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向地性 PIN 极化维持侧根的非垂直生长。

Antigravitropic PIN polarization maintains non-vertical growth in lateral roots.

机构信息

School of Biology, University of Leeds, Leeds, UK.

Department of Biology, Duke University, Durham, NC, USA.

出版信息

Nat Plants. 2023 Sep;9(9):1500-1513. doi: 10.1038/s41477-023-01478-x. Epub 2023 Sep 4.

DOI:10.1038/s41477-023-01478-x
PMID:37666965
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10505559/
Abstract

Lateral roots are typically maintained at non-vertical angles with respect to gravity. These gravitropic setpoint angles are intriguing because their maintenance requires that roots are able to effect growth response both with and against the gravity vector, a phenomenon previously attributed to gravitropism acting against an antigravitropic offset mechanism. Here we show how the components mediating gravitropism in the vertical primary root-PINs and phosphatases acting upon them-are reconfigured in their regulation such that lateral root growth at a range of angles can be maintained. We show that the ability of Arabidopsis lateral roots to bend both downward and upward requires the generation of auxin asymmetries and is driven by angle-dependent variation in downward gravitropic auxin flux acting against angle-independent upward, antigravitropic flux. Further, we demonstrate a symmetry in auxin distribution in lateral roots at gravitropic setpoint angle that can be traced back to a net, balanced polarization of PIN3 and PIN7 auxin transporters in the columella. These auxin fluxes are shifted by altering PIN protein phosphoregulation in the columella, either by introducing PIN3 phosphovariant versions or via manipulation of levels of the phosphatase subunit PP2A/RCN1. Finally, we show that auxin, in addition to driving lateral root directional growth, acts within the lateral root columella to induce more vertical growth by increasing RCN1 levels, causing a downward shift in PIN3 localization, thereby diminishing the magnitude of the upward, antigravitropic auxin flux.

摘要

侧根通常与重力保持非垂直角度。这些向重设定角度很有趣,因为它们的维持需要根能够在与重力向量同向和反向的情况下产生生长反应,这一现象以前归因于向重作用于抗向重偏移机制。在这里,我们展示了介导垂直主根-PIN 向重的成分以及作用于它们的磷酸酶是如何在其调节中重新配置的,以便在一系列角度下维持侧根生长。我们表明,拟南芥侧根向下和向上弯曲的能力需要产生生长素不对称性,并由与角度无关的向上、抗向重的生长素流驱动,而这种生长素流与角度有关。此外,我们在向重设定角度的侧根中证明了生长素分布的对称性,这可以追溯到柱细胞中 PIN3 和 PIN7 生长素转运蛋白的净平衡极化。通过改变柱细胞中 PIN 蛋白的磷酸化调节,可以改变这些生长素流,方法是引入 PIN3 磷酸变异体版本或通过操纵磷酸酶亚基 PP2A/RCN1 的水平。最后,我们表明,生长素除了驱动侧根的定向生长外,还通过增加 RCN1 水平在侧根柱细胞内作用,诱导更多的垂直生长,从而导致 PIN3 定位向下移动,从而减少向上、抗向重的生长素流的幅度。

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