神经元高速公路中Kinesin-1交通控制

Biotechnology and Health Sciences Pub Date : 2016-05-29 DOI:10.17795/BHS-35914

M. Rahmati

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引用次数: 0

摘要

背景:本研究旨在对神经元高速公路中驱动蛋白-1交通控制的相关研究文章进行综述。证据获取:本综述文章根据关键词对PubMed、谷歌scholar、Embase、Medline、science direct和SID数据库中自1980年以来发表的相关研究进行了综合整理。结果:运动蛋白-1经常识别支架蛋白或接头蛋白，并作为蛋白质复合物的一部分直接结合到货膜蛋白上。几种激酶和微管相关蛋白在汽车货物卸载的调节中被确定。现在已经确定了驱动蛋白-1识别和结合特定货物的机制，以及如何卸载货物和确定运输方向。结论:综上所述，目前的综述文章表明，一些蛋白质如接头、支架、伴侣和微管相关蛋白以及一些代谢物、激素、蛋白激酶和运动训练可以调节神经元高速公路中激酶-1的交通控制。这些发现为动力蛋白-1的研究开辟了令人兴奋的新领域。关键词:运动蛋白-1，支架蛋白，衔接蛋白，神经元转运

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Kinesin-1 Traffic Control in Neuronal Highway

Context: The current study aimed to review research articles concerning kinesin-1 traffic control in the neuronal highways Evidence Acquisition: This review article compromised previous studies published since 1980 using PubMed, Google scholar, Embase, Medline, science direct and SID databases according to the keywords. Results: Kinesin-1 often recognizes scaffold proteins or adaptor proteins and binds to cargo membrane proteins directly as part of a protein complex. Several kinases and microtubule associated proteins are identified in the regulation of motor-cargo unloading. The mechanisms by which kinesin-1 recognizes and binds to specific cargos, and how to unload cargo and determine the direction of transport, are now identified. Conclusions: In summary, the current review article demonstrated that some proteins such as adaptors, Scaffolds, chaperons and microtubule associated proteins and some metabolites, hormones, protein kinases and exercise training can regulate kinesin-1 traffic control in neuronal highway. These findings open exciting new areas of kinesin-1 research. Keywords: Kinesin-1, Scaffold Proteins, Adaptor Proteins, Neuronal Transport

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Biotechnology and Health Sciences

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