菌丝是如何生长的？真菌中受压生长的生物物理学。

How does a hypha grow? The biophysics of pressurized growth in fungi.

机构信息

Department of Biology, York University, 4700 Keele Street, Toronto, Ontario M3J 1P3, Canada.

出版信息

Nat Rev Microbiol. 2011 Jun 6;9(7):509-18. doi: 10.1038/nrmicro2591.

Abstract

The mechanisms underlying the growth of fungal hyphae are rooted in the physical property of cell pressure. Internal hydrostatic pressure (turgor) is one of the major forces driving the localized expansion at the hyphal tip which causes the characteristic filamentous shape of the hypha. Calcium gradients regulate tip growth, and secretory vesicles that contribute to this process are actively transported to the growing tip by molecular motors that move along cytoskeletal structures. Turgor is controlled by an osmotic mitogen-activated protein kinase cascade that causes de novo synthesis of osmolytes and uptake of ions from the external medium. However, as discussed in this Review, turgor and pressure have additional roles in hyphal growth, such as causing the mass flow of cytoplasm from the basal mycelial network towards the expanding hyphal tips at the colony edge.

摘要

真菌菌丝生长的机制源于细胞压力的物理特性。细胞内部的静压（膨压）是导致菌丝尖端局部扩张的主要力量之一，而这种扩张导致了菌丝特有的丝状形态。钙离子梯度调节顶端生长，而对这一过程有贡献的分泌小泡则通过沿细胞骨架结构移动的分子马达被主动运输到生长的尖端。膨压由渗透压丝裂原活化蛋白激酶级联控制，该级联导致新合成的渗透物和从外部介质中摄取离子。然而，正如本综述中所讨论的，膨压和压力在菌丝生长中还有其他作用，例如导致细胞质从基内菌丝网络向菌落边缘扩张的菌丝尖端的质量流动。

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菌丝是如何生长的？真菌中受压生长的生物物理学。

How does a hypha grow? The biophysics of pressurized growth in fungi.

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