Abstract: A method for producing herbicide-resistant sugar beet plant includes obtaining protoplasts from stomatal guard cells isolated from a sugar beet plant. A composition having an ALS herbicide is applied to the cells at a concentration which is lethal to the cells. Sugar beet plants are regenerated from the surviving cells.

Abstract: The present invention relates to an ALS inhibitor herbicide tolerant polyploid plants, such as B. napus or B. juncea plants, progeny and parts thereof comprising mutations in all acetolactase genes.

Abstract: The present invention relates to an ALS inhibitor herbicide tolerant B. napus plant, progeny and parts thereof comprising a non-transgenic mutation of an endogenous acetolactate synthase I gene and a non-transgenic mutation of an endogenous acetolactate synthase III gene.

Abstract: The present invention relates to an ALS inhibitor herbicide tolerant crop plants, such as allotetraploid Brassica plants, such as B. napus plants, progeny and parts thereof comprising mutations in acetolactase genes.

Abstract: The present invention relates to an ALS inhibitor herbicide tolerant polyploid plants, such as B. napus or B. juncea plants, progeny and parts thereof comprising mutations in all acetolactase genes.

Abstract: The present invention relates to an ALS inhibitor herbicide tolerant polyploid plants, such as B. napus or B. juncea plants, progeny and parts thereof comprising a mutation of all acetolactase genes.

Abstract: A method for producing herbicide-resistant sugar beet plant includes obtaining protoplasts from stomatal guard cells isolated from a sugar beet plant. A composition having an ALS herbicide is applied to the cells at a concentration which is lethal to the cells. Sugar beet plants are regenerated from the surviving cells.

Abstract: The present invention relates to an ALS inhibitor herbicide tolerant B. napus plant, progeny and parts thereof comprising a mutation of an acetolactate synthase I gene and a mutation of an acetolactate synthase III gene.

Abstract: The present invention relates to an ALS inhibitor herbicide tolerant B. napus plant, progeny and parts thereof comprising a non-transgenic mutation of an endogenous acetolactate synthase I gene and a non-transgenic mutation of an endogenous acetolactate synthase III gene.

Abstract: The invention relates to a method for the production of plants with suppressed photo-respiration and improved CO2 fixation. In particular, the invention relates to a re-use of phosphoglycolate produced in photorespiration. The reaction product will be converted to a component that may be reintegrated into the plant assimilatory metabolism inside the chloroplast. This is accomplished by the transfer of genes derived from glycolate-utilizing pathways from bacteria, algae, plants and/or animals including humans into the plant nuclear and/or plastidial genome. The method of the invention leads to a reduction of photorespiration in C3 plants and by this will be of great benefit for food production especially but not exclusively under non-favourable growth conditions.

Abstract: The invention relates to a method for the production of plants with suppressed photorespiration and improved CO2 fixation. In particular, the invention relates to a re-use of phosphoglycolate produced in photorespiration. The reaction product is converted to a component that may be reintegrated into the plant assimilatory metabolism inside the chloroplast. This is accomplished by the transfer of genes derived from glycolate-utilizing pathways from bacteria, algae, plants and/or animals including humans into the plant nuclear and/or plastidial genome. The methods of the invention lead to reduced photorespiration in C3 plants and, therefore, are of great benefit for food production, especially but not exclusively under non-favourable growth conditions.

Abstract: The present invention relates to new DNA sequences, a method for producing new plants which contain a new DNA sequence, the coding sequence thereof being expressed after ozone induction. The invention also relates to said new plants and the use of DNA sequences to produce ozone-responsive gene expression in plants and plant cells. Moreover, it relates to a new promoter, the specificity thereof being increased by removal of the ozone response capacity thereof.

Abstract: The invention concerns plants with improved resistance to certain stilbene-sensitive pathogenic agents, and more particularly a set of constructs combining a plant promoter inductible by biotic stress, generated in particular by said pathogens, and gene(s) coding f r a stilbene synthase.

Abstract: The present invention relates to new DNA sequences, a method for producing new plants which contain a new DNA sequence, the coding sequence thereof being expressed after ozone induction. The invention also relates to said new plants and the use of DNA sequences to produce ozone-responsive gene expression in plants and plant cells. Moreover, it relates to a new promoter, the specificity thereof being increased by removal of the ozone response capacity thereof.

Abstract: The invention relates to nucleic acids which encode tobacco zeta-carotene synthase, to polypeptides encoded thereby, and to methods of finding modulators of the activity of zeta-carotene synthase, phytoene synthase and phytoene desaturase.

Abstract: The present invention relates to a novel organochemical compound, referred to as omphalotin for short, a process for its preparation by an essentially microbiological route and its use as microbicide and pesticide, preferably for controlling animal pests, harmful fungi and bacteria.

Abstract: The present invention relates to a novel organochemical compound, referred to as omphalotin for short, a process for its preparation by an essentially microbiological route and its use as microbicide and pesticide, preferably for controlling animal pests, harmful fungi and bacteria.

Abstract: The present invention relates to new caffeoyl-CoA 3-O-methyltransferase genes isolated from parsley and their use for the transformation of vectors, host organisms and plants.

Abstract: The present invention relates to a novel DNA sequence and its use for transforming vectors, host organisms and plants and for producing novel plants which are male-sterile and which exhibit an altered flower color.

Abstract: A stilbene synthase gene. More particularly, a stilbene synthase gene in which the stilbene synthase is resveratrol synthase. Also more particularly a stilbene synthase gene which is obtained from groundnut (Arachis hypogaea). Furthermore a stilbene synthase gene, corresponding to the stilbene synthase gene which is contained in the plasmid pGS 828.1, and DNA sequences acting in essentially the same say. Still further, a stilbene synthase gene unit which comprises approximately 6,700 base pairs and exhibits 3 EcoRI, 3 HindIII and 1 PstI cleavage sites, and which can be obtained by partial cleavage of the plasmid PGS 828.1 using EcoRI and HindIII, or from plasmid pGS 828.1 using SstI and PvuII.