Add to ORKGThe secondary cell walls of woody plant species are a major source of cellulose. This biopolymer is among the most abundant on the planet and is very useful to industry, having many applications, such as in the paper industry and as a possible source of fermentable sugar for biofuel production. Therefore, much emphasis is placed on understanding the formation of woody biomass (mainly comprising of secondary cell walls) as a possible feedstock for cellulose extraction. Wood fibres are of particular interest as they are most useful for the paper industry and have thick, cellulose rich secondary cell walls. Transcriptional regulation of secondary cell wall biosynthesis is facilitated through a complex network of proteins and genes operating in...
Plant cell walls comprise a complex of mostly cellulose, hemicellulose, and lignin. The composition ...
Acetyl‐ and methylglucuronic acid decorations of xylan, the dominant hemicellulose in secondary cell...
Genetic manipulation of cellulose synthase genes (CesA) might be expected to increase cellulose cont...
Wood formation is heavily exploited for the manufacturing of pulp, paper, sustainable biomaterials a...
BACKGROUND: NAC domain transcription factors initiate secondary cell wall biosynthesis in Arabidopsi...
The increasing focus on plantation forestry as a renewable source of cellulosic biomass has emphasiz...
Trees constitute the majority of lignocellulosic biomass existing on our planet. Trees also serve as...
Cellulose is a highly abundant biopolymer which forms the basis of several industrial applications i...
Cellulose is the world’s most abundant renewable energy resource, and a variety of cellulose synthas...
Secondary cell wall (SCW) deposition in Arabidopsis is regulated among others by NAC transcription ...
Cellulose is an essential structural component of the plant cell wall. Its biosynthesis involves gen...
Re-engineering of transcriptional networks regulating secondary cell wall formation may allow the im...
To secure a sustainable energy source for the future, we need to develop an alternative to fossil fu...
To secure a sustainable energy source for the future, we need to develop an alternative to fossil fu...
To secure a sustainable energy source for the future, we need to develop an alternative to fossil fu...
Plant cell walls comprise a complex of mostly cellulose, hemicellulose, and lignin. The composition ...
Acetyl‐ and methylglucuronic acid decorations of xylan, the dominant hemicellulose in secondary cell...
Genetic manipulation of cellulose synthase genes (CesA) might be expected to increase cellulose cont...
Wood formation is heavily exploited for the manufacturing of pulp, paper, sustainable biomaterials a...
BACKGROUND: NAC domain transcription factors initiate secondary cell wall biosynthesis in Arabidopsi...
The increasing focus on plantation forestry as a renewable source of cellulosic biomass has emphasiz...
Trees constitute the majority of lignocellulosic biomass existing on our planet. Trees also serve as...
Cellulose is a highly abundant biopolymer which forms the basis of several industrial applications i...
Cellulose is the world’s most abundant renewable energy resource, and a variety of cellulose synthas...
Secondary cell wall (SCW) deposition in Arabidopsis is regulated among others by NAC transcription ...
Cellulose is an essential structural component of the plant cell wall. Its biosynthesis involves gen...
Re-engineering of transcriptional networks regulating secondary cell wall formation may allow the im...
To secure a sustainable energy source for the future, we need to develop an alternative to fossil fu...
To secure a sustainable energy source for the future, we need to develop an alternative to fossil fu...
To secure a sustainable energy source for the future, we need to develop an alternative to fossil fu...
Plant cell walls comprise a complex of mostly cellulose, hemicellulose, and lignin. The composition ...
Acetyl‐ and methylglucuronic acid decorations of xylan, the dominant hemicellulose in secondary cell...
Genetic manipulation of cellulose synthase genes (CesA) might be expected to increase cellulose cont...