Filamentous fungi as emerging cell factories for the production of aromatic compounds [0.03%]
丝状真菌在芳香化合物生产中的新兴细胞工厂作用
Pavithra Umashankar,Yvonne Nygård
Pavithra Umashankar
Microbial production of aromatic compounds from renewable feedstocks has gained increasing interest as a means towards sustainable production of chemicals. The potential of filamentous fungi for production of aromatic compounds has nonethel...
Enhancement of antioxidant activity and total phenolic content of Fomitopsis pinicola mycelium extract [0.03%]
茯苓多孔菌培养物提取物的抗氧化活性和总酚含量增强
Tetiana Krupodorova,Victor Barshteyn,Veronika Dzhagan et al.
Tetiana Krupodorova et al.
Background: Fomitopsis pinicola is one of the most common fungi found in temperate zone of Europe, widely distributed spread in Asia and North America. Fungus has a wide range of therapeutic activity: antitumor, antimicro...
Development of a whole-cell SELEX process to select species-specific aptamers against Aspergillus niger [0.03%]
开发针对Aspergillus niger的种属特异性适配体的全细胞SELEX过程
Valeria Ellena,Alexandra Ioannou,Claudia Kolm et al.
Valeria Ellena et al.
Background: Spores produced by the filamentous fungus Aspergillus niger are abundant in a variety of environments. The proliferation of this fungus in indoor environments has been associated to health risks and its conidi...
Ashbya gossypii as a versatile platform to produce sabinene from agro-industrial wastes [0.03%]
基于农业工业废弃物的石南烯生产菌 Ashbya gossypii 的代谢工程改造
Gloria Muñoz-Fernández,Javier-Fernando Montero-Bullón,José Luis Martínez et al.
Gloria Muñoz-Fernández et al.
Background: Ashbya gossypii is a filamentous fungus widely utilized for industrial riboflavin production and has a great potential as a microbial chassis for synthesizing other valuable metabolites such as folates, biolip...
Competition between homologous chromosomal DNA and exogenous donor DNA to repair CRISPR/Cas9-induced double-strand breaks in Aspergillus niger [0.03%]
芽枝杆菌中CRISPR/Cas9诱导的双链断裂修复中外源供体DNA与同源染色体DNA的竞争性研究
Selina Forrer,Mark Arentshorst,Prajeesh Koolth Valappil et al.
Selina Forrer et al.
Background: Aspergillus niger is well-known for its high protein secretion capacity and therefore an important cell factory for homologous and heterologous protein production. The use of a strong promoter and multiple gen...
The decision for or against mycoparasitic attack by Trichoderma spp. is taken already at a distance in a prey-specific manner and benefits plant-beneficial interactions [0.03%]
轮值菌攻击决策在远处作出,并以猎物特异性方式使植物有益互动收益
Pia Stange,Johannes Kersting,Prasath Balaji Sivaprakasam Padmanaban et al.
Pia Stange et al.
Background: The application of plant-beneficial microorganisms as bio-fertilizer and biocontrol agents has gained traction in recent years, as both agriculture and forestry are facing the challenges of poor soils and clim...
Streptomyces small laccase expressed in Aspergillus Niger as a new addition for the lignocellulose bioconversion toolbox [0.03%]
一种新的链霉菌小漆酶在黑曲霉中的表达促进木质纤维素生物转化工具箱的发展
Andika Sidar,Gerben P Voshol,Ahmed El-Masoudi et al.
Andika Sidar et al.
Laccases are multi-copper oxidases that are usually composed of three Cu-oxidase domains. Domains one and three house the copper binding sites, and the second domain is involved in forming a substrate-binding cleft. However, Streptomyces sp...
Martin Weinhold
Martin Weinhold
From 30 September 2023 to 7 January 2024, the Nobel Prize Museum in Stockholm presented the show Fungi-In Art and Science. For the exhibition, an alliance of scientists, artists, and designers was brought together that overcame all the alle...
Patent landscape analysis for materials based on fungal mycelium: a guidance report on how to interpret the current patent situation [0.03%]
基于真菌菌丝材料的专利态势分析——如何解读当前专利状况的指南报告
Vera Meyer,Sabine Mengel
Vera Meyer
Background: Recent advancements in the collaboration between two scientific disciplines-fungal biotechnology and materials sciences-underscore the potential of fungal mycelium as renewable resource for sustainable biomate...
NHEJ and HDR can occur simultaneously during gene integration into the genome of Aspergillus niger [0.03%]
模式曲霉中基因组编辑修复途径的解析及高效编辑元件的开发
Susanne Fritsche,Aline Reinfurt,Felix Fronek et al.
Susanne Fritsche et al.
Non-homologous end joining (NHEJ) and homology-directed repair (HDR) are two mechanisms in filamentous fungi to repair DNA damages. NHEJ is the dominant response pathway to rapidly join DNA double-strand breaks, but often leads to insertion...