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161 Broccoli hybrid px 05181808 and parents thereof JP2012133738 2012-06-13 JP2013046608A 2013-03-07 MERO CARL E PROBLEM TO BE SOLVED: To provide a broccoli hybrid for adding one or more traits such as, for example, herbicide tolerance, insect resistance, disease resistance, and modified carbohydrate metabolism.SOLUTION: There are provided plants, seeds and tissue cultures of broccoli hybrid PX 05181808 and the parent lines thereof, and methods for producing a broccoli plant produced by crossing such plants with themselves or with another broccoli plant, such as a plant of another genotype. There are further provided seeds and plants produced by such crossing, and parts of such plants. 162 花卉の突然変異体を作出する方法 JP2010505988 2009-03-27 JPWO2009119914A1 2011-07-28 文雄 橋本; 悦爾 石黒; 祐介 坂田; 宗治 佐藤; 康雄 福徳; 勝之 一谷; 清水 圭一; 圭一 清水; 昌平 尾上 本発明は、花卉のフラボノイド生合成の色素前駆物質のB環の水酸化を制御し、ペラルゴニジン、シアニジン、デルフィニジンの生合成に関与する複対立遺伝子(HT、HF、HD、HZおよびHO)を含む、遺伝子型HXHY・Pg/pg・Cy/cy・Dp/dp(ここで、XおよびYは、上記T、F、D、ZまたはOであり、XとYは異なる。)を有する花卉に、放射線を照射することを含む、花卉の突然変異体を作出する方法に関する。 163 植物の油脂を増産させる遺伝子及びその利用方法 JP2009544739 2008-12-05 JPWO2009072608A1 2011-04-28 大志 茶谷; 大音 徳; 徳 大音; 幸治 岡村; 典宏 光川; 伸彦 村本; 知嗣 小山; 恭子 松井; 優 高木 植物体個体あたりの植物体重量を増加させるか、植物体個体あたりの特定の組織重量を増加させるか、植物体個体あたりの特定の物質生産性を向上させることができる新規な機能を有する転写因子を探索し、植物体におけるこれらの特性を向上する。転写促進活性を抑制するように改変した転写因子を発現させることによって、植物体個体あたりの植物体重量を増加させるか、植物体個体あたりの特定の組織重量を増加させるか、植物体個体あたりの特定の物質生産性を向上させるか、植物体の特定の組織あたりの特定の物質含量を増加させる。 164 Sunflower (Helianthusannuus) in dominant early mutations and gene JP2010546899 2009-02-12 JP2011511646A 2011-04-14 ガオ,ウェンシアン; クリストファー,マーク; ゲルデス,ジェームズ,トッド; ベンソン,ロバート The subject invention relates in part to the discovery of a spontaneous sunflower mutation. The subject invention involves an "early" mutation and related inbred/hybrid development. The subject invention further provides a single dominant gene that confers earliness in sunflower inbred isolines and near isogenic hybrids. There is no known prior teaching or suggestion of this gene's utility for hybrid development in the industry. The subject invention also provides a new and distinctive sunflower inbred line designated H120R. The invention includes seeds that possess this mutated gene, plants produced by growing these seeds, and progeny thereof that possess this mutated gene and the associated earliness trait. The subject invention also includes methods for producing such sunflower seeds and plants, including inbreds and hybrids. Such plants can be produced by, for example, crossing such an inbred line with itself or with another sunflower line. 165 Flower color method for crossing delphinium JP2005514008 2004-08-20 JP4469796B2 2010-05-26 祐介 坂田; 文雄 橋本 166 Plant Ekibyou bacterial resistance gene and its use of Katarantasu JP51964695 1995-01-18 JP4303784B2 2009-07-29 ボウマン,ロバート・エム 167 Periwinkle and its breeding method has a fringe blooming flowers JP2006508514 2005-04-15 JP4062356B2 2008-03-19 治 北島 168 High carotene content new cruciferous plant JP32691393 1993-12-24 JP3995729B2 2007-10-24 ユリエ 新宅 169 Mixed zeaxanthin ester concentrate and their use JP2006514887 2004-05-18 JP2007525189A 2007-09-06 オードリー チャールズ; マニュエル パヴォン; ランドル ハウプトマン 混合されたゼアキサンチンエステルが、濃縮物の約50mg/g又はそれよりも多くを構成し、及びここでゼアキサンチンはケン化後にアッセイした場合に存在する総カロテノイドの約20%又はそれよりも多いような、混合されたゼアキサンチンC 8 -C 20のカルボン酸エステルが、そのような濃縮物から製造することができる製品に加え、混合されたゼアキサンチンエステルのいくつかの用途として、明らかにされている。 170 Interspecific hybrids and its production method of lobelia genus JP2005091303 2005-03-28 JP3910991B2 2007-04-25 大学 竹下 171 Interspecific hybrid of genus loberia and method for producing the same JP2005091303 2005-03-28 JP2006271214A 2006-10-12 TAKESHITA DAIGAKU <P>PROBLEM TO BE SOLVED: To provide a new plant belonging to the genus Loberia capable of obtaining individuals having a desirable form (having both of strong points of its parents and also far exceeding the characteristics of the parents) by a grower in a first filial hybrid (F1) and a method for growing the same. <P>SOLUTION: This new plant belonging to the genus Loberia is characterized in that even if it is a first filial hybrid (F1) of genetically stable wild species each other, the F1's are continuously separated from a form close to a seed parent to a form close to a pollen parent by mating Loberia richardsonii (seed parent) with Loberia valida (pollen parent). <P>COPYRIGHT: (C)2007,JPO&INPIT 172 Dendrobium plant named "yfy-hs1" JP2005270586 2005-09-16 JP2006094859A 2006-04-13 WANG LIH-HWA <P>PROBLEM TO BE SOLVED: To provide a variety of Dendrobium plant named "YFY-HS1" having new distinct characteristics. <P>SOLUTION: The new Dendrobium plant named "YFY-HS1" is obtained by hybridizing Dendrobium huoshanese exhibiting slow growth with Dendrobium tosaense exhibiting rapid growth, and breeding the product by plant tissue culture. The plant is characterized by having a great growth vigor and the extract of "DCMPbL6, 7D2H2" defined in United States patent application No. 10/648,651. <P>COPYRIGHT: (C)2006,JPO&NCIPI 173 Phytophthora-resistant gene of catharanthus and its use JP2005311785 2005-10-26 JP2006087437A 2006-04-06 BOWMAN ROBERT M <P>PROBLEM TO BE SOLVED: To provide a catharanthus seed, catharanthus plant, catharanthus variant and catharanthus hybrid which have disease resistance, in particular catharanthus plants which have resistance against fungal diseases caused by Phytophthora, increased resistant level against Myzus persicae and other harmful insects, and increased content of alkaloids. <P>SOLUTION: Increased disease resistance and increased content of alkaloids in catharanthus plants and other crop plants are obtained by hybridizing catharanthus plants having the resistance against Phytophthora. <P>COPYRIGHT: (C)2006,JPO&NCIPI 174 African marigold with altered carotenoid composition and ratio JP2004549820 2003-05-30 JP2006506060A 2006-02-23 ブレア エル ウィナー; ランダル ハウプトマン; アラン ブロワーズ 花弁、葉又は花弁と葉が非突然変異体マリーゴールド中の比に対して高められたネオキサンチン+ビオラキサンチン比、高められたβ-カロテン比、高められたリコペン比、高められたα-クリプトキサンチン比、高められたフィトエン比又は高められたフィトフルエン比の一つ以上を含むマリーゴールド植物、その再生可能な部分及び種子が開示される。 花弁がゼアキサンチンエステルを含み、かつネオキサンチン及びビオラキサンチンの両方のエステルを実質的に含まず、キサントフィルがアルコールとして分析される場合に、ゼアキサンチンが抽出可能なカロテノイドの少なくとも約半分を構成する、マリーゴールド植物、その再生可能な部分及び種子がまた開示される。 また、このような植物の調製方法、このようなカロテノイド比を有するオレオレジン及び食用物質が開示される。 175 New specific cultivar plant of table dogwood JP2004365199 2004-12-17 JP2005224239A 2005-08-25 ORTON ELWIN R; GANT DAVID A <P>PROBLEM TO BE SOLVED: To provide a new specific cultivar plant of a table dogwood, capable of being distinguished by exceptionally highly vigorous characteristics, excellent leaves, floriferous display of extremely attractive and exceptionally large white floral bracts, cold resistance of a high level, good drought resistance, and high resistance to a predisposition to powdery mildew and dogwood anthracnose. <P>SOLUTION: This new specific cultivar plant of the table dogwood comprises an advanced generation interspecific hybrid between Cornus kousa and Cornus nuttallii both belonging to a dogwood family. <P>COPYRIGHT: (C)2005,JPO&NCIPI 176 New and unique cultivar of cornus JP2004365198 2004-12-17 JP2005176840A 2005-07-07 ORTON ELWIN R; GANT DAVID A <P>PROBLEM TO BE SOLVED: To provide a new cultivar plant of cornus landscaping and having excellent large-bract. <P>SOLUTION: This invention relates to the interspecific hybrid of Cornus kousa x C. nutlallii which exhibits the vigorous nature and the floral display of large, white bracts of plants of C. nuttallii and the dark, glossy green foliage and disease and insect resistance of plants of C. kousa. Plants of C. nuttallii become very large in nature in areas where they are indigenous but seldom thrive in other areas. Plants of this new hybrid are expected to thrive in many regions of the world where plants of C. kousa distribute. <P>COPYRIGHT: (C)2005,JPO&NCIPI 177 African marigold with altered carotenoid composition and ratio JP2003508156 2002-06-27 JP2005511003A 2005-04-28 ブレア ウィナー; チェリル エム スマイサー; ランダル ハウプトマン; アラン ディー ブロワーズ 花弁、葉又は花弁と葉が非突然変異体マリーゴールド中の比に対して高められたゼアキサンチン比、高められたネオキサンチン+ビオラキサンチン比、高められたβ-カロテン比、高められたα-クリプトキサンチン、高められたフィトエン比又は高められたフィトフルエン比の一つ以上を含むマリーゴールド植物、その再生可能な部分及び種子が開示される。 このような植物の花弁はまた典型的にはこのような花弁中に通常見られないゼータ-カロテンを含む。 また、このような植物の調製方法、このようなカロテノイド比を有するオレオレジン及び食用物質が開示される。 178 Eustoma having variant pistil and method for breeding the same JP2002175939 2002-06-17 JP2004000103A 2004-01-08 SASE NOBORU PROBLEM TO BE SOLVED: To provide eustoma excellent in keeping quality of a flower which solves problems, such as being inferior to productivity, since a cost for controlling an external condition is high, there is a limit for obtaining the desired effect and a seed can not be obtained from a plant of triploid or male sterility. SOLUTION: Eustoma variety "Himemidori I" is used as a pollen parent, eustoma variety "Hohoemi I" is crossed as a female parent and a eustoma having variant pistil is selected. Thus, under natural condition, stigma does not open substantially. Therefore, since there is almost no capabilities of being pollinated, keeping quality of flower carries out breeding of the good eustoma. Further, this eustoma is self-pollinated artificially. Or, this eustoma and a eustoma which does not have variant pistil or another eustoma which has variant pistil are crossed to obtain a seed. COPYRIGHT: (C)2004,JPO 179 Catharanthus seed and its production JP30093199 1999-10-22 JP2000125683A 2000-05-09 ROBERT N BOWMAN PROBLEM TO BE SOLVED: To obtain a catharanthus seed capable of efficiently performing cultivation of a catharanthus F1 hybrid, increasing commercial value and useful for an ornamental plant, or the like, by including an allelomorphic DNA genetic factor for male sterility. SOLUTION: This catharanthus seed contains an allelomorphic DNA genetic factor for male sterility such as msGS. Preferably, the catharanthus seed contains a recessive allele for male sterility and a catharanthus plant is prepared by the seed, then a primary relative catharanthus plant is crossed with a secondary relative catharanthus plant and the conjugated F1 hybrid catharanthus seed is harvested to produce the F1 hybrid catharanthus seed. In is preferable that a genetically male sterile gene is separated and it is jointed with a promotor, then the genetically male sterile gene is introduced into the other species by using a transformation technique to transform the genetically male sterile gene from the catharanthus to the other catharanthus species. 180 Promoter of Aspergillus yeast JP713794 1994-01-26 JP3005618B2 2000-01-31 ボエル エスパー; クリステンセン トベー; ファブリシウス ウォルデケ ヘレ Proteins (I) are expressed in Aspergillus oryzae by first transforming the host with a recombinant DNA cloning vector which can integrate into the genome (in one or more copies) and which comprises (1) sequences facilitating gene expression; (2) a selection marker, and (3) the sequence coding for (I). The host does not contain a gene for the selection marker. The transformants are then grown in a suitable culture medium to produce (I). Also claimed is a promoter for protein expression in Aspergillus; it comprises the TAKA-amylase promoter (or funtional parts), opt. preceded by upstream activating sequences. Two pref. base sequences for this promoter are reproduced in the specification (about 1200 bases).
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