Abstract: The present invention relates to a process for the production of fine chemicals in a microorganism, a plant cell, a plant, a plant tissue or parts thereof. The invention furthermore relates to nucleic acid molecules, polypeptides, nucleic acid constructs, vectors, antisense molecules, antibodies, host cells, plant tissue, propagtion material, harvested material, plants, microorganisms as well as agricultural compositions and to their use.

Abstract: This invention relates generally to a method for producing a transgenic cell with increased gamma-aminobutyric acid (GABA) content as compared to a corresponding non-transformed wild type cell.

Abstract: The present invention relates to a process for the production of fine chemicals in a microorganism, a plant cell, a plant, a plant tissue or parts thereof by increasing or generating the biological activity of a ras-Like GTPase or the homologues thereof and growing the organism under conditions which permit the production of the fine chemicals in the organism. Preferred fine chemicals produced by the present invention include amino acids, carbohydrates, vitamins, fatty acids, and carotenoids.

Abstract: The present invention relates to the field of diagnostic measures. Specifically, it contemplates a method for assessing whether gastric bypass therapy was successful in a subject, a method of predicting whether gastric bypass therapy will be beneficial for a subject in need thereof, and a method of diagnosing whether a supportive therapy accompanying gastric bypass has beneficial effects on a subject in need thereof. Further provided are diagnostic methods for diabetes and body lean mass. Furthermore, the invention relates to a method for identifying a treatment against diabetes and/or obesity.

Abstract: Described herein are inventions in the field of genetic engineering of plants, including combinations of polynucleotides encoding LMPs to improve agronomic, horticultural, and quality traits. This invention also relates to the combination of polynucleotides encoding proteins that are related to the presence of seed storage compounds in plants. More specifically, the present invention relates to LMP polynucleotides encoding lipid metabolism proteins (LMP) and the use of these combinations of these sequences, their order and direction in the combination, and the regulatory elements used to control expression and transcript termination in these combinations in transgenic plants. In particular, the invention is directed to methods for manipulating fatty acid-related compounds and for increasing oil and starch levels and altering the fatty acid composition in plants and seeds.

Abstract: A method for analyzing a test sample is disclosed, the test sample comprising at least one compound. A test sample comprising at least one compound is provided. Next, the at least one compound in the test sample is determined, thereby generating raw results. The generated raw results are analyzed, wherein the analysis of the test sample is accompanied by an analysis of at least one reference sample. The test sample and the reference sample are analyzed in an identical sequence in each step of the method. A system for carrying out the method is also disclosed.

Abstract: A process for identifying whether plant is resistant to chilling comprises cultivating the plant at a reduced temperature for a time period selected from short term and medium term; harvesting a tissue sample of the plant; measuring concentration of at least one metabolite in the tissue sample of the plant; comparing the measured concentration with the concentration of the same metabolite in a tissue sample harvested from a reference plant or a plant of the same species after cultivation at a reference temperature; and optionally, repeating the process of foregoing steps but cultivating the plant at a reduced temperature for a time period selected from short term and medium term and not previously used; wherein resistance to chilling is indicated by one or more of the effects on metabolites listed in Table 2 or Table 4.

Abstract: The present invention relates to the manipulation of the nitrogen metabolism in photosynthetic active organisms, preferably in plants. In particular, the present invention relates to a process for the enhanced nitrogen assimilation, accumulation and/or utilization and/or for the increased total nitrogen content in a photosynthetic active organism.

Abstract: The present invention relates to a method for analyzing at least one test sample, wherein said test sample comprises at least one compound, said method comprising the steps of: a) providing at least one test sample comprising at least one compound; b) determining said at least one compound in said test sample whereby raw results are generated; and c) analyzing the raw results obtained in step b), wherein the analysis of said at least one test sample is accompanied by an analysis of at least one reference sample; and wherein the test sample and the reference sample are analyzed in an identical sequence in each step of the method.

Abstract: The present invention relates to a process for the production of the fine chemical in a microorganism, a plant cell, a plant, a plant tissue or in one or more parts thereof, preferably in plastids. The invention furthermore relates to nucleic acid molecules, polypeptides, nucleic acid constructs, vectors, antibodies, host cells, plant tissue, propagation material, harvested material, plants, microorganisms as well as agricultural compositions and to their use.

Abstract: The present invention relates to a process for the production of the fine chemical in a microorgansm, a plant cell, a plant, a plant tissue or in one or more parts thereof. The invention furthermore relates to nucleic acid molecules, polypeptides, nucleic acid constructs, vectors, antisense molecules, antibodies, host cells, plant tissue, propagtion material, harvested material, plants, microorganisms as well as agricultural compositions and to their use.

Abstract: The invention relates to a method for producing aminoacids in transgenic organisms. The inventive method consists of the following steps: a) introduction of nucleic acids sequence which codes threonine decomposing protein or lysine decomposing protein or codes threonine decomposing protein and lysine decomposing protein, b) introduction of nucleic acids sequence which improves the decomposition of threonine or lysine or the decomposition of threonine and lysine in the transgenic organisms; c) expression of (a) or (b) nucleic acids sequence in a transgenic organism.