Add to ORKGThe invention relates to genetically engineering the wood color of woody plants by incorporation of the lignin pathway gene O-methyltransferase into the genome of the plants.https://digitalcommons.mtu.edu/patents/1068/thumbnail.jp
Developing viable genetic engineering methods for cell wall modification in trees is important to im...
Lignin, a complex heteropolymer of cinnamyl alcohols, is, second to cellulose, the most abundant bio...
Lignin is the second most abundant biopolymer present in vascular plants. Lignification was one of t...
The invention relates to genetically engineering the wood color of woody plants by incorporation of ...
The invention pertains to the genetically down regulating a lignin pathway p-coumarate Co-enzyme A l...
Genetic engineering can be used to improve wood-pulping and bleaching efficiencies, including the pr...
The present invention relates to a novel DNA sequence, which encodes a previously unidentified ligni...
Project Objective: Our long-term goal is to genetically engineer higher value raw materials with des...
An Agrobacterium-mediated transformation and regeneration method for plants including a transformati...
Lignin is a major component of wood, the most widely used raw material for the production of pulp an...
Lignin is a major component of wood, the most widely used raw material for the production of pulp an...
In this review, the recent progress on genetic transformation of forest trees were discussed. Its de...
AbstractLignin, a complex racemic phenolic heteropolymer present in plant cell walls, plays crucial ...
As a polysaccharide-encrusting component, lignin is critical to cell wall integrity and plant growth...
A poplar clone (INRA 717-1B4) was genetically engineered to downregulate caffeic acid O-methyltransf...
Developing viable genetic engineering methods for cell wall modification in trees is important to im...
Lignin, a complex heteropolymer of cinnamyl alcohols, is, second to cellulose, the most abundant bio...
Lignin is the second most abundant biopolymer present in vascular plants. Lignification was one of t...
The invention relates to genetically engineering the wood color of woody plants by incorporation of ...
The invention pertains to the genetically down regulating a lignin pathway p-coumarate Co-enzyme A l...
Genetic engineering can be used to improve wood-pulping and bleaching efficiencies, including the pr...
The present invention relates to a novel DNA sequence, which encodes a previously unidentified ligni...
Project Objective: Our long-term goal is to genetically engineer higher value raw materials with des...
An Agrobacterium-mediated transformation and regeneration method for plants including a transformati...
Lignin is a major component of wood, the most widely used raw material for the production of pulp an...
Lignin is a major component of wood, the most widely used raw material for the production of pulp an...
In this review, the recent progress on genetic transformation of forest trees were discussed. Its de...
AbstractLignin, a complex racemic phenolic heteropolymer present in plant cell walls, plays crucial ...
As a polysaccharide-encrusting component, lignin is critical to cell wall integrity and plant growth...
A poplar clone (INRA 717-1B4) was genetically engineered to downregulate caffeic acid O-methyltransf...
Developing viable genetic engineering methods for cell wall modification in trees is important to im...
Lignin, a complex heteropolymer of cinnamyl alcohols, is, second to cellulose, the most abundant bio...
Lignin is the second most abundant biopolymer present in vascular plants. Lignification was one of t...