Morphological responses of filamentous fungi to stressful environmental conditions.

2区 生物学 Q1 Immunology and Microbiology
Advances in applied microbiology Pub Date : 2024-01-01 Epub Date: 2024-07-26 DOI:10.1016/bs.aambs.2024.07.001
Marina Fomina, Olena Gromozova, Geoffrey Michael Gadd
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引用次数: 0

Abstract

The filamentous growth mode of fungi, with its modular design, facilitates fungal adaptation to stresses they encounter in diverse terrestrial and anthropogenic environments. Surface growth conditions elicit diverse morphological responses in filamentous fungi, particularly demonstrating the remarkable adaptability of mycelial systems to metal- and mineral-rich environments. These responses are coupled with fungal biogeochemical activity and can ameliorate hostile conditions. A tessellated agar tile system, mimicking natural environmental heterogeneity, revealed negative chemotropism to toxic metals, distinct extreme growth strategies, such as phalanx and guerrilla movements and transitions between them, and the formation of aggregated re-allocation structures (strands, cords, synnemata). Other systems showed intrahyphal growth, intense biomineralization, and extracellular hair-like structures. Studies on submerged mycelial growth, using the thermophilic fungus Thielavia terrestris as an example, provided mechanistic insights into the morphogenesis of two extreme forms of fungal submerged culture-pelleted and dispersed growth. It was found that the development of fungal pellets was related to fungal adaptation to unfavorable stressful conditions. The two key elements affecting morphogenesis leading to the formation of either pelleted or dispersed growth were found to be (1) a lag phase (or conidia swelling stage) as a specific period of fungal morphogenesis when a certain growth form is programmed in response to morphogenic stressors, and (2) cAMP as a secondary messenger of cell signaling, defining the implementation of the particular growth strategy. These findings can contribute to knowledge of fungal-based biotechnologies, providing a means for controllable industrial processes at both morphological and physiological levels.

丝状真菌对胁迫环境条件的形态反应。
真菌的丝状生长模式具有模块化设计,有利于真菌适应在各种陆地和人为环境中遇到的压力。表面生长条件会引起丝状真菌的不同形态反应,尤其显示出菌丝系统对富含金属和矿物质环境的显著适应性。这些反应与真菌的生物地球化学活动相结合,可以改善恶劣的环境。一个模仿自然环境异质性的棋盘格琼脂瓦系统显示了对有毒金属的负趋化性,独特的极端生长策略,如方阵和游击队运动以及它们之间的转换,以及聚集再分配结构(股、索、合子)的形成。其他系统则表现出芽内生长、强烈的生物矿化和细胞外毛状结构。以嗜热真菌 Thielavia terrestris 为例,对沉水菌丝生长进行了研究,从机理上揭示了真菌沉水培养的两种极端形式--颗粒状生长和分散生长--的形态发生过程。研究发现,真菌颗粒的发育与真菌对不利胁迫条件的适应有关。研究发现,影响形态发生导致形成颗粒状生长或分散生长的两个关键因素是:(1)滞后期(或分生孢子肿胀期),这是真菌形态发生的一个特定时期,在这一时期,特定的生长形式是对形态发生应激因素的程序化反应;(2)cAMP,作为细胞信号传导的次级信使,确定了特定生长策略的实施。这些发现有助于了解以真菌为基础的生物技术,为形态和生理层面的可控工业过程提供了一种手段。
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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来源期刊
Advances in applied microbiology
Advances in applied microbiology 生物-生物工程与应用微生物
CiteScore
8.20
自引率
0.00%
发文量
16
审稿时长
>12 weeks
期刊介绍: Advances in Applied Microbiology offers intensive reviews of the latest techniques and discoveries in this rapidly moving field. The editors are recognized experts and the format is comprehensive and instructive. Published since 1959, Advances in Applied Microbiology continues to be one of the most widely read and authoritative review sources in microbiology. Recent areas covered include bacterial diversity in the human gut, protozoan grazing of freshwater biofilms, metals in yeast fermentation processes and the interpretation of host-pathogen dialogue through microarrays.
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