的功能进行了比较。最后,我们展望了结缔组织研究的未来前景,包括表型和建模方法提供的机会,以及多年生和木本植物物种的自然变异研究和比较遗传研究的补充。
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