Automated characterization of amoeboid motility

机译：变形肌运动的自动表征

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Cells use a variety of methods to migrate. One of these, referred to as amoeboid motion, involves alternating cycles of morphological expansion and retraction. Employed by numerous mammalian cell lines including neutrophils and lymphocytes, it is also seen in the metastatic migration of some tumor cells. Amoeboid motility is best understood in the social amoeba Dictyostelium discoideum. It is a complex cellular process driven by highly-organized cytoskeletal dynamics containing numerous molecular species and regulated by an intricate signaling network. An important aspect of studying is to understand how the roles played by these molecules and signaling pathways are integrated. And a widely used approach is to characterize phenotype-specific morphological dynamics among various types of cells.

机译：细胞使用多种方法进行迁移。其中之一被称为变形虫运动，涉及形态学扩张和收缩的交替循环。它被包括中性粒细胞和淋巴细胞在内的许多哺乳动物细胞系所利用，在某些肿瘤细胞的转移性迁移中也可以看到它。变形虫的运动能力最好在社交变形虫盘基网柄菌Discoidesteo Discumideum中得到理解。这是一个复杂的细胞过程，由高度组织化的细胞骨架动力学驱动，包含许多分子种类，并受复杂的信号网络调节。研究的重要方面是了解这些分子和信号通路所起的作用是如何整合的。一种广泛使用的方法是表征各种类型细胞之间的表型特异性形态动力学。

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来源
《Information Sciences and Systems, 2009. CISS 2009》|2009年|369-370|共2页
会议地点 Baltimore MD(US);Baltimore MD(US);Baltimore MD(US)
作者
Yuan Xiong; Iglesias P.A.;
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作者单位

Dept. Electr. Comput. Eng., Johns Hopkins Univeristy, Baltimore, MD;

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medical image processing; amoeboid motility automated characterization; morphological expansion; phenotype-specific morphological dynamics; signaling network; social amoeba Dictyostelium discoideum; Amoeboid motility; chemotaxis; image processing; pseudopodia; skeletonization;

机译：医学图像处理;动眼动蛋白自动表征;形态扩展;表型特异性形态动力学;信号网络;变形虫阿米巴视神经鞘膜;变形运动;趋化性;图像处理;假足;骨骼化;

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专利

1. Automated characterization of cell shape changes during amoeboid motility by skeletonization [J] . Yuan Xiong, Cathryn Kabacoff, Jonathan Franca-Koh, BMC Systems Biology . 2010,第1期

机译：通过骨架化自动表征变形虫运动期间细胞形状的变化
2. The metastasis gene NEDD9 product acts through integrin β3 and Src to promote mesenchymal motility and inhibit amoeboid motility [J] . AhnJ., Sanz-MorenoV., MarshallC.J. Journal of Cell Science . 2012,第7期

机译：转移基因NEDD9产物通过整联蛋白β3和Src发挥作用，促进间充质运动并抑制变形虫运动
3. The metastasis gene NEDD9 product acts through integrin β3 and Src to promote mesenchymal motility and inhibit amoeboid motility [J] . AhnJ., Sanz-MorenoV., MarshallC.J. Journal of Cell Science . 2012,第7期

机译：转移基因NEDD9产物通过整联蛋白β3和Src发挥作用，促进间充质运动并抑制变形虫运动
4. Automated Characterization of Amoeboid Motility [C] . Yuan Xiong, Pablo A. Iglesias Annual Conference on Information Sciences and Systems . 2009

机译：自动化作用泛动机的特征
5. Mathematical Investigation of Hydrodynamic Contributions to Amoeboid Cell Motility in Physarum polycephalum. [D] . Lewis, Owen Leslie. 2014

机译：多头Phys草中动员细胞动力的流体力学数学研究。
6. Automated characterization of cell shape changes during amoeboid motility by skeletonization [O] . Yuan Xiong, Cathryn Kabacoff, Jonathan Franca-Koh, 2010

机译：通过骨架化自动表征变形虫运动期间细胞形状的变化
7. Automated characterization of cell shape changes during amoeboid motility by skeletonization [O] . Yuan Xiong, Cathryn Kabacoff, Jonathan Franca-Koh, 2010

机译：通过骨架化自动表征变形虫运动期间细胞形状的变化

Automated characterization of amoeboid motility

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