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植物维管模式形成的逻辑。叶脉及其网络形成过程中的极性、连续性和可塑性。

The logic of plant vascular patterning. Polarity, continuity and plasticity in the formation of the veins and of their networks.

作者信息

Scarpella Enrico

机构信息

Department of Biological Sciences, University of Alberta, CW-405 Biological Sciences Building, Edmonton, AB T6G 2E9, Canada.

出版信息

Curr Opin Genet Dev. 2017 Aug;45:34-43. doi: 10.1016/j.gde.2017.02.009. Epub 2017 Mar 3.

Abstract

The problem of long-distance transport is solved in many multicellular organisms by tissue networks such as the vascular networks of plants. Because tissue networks transport from one tissue area to another, they are polar and continuous; most of them, including plant vascular networks, are also plastic. Surprisingly, the formation of tissue networks is in most cases just as polar, continuous and plastic. Available evidence suggests that the polarity, continuity and plasticity of plant vascular networks and their formation could be accounted for by a patterning process that combines: (i) excess of developmental alternatives competing for a limiting cell-polarizing signal; (ii) positive feedback between cell polarization and continuous, cell-to-cell transport of the cell-polarizing signal; and (iii) gradual restriction of differentiation that increasingly removes the cell-polarizing signal.

摘要

在许多多细胞生物中,长距离运输问题通过诸如植物维管网络之类的组织网络得以解决。由于组织网络从一个组织区域运输到另一个组织区域,它们具有极性且是连续的;其中大多数,包括植物维管网络,也是可塑的。令人惊讶的是,在大多数情况下,组织网络的形成同样具有极性、连续性和可塑性。现有证据表明,植物维管网络及其形成的极性、连续性和可塑性可以通过一种模式形成过程来解释,该过程结合了:(i)大量发育替代方案竞争有限的细胞极化信号;(ii)细胞极化与细胞极化信号的连续细胞间运输之间的正反馈;以及(iii)分化的逐渐限制,这会逐渐消除细胞极化信号。

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