| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | SUGAR CANE PRODUCTION | EP98904261.9 | 1998-02-20 | EP1007629A2 | 2000-06-14 | Abdelrahman, Layla Zakaria |
| Plants, particularly sugar cane plants, are reproduced using explant material which may be derived from leaves, shoots, roots and other plant parts. Somatic embryos are produced by culturing immature embryos from the explant material and then culturing mature somatic embryos from the immature embryos, all achieved in liquid suspension culture, which allows micro propagation of sugar cane without the culture suffering browning at any stage. The mature embryos can then be encapsulated to form artificial seeds for germination purposes. | ||||||
| 82 | KARTOFFELPFLANZEN MIT EINER VERRINGERTEN AKTIVITÄT DER CYTOSOLISCHEN STÄRKEPHOSPHORYLASE UND EINEM VERÄNDERTEN KEIMUNGSVERHALTEN | EP97923093.0 | 1997-05-15 | EP0906438A2 | 1999-04-07 | KOSSMANN, Jens; STEUP, Martin; DUWENIG, Elke |
| The description relates to transgenic potato plants containing cells having a reduced cytosolic starch phosphorylasis activity in comparison with wild types of plant. By comparison with tubers of wild plant types, tubers of such potato plants exhibit a drastically altered germination behaviour, resulting in an increased number of sprout ends and hence of stolones and tubers. Plants from such tubers give higher yields. | ||||||
| 83 | Modification of sucrose accumulation | EP92307099.9 | 1992-08-04 | EP0530978B1 | 1997-10-15 | Blundy, Keith Stuart; Burrell, Michael Meyrick; Morris, George Stephen; Thomas, Christopher John Robert |
| 84 | Improved rapeseed exhibiting an enhanced oleic acid content | EP93201802.1 | 1988-12-29 | EP0566216A2 | 1993-10-20 | WONG, Raymond S.C.; BEVERSDORF, Wallace D.; CASTAGNO, James R.; GRANT, Ian c/o Pioneer Hi-Bred Prod. Ltd.; PATEL, Jayantilal D. |
Improved rape plants, seeds capable of forming the same, and a novel improved vegetable oil derived from the rapeseeds are provided. Such plants have the ability to yield a vegetable oil of increased heat stability in combination with other desirable traits. The increased stability of the vegetable oil is attributable to the presence of an unusually high oleic acid content in the rapeseeds which has been lacking in the available rape plants of the prior art. It has been found that the novel rape plants of the present invention reliably can be formed by mutagenesis followed by selection as described. The vegetable oil produced by the improved rape plants of the present invention is particularly well suited for use as a frying oil wherein the increased stability at elevated temperatures is of prime importance. In a preferred embodiment wherein the vegetable oil is used as a frying oil, the alpha-linolenic acid content concomitantly is reduced which additionally imparts an increased oxidative stability. |
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| 85 | Transgenic plants resistant to microbian infection | EP92311630.5 | 1992-12-21 | EP0552559A2 | 1993-07-28 | Scheffler, Brian, Cambridge Laboratory; Bevan, Mike, Cambridge Laboratory |
A method of enhancing the resistance of a plant, especially potato, to bacterial infection, comprising the step of genetically transforming the plant by means of a expression vector containing DNA encoding a peptide comprising a protease recognition site linked directly to the N-terminus of a protein having anti-bacterial activity, such as a magainin. Cleavage of the expressed protein product by a protease releases the anti-bacterial protein with its correct N-terminal sequence. |
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| 86 | 성 결정 유전자들 및 육종에 이들의 이용 | KR1020177022312 | 2016-01-10 | KR1020170116034A | 2017-10-18 | 반데르헐스트,로날더스헤라르뒤스마리아; 리카르디,파올로; 그로넨디유크,요하네스사이먼; 팰래비그나,아고스티노 |
| 본발명은자웅이주식물, 바람직하게는아스파라거스의육종개선방법에관한것으로, 상기방법은암술군발달을억제하는우성억제인자의기능적발현이저해되거나감소된식물을제공한는단계및 상기식물을동계교배, 역교배육종, 반복역교배육종또는배가반수체육종기술에도입하는단계를포함한다. 바람직하게는, 암술군발달을억제하는상기우성억제인자는 DUF247 도메인을포함하는유전자이다. 또한, 본발명은상기유전자의발현이저해되거나감소된자웅이주식물들을제공한다. | ||||||
| 87 | 아로니아를 사과나무과에 접목(接木) | KR1020150030430 | 2015-03-04 | KR1020160107547A | 2016-09-19 | 임호규 |
| 본발명은아로니아(Aronia)의눈, 가지, 새순(3) 등을접지(2)로하고, 그접지(2)의바탕의되는대목(臺木: Rootstock)(6)을사과나무과에접목하여서로활착이이루어질수 있도록관리하는재배방법을실시함으로써, 아로니아의대량번식, 결실기단축, 수확량증가등을획기적으로높일수 있는아로니아재배를위한아로니아와사과나무과의접목하는재배방법. | ||||||
| 88 | 식물에서의 단백질 생산 | KR1020157036264 | 2014-06-13 | KR1020160023703A | 2016-03-03 | 피트리차드씨; 로멘스카이우스; 크레티앙로버트; 얀후아; 오스미테루코 |
| 본명세서는이종펩티드및 단백질을식물에서안전하고제어된방식으로생산하기위한방법및 작제물에관한것이다. 본발명의하나의태양은관심대상의단백질또는펩티드를암호화하는유전자및 마커유전자, 파타틴발현을억제할수 있는뉴클레오티드서열과함께 CD4B 발현을억제할수 있는뉴클레오티드서열및/또는 P19을과발현할수 있는뉴클레오티드서열을포함하는발현카세트를사용하여형질전환된감자식물에서이종단백질을생산하는방법을제공한다. 본발명의다른태양은관심대상의단백질또는펩티드를암호화하는유전자, 마커유전자, 수송펩티드서열및 ADP 글루코스피로포스포릴라제발현을억제할수 있는뉴클레오티드서열을포함하는발현카세트를사용하여형질전환된감자식물에서이종단백질을생산하는방법을제공한다. | ||||||
| 89 | 왜성 체리 묘목 생산방법 | KR1020120019707 | 2012-02-27 | KR1020130097971A | 2013-09-04 | 이양우; 김철호 |
| PURPOSE: A production method of dwarf cherry seedlings is provided to reduce the conventional discomfort, and to ship out the dwarf cherry seedlings within a year. CONSTITUTION: A Prunus tomentosa stem grown for 1-2 years is cut in a height of 3-5 cm from the ground, and an understock (1) for grafting is prepared. An inter-stock is prepared by cutting a gisera tree around a fully grown bud. A grafting groove (1a) is formed on the stem (1') of the first understock, and an inter-stock graft (2) is attached to grow the inter-stock. The final cherry graft is prepared by cutting a cherry tree around a fully grown bud. A grafting groove is formed on the stem of the gisera tree, and the cherry graft is attached before growing the cherry stem to obtain a dwarf cherry seedling. A receiving graft (20) is cut out around the fully grown bud of the gisera tree. A cutting graft (21) is obtained by selecting and cutting branches with 1-3 fully grown buds. | ||||||
| 90 | graft miracle fruit tree upon the mulberry tree | KR20100075368 | 2010-08-03 | KR20120012939A | 2012-02-13 | WON EUN MI |
| PURPOSE: A grafting method of a miracle fruit tree to a mulberry tree is provided to enable users to use young leaves and fruits of the miracle fruit tree as supplementary food for losing weight. CONSTITUTION: A grafting method of a miracle fruit tree to a mulberry tree comprises the following steps: growing the mulberry tree; and grafting the miracle fruit tree. Young leaves and fruits of the miracle fruit tree helps users to regain their appetite. The bitter and sour taste of the young leaves and fruits of the miracle fruit tree is reduced by the grafting process. | ||||||
| 91 | 원예용 접목클립 | KR1020100061010 | 2010-06-28 | KR1020120000654A | 2012-01-04 | 홍정호 |
| PURPOSE: A horticultural grafting clip is provided to enable users to prevent curving when pressing both sides of a handle unit for opening a gripping unit of the grafting clip. CONSTITUTION: A horticultural grafting clip comprises the following: a handle unit(120) including a fixing groove(121) on the inner surface; a torsion spring(130) insert-combining with the fixing groove; a gripping unit(110) including plural supporting protrusion formed on the inside of the tip-end of the gripping unit and the lower outside of the handle unit; a gripping surface(123) formed on the lower side of the handle unit; jamming bars(121a) formed on one side of the fixing groove for fixing both ends of the torsion spring; and hooking protrusions(121b) formed on the upper or lower side of the jamming bars. The inner surfaces of the gripping unit and the handle unit are connected to each other. | ||||||
| 92 | 가지과 채소 합접식 접목로봇 | KR1020070039449 | 2007-04-23 | KR100862711B1 | 2008-10-13 | 강창호; 한길수; 이용범; 김상철; 최홍기; 오창준 |
| A robot for splice grafting of Solanaceae vegetables is provided to minimize labor power required for splice grafting work of crops such as red pepper, tomato and the like and to induce stable production of grafted seedlings. A splice grafting robot for Solanaceae vegetables is used for cutting a rootstock(A) and a scion each supplied from a rootstock supply part and scion supply part at a cutting part and slice grafting of a joint portion between a cut portion of the rootstock and scion by a clip supplied from a clip supply part, wherein the rootstock supply part has a support(110) with an upper and lower guide(111,112) to support the rootstock in an upright state; an end jaw(111a) and an insertion groove(112a) are formed at the front end of the upper guide and the lower guide respectively. The scion supply has a support with an upper and lower guide to support the scion in an upright state. A cutting part has a cutting blade in an inclined state. The end jaw of the upper guide of the rootstock supply part has a flat surface on one side to guide an upper end part of the hypocotyl(11) during mounting the rootstock. | ||||||
| 93 | 잡초야초두를 개량하는 식용슈퍼야초두의 재배방법 | KR1020000062743 | 2000-10-24 | KR1020020031946A | 2002-05-03 | 조영재; 손용순 |
| PURPOSE: A cultivation method of super Cyperus esculentus var sativus by genetically modifying a wild Cyperus esculentus var sativus is provided, therefore the recombinant Cyperus esculentus var sativus can be applied to various foods. CONSTITUTION: The method for selecting the genetically modified, super Cyperus esculentus var sativus is characterized by subjecting the wild Cyperus esculentus var sativus to a complex method of hotbed cultivation method, vinyl house soil improving method, enzyme cultivation method, carbon dioxide method, oxidative gas introducing method, and microorganism solution and ozone water introducing method. The selected Cyperus esculentus var sativus is then cultivated under optimal conditions of water, light, temperature, CO2 concentration, nutrients and humidity to produce super Cyperus esculentus var sativus having a diameter of 15 to 30 mm and a length of 30 to 60 mm, while wild Cyperus esculentus var sativus has a diameter of 3 to 5 mm and a length of 6 to 10 mm. | ||||||
| 94 | 사탕수수 생산 | KR1019997007630 | 1998-02-20 | KR1020000075570A | 2000-12-15 | 압델라만,레이라자카리아 |
| 나무, 특히사탕수수나무는잎, 새싹, 뿌리, 기타나무의다른부분으로부터외식체재료를사용하여복제된다. 외식체재료로부터미숙배아를배양하고, 미숙배아로부터성숙체세포배아를배양하여체세포를생산한다. 모든단계는액체현탁배지에서이루어지며, 어떠한단계에서도갈변현상이일어나지않고사탕수수의미세번식을하게한다. 그런다음, 성숙배아를캡슐화하여발아목적의인공씨앗을형성한다. | ||||||
| 95 | INHIBITION OF BOLTING AND FLOWERING OF A BETA VULGARIS PLANT | EP16790561.1 | 2016-10-28 | EP3368677A1 | 2018-09-05 | DE MAAGD, Rudolf, Aart; VAN ARKEL, Jeroen; ANGENENT, Gerrit, Cornelis; WURBS, David; KRAUS, Josef |
| The present invention provides means for inhibiting the bolting and flowering of a Beta vulgaris plant, including an isolated nucleic acid, which can be used to produce a transgenic Beta vulgaris plant, where bolting and flowering is inhibited after vernalization. Furthermore, the invention discloses vectors, transgenic and non-transgenic, non-bolting plants and parts thereof, and methods for producing such plants. | ||||||
| 96 | WHITE CELERY | EP16736051.0 | 2016-07-04 | EP3316678A1 | 2018-05-09 | DENEER, Reinier Hendrik Marie |
| The invention relates to a celery plant (Apium graveolens L. dulce) carrying a genetic determinant that leads to the absence or strong reduction of chlorophyll in the petioles, wherein said determinant is obtainable by introgression from a plant grown from seed of which a representative sample was deposited with the NCIMB under deposit number NCIMB 42428. The invention further relates to markers and the use of markers for the identification of a plant that has an absence or strong reduction of chlorophyll in the petioles. The invention also relates to seeds and other propagation material of the plant and to its progeny as well as to food products that comprise the consumable parts of the plant. | ||||||
| 97 | METHODS FOR THE IN PLANTA TRANSFORMATION OF PLANTS AND MANUFACTURING PROCESSES AND PRODUCTS BASED AND OBTAINABLE THEREFROM | EP16723757.7 | 2016-05-19 | EP3298147A1 | 2018-03-28 | MARTIN-ORTIGOSA, Susana; HARLING, Hinrich; NIESSEN, Markus |
| The present invention relates to in planta transformation methods for plants or plant materials with a genetic construct, wherein at least one meristematic cell of a meristematic tissue of an immature inflorescence able to differentiate into a gamete of a pollen or of an ovule is exposed and then transformed, wherein the transformation can be performed to yield a stable integration or to yield a transient introduction of a genetic construct of interest. Further provided are methods for manufacturing a transgenic plant, or methods for manufacturing a genetically manipulated plant based on the in planta transformation methods according to the present invention. In addition, there is provided a plant or a progeny thereof manufactured according to the transformation and/or manufacturing methods according to the present invention. | ||||||
| 98 | SEX DETERMINATION GENES AND THEIR USE IN BREEDING | EP16709559.5 | 2016-01-10 | EP3242549A2 | 2017-11-15 | VAN DER HULST, Ronaldus Gerardus Maria; RICCARDI, Paolo; GROENENDIJK, Johannes Simon; FALAVIGNA, Agostino |
| The invention relates to a method to improve breeding in dioecious plants, preferably Asparagus plants, comprising providing a plant in which the functional expression of the dominant suppressor of gynoecium development is disrupted or reduced and introducing said plant in inbreeding, backcross breeding, recurrent backcross breeding or double haploid breeding techniques. Preferably said dominant suppressor of gynoecium development is a gene comprising a DUF247 domain. Also provided are dioeciuos plants in which the expression of this gene is disrupted or reduced. | ||||||
| 99 | METHODS FOR THE IN PLANTA TRANSFORMATION OF PLANTS AND MANUFACTURING PROCESSES AND PRODUCTS BASED AND OBTAINABLE THEREFROM | EP15202060.8 | 2015-12-22 | EP3095870A1 | 2016-11-23 | Nießen, Markus; Harling, Hinrich; Martin-Ortigosa, Susana |
The present invention relates to in planta transformation methods for plants or plant materials with a genetic construct, wherein at least one meristematic cell of a meristematic tissue of an immature inflorescence able to differentiate into a gamete of a pollen or of an ovule is exposed and then transformed, wherein the transformation can be performed to yield a stable integration or to yield a transient introduction of a genetic construct of interest. Further provided are methods for manufacturing a transgenic plant, or methods for manufacturing a genetically manipulated plant based on the in planta transformation methods according to the present invention. In addition, there is provided a plant or a progeny thereof manufactured according to the transformation and/or manufacturing methods according to the present invention.
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| 100 | Improved production of thebaine and oripavine by papaver somniferum | EP04077472.1 | 1997-07-08 | EP1525789B1 | 2016-11-09 | Fist, Anthony John; Byrne, Christopher James; Gerlach, Wayne Lyle |
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