Searching for gold beyond mitosis: Mining intracellular membrane traffic in Aspergillus nidulans.

Cellular logistics Pub Date : 2012-01-01 DOI:10.4161/cl.19304

Miguel A Peñalva, Antonio Galindo, Juan F Abenza, Mario Pinar, Ana M Calcagno-Pizarelli, Herbert N Arst, Areti Pantazopoulou

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Abstract

The genetically tractable filamentous ascomycete fungus Aspergillus nidulans has been successfully exploited to gain major insight into the eukaryotic cell cycle. More recently, its amenability to in vivo multidimensional microscopy has fueled a potentially gilded second age of A. nidulans cell biology studies. This review specifically deals with studies on intracellular membrane traffic in A. nidulans. The cellular logistics are subordinated to the needs imposed by the polarized mode of growth of the multinucleated hyphal tip cells, whereas membrane traffic is adapted to the large intracellular distances. Recent work illustrates the usefulness of this fungus for morphological and biochemical studies on endosome and Golgi maturation, and on the role of microtubule-dependent motors in the long-distance movement of endosomes. The fungus is ideally suited for genetic studies on the secretory pathway, as mutations impairing secretion reduce apical extension rates, resulting in phenotypes detectable by visual inspection of colonies.

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寻找有丝分裂以外的黄金：探索黑曲霉的胞内膜交通。

黑曲霉（Aspergillus nidulans）是一种可遗传的丝状子囊真菌，人们成功地利用这种真菌对真核细胞周期进行了深入研究。最近，黑曲霉对体内多维显微镜的适应性推动了黑曲霉细胞生物学研究的第二个黄金时代的到来。本综述特别涉及对裸头蝠胞内膜交通的研究。细胞物流服从于多核顶端细胞极化生长模式的需要，而膜交通则适应于较大的细胞内距离。最近的研究工作表明，这种真菌可用于内体和高尔基体成熟的形态学和生物化学研究，以及微管马达在内体长距离运动中的作用研究。这种真菌非常适合用于分泌途径的遗传研究，因为影响分泌的突变会降低顶端延伸率，从而导致可通过目测菌落发现的表型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Cellular logistics

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