揭示花粉管生长机制中的隐藏奥秘。

Uncovering hidden treasures in pollen tube growth mechanics.

作者信息

Zonia Laura, Munnik Teun

机构信息

Swammerdam Institute for Life Sciences, Plant Physiology Section, University of Amsterdam, Kruislaan 904, 1098 XH Amsterdam, The Netherlands.

出版信息

Trends Plant Sci. 2009 Jun;14(6):318-27. doi: 10.1016/j.tplants.2009.03.008. Epub 2009 May 14.

DOI:10.1016/j.tplants.2009.03.008

PMID:19446491

Abstract

The long-standing model of tip growth in pollen tubes considers that exocytosis and growth occur at the apex and that the pool of very small vesicles in the apical dome contains secretory (exocytic) vesicles. However, recent work on vesicle trafficking dynamics in tobacco pollen tubes shows that exocytosis occurs in the subapical region. Taking these and other new results into account, we set out to resolve specific problems that are endemic in current models and present a two-part ACE (apical cap extension)-H (hydrodynamics) growth model. The ACE model involves delivery and recycling of materials required for new cell synthesis and the H model involves mechanisms that integrate and regulate key cellular pathways and drive cell elongation during growth.

摘要

长期以来的花粉管顶端生长模型认为，胞吐作用和生长发生在顶端，并且顶端圆顶中的非常小的囊泡池包含分泌（胞吐）囊泡。然而，最近关于烟草花粉管中囊泡运输动力学的研究表明，胞吐作用发生在亚顶端区域。考虑到这些以及其他新结果，我们着手解决当前模型中普遍存在的特定问题，并提出了一个由两部分组成的ACE（顶端帽延伸）-H（流体动力学）生长模型。ACE模型涉及新细胞合成所需物质的运输和循环利用，而H模型涉及整合和调节关键细胞途径并在生长过程中驱动细胞伸长的机制。

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Uncovering hidden treasures in pollen tube growth mechanics.揭示花粉管生长机制中的隐藏奥秘。

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揭示花粉管生长机制中的隐藏奥秘。

Uncovering hidden treasures in pollen tube growth mechanics.

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