Patent application number | Description | Published |
20090165173 | NOVEL NUCLEIC ACID SEQUENCES AND THEIR USE IN METHODS FOR ACHIEVING PATHOGEN RESISTANCE IN PLANTS - The invention relates to novel RacB cDNA sequences from barley and to expression cassettes and vectors comprising these promoter sequences. The invention furthermore relates to transgenic plants transformed with these expression cassettes or vectors, to cultures, parts or transgenic propagation material derived from them, and to their use for the production of foodstuffs, feeding stuffs, seed, pharmaceuticals or fine chemicals. The invention furthermore relates to methods of generating or increasing a pathogen resistance in plants by reducing the expression of an RacB protein or of a functional equivalent thereof. | 06-25-2009 |
20090222944 | Use Of Stomatin (STM1) Polynucleotides For Achieving A Pathogen Resistance In Plants - The invention relates to a method of generating or increasing a pathogen resistance in plants by reducing the expression of at least one stomatin polypeptide or a functional equivalent thereof. The invention relates to novel nucleic acid sequences coding for a | 09-03-2009 |
20100071089 | Method For Increasing Pathogen Resistance In Transgenic Plants - The invention relates to a method of increasing the resistance to one or more penetrating pathogen(s) in a monocotyledonous or dicotyledonous plant or a part of a plant, for example in an organ, tissue, a cell or a part of a plant cell, for example in an organell, wherein a DNA sequence which codes for an armadillo repeat ARM1 protein and which mediates an increased pathogen resistance, preferably an increased resistance to fungal pathogens, is increased into, and expressed in, the plant or plant cell; or wherein an endogenous DNA sequence which codes for an armadillo repeat ARM1 protein and which mediates an increased pathogen resistance, preferably an increased resistance to fungal pathogens, is increased in the plant or plant cell in comparison with the original, or wild-type, plant, or wherein the endogenous gene sequence or preferably the 5′-untranslated region (5′UTR) is modified in comparison with the original sequence. The invention also relates to plants, to parts of a plant, for example an organ, tissue, a cell or a part of a plant cell, for example an organelle, which are obtained by the above methods, and to corresponding propagation material. | 03-18-2010 |
20100088777 | Methods For Increasing The Resistance In Plants To Biotropic Fungi - The present invention relates to methods of generating or increasing resistance to at least one biotrophic pathogen in a plant or a part of a plant by increasing the protein quantity or function of at least one Bax Inhibitor-1 (BI-1) protein in at least one part of the plant. Moreover, the invention relates to polypeptide sequences and nucleic acid sequences which code for a BI-1 protein, and to expression cassettes, vectors and organisms which comprise such sequences or such a protein. | 04-08-2010 |
20100170005 | USE OF SUBTILISIN (RNR9) POLYNUCLEOTIDES FOR ACHIEVING A PATHOGEN RESISTANCE IN PLANTS - The invention relates to a method of generating or increasing a pathogen resistance in plants by reducing the expression of at least one subtilisin polypeptide or a functional equivalent thereof. The invention relates to novel nucleic acid sequences coding for a | 07-01-2010 |
20100192254 | METHOD OF INCREASING RESISTANCE AGAINST SOYBEAN RUST IN TRANSGENIC PLANTS - The present invention relates to a method of increasing resistance against soybean rust in transgenic plants and/or plant cells, as well as to the use of a nucleic acid molecule for the production of these plants and/or plant cells. In these plants, the content and/or the activity of at least one MLO protein is altered in comparison to the wild-type plants. Furthermore, the invention relates to transgenic plants and/or plant cells having an increased resistance against soybean rust and to expression vectors comprising a sequence that is identical, homologous or complementary to a sequence encoding an functional or non-functional MLO or fragments thereof. | 07-29-2010 |
20100192264 | Novel Selection Process - The present invention relates to processes for preparing transformed plant cells or organisms by transforming a population of plant cells which comprises at least one marker protein having a direct or indirect toxic effect for the population, with at least one nucleic acid sequence to be inserted in combination with at least one compound, preferably a DNA construct, capable of reducing the expression, amount, activity and/or function of the marker protein, with the transformed plant cells having a growth advantage over nontransformed cells, due to the action of the compound. | 07-29-2010 |
20110107457 | METHOD FOR PRODUCING A TRANSGENIC PLANT CELL, A PLANT OR A PART THEREOF WITH INCREASED RESISTANCE TO PLANT DISEASE - The invention relates to the control of pathogens. Disclosed herein are methods of producing transgenic plants with increased pathogen resistance, expression vectors comprising polynucleotides encoding for functional proteins, and transgenic plants and seeds generated thereof. | 05-05-2011 |
20110179523 | Method for Producing a Transgenic Plant Cell, a Plant or a Part Thereof with Increased Resistance Biotic Stress - The invention relates to the control of pathogens. Disclosed herein are methods of producing transgenic plants with increased pathogen resistance, expression vectors comprising polynucleotides encoding for functional proteins, and transgenic plants and seeds generated thereof. | 07-21-2011 |
20120094834 | method for increasing the vigor and/or crop yield of agricultural plants under essentially non-existent pathogen pressure - A method for increasing the vigor and/or crop yield of agricultural plants under essentially non-existent pathogen pressure, wherein the plants, the plant propagules, the seed of the plants and/or the locus where the plants are growing or are intended to grow are treated with an effective amount of a composition comprising
| 04-19-2012 |