A new computational approach to genomic data effectively distinguishes cellulases and non-cellulases within the protein family GH48, a key component for degrading lignocellulose for biofuels
The declining reserves of fossil fuel twined with an increasing concern about the environmental cons...
Many naturally-occurring cellulolytic microorganisms are not readily cultivable, demanding a culture...
Conversion of inedible lignocellulosic plant biomass, composed primarily of carbohydrate polymers li...
The main aim of this project was to develop bioinformatics tools to rapidly identify novel cellulase...
publisher versionLignocellulosic biomass has been considered as an important and sustainable source ...
Although most energy is currently generated from fossil fuels, their continued use is unsustainable....
Cellulosic ethanol holds great promise as a renewable fuel to supplement gasoline. The complete conv...
Cellulases are enzymes that are attracting worldwide attention because of their ability to degrade c...
Simulations uncover potential new strategies for increasing the desired effects of enzymes for biofu...
This research project was designed to play a vital role in the development of low cost sugars from c...
Improvement of cellulase expression has the potential to change the nature of the biofuel industry. ...
Cellulose, the most abundant source of organic carbon on the planet, has wide-ranging industrial app...
Computer simulations suggest a new strategy to design enhanced enzymes for biofuels production. Larg...
The cellulose is enormous source of organic carbon on the earth. It has varied industrial applicatio...
Cellulases play a central role in the recycling of lignocellulose. Molecular biology is now helping ...
The declining reserves of fossil fuel twined with an increasing concern about the environmental cons...
Many naturally-occurring cellulolytic microorganisms are not readily cultivable, demanding a culture...
Conversion of inedible lignocellulosic plant biomass, composed primarily of carbohydrate polymers li...
The main aim of this project was to develop bioinformatics tools to rapidly identify novel cellulase...
publisher versionLignocellulosic biomass has been considered as an important and sustainable source ...
Although most energy is currently generated from fossil fuels, their continued use is unsustainable....
Cellulosic ethanol holds great promise as a renewable fuel to supplement gasoline. The complete conv...
Cellulases are enzymes that are attracting worldwide attention because of their ability to degrade c...
Simulations uncover potential new strategies for increasing the desired effects of enzymes for biofu...
This research project was designed to play a vital role in the development of low cost sugars from c...
Improvement of cellulase expression has the potential to change the nature of the biofuel industry. ...
Cellulose, the most abundant source of organic carbon on the planet, has wide-ranging industrial app...
Computer simulations suggest a new strategy to design enhanced enzymes for biofuels production. Larg...
The cellulose is enormous source of organic carbon on the earth. It has varied industrial applicatio...
Cellulases play a central role in the recycling of lignocellulose. Molecular biology is now helping ...
The declining reserves of fossil fuel twined with an increasing concern about the environmental cons...
Many naturally-occurring cellulolytic microorganisms are not readily cultivable, demanding a culture...
Conversion of inedible lignocellulosic plant biomass, composed primarily of carbohydrate polymers li...
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