The ability to solubilize lignocellulose makes certain ionic liquids (ILs) very effective reagents for pretreating biomass prior to its saccharification for biofuel fermentation. However, residual IL in the aqueous sugar solution can inhibit the growth and function of biofuel-producing microorganisms. In E. coli this toxicity can be partially overcome by the heterologous expression of an IL efflux pump encoded by eilA from Enterobacter lignolyticus. In the present work, we used microarray analysis to identify native E. coli IL-inducible promoters and develop control systems for regulating eilA gene expression
Abstract Background Microbial production of chemicals from renewable carbon sources enables a sustai...
To process plant-based renewable biofuels, pretreatment of plant feedstock with ionic liquids has si...
BackgroundMicrobial production of chemicals from renewable carbon sources enables a sustainable rout...
The ability to solubilize lignocellulose makes certain ionic liquids (ILs) very effective reagents f...
The ability to solubilize lignocellulose makes certain ionic liquids (ILs) very effective reagents f...
The ability to solubilize lignocellulose makes certain ionic liquids (ILs) very effective reagents f...
<div><p>The ability to solubilize lignocellulose makes certain ionic liquids (ILs) very effective re...
Ionic liquids (ILs) are emerging as superior solvents for numerous industrial applications, includin...
Ionic liquid (IL)-based pretreatment makes lignocellulosic biomass more accessible to enzymes and im...
Ionic liquid (IL)-based pretreatment makes lignocellulosic biomass more accessible to enzymes and im...
Background: There is a need to replace petroleum-derived with sustainable feedstocks for chemical pr...
Ionic liquid (IL)-based pretreatment makes lignocellulosic biomass more accessible to enzymes and im...
BackgroundThere is a need to replace petroleum-derived with sustainable feedstocks for chemical prod...
: Plant biomass is a rich source of sugars that can be converted to biofuels by engineered microbes....
Chemical and physical pretreatment of biomass is a critical step in the conversion of lignocellulose...
Abstract Background Microbial production of chemicals from renewable carbon sources enables a sustai...
To process plant-based renewable biofuels, pretreatment of plant feedstock with ionic liquids has si...
BackgroundMicrobial production of chemicals from renewable carbon sources enables a sustainable rout...
The ability to solubilize lignocellulose makes certain ionic liquids (ILs) very effective reagents f...
The ability to solubilize lignocellulose makes certain ionic liquids (ILs) very effective reagents f...
The ability to solubilize lignocellulose makes certain ionic liquids (ILs) very effective reagents f...
<div><p>The ability to solubilize lignocellulose makes certain ionic liquids (ILs) very effective re...
Ionic liquids (ILs) are emerging as superior solvents for numerous industrial applications, includin...
Ionic liquid (IL)-based pretreatment makes lignocellulosic biomass more accessible to enzymes and im...
Ionic liquid (IL)-based pretreatment makes lignocellulosic biomass more accessible to enzymes and im...
Background: There is a need to replace petroleum-derived with sustainable feedstocks for chemical pr...
Ionic liquid (IL)-based pretreatment makes lignocellulosic biomass more accessible to enzymes and im...
BackgroundThere is a need to replace petroleum-derived with sustainable feedstocks for chemical prod...
: Plant biomass is a rich source of sugars that can be converted to biofuels by engineered microbes....
Chemical and physical pretreatment of biomass is a critical step in the conversion of lignocellulose...
Abstract Background Microbial production of chemicals from renewable carbon sources enables a sustai...
To process plant-based renewable biofuels, pretreatment of plant feedstock with ionic liquids has si...
BackgroundMicrobial production of chemicals from renewable carbon sources enables a sustainable rout...