Add to ORKGAs a late colonizer of herbivore dung, Podospora anserina has evolved an enzymatic machinery to degrade the more recalcitrant fraction of plant biomass, suggesting a great potential for biotechnology applications. The authors investigated its transcriptome during growth on two industrial feedstocks, soybean hulls (SBH) and corn stover (CS). Initially, CS and SBH results in the expression of hemicellulolytic and amylolytic genes, respectively, while at later time points a more diverse gene set is induced, especially for SBH. Substrate adaptation is also observed for carbon catabolism. Overall, SBH resulted in a larger diversity of expressed genes, confirming previous proteomics studies. The results not only provide an in depth view on the tr...
Abstract Background Considering that the costs of cel...
AbstractMyceliophthora thermophila is a thermophilic fungus whose genome encodes a wide range of car...
<p>The efficiency with which the anaerobic fungi (phylum Neocallimastigomycota) degrade plant biomas...
As a late colonizer of herbivore dung, Podospora anserina has evolved an enzymatic machinery to degr...
The coprophilic ascomycete fungus Podospora anserina was cultivated on three different plant biomass...
International audienceThe degradation of plant biomass is a major challenge towards the production o...
Fungi are the most important and efficient plant biomass degrading microorganisms and use different ...
International audienceThe degradation of plant biomass is a major challenge towards the production o...
International audienceThis study investigated the enzymatic capacity of several P. anserina secretom...
Plant biomass is one of the most abundant renewable carbon sources, which holds great potential for ...
BACKGROUND:Enzymatic plant biomass degradation by fungi is a highly complex process and one of the l...
BACKGROUND: Enzymatic plant biomass degradation by fungi is a highly complex process and one of the ...
International audienceTo improve the enzymatic hydrolysis (saccharification) of lignocellulosic biom...
Myceliophthora thermophila is a thermophilic fungus whose genome encodes a wide range of carbohydrat...
Background: Plant biomass is the major substrate for the production of biofuels and biochemicals, as...
Abstract Background Considering that the costs of cel...
AbstractMyceliophthora thermophila is a thermophilic fungus whose genome encodes a wide range of car...
<p>The efficiency with which the anaerobic fungi (phylum Neocallimastigomycota) degrade plant biomas...
As a late colonizer of herbivore dung, Podospora anserina has evolved an enzymatic machinery to degr...
The coprophilic ascomycete fungus Podospora anserina was cultivated on three different plant biomass...
International audienceThe degradation of plant biomass is a major challenge towards the production o...
Fungi are the most important and efficient plant biomass degrading microorganisms and use different ...
International audienceThe degradation of plant biomass is a major challenge towards the production o...
International audienceThis study investigated the enzymatic capacity of several P. anserina secretom...
Plant biomass is one of the most abundant renewable carbon sources, which holds great potential for ...
BACKGROUND:Enzymatic plant biomass degradation by fungi is a highly complex process and one of the l...
BACKGROUND: Enzymatic plant biomass degradation by fungi is a highly complex process and one of the ...
International audienceTo improve the enzymatic hydrolysis (saccharification) of lignocellulosic biom...
Myceliophthora thermophila is a thermophilic fungus whose genome encodes a wide range of carbohydrat...
Background: Plant biomass is the major substrate for the production of biofuels and biochemicals, as...
Abstract Background Considering that the costs of cel...
AbstractMyceliophthora thermophila is a thermophilic fungus whose genome encodes a wide range of car...
<p>The efficiency with which the anaerobic fungi (phylum Neocallimastigomycota) degrade plant biomas...