第1章。菌丝的世界。

IF 2.3 3区生物学 Q3 GENETICS & HEREDITY

Fungal Genetics and Biology Pub Date : 2025-09-12 DOI:10.1016/j.fgb.2025.104033

Salomón Bartnicki-García

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引用次数: 0

摘要

这篇文章描述了菌丝的特征，这些特征使真菌能够如此广泛和无处不在地征服自然。真菌通过菌丝的吸收成为营养的冠军，菌丝具有高效的生长机制，结合了快速的细胞壁构建和消化酶的分泌。菌丝是长圆柱形细胞，生长在一端，即顶端。它们的细胞壁是由嵌入无定形多糖（通常是β-1,3葡聚糖）中的微纤维聚合物（通常是几丁质）组合而成的。它们的高生长速度得益于高效的囊泡分泌装置，其最终目的是维持细胞壁材料和消化酶向菌丝顶端的快速流动。菌丝独特的菌丝形态可以用一个移动的供应中心向四面八方发射造壁囊泡所产生的简单数学方程来描述。Spitzenkörper被认为是一个囊泡供应中心，产生菌丝特有的细胞壁，并指导菌丝的生长方向。真菌生物具有完全不同的进化起源，如纤维素卵菌和数量更多的几丁质真菌，它们都发育菌丝和菌丝以确保高效生长。因此菌丝是自然界真菌成功的基础。

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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The world of hyphae

This article describes the hyphal features that have allowed fungi to conquer nature so extensively and so ubiquitously. Fungi became champions of nutrition via absorption by developing hyphae with an efficient growth mechanism that combined rapid cell wall construction with secretion of digestive enzymes. Hyphae are long cylindrical cells growing at one end, the apex. Their cell walls are made by the combination of microfibrillar polymers (usually chitin) embedded in amorphous polysaccharides (usually β-1,3 glucans). Their high growth rate is supported by an efficient vesiclebased secretory apparatus, whose ultimate goal is to maintain a rapid flow of cell-wall building materials and digestive enzymes to the hyphal apex. The unique hyphoid morphology of a hypha can be described by a simple mathematic equation generated by a moving supply center emitting wall-building vesicles in all directions. The Spitzenkörper is proposed to function as a vesicle supply center that generates the characteristic cell wall of a hypha and also guides hyphal growth direction. Fungal organisms with completely different evolutionary origins, the cellulosic Oomycetes and the more numerous chitinous fungi, both develop hyphae and mycelia to insure efficient growth. Hyphae are thus the basis for the success of fungi in Nature.

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来源期刊

Fungal Genetics and Biology 生物-遗传学

CiteScore

6.20

自引率

3.30%

发文量

审稿时长

85 days

期刊介绍： Fungal Genetics and Biology, formerly known as Experimental Mycology, publishes experimental investigations of fungi and their traditional allies that relate structure and function to growth, reproduction, morphogenesis, and differentiation. This journal especially welcomes studies of gene organization and expression and of developmental processes at the cellular, subcellular, and molecular levels. The journal also includes suitable experimental inquiries into fungal cytology, biochemistry, physiology, genetics, and phylogeny. Fungal Genetics and Biology publishes basic research conducted by mycologists, cell biologists, biochemists, geneticists, and molecular biologists. Research Areas include: • Biochemistry • Cytology • Developmental biology • Evolutionary biology • Genetics • Molecular biology • Phylogeny • Physiology.