子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | ToTV-resistant plant | JP2009513079 | 2007-06-01 | JP2009538618A | 2009-11-12 | デン ヘウベル,ヨハネス フランシスカス ヨハンナ マリア ヴァン; ハーン,アニタ,アフケ デ; ヘンドリクス マリア バーテン,ヨハネス; マリス,パウルス,コーネリス |
| A plant having within its genome at least one allele of a gene that confers resistance to Tomato torrado virus (ToTV), the virus having been deposited with the Deutsche Sammlung von Mikroorganismen und Zellkulturen GmbH on 24 November 2004 under depositors reference number ToTV-E01 (DSM 16999). Independent claims are: (1) a plant part derived from the plant above; (2) a method for selecting a plant that is resistant to the ToTV; (3) a method for selecting a plant having within its genome at least one allele of a gene that confers resistance to the ToTV; (4) a method for producing a plant; (5) a plant obtainable by the method above; and (6) a plant part derived from a plant of (5). | ||||||
| 182 | Recurrent selection breeding system based on the genome shuffling method and the same method in the self-fertilizing plants using the male sterility of the dominant, which is produced by genetic engineering techniques. | JP2008140136 | 2008-04-30 | JP4251375B1 | 2009-04-08 | 淳一 田中 |
| 【課題】 自殖性の植物育種においては、ヘテロ接合体の相同染色体間の他殖による遺伝的組換えが起こりうるのは交雑から数代だけであり、これが自殖性植物育種の一つの限界になっていると考えられる。
【解決手段】 イネ、コムギ等の自殖性植物の集団において、トランスジェニックやジーンターゲティング等の遺伝子操作手法を用いて作出される1)優性の雄性不稔性、2)薬剤耐性、3)誘導性プロモーターを活性化させることにより枯死する性質、以上3つの性質を相引強連鎖の関係で持つ個体を作出し、その後代を上記2)の性質を用いて雄性不稔個体、上記3)の性質を用いて雄性不稔でない個体を効率的に選抜、両者を開花期に適切に配置し雄性不稔個体から採種することで、除雄等の煩雑な作業なしに効率的に他殖を繰り返させ、結果として効率的なゲノムシャッフリング法および当方法に基づく循環選抜育種システム。 【選択図】なし |
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| 183 | Recovery of metals from the soil | JP2000581259 | 1999-11-10 | JP2002529234A | 2002-09-10 | アンゴー,ジェイ,スコット; チャニー,ルーフス,エル.; ベイカー,アラン,ジェイ.,エム.; リー,イン−ミング |
| (57)【要約】 本発明は、ニッケルやコバルトなどの金属を、金属に富む土壌を植物採掘または植物抽出することによって回収することに関する。 この方法では、土壌のpHを調節することによって、所望の金属が選択的に超蓄積性植物に蓄積される。 金属は、最終的に、金属を含有している場所をさらに汚染することなく経済的に許容可能なレベルで植物の地上部分の組織から回収される。 本発明は、金属超蓄積植物にも関する。 | ||||||
| 184 | In the expression of the gene, or improved on it | JP52909997 | 1997-02-14 | JP2001501805A | 2001-02-13 | ヘイズロフ,ジェームズ・フイリップ; ホッジ,サラ |
| (57)【要約】 植物細胞において発現可能であり、少なくともGAL4 DNA結合ドメインの有効部分をコードし、A/T塩基の含有率が野生型酵母の配列に対して実施的に減少している核酸配列が開示される。 | ||||||
| 185 | Clone of crambe maritimal and vegetative breeding method | JP2281185 | 1985-02-09 | JPS60196124A | 1985-10-04 | JIYAN IBU PERON |
| 186 | METHOD FOR INCREASING PLANT PRODUCTIVITY BY USING ORE7 GENE, METHOD FOR REINFORCING STRESS RESISTANCE OF PLANTS BY USING ORE7 GENE AND METHOD FOR DELAYING PLANT SENESCENCE BY USING ORE7 GENE | PCT/KR2015010375 | 2015-10-01 | WO2016053022A3 | 2017-04-27 | LEE DONG HEE; KIM KOOK JIN; KIM DONG SU; CHUNG YOUNG SOO; KIM HYE JEONG; CHUNG CHANG HO; DOO HONG SOO |
| The present invention relates to a method for increasing plant productivity by using an ORE7 gene, a method for reinforcing the stress resistance of plants by using the ORE7 gene and a method for delaying plant senescence by using the ORE7 gene, wherein the ORE7 gene is isolated from Arabidopsis thaliana. | ||||||
| 187 | PLANT-ENDOPHYTE COMBINATIONS AND USES THEREFOR | PCT/US2015038110 | 2015-06-26 | WO2015200852A3 | 2016-02-25 | MITTER BIRGIT; PASTAR MILICA; SESSITSCH ANGELA; AMBROSE KAREN; ZHANG XUECHENG; REICHENBERGER GUENTHER; PFAFFENBICHLER NIKOLAUS |
| The disclosure provides materials and methods for conferring improved plant traits or benefits on plants. The materials can include a formulation comprising an exogenous endophytic bacterial population, which can be disposed on an exterior surface of a seed or seedling, typically in an amount effective to colonize the plant. The formulations can include at least one member selected from the group consisting of an agriculturally compatible carrier, a tackifier, a microbial stabilizer, a fungicide, an antibacterial agent, an herbicide, a nematicide, an insecticide, a plant growth regulator, a rodenticide, and a nutrient. | ||||||
| 188 | PLANT RESISTANT TO HELMINTHOSPORIUM TURCICUM | PCT/EP2014002386 | 2014-09-03 | WO2015032494A3 | 2015-04-30 | OUZUNOVA MILENA; SCHEUERMANN DANIELA; KELLER BEAT; KRATTINGER SIMON; WICKER THOMAS; HERREN GERHARD; HURNI SEVERINE; KESSEL BETTINA; PRESTERL THOMAS; KNAAK CARSTEN |
| The present invention relates to an improved plant resistant to Helminthosporium turcicum, especially a maize plant, which comprises a polynucleotide having one or more resistance-conferring genes, for example on a truncated chromosome fragment from the accession Pepitilla, and to a cell, a tissue, a part, grain and seed thereof, an isolated polynucleotide comprising one or more genes conferring resistance to Helminthosporium turcicum, a vector, and a transgenic plant cell and a transgenic plant, both containing said polynucleotide. The invention also relates to suitable labels and the use thereof for introducing resistance or the transgene into a plant, and to the identification of improved maize plants comprising a truncated chromosome fragment. | ||||||
| 189 | A LOLIUM MULTIFLORUM LINE INDUCING GENOME LOSS | PCT/US2009058403 | 2009-09-25 | WO2010039613A3 | 2010-07-22 | KINDIGER BRYAN K |
| Dihaploid homozygous Fescue species may be produced by interspecific hybridization of Fescue with novel ryegrass, Lolium multiflorum, lines, that induce genome loss. Plants that are dihaploid homozygous Lolium and amphidiploids are also produced. | ||||||
| 190 | PLANT GENOMIC DNA FLANKING SPT EVENT AND METHODS FOR IDENTIFYING SPT EVENT | PCT/US2009034212 | 2009-02-16 | WO2009103049A3 | 2009-12-03 | BRINK KENT; CROWGEY ERIN; DIETRICH NINA; HONDRED DAVID; YOUNG JOSHUA K; ZHONG CATHY XIAOYAN |
| Compositions and methods related to transgenic plants comprising seed production technology are provided. Specifically, maize plants having a E6611.32.1.38 event which confers seed production technology are provided. The plant harboring the E6611.32.1.38 event at the recited chromosomal location comprises the genomic/transgene junctions described. The plant genomic DNA flanking the integrated E6611.32.1.38 event can be used to design assays that will be specific for the E6611.32.1.38 event. The characterization of the genomic insertion site of the E6611.32.1.38 event provides for an enhanced breeding efficiency and enables the use of molecular markers to track the transgene insert in the breeding populations and progeny thereof. Various methods and compositions for the identification, detection, and use of the maize E6611.32.1.38 event are provided. | ||||||
| 191 | POLYPLOID CASTOR PLANTS, COMPOSITIONS DERIVED THEREFROM AND USES OF SAME | PCT/IL2008001470 | 2008-11-06 | WO2009060455A1 | 2009-05-14 | AVIDOV AMIT; LERNER ALON |
| A polyploid castor plant being at least as fertile as a diploid castor plant isogenic to the polyploid castor plant when grown under similar conditions. | ||||||
| 192 | BRILLIANT WHITE CAULIFLOWER | PCT/US2007021191 | 2007-10-02 | WO2008042392A3 | 2008-11-20 | BOON MEINARDUS PETRUS; VAN DEN BOSCH FRANCISCUS; KOOREVAAR GERARD |
| The present invention includes cauliflowers with enhanced whiteness and methods for obtaining such cauliflowers. The present invention also provides reagents that can be used in methods for obtaining such cauliflowers. | ||||||
| 193 | TARO CULTIVAR "PA'AKALA" | PCT/US0029061 | 2000-10-20 | WO0130132A2 | 2001-05-03 | TRUJILLO EDUARDO E |
| The present invention relates to a new and distinct variety of Colocasia esculenta(popularly known as taro) named Pa'kala. Pa'akala differs distinctively from other taro plants by its unique combination of resistance to taro leaf blight caused by Phytophthora colocasiae, high tolerance to root rot caused by Pythium spp., vigorous growth, extra-large mother corm size, and pinkish corm of very good flour quality and good poi and eating qualities. | ||||||
| 194 | METHOD FOR IMPROVING SALT TOLERANCE OF PLANT | EP17813402.9 | 2017-06-15 | EP3409105A1 | 2018-12-05 | ONO, Seigo; SHIMATANI, Zenpei |
The present invention provides a method for improving salt tolerance of a plant so as to enable the plant to be cultivated under a high salt concentration condition. The present invention discloses a method for improving salt tolerance of a plant, including suppressing or inhibiting a function of PERK13 (Proline-rich extensin-like receptor kinase 13) in a plant; the method for improving salt tolerance of a plant, wherein an antagonist of PERK13 is brought into contact with a root of the plant; the method for improving salt tolerance of a plant, wherein the antagonist is one or more species of microorganisms or a secretion therefrom; and the method for improving salt tolerance of a plant, wherein the suppression of the function of the PERK13 is carried out by suppressing expression of PERK13 gene, or the inhibition of the function of the PERK13 is carried out by inhibiting expression of PERK13 gene. |
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| 195 | ANTIFUNGAL PLANT PROTEINS, PEPTIDES, AND METHODS OF USE | EP14792240.5 | 2014-04-29 | EP2999712B1 | 2018-11-21 | SHAH, Dilip |
| Provided are transgenic plants expressing MtDef5 antifungal proteins and peptides exhibiting high levels of resistance to susceptible fungi. Such transgenic plants contain a recombinant DNA construct comprising a natural or heterologous signal peptide sequence operably linked to a nucleic acid sequence encoding these molecules. Also provided are methods of producing such plants, methods of protecting plants against susceptible fungal infection and damage, as well as compositions that can be applied to the locus of plants, comprising microorganisms expressing these molecules, or these molecules themselves, as well as pharmaceutical compositions containing these molecules. Human and veterinary therapeutic use of MtDef5 antifungal proteins and peptides to treat susceptible fungal infections are also encompassed by the invention. | ||||||
| 196 | AUGMENTATION DE LA RECOMBINAISON MÉIOTIQUE CHEZ LES PLANTES PAR INHIBITION DE LA PROTÉINE FIDG | EP14752936.6 | 2014-06-30 | EP3016506B1 | 2018-09-12 | MERCIER, Raphaël; GIRARD, Chloé; CRISMANI, Wayne |
| 197 | METHOD FOR PRODUCING STEVIOL AND STEVIOL GLYCOSIDE USING AOBGL1 HOMOLOG | EP16859945.4 | 2016-10-28 | EP3369824A1 | 2018-09-05 | OCHIAI Misa; ONO Eiichiro |
The present invention provides a method for producing a steviol glycoside and/or steviol, said method including a step in which a steviol glycoside having at least one unbranched β1,2-glycosidic bond is reacted with the glycosidase AOBGL1 and/or AOBGL3, or a variant thereof, so as to cleave the β1,2-glycosidic bond. |
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| 198 | METHODS FOR DETERMINING FITNESS IN PLANTS | EP11726718.7 | 2011-06-15 | EP2582226B1 | 2018-08-15 | AKPO, Essè, Ifêbi, Hervé; LAGA, Benjamin; DE BLOCK, Marc |
| Means and methods are provided to produce abiotic stress tolerant plants with improved yield based on the specific identification of a DNA methylation signature in the plants out of a population of the plants. The methods involve identification and utilization of epigenetic features of a plant with high energy use efficiency | ||||||
| 199 | APPLICATIONS OF PROTEIN VDAL IN IMPROVING OUTPUT, PRODUCT QUALITY AND DROUGHT RESISTANCE OF PLANT AND IN IMPROVING FRUIT COLORING OF PLANT | EP16856654.5 | 2016-07-01 | EP3351555A1 | 2018-07-25 | QI, Junsheng; GONG, Zhizhong; HONG, Xuhui; ZHANG, Dingpeng |
Provided are applications of protein VdAL in improving the output, product quality and drought resistance of a plant and in improving fruit coloring of plant. The protein VdAL is selected from one of A1) to A3): A1), protein having an amino acid sequence that is 1; A2) protein that is derived from A), that has same functions and that is obtained by substituting and/or deleting and/or adding one or several amino acid residues for, from or to the sequence 1; and A3) fusion protein obtained by connecting labels to an N end and/or a C end of A1) or A2). |
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| 200 | BROCCOLI TYPE ADAPTED FOR EASE OF HARVEST | EP17190149.9 | 2005-04-25 | EP3338542A1 | 2018-06-27 | van den Bosch, Franciscus; Boon, Meinardus P. |
Broccoli plants characterized in having an exerted head having a crown higher than the leaf canopy and a harvestable head of at least about 200 grams when planted at a density of 40,000 plants per hectare, where the harvestable head comprises the top 25 centimeters of said stalk.
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