细胞极性与重力感应有关，是由 LZY 从平衡石到质膜的易位产生的。

Cell polarity linked to gravity sensing is generated by LZY translocation from statoliths to the plasma membrane.

机构信息

Division of Plant Environmental Responses, National Institute for Basic Biology, Okazaki 444-8585, Japan.

Course for Basic Biology, The Graduate Institute for Advanced Studies, SOKENDAI, Hayama 240-0115, Japan.

出版信息

Science. 2023 Sep;381(6661):1006-1010. doi: 10.1126/science.adh9978. Epub 2023 Aug 10.

DOI:10.1126/science.adh9978

PMID:37561884

Abstract

Organisms have evolved under gravitational force, and many sense the direction of gravity by means of statoliths in specialized cells. In flowering plants, starch-accumulating plastids, known as amyloplasts, act as statoliths to facilitate downstream gravitropism. The gravity-sensing mechanism has long been considered a mechanosensing process by which amyloplasts transmit forces to intracellular structures, but the molecular mechanism underlying this has not been elucidated. We show here that LAZY1-LIKE (LZY) family proteins involved in statocyte gravity signaling associate with amyloplasts and the proximal plasma membrane. This results in polar localization according to the direction of gravity. We propose a gravity-sensing mechanism by which LZY translocation to the plasma membrane signals the direction of gravity by transmitting information on the position of amyloplasts.

摘要

生物在重力的作用下进化，许多生物通过专门细胞中的平衡石来感知重力的方向。在开花植物中，淀粉积累质体，称为淀粉体，充当平衡石，以促进下游的向地性。长期以来，重力感应机制一直被认为是一种机械感应过程，其中淀粉体将力传递到细胞内结构，但这一过程的分子机制尚未阐明。我们在这里表明，参与重力信号传递的平衡石中 LAZY1 类似物（LZY）家族蛋白与淀粉体和近质膜结合。根据重力的方向，这导致极性定位。我们提出了一种重力感应机制，即通过将 LZY 易位到质膜来传递淀粉体位置的信息，从而发出重力方向的信号。

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细胞极性与重力感应有关，是由 LZY 从平衡石到质膜的易位产生的。

Cell polarity linked to gravity sensing is generated by LZY translocation from statoliths to the plasma membrane.

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