Abstract:
The present invention provides a method of using a fertilizer, comprising an amino acid selected from the group of L-glutamine, L-asparagine and L-arginine as major nitrogen source, optionally together with inorganic nitrogen and/or a suitable preservative, for stimulating root growth, inducing more fine roots, increase the number of root tips and/or for stimulating mycorrhiza development.
Abstract:
The present invention pertains to a novel and extensive analytical platform for selecting genes with a possible commercial phenotype from a large group of candidate genes identified using tools in bioinformatics, data from EST sequencing and DNA array. An aspect of the invention provides a method of producing a transgenic plant having an increased growth compared to its wild type. The method comprises altering in the plant the level of a gene product of at least one gene specifically expressed during different phases of wood formation. Further aspects of the invention provide a plant cell or plant progeny of a transgenic plant comprising a recombinant polynucleotide according to the invention. Other aspects pertain a DNA construct comprising a nucleotide sequence of the invention and a plant cell or plant progeny comprising the DNA construct.
Abstract:
The present invention provides to a method for enhancing the productivity of a plant by genetically modifying the genome of the plant to over-express at least one autophagy-related (ATG) protein selected from the group consisting of ATG5 and ATG7. The invention further provides a genetically modified plant characterized by over-expression of least one autophagy related (ATG) protein selected from the group consisting of ATG5 and ATG7.Additionally the use of a transgene encoding atleast one autophagy related (ATG) protein selected from the group consisting of ATG5 and ATG7for enhancing the productivity of a plantis disclosed.
Abstract:
The present invention relates to a cellulose nanocrystal functionalized with a group R, a method for preparation of cellulose nanocrystals that are functionalized with one or more groups R and use of functionalized cellulose nanocrystals in composites and for grafting. The aim of the invention is to offer more rapid and simplified methods to generate functional CNC with high degree of reactive groups on the surface. Furthermore, there is a need for functional CNCs with groups on the surface that can be used in composite materials and where the reactive group can work as coupling agents, initiators for polymer grafting or as crosslinkers. This is achieved by a method for preparation of cellulose nanocrystals that are functionalized with one or more groups R, wherein the method comprises the steps of: a) providing cellulose; b) treating the cellulose with an acidic water solution; c) removing the acidic water solution; d) adding a solution comprising an organic acid; e) reacting the mixture obtained in step d).
Abstract:
The invention relates to a method for producing a genetically modified plant with improved growth properties as compared to a corresponding non-genetically modified wild type plant, said method comprising reducing or deleting the amount or activity of an EBI1 or EBI2 polypeptide in a plant cell, a plant or a part thereof.
Abstract:
The present invention relates to a method of producing a cellulose based paper, the paper itself and the use thereof where the paper exhibits enhanced mechanical properties. The method involves providing a suspension of well dispersed modified cellulose at a low concentration. The properties and the chemical structure of the paper make it suitable for in vivo applications such as implant material.
Abstract:
Implantable materials for medical or surgical applications comprising specific chemical groups on their surface to alter the physico-chemical properties of said material rendering it suitable implantation or biocompatible properties.
Abstract:
The present invention pertains to a novel and extensive analytical platform for selecting genes with a possible commercial phenotype from a large group of candidate genes identified using tools in bioinformatics, data from EST sequencing and DNA array. The analytical platform is concentrated on analyses of fiber length and/or width and growth behavior based on a combination of multiple criteria. An object of the present invention relates to a method of producing a transgenic plant having an increased fibre length and/or width compared to its wild type. The method comprises altering in the plant the level of a gene product of at least one gene specifically expressed during different phases of wood formation phases. Further aspects of the invention provide a plant cell or plant progeny of a transgenic plant comprising a recombinant polynucleotide according to the invention. Other aspects pertain to wood produced by a transgenic plant of the invention as well as a DNA construct comprising a nucleotide sequence of the invention and a plant cell or plant progeny comprising the DNA construct.
Abstract:
The present invention relates to a novel group of copolymers comprising a soluble carbohydrate polymer (SCP), which typically is a non-starch carbohydrate, and a macromolecule covalently attached to the SCP. The macromolecule may e.g. be a hydrophobic copolymer, a polyelectrolyte polymer or a biodegradable polymer. The present invention furthermore relates to a method of preparing the copolymer, products comprising the copolymer, and to methods of preparing the products comprising the copolymer. The products comprising a copolymer are for example a polymeric carbohydrate material (PCM) modified by attachment of a copolymer, and a composite material comprising the modified PCM.
Abstract:
Ethanol production from biomass can be rendered more effective by the use of at least one fungus or a mix of fungi capable of fermenting pentose compounds, or both pentose as well as hexose compounds. Preferably said at least one fungus is a fungus belonging to the species Chalara sp., optionally used in combination with a second fungus belonging to the species Trametes sp. Preferably said fungus or fungi is/are used in combination with other fermenting microorganisms, such as a yeast, e.g. Saccaromyces cerevisiae.