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The Current Biotechnological Status and Potential of Plant and Algal Biomass Degrading/Modifying Enzd area is the production of enzymes to degrade or modify plant-based polymers, in particular polysaccharides. However, recent insights due to the availability of genome sequences have revealed a much larger potential in these fungi that was previously assumed. Several studies have made use of this i

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Genetic Transformation of Filamentous Fungi: Achievements and Challengestic transformation of filamentous fungi have been published, a breakthrough technology not only for scientific purposes but also for fungal biotechnology. Key transformation tools and approaches now routinely established in many labs working with filamentous fungi include PEG-mediated transformation

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Bottlenecks and Future Outlooks for High-Throughput Technologies for Filamentous Fungining events in one plate, the scientific community has proven again its lack of limitations. Biotechnology has adapted classic low-throughput lab bench protocols and morphed them into a fully functional high-throughput automated factory. Yet, despite the vast potential for both academic and industri

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Strategies and Challenges for the Development of Industrial Enzymes Using Fungal Cell Factoriesbinant microorganisms. This chapter focuses on major industrial fungal species belonging to the ascomycetes like ., ., and .. Many of the commercially available recombinant enzymes are manufactured using fungi. Examples of fungal enzymes used in food products are described. The enzyme industry is to

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Meeting a Challenge: A View on Studying Transcriptional Control of Genes Involved in Plant Biomass Dave tremendously changed. Whereas forward genetic screens have remained the most informative approaches, genome- and transcriptome-based methods have completely circumpassed more classical approaches in this field such as genetic linkage analysis and gene complementation studies. Functional analysis

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The Economic Potential of Arbuscular Mycorrhizal Fungi in Agriculturely, there have been great gains in the amount of industries focusing on mycorrhizal fungal technologies and associated products and services for the garden and landscaping retail sector, commercial agriculture, horticulture, and nursery markets. The remarkable growth in this arena can be attributed

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Horizontal Gene Transfer in Fungi of evidence supports HGT in eukaryotic genomes. The driving forces behind horizontal gene transfer occur within a shared environment and are selective—meaning they improve survivability of stress, increase nutrient access, or provide an evolutionary advantage. The development of toxic and pathogeni

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