Add to ORKGThe research described in this thesis aims to get more fundamental insights in the molecular mechanisms used by Aspergillus niger in relation to control morphology and protein secretion. Knowledge on these two aspects is highly relevant to further optimization of A.niger as a cell factoryThis work described in this thesis was financially supported by the Kluyver Centre for Genomics of Industrial FermentationsUBL - phd migration 201
The filamentous ascomycete fungus Aspergillus niger is a prolific secretor of organic acids, protein...
More than a century ago, in 1889, A. Fernbach presented a detailed report about the invertase of Asp...
Filamentous fungi are organisms with high industrial potential due to their inherent ability to dire...
In this thesis we have focused our studies towards a better understanding of different processes inv...
Filamentous fungi can be found in the majority of habitats of our planet. The wide-spread presence o...
Aspergillus comprises a genus of multicellular eukaryotic microorganisms containing close to 200 dif...
The fungus Aspergillus niger secretes a wide variety and high amounts of enzymes to degrade organic ...
The filamentous fungus Aspergillus niger is well-known as an industrial producer of a number of orga...
The Kluyver Centre for Genomics of Industrial Fermentations and the Netherlands Proteomics Centre co...
The aim of this Thesis was to study genome-wide gene expression in colonies of A. niger and to relat...
The filamentous fungus Aspergillus niger is widely exploited by the fermentation industry for the pr...
The objective of the project described in this thesis was to study the complex induction of extracel...
Abstract In 1917, a food chemist named James Currie made a promising discovery: any strain of the fi...
Autopaghy is an intracellular degradation system which targets cytosolic components to lytic compart...
Background: Filamentous fungal cell factories are used to produce numerous proteins, enzymes, and or...
The filamentous ascomycete fungus Aspergillus niger is a prolific secretor of organic acids, protein...
More than a century ago, in 1889, A. Fernbach presented a detailed report about the invertase of Asp...
Filamentous fungi are organisms with high industrial potential due to their inherent ability to dire...
In this thesis we have focused our studies towards a better understanding of different processes inv...
Filamentous fungi can be found in the majority of habitats of our planet. The wide-spread presence o...
Aspergillus comprises a genus of multicellular eukaryotic microorganisms containing close to 200 dif...
The fungus Aspergillus niger secretes a wide variety and high amounts of enzymes to degrade organic ...
The filamentous fungus Aspergillus niger is well-known as an industrial producer of a number of orga...
The Kluyver Centre for Genomics of Industrial Fermentations and the Netherlands Proteomics Centre co...
The aim of this Thesis was to study genome-wide gene expression in colonies of A. niger and to relat...
The filamentous fungus Aspergillus niger is widely exploited by the fermentation industry for the pr...
The objective of the project described in this thesis was to study the complex induction of extracel...
Abstract In 1917, a food chemist named James Currie made a promising discovery: any strain of the fi...
Autopaghy is an intracellular degradation system which targets cytosolic components to lytic compart...
Background: Filamentous fungal cell factories are used to produce numerous proteins, enzymes, and or...
The filamentous ascomycete fungus Aspergillus niger is a prolific secretor of organic acids, protein...
More than a century ago, in 1889, A. Fernbach presented a detailed report about the invertase of Asp...
Filamentous fungi are organisms with high industrial potential due to their inherent ability to dire...