序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
1 | 来自于稀脉萍的新的丙二烯氧化物合酶 | CN201180016769.7 | 2011-03-30 | CN102822337A | 2012-12-12 | 横山峰幸; 上地沙理; 高木一辉 |
本发明提供可在植物生长调节剂(KODA)的制造中使用的高活性丙二烯氧化物合酶。 | ||||||
2 | Use of Allene Oxide Synthase for Semen Preservation and Assisted Reproduction | US15314428 | 2015-05-27 | US20170196219A1 | 2017-07-13 | Ralph Andrew Backhaus; Steven Charles Hodgkinson |
The use of allene oxide synthase as a preservative for semen particularly for use in assisted reproductive procedures for humans and in the breeding of cattle horses and other animals. | ||||||
3 | 酸化抵抗性天然ゴム及びその製造方法 | JP2017513765 | 2015-09-10 | JP2017526795A | 2017-09-14 | コルヴィン,ハワード・エイ; ウォルターズ,ザカリー・ディー |
グアユールのような天然ゴムを安定化させる方法である。該方法は、酸化防止剤がゴムに結合するような状態下にてアミン及びMADAのようなフェノール系酸化防止剤の少なくとも一方をゴムのラテックスの形態に導入するステップを含む。該方法は、その後に、ゴムを処理して取り込まれた樹脂の少なくとも実質的な部分を除去するステップを含む。該方法は、例えば、グアユールゴムのようなゴム組成物から成り、かつ化学的に結合した酸化防止剤を含むゴム組成物を生じさせる。形成されるゴムは、タイヤの製造にて使用するのに適したものとすることができる。 | ||||||
4 | NOVEL ALLENE OXIDE SYNTHASE DERIVED FROM LEMNA PAUCICOSTATA | EP11765685 | 2011-03-30 | EP2554671A4 | 2013-10-02 | YOKOYAMA MINEYUKI; KAMICHI SARI; TAKAGI KAZUTERU |
5 | アオウキクサ由来の新規アレンオキサイドシンターゼ | JP2012509541 | 2011-03-30 | JP5726172B2 | 2015-05-27 | 横山 峰幸; 上地 さり; 高木 一輝 |
6 | アオウキクサ由来の新規アレンオキサイドシンターゼ | JP2012509541 | 2011-03-30 | JPWO2011125785A1 | 2013-07-08 | 横山 峰幸; 峰幸 横山; さり 上地; 一輝 高木 |
植物成長調整剤(KODA)の製造に使用できる高活性アレンオキサイドシンターゼを提供する。 | ||||||
7 | USE OF ALLENE OXIDE SYNTHASE FOR SEMEN PRESERVATION AND ASSISTED REPRODUCTION | EP15799445 | 2015-05-27 | EP3148557A4 | 2017-12-27 | BACKHAUS RALPH ANDREW; HODGKINSON STEVEN CHARLES |
The use of allene oxide synthase as a preservative for semen particularly for use in assisted reproductive procedures for humans and in the breeding of cattle horses and other animals. | ||||||
8 | NOVEL ALLENE OXIDE SYNTHASE DERIVED FROM LEMNA PAUCICOSTATA | EP11765685.0 | 2011-03-30 | EP2554671A1 | 2013-02-06 | YOKOYAMA, Mineyuki; KAMICHI, Sari; TAKAGI, Kazuteru |
Disclosed is a high-activity allene oxide synthase that can be used in the production of a plant growth regulator (KODA). |
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9 | OXIDATION RESISTANT NATURAL RUBBER AND A METHOD FOR ITS PRODUCTION | EP15840937.5 | 2015-09-10 | EP3191528A1 | 2017-07-19 | COLVIN, Howard, A.; WALTERS, Zachary, D. |
A method for stabilizing a natural rubber such as guayule. The method includes the step of introducing at least one of an Extraction Curves for Guayule Rubber Samples amine and a phenolic anti-oxidant, such as MADA, to a latex form of the rubber under conditions such that the anti-oxidant becomes chemically bound to the rubber. The method includes the further step of subsequently treating the rubber to remove at least a substantial portion of entrained resins. The method can yield a rubber composition of, for example, guayule rubber and including an anti-oxidant chemically bound thereto. The resultant rubber can be suitable for use in tire construction. | ||||||
10 | USE OF ALLENE OXIDE SYNTHASE FOR SEMEN PRESERVATION AND ASSISTED REPRODUCTION | EP15799445.0 | 2015-05-27 | EP3148557A1 | 2017-04-05 | BACKHAUS, Ralph Andrew; HODGKINSON, Steven Charles |
The use of allene oxide synthase as a preservative for semen particularly for use in assisted reproductive procedures for humans and in the breeding of cattle horses and other animals. | ||||||
11 | GUAYULE WITH INCREASED RUBBER PRODUCTION AND YIELD | US15975912 | 2018-05-10 | US20180327770A1 | 2018-11-15 | Colleen M. McMahan; Dante Placido; David Dierig; Von Mark Cruz |
A reduction in the amount of functional PaAos in guayule results in the production of increased amounts rubber compared to the amount of rubber produced by wild-type guayule having a non-reduced amount of functional PaAos. Further, the guayule with reduced amount of functional PaAos are larger than wild-type guayule and thus have larger rubber yield per acre than wild-type guayule. Reduction of the amount of functional PaAos in guayule can be caused by genetic alterations in PaAos. Guayule having PaAos with a specific amino acid sequence produces more rubber than guayule with PaAos having a different amino acid sequence. Thus, one can use the sequence differences as a biomarker for selecting high rubber producing guayule plants. | ||||||
12 | GUAYULE WITH INCREASED RUBBER PRODUCTION AND YIELD | US15975851 | 2018-05-10 | US20180327765A1 | 2018-11-15 | Colleen M. McMahan; Maureen C. Whalen; Dante Placido; Niu Dong |
Altered guayule that produce more rubber than the amount of rubber produced by non-altered guayule are provided. The alterations may include (i) a reduction in amount of functional PaAos produced by the altered guayule, (ii) an increase in amount of a transcription factor produced by the altered guayule, (iii) an increase in amount of salicylic acid within the altered guayule, (iv) exposure of the altered guayule to cold temperature, and (v) a combination thereof. Methods of producing the altered guayule and methods of increasing the amount of rubber produced by a guayule are also provided. | ||||||
13 | OXIDATION RESISTANT NATURAL RUBBER AND A METHOD FOR ITS PRODUCTION | US15509630 | 2015-09-10 | US20170247477A1 | 2017-08-31 | Howard A. Colvin; Zachary D. Walters |
A method for stabilizing a natural rubber such as guayule. The method includes the step of introducing at least one of an Extraction Curves for Guayule Rubber Samples amine and a phenolic anti-oxidant, such as MADA, to a latex form of the rubber under conditions such that the anti-oxidant becomes chemically bound to the rubber. The method includes the further step of subsequently treating the rubber to remove at least a substantial portion of entrained resins. The method can yield a rubber composition of, for example, guayule rubber and including an anti-oxidant chemically bound thereto. The resultant rubber can be suitable for use in tire construction. | ||||||
14 | NOVEL ALLENE OXIDE SYNTHASE DERIVED FROM LEMNA PAUCICOSTATA | US13637120 | 2011-03-30 | US20130034894A1 | 2013-02-07 | Mineyuki Yokoyama; Sari Kamichi; Kazuteru Takagi |
A highly active allene oxide synthase that can be used in the production of a plant growth regulating agent (KODA) is provided. | ||||||
15 | 실리카를 포함하는 천연 고무 배합물 및 타이어에 대한 용도 | KR1020177022644 | 2016-01-12 | KR1020170103954A | 2017-09-13 | 콜빈하워드에이. |
구아율고무및 15 내지 90phr 실리카를함유하는고무조성물. 상기고무는시스-1,4 폴리이소프로펜일수 있으며, 15 내지 90phr 실리카를포함할수 있고, 20% 미만의헤비아(hevea) 고무와회합된단백질을함유할수 있고, 다른천연고무로존재하는수지를적어도미량추가로포함할수 있다. 상기고무는시스-1,4 폴리이소프렌일수 있으며, 구아율고무로존재하는수지를적어도미량내지 3중량% 추가로포함할수 있다. 상기고무조성물은합성고무를추가로포함할수 있으며, 약 40 내지 100phr의구아율고무, 및실리카를포함할수 있다. 상기실리카는소수화될수 있다. | ||||||
16 | 정액 보존 및 보조 생식을 위한 알렌 옥사이드 신타제의 용도 | KR1020167036651 | 2015-05-27 | KR1020170031667A | 2017-03-21 | 박하우스,랄프앤드류; 호지킨슨,스티븐찰스 |
인간에대한보조생식절차및 소, 말및 다른동물의번식에서특히사용하기위한정액에대한보존제로서의알렌옥사이드신타제의용도가제공된다. | ||||||
17 | 스트레스 감응 알렌 옥사이드 합성효소 및 이의 용도 | KR1020010078008 | 2001-12-11 | KR1020030048176A | 2003-06-19 | 한옥수; 백경환; 장성국 |
PURPOSE: A stress responsive allene oxide synthase and applications thereof are provided, thereby producing the stress responsive allene oxide synthase in transformed bacteria. CONSTITUTION: A stress responsive allene oxide synthase is CYP74 family monoxide enzyme containing iron, derived from the rice, and catalyzes the conversion of 9-hydroperoxy linolenic acid, 9-hydroperoxy linoleic acid, 13-hydroperoxy linolenic acid or 13-hydroperoxy linoleic acid into allene oxide derivatives. A gene encoding the stress responsive allene oxide synthase has the nucleotide sequence of SEQ ID NO: 1. A gene having 75% or more homology with the stress responsive allene oxide synthase gene of SEQ ID NO: 1 can also produce the synthase catalyzing the conversion to allene oxide derivatives. The stress responsive allene oxide synthase has the amino acid sequence of SEQ ID NO: 2. The stress responsive allene oxide synthase having 75% or more homology with the stress responsive allene oxide synthase of SEQ ID NO: 2 can also catalyze the conversion to allene oxide derivatives. | ||||||
18 | 효소 고정화용 왕겨실리카 매트릭스 및 이의 용도 | KR1020170067384 | 2017-05-31 | KR101913841B1 | 2018-10-31 | 한옥수; 한종수; 르바오트; 인푸티아리 |
본발명은왕겨실리카에 APTES((3-aminopropyl)triethoxysilane)와글루타르알데히드가모식된효소고정화용왕겨실리카매트릭스의제조방법, 상기방법에의해제조된효소고정화용왕겨실리카매트릭스, 상기왕겨실리카매트릭스에효소가고정화된왕겨실리카-효소복합체, 및상기왕겨실리카-효소복합체를이용한유용물질의생산방법에관한것으로, 나노세공구조를가지는왕겨실리카는효소반응에서기질의확산을촉진할뿐만아니라, 연속적인효소반응의중간체가전달되는통로로활용될수 있어, 유용물질의생산에효과적으로이용될수 있을것이다. | ||||||
19 | 내산화성 천연 고무 및 이의 제조 방법 | KR1020177009726 | 2015-09-10 | KR1020170052671A | 2017-05-12 | 콜빈하워드에이.; 월터스재커리디. |
본발명은구아율과같은천연고무를안정화시키는방법에관한것이다. 상기방법은고무의라텍스폼으로아민및 MADA와같은페놀성항-산화제중 적어도하나를, 항-산화제가상기고무에화학적으로결합되도록하는조건하에, 도입하는단계를포함한다. 상기방법은후속적으로고무를처리하여비말동반수지의적어도상당한부분을제거하는단계를추가로포함한다. 상기방법은이에화학적으로결합된항-산화제를포함하는, 예를들면, 구아율고무의고무조성물을수득한다. 수득한고무는타이어구성(tire construction)에사용하기위해적합할수 있다. | ||||||
20 | OXIDATION RESISTANT NATURAL RUBBER AND A METHOD FOR ITS PRODUCTION | PCT/US2015049469 | 2015-09-10 | WO2016040665A8 | 2017-04-20 | COLVIN HOWARD A; WALTERS ZACHARY D |
A method for stabilizing a natural rubber such as guayule. The method includes the step of introducing at least one of an amine and a phenolic anti-oxidant, such as MADA, to a latex form of the rubber under conditions such that the anti-oxidant becomes chemically bound to the rubber. The method includes the further step of subsequently treating the rubber to remove at least a substantial portion of entrained resins. The method can yield a rubber composition of, for example, guayule rubber and including an anti-oxidant chemically bound thereto. The resultant rubber can be suitable for use in tire construction. |