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Blocking utilization of major plant biomass polysaccharides leads Aspergillus niger towards utilization of minor componentsThe Amylolytic Regulator AmyR of
Aspergillus niger Is Involved in Sucrose and Inulin Utilization in a Culture-Condition-Dependent Manner.Unraveling the regulation of sugar beet pulp utilization in the industrially relevant fungus Aspergillus nigerNon-homologous end-joining-deficient filamentous fungal strains mitigate the impact of off-target mutations during the application of CRISPR/Cas9Genetic barcodes allow traceability of CRISPR/Cas9-derived Aspergillus niger strains without affecting their fitnessThe Current Biotechnological Status and Potential of Plant and Algal Biomass Degrading/Modifying Enzymes from Ascomycete FungiGalR, GalX and AraR co-regulate d-galactose and l-arabinose utilization in Aspergillus nidulansThe Sugar Metabolic Model of
Aspergillus niger Can Only Be Reliably Transferred to Fungi of Its Phylum.CRISPR/Cas9 technology enables the development of the filamentous ascomycete fungus Penicillium subrubescens as a new industrial enzyme producerDetailed analysis of the D-galactose catabolic pathways in Aspergillus niger reveals complexity at both metabolic and regulatory levelThe transcriptional activator ClrB is crucial for the degradation of soybean hulls and guar gum in Aspergillus nigerCRISPR/Cas9 facilitates rapid generation of constitutive forms of transcription factors in Aspergillus niger through specific on-site genomic mutations resulting in increased saccharification of plant biomassThe Cultivation Method Affects the Transcriptomic Response of Aspergillus niger to Growth on Sugar Beet PulpHeterologous protein production in filamentous fungiGenetic engineering for strain improvement in filamentous fungiThe chimeric GaaR-XlnR transcription factor induces pectinolytic activities in the presence of D-xylose in Aspergillus nigerStrategies for the Development of Industrial Fungal Producing Strains
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Sandra Garrigues