趋化信号转导途径和自主波形成系统中Ras激活的共存。

Co-existence of Ras activation in a chemotactic signal transduction pathway and in an autonomous wave - forming system.

作者信息

Ecke Mary, Gerisch Günther

机构信息

a Max Planck Institute of Biochemistry , Martinsried , Germany.

出版信息

Small GTPases. 2019 Jan;10(1):72-80. doi: 10.1080/21541248.2016.1268666. Epub 2017 Jan 31.

DOI:10.1080/21541248.2016.1268666

PMID:28136018

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6343538/

Abstract

The activation of Ras is common to two activities in cells of : the directed movement in a gradient of chemoattractant and the autonomous generation of propagating waves of actin polymerization on the substrate-attached cell surface. We produced large cells by electric-pulse induced fusion to simultaneously study both activities in one cell. For imaging, a fluorescent label for activated Ras was combined with labels for filamentous actin, PIP3, or PTEN. Chemotactic responses were elicited in a diffusion gradient of cyclic AMP. Waves initiated at sites separate from the front of the cell propagated in all directions. Nevertheless, the wave-forming cells were capable of recognizing the attractant gradient and managed to migrate in its direction.

摘要

Ras的激活在细胞的两种活动中很常见：在趋化因子梯度中的定向运动以及在附着于底物的细胞表面上自主产生肌动蛋白聚合的传播波。我们通过电脉冲诱导融合产生了大细胞，以便在一个细胞中同时研究这两种活动。为了成像，将用于激活Ras的荧光标记与丝状肌动蛋白、PIP3或PTEN的标记相结合。在环磷酸腺苷的扩散梯度中引发趋化反应。在与细胞前端分开的位点起始的波向各个方向传播。然而，形成波的细胞能够识别吸引剂梯度并设法朝其方向迁移。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2d39/6343538/69a8e38180d1/ksgt-10-01-1268666-g001.jpg

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趋化信号转导途径和自主波形成系统中Ras激活的共存。

Co-existence of Ras activation in a chemotactic signal transduction pathway and in an autonomous wave - forming system.

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