为木材降解真菌提供基于社区的计量方法。

Q1 Agricultural and Biological Sciences Fungal Biology and Biotechnology Pub Date : 2020-03-19 eCollection Date: 2020-01-01 DOI:10.1186/s40694-020-00092-2
Rolando Perez, Marina Luccioni, Rohinton Kamakaka, Samuel Clamons, Nathaniel Gaut, Finn Stirling, Katarzyna P Adamala, Pamela A Silver, Drew Endy
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摘要

背景:木质纤维素生物质可支持大幅扩展的生物经济。目前的生物质利用策略通常依赖单细胞生物和大量辅助设备来生产下游制造工艺所需的前体。基于固态发酵和木材降解真菌的替代生物生产方式可以实现更直接的生产。然而,培养木材降解真菌的基本方法往往是临时性的,不易复制。在此,我们开发了标准参考菌株、基质、测量和方法,足以开始在简单的实验室环境中可靠地重复使用真菌学材料和产品:结果:我们证明了一种广泛供应且全球固定的消费品(Pringles™)可以支持木材降解真菌的生长,而且 Pringles™ 菌槽上的生长与完全可追溯且成分特征明确的基质(美国国家标准与技术研究院标准物质 8492 东部木棉全生物质原料)培养基上的生长是相关的。我们还建立了一个相对扩展单元(REU)框架,旨在减少径向生长测量量化方面的差异。目前,我们已经证明五个实验室能够通过简单的径向延伸生长率测定法对木霉的性能进行比较测量,而我们基于 REU 的方法可将报告测量结果的差异减少 75%:结论:材料、措施和方法的可靠再利用是实现分布式生物生产过程的必要条件,这些过程可以在从地方到工业的所有范围内采用。我们基于社区的测量方法鼓励从业人员协调标准材料、方法和菌株的重复使用,并分享支持木材降解真菌工作的信息。
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Enabling community-based metrology for wood-degrading fungi.

Background: Lignocellulosic biomass could support a greatly-expanded bioeconomy. Current strategies for using biomass typically rely on single-cell organisms and extensive ancillary equipment to produce precursors for downstream manufacturing processes. Alternative forms of bioproduction based on solid-state fermentation and wood-degrading fungi could enable more direct means of manufacture. However, basic methods for cultivating wood-degrading fungi are often ad hoc and not readily reproducible. Here, we developed standard reference strains, substrates, measurements, and methods sufficient to begin to enable reliable reuse of mycological materials and products in simple laboratory settings.

Results: We show that a widely-available and globally-regularized consumer product (Pringles™) can support the growth of wood-degrading fungi, and that growth on Pringles™-broth can be correlated with growth on media made from a fully-traceable and compositionally characterized substrate (National Institute of Standards and Technology Reference Material 8492 Eastern Cottonwood Whole Biomass Feedstock). We also establish a Relative Extension Unit (REU) framework that is designed to reduce variation in quantification of radial growth measurements. So enabled, we demonstrate that five laboratories were able to compare measurements of wood-fungus performance via a simple radial extension growth rate assay, and that our REU-based approach reduced variation in reported measurements by up to ~ 75%.

Conclusions: Reliable reuse of materials, measures, and methods is necessary to enable distributed bioproduction processes that can be adopted at all scales, from local to industrial. Our community-based measurement methods incentivize practitioners to coordinate the reuse of standard materials, methods, strains, and to share information supporting work with wood-degrading fungi.

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来源期刊
Fungal Biology and Biotechnology
Fungal Biology and Biotechnology Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
10.20
自引率
0.00%
发文量
17
审稿时长
9 weeks
期刊最新文献
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