Membrane transport in the endocytic pathway: animal versus plant cells [Review]

Marcote MJ.; Gruenberg J.; Aniento F.; Gu F.

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Membrane transport in the endocytic pathway: animal versus plant cells [Review]

机译：内吞途径中的膜运输：动物与植物细胞[综述]

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The endocytic pathway is a well established process in animal cells, but it is not well understood in plant cells. AL the morphological level, all the compartments involved in endocytosis in animal cells seem to have counterparts in plant cells, and the organization of the pathway appears to share some striking similarities. Several Rab homologues have been found in plant cells, including homologues of Rab5, Rab7, and Rab11, markers of endocytic compartments in animal cells. Coat proteins are also present in plant cells, including clathrin, adaptins, and ADP ribosylation factor proteins. However, endocytic compartments in plant cells also exhibit specific features both in organization and function. The molecular composition of these compartments remains to be Established, and future work will be necessary to identify the key regulators of endocytic trafficking in plant cells. [References: 103]

机译：内吞途径在动物细胞中是公认的过程，但在植物细胞中尚不十分清楚。在形态学水平上，动物细胞中所有参与胞吞作用的区室似乎在植物细胞中具有对应物，并且该途径的组织似乎具有一些惊人的相似性。在植物细胞中发现了几种Rab同源物，包括Rab5，Rab7和Rab11（动物细胞内吞区室的标志物）的同源物。外壳蛋白还存在于植物细胞中，包括网格蛋白，适应蛋白和ADP核糖基化因子蛋白。然而，植物细胞中的内吞区室在组织和功能上也表现出特定的特征。这些区室的分子组成仍有待确定，未来的工作将有必要确定植物细胞内吞运输的关键调控因子。 [参考：103]

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《Protoplasma: An International Journal of Cell Biology》 |2000年第4期|共10页
作者
Marcote MJ.; Gruenberg J.; Aniento F.; Gu F.;
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正文语种 eng
中图分类细胞形态学;
关键词
Endocytosis; Membrane transport; Vesicle formation; Coat proteins; Rab proteins; Gtp-binding-proteins; Partially-coated reticulum; Ap-3 adapter complex; Late endosomes; Arabidopsis-thaliana; Golgi-apparatus; Multivesicular endosomes; Vesicle fusion; Soybean protoplasts; Plasma-membrane;

机译：内吞作用;膜转运;囊泡形成;外壳蛋白;Rab蛋白;Gtp结合蛋白;部分包被的网状蛋白;Ap-3衔接子复合体;晚期内体;拟南芥;高尔基体;多囊内体;囊泡融合;大豆原生质体;等离子膜;

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1. Membrane transport in the endocytic pathway: animal versus plant cells [Review] [J] . Marcote MJ., Gruenberg J., Aniento F., Protoplasma: An International Journal of Cell Biology . 2000,第3a4期

机译：内吞途径中的膜运输：动物与植物细胞[综述]
2. Evidence for two endocytic transport pathways in plant cells [J] . Etxeberria Ed, Gonzalez Pedro, Pozueta Javier Plant Science: An International Journal of Experimental Plant Biology . 2009,第4期

机译：植物细胞中两个内吞转运途径的证据
3. Endocytic pathways involved in PLGA nanoparticle uptake by grapevine cells and role of cell wall and membrane in size selection [J] . Palocci Cleofe, Valletta Alessio, Chronopoulou Laura, Plant Cell Reports . 2017,第12期

机译：在PLGA纳米粒子上参与葡萄细胞的内吞径和细胞壁和膜的作用尺寸选择
4. P transport pathways in plants with low mycorrhizal responsiveness: new insights from membrane transport physiology and gene expression [C] . F. A. Smith, S. E. Smith International Plant Nutrition Colloquium . 2005

机译：菌根反应性低的植物中的P转运途径：膜转运生理学和基因表达的新见解
5. Release and transport of secondary metabolites from plant cells immobilized in membrane bioreactors. [D] . Pu, Howard T. 1988

机译：从固定在膜生物反应器中的植物细胞释放和运输次级代谢产物。
6. Rho Regulates Membrane Transport in the Endocytic Pathway to Control Plasma Membrane Specialization in Oligodendroglial Cells [O] . Angelika Kippert, Katarina Trajkovic, Lawrence Rajendran, 2007

机译：Rho调节内吞途径中的膜运输以控制少突胶质细胞中的血浆膜特化。
7. Rho regulates membrane transport in the endocytic pathway to control plasma membrane specialization in oligodendroglial cells [O] . Kippert, A, Trajkovic, K, Rajendran, L, 2007

机译：Rho调节内吞途径中的膜运输，以控制少突胶质细胞的质膜特化
8. Studies of Transport Pathways of Th, U, Rare Earths, Ra-228, and Ra-226 from Soil to Plants and Farm Animals: Final Progress Report, 1983-1988. [R] . Linsalata, P. 1988

机译：研究从土壤到植物和农场动物的Th，U，稀土，Ra-228和Ra-226的运输途径：最终进展报告，1983-1988。

Membrane transport in the endocytic pathway: animal versus plant cells [Review]

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