The chemotrophic behaviour of Aspergillus niger: Mapping hyphal filaments during chemo-sensing; the first step towards directed materials formation

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Ayesha Sadaf , Matthias Brock , Carole C. Perry
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引用次数: 0

Abstract

In the development of fungal based materials for applications in construction through to biomedical materials and fashion, understanding how to regulate and direct growth is key for gaining control over the form of material generated. Here, we show how simple ‘chemical food’ cues can be used to manipulate the growth of fungal networks by taking Aspergillus niger as an exemplar species. Chemotrophic responses towards a range of nitrogen and carbon containing biomolecules including amino acids, sugars and sugar alcohols were quantified in terms of chemotrophic index (CI) under a range of basal media compositions (low and high concentrations of N and C sources). Growth of filamentous networks was followed using fluorescence microscopy at single time points and during growth by an AI analytical approach to explore chemo sensing behaviour of the fungus when exposed to pairs (C-C, C-N, N-N) of biomolecules simultaneously. Data suggests that the directive growth of A. niger can be controlled towards simple biomolecules with CI values giving a good approximation for expected growth under a range of growth conditions. This is a first step towards identifying conditions for researcher-led directed growth of hyphae to make mycelial mats with tuneable morphological, physicochemical, and mechanical characteristics.

Abstract Image

黑曲霉的化学营养行为:绘制化学感应过程中的菌丝图;迈向定向材料形成的第一步
在开发应用于建筑、生物医学材料和时装的真菌基材料的过程中,了解如何调节和引导生长是控制材料生成形式的关键。在这里,我们以黑曲霉为例,展示了如何利用简单的 "化学食物 "线索来操纵真菌网络的生长。在一系列基础培养基成分(低浓度和高浓度氮源和碳源)条件下,通过化学营养指数(CI)量化了对一系列含氮和含碳生物大分子(包括氨基酸、糖和糖醇)的化学营养反应。在单个时间点和生长过程中,使用荧光显微镜通过人工智能分析方法跟踪丝状网络的生长情况,以探索真菌同时接触成对(C-C、C-N、N-N)生物分子时的化学感应行为。数据表明,黑僵菌的定向生长可以通过 CI 值来控制,CI 值是一系列生长条件下预期生长的良好近似值。这是为研究人员主导的菌丝定向生长确定条件的第一步,从而使菌丝垫具有可调节的形态、物理化学和机械特性。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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