茎分生组织的形态发生。

Pub Date : 2023-02-16 DOI:10.5802/crbiol.98
Jan Traas
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引用次数: 0

摘要

茎顶分生组织是高等植物地上部分的干细胞群体。过去几十年的研究揭示了一个复杂的分子调节网络,它控制着分生组织的维持和不同类型器官的产生。这个网络在时间和空间上的行为是由调节器之间的局部相互作用决定的,也涉及激素调节。特别是,生长素和细胞分裂素与基因表达模式的协调密切相关。为了控制茎部分生组织的生长模式,网络的各个组成部分影响细胞生长的方向和速度。这需要干扰细胞的机械特性。如何控制这种以多重反馈为特征的复杂多尺度过程,在很大程度上仍是一个悬而未决的问题。幸运的是,遗传学、实时成像、计算建模和许多其他最近开发的工具提供了有趣但具有挑战性的视角。
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Morphogenesis at the shoot meristem.

Shoot apical meristems are populations of stem cells which initiate the aerial parts of higher plants. Work during the last decades has revealed a complex network of molecular regulators, which control both meristem maintenance and the production of different types of organs. The behavior of this network in time and space is defined by the local interactions between regulators and also involves hormonal regulation. In particular, auxin and cytokinin are intimately implicated in the coordination of gene expression patterns. To control growth patterns at the shoot meristem the individual components of the network influence directions and rates of cell growth. This requires interference with the mechanical properties of the cells. How this complex multiscale process, characterized by multiple feedbacks, is controlled remains largely an open question. Fortunately, genetics, live imaging, computational modelling and a number of other recently developed tools offer interesting albeit challenging perspectives.

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