Extrusion-based additive manufacturing of fungal-based composite materials using the tinder fungus Fomes fomentarius [0.03%]
基于 Tinder 霉菌 Fomes fomentarius 的基质材料的挤出式增材制造
Huaiyou Chen,Amanmyrat Abdullayev,Maged F Bekheet et al.
Huaiyou Chen et al.
Background: Recent efforts in fungal biotechnology aim to develop new concepts and technologies that convert renewable plant biomass into innovative biomaterials. Hereby, plant substrates become metabolized by filamentous...
Simon Vandelook,Elise Elsacker,Aurélie Van Wylick et al.
Simon Vandelook et al.
In the context of the ongoing transition from a linear to a circular economy, ecologically friendly renewable solutions are put in place. Filamentous fungi can be grown on various organic feedstocks and functionalized into a range of divers...
Deciphering the ChitoCode: fungal chitins and chitosans as functional biopolymers [0.03%]
解读真菌的ChitoCode:壳聚糖和几丁质作为功能性生物聚合物
Stefan Cord-Landwehr,Bruno M Moerschbacher
Stefan Cord-Landwehr
Chitins and chitosans are among the most widespread and versatile functional biopolymers, with interesting biological activities and superior material properties. While chitins are evolutionary ancient and present in many eukaryotes except ...
Mechanical characteristics of bacterial cellulose-reinforced mycelium composite materials [0.03%]
细菌纤维素增强的菌丝复合材料的力学特性
Elise Elsacker,Simon Vandelook,Bastien Damsin et al.
Elise Elsacker et al.
Background: While mycelium is considered a promising alternative for fossil-based resins in lignocellulosic materials, the mechanical properties of mycelium composite materials remain suboptimal, among other reasons due t...
A review on architecture with fungal biomaterials: the desired and the feasible [0.03%]
用真菌生物材料构建建筑的研究:理想与可能
Dimitra Almpani-Lekka,Sven Pfeiffer,Christian Schmidts et al.
Dimitra Almpani-Lekka et al.
Fungal biomaterials are becoming increasingly popular in the fields of architecture and design, with a significant bloom of projects having taken place during the last 10 years. Using mycelium as a stabilizing compound for fibers from agric...
A review on the potential of filamentous fungi for microbial self-healing of concrete [0.03%]
关于丝状真菌在混凝土微生物自愈合中潜在应用的评述
Aurélie Van Wylick,Antonielle Vieira Monclaro,Elise Elsacker et al.
Aurélie Van Wylick et al.
Concrete is the most used construction material worldwide due to its abundant availability and inherent ease of manufacturing and application. However, the material bears several drawbacks such as the high susceptibility for crack formation...
CRISPR/Cas9 mediated editing of the Quorn fungus Fusarium venenatum A3/5 by transient expression of Cas9 and sgRNAs targeting endogenous marker gene PKS12 [0.03%]
通过瞬时表达Cas9和sgRNA(定位内源性标志基因PKS12)对Quorn真菌Fusarium venenatum A3/5进行CRISPR/Cas9介导的编辑
Fiona M Wilson,Richard J Harrison
Fiona M Wilson
Background: Gene editing using CRISPR/Cas9 is a widely used tool for precise gene modification, modulating gene expression and introducing novel proteins, and its use has been reported in various filamentous fungi includi...
Correction to: Class‑II dihydroorotate dehydrogenases from three phylogenetically distant fungi support anaerobic pyrimidine biosynthesis [0.03%]
《三种进化上距离较远的真菌中的II类二氢乳清酸脱氢酶支持厌氧嘧啶生物合成》的勘误
Jonna Bouwknegt,Charlotte C Koster,Aurin M Vos et al.
Jonna Bouwknegt et al.
Published Erratum
Fungal biology and biotechnology. 2021 Nov 16;8(1):14. DOI:10.1186/s40694-021-00123-6 2021
Synthaser: a CD-Search enabled Python toolkit for analysing domain architecture of fungal secondary metabolite megasynth(et)ases [0.03%]
Synthaser:用于分析真菌次级代谢物大合成酶域结构的Python工具包
Cameron L M Gilchrist,Yit-Heng Chooi
Cameron L M Gilchrist
Background: Fungi are prolific producers of secondary metabolites (SMs), which are bioactive small molecules with important applications in medicine, agriculture and other industries. The backbones of a large proportion o...
State of the art, recent advances, and challenges in the field of fungal mycelium materials: a snapshot of the 2021 Mini Meeting [0.03%]
真菌菌丝材料领域的发展现状,最新进展和挑战:对2021年小型会议的回顾
Noam Attias,Achiya Livne,Tiffany Abitbol
Noam Attias
Material development based on fungal mycelium is a fast-rising field of study as researchers, industry, and society actively search for new sustainable materials to address contemporary material challenges. The compelling potential of funga...