会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Herbicide resistance genes
    • US10947555B2
    • 2021-03-16
    • US15288406
    • 2016-10-07
    • Dow AgroSciences LLC
    • Terry WrightJustin LiraDonald MerloNicole Arnold
    • C12N15/82C12N9/02
    • The subject invention provides novel plants that are not only resistant to 2,4-D and other phenoxy auxin herbicides, but also to aryloxyphenoxypropionate herbicides. Heretofore, there was no expectation or suggestion that a plant with both of these advantageous properties could be produced by the introduction of a single gene. The subject invention also includes plants that produce one or more enzymes of the subject invention alone or “stacked” together with another herbicide resistance gene, preferably a glyphosate resistance gene, so as to provide broader and more robust weed control, increased treatment flexibility, and improved herbicide resistance management options. More specifically, preferred enzymes and genes for use according to the subject invention are referred to herein as AAD (aryloxyalkanoate dioxygenase) genes and proteins. No α-ketoglutarate-dependent dioxygenase enzyme has previously been reported to have the ability to degrade herbicides of different chemical classes and modes of action. This highly novel discovery is the basis of significant herbicide tolerant crop trait opportunities as well as development of selectable marker technology. The subject invention also includes related methods of controlling weeds. The subject invention enables novel combinations of herbicides to be used in new ways. Furthermore, the subject invention provides novel methods of preventing the formation of, and controlling, weeds that are resistant (or naturally more tolerant) to one or more herbicides such as glyphosate.
    • 3. 发明授权
    • Herbicide resistance genes
    • 除草剂抗性基因
    • US08916752B2
    • 2014-12-23
    • US13647081
    • 2012-10-08
    • Dow AgroSciences LLC
    • Terry R. WrightJustin M. LiraTerence Anthony WalshDonald MerloJayakumar P. SamuelGaofeng Lin
    • C12N15/82
    • C12N15/8274C12N9/0071C12N15/8275
    • The subject invention provides novel plants that are not only resistant to 2,4-D, but also to pyridyloxyacetate herbicides. Heretofore, there was no expectation or suggestion that a plant with both of these advantageous properties could be produced by the introduction of a single gene. The subject invention also includes plants that produce one or more enzymes of the subject invention “stacked” together with one or more other herbicide resistance genes. The subject invention enables novel combinations of herbicides to be used in new ways. Furthermore, the subject invention provides novel methods of preventing the development of, and controlling, strains of weeds that are resistant to one or more herbicides such as glyphosate. The preferred enzyme and gene for use according to the subject invention are referred to herein as AAD-12 (AryloxyAlkanoate Dioxygenase). This highly novel discovery is the basis of significant herbicide tolerant crop trait and selectable marker opportunities.
    • 本发明提供了不仅对2,4-D有抗性的新型植物,而且还提供了对吡啶氧基乙酸酯除草剂的抗性。 迄今为止,没有任何期望或建议,通过引入单一基因可以产生具有这两种有利性质的植物。 本发明还包括与一种或多种其它除草剂抗性基因一起产生本发明一种或多种酶“堆叠”的植物。 本发明能够以新的方式使用除草剂的新型组合。 此外,本发明提供了防止对一种或多种除草剂如草甘膦具有抗性的杂草的发育和控制菌株的新方法。 根据本发明使用的优选酶和基因在本文中称为AAD-12(丙烯酰氧基烷酸酯加氧酶)。 这种高度新颖的发现是显着的除草剂耐受性作物性状和选择性标记机会的基础。
    • 4. 发明授权
    • Herbicide resistance genes
    • US11149283B2
    • 2021-10-19
    • US17175966
    • 2021-02-15
    • DOW AGROSCIENCES LLC
    • Terry WrightJustin LiraDonald MerloNicole Arnold
    • C12N15/82C12N9/02
    • The subject invention provides novel plants that are not only resistant to 2,4-D and other phenoxy auxin herbicides, but also to aryloxyphenoxypropionate herbicides. Heretofore, there was no expectation or suggestion that a plant with both of these advantageous properties could be produced by the introduction of a single gene. The subject invention also includes plants that produce one or more enzymes of the subject invention alone or “stacked” together with another herbicide resistance gene, preferably a glyphosate resistance gene, so as to provide broader and more robust weed control, increased treatment flexibility, and improved herbicide resistance management options. More specifically, preferred enzymes and genes for use according to the subject invention are referred to herein as AAD (aryloxyalkanoate dioxygenase) genes and proteins. No α-ketoglutarate-dependent dioxygenase enzyme has previously been reported to have the ability to degrade herbicides of different chemical classes and modes of action. This highly novel discovery is the basis of significant herbicide tolerant crop trait opportunities as well as development of selectable marker technology. The subject invention also includes related methods of controlling weeds. The subject invention enables novel combinations of herbicides to be used in new ways. Furthermore, the subject invention provides novel methods of preventing the formation of, and controlling, weeds that are resistant (or naturally more tolerant) to one or more herbicides such as glyphosate.
    • 6. 发明授权
    • Herbicide resistance genes
    • US11299745B1
    • 2022-04-12
    • US17403476
    • 2021-08-16
    • DOW AGROSCIENCES LLC
    • Terry WrightJustin LiraDonald MerloNicole Arnold
    • C12N15/82C12N9/02
    • The subject invention provides novel plants that are not only resistant to 2,4-D and other phenoxy auxin herbicides, but also to aryloxyphenoxypropionate herbicides. Heretofore, there was no expectation or suggestion that a plant with both of these advantageous properties could be produced by the introduction of a single gene. The subject invention also includes plants that produce one or more enzymes of the subject invention alone or “stacked” together with another herbicide resistance gene, preferably a glyphosate resistance gene, so as to provide broader and more robust weed control, increased treatment flexibility, and improved herbicide resistance management options. More specifically, preferred enzymes and genes for use according to the subject invention are referred to herein as AAD (aryloxyalkanoate dioxygenase) genes and proteins. No α-ketoglutarate-dependent dioxygenase enzyme has previously been reported to have the ability to degrade herbicides of different chemical classes and modes of action. This highly novel discovery is the basis of significant herbicide tolerant crop trait opportunities as well as development of selectable marker technology. The subject invention also includes related methods of controlling weeds. The subject invention enables novel combinations of herbicides to be used in new ways. Furthermore, the subject invention provides novel methods of preventing the formation of, and controlling, weeds that are resistant (or naturally more tolerant) to one or more herbicides such as glyphosate.
    • 7. 发明授权
    • Herbicide resistance genes
    • US10174337B2
    • 2019-01-08
    • US14820893
    • 2015-08-07
    • Dow AgroSciences LLC
    • Terry WrightJustin LiraDonald MerloNicole Arnold
    • C12N15/82C12N9/02
    • The subject invention provides novel plants that are not only resistant to 2,4-D and other phenoxy auxin herbicides, but also to aryloxyphenoxypropionate herbicides. Heretofore, there was no expectation or suggestion that a plant with both of these advantageous properties could be produced by the introduction of a single gene. The subject invention also includes plants that produce one or more enzymes of the subject invention alone or “stacked” together with another herbicide resistance gene, preferably a glyphosate resistance gene, so as to provide broader and more robust weed control, increased treatment flexibility, and improved herbicide resistance management options. More specifically, preferred enzymes and genes for use according to the subject invention are referred to herein as AAD (aryloxyalkanoate dioxygenase) genes and proteins. No α-ketoglutarate-dependent dioxygenase enzyme has previously been reported to have the ability to degrade herbicides of different chemical classes and modes of action. This highly novel discovery is the basis of significant herbicide tolerant crop trait opportunities as well as development of selectable marker technology. The subject invention also includes related methods of controlling weeds. The subject invention enables novel combinations of herbicides to be used in new ways. Furthermore, the subject invention provides novel methods of preventing the formation of, and controlling, weeds that are resistant (or naturally more tolerant) to one or more herbicides such as glyphosate.
    • 9. 发明申请
    • USES AND DETECTION OF HERBICIDE RESISTANCE GENES FOR RESISTANCE TO ARYLOXYALKANOATE HERBICIDES
    • 使用和检测抗药性杀草剂的抗药性基因
    • US20160002662A1
    • 2016-01-07
    • US14725328
    • 2015-05-29
    • DOW AGROSCIENCES LLC
    • Justin M. LiraErika SnodderleyAndrew E. RobinsonTerry R. WrightDonald Merlo
    • C12N15/82
    • C12N15/8274C12N9/0004C12N15/8275
    • The subject invention provides novel plants that are not only resistant to 2,4-D, but also to a pyridyloxyacetate herbicide. The subject invention also includes plants that produce one or more enzymes of the subject invention “stacked” together with one or more other herbicide resistance genes. The subject invention enables novel combinations of herbicides to be used in new ways. Furthermore, the subject invention provides novel methods of preventing the development of, and controlling, strains of weeds that are resistant to one or more herbicides such as glyphosate. The preferred enzyme and gene for use according to the subject invention are referred to herein as AAD-13 (AryloxyAlkanoate Dioxygenase). This highly novel discovery is the basis of significant herbicide tolerant crop trait and selectable marker opportunities.
    • 本发明提供了不仅对2,4-D有抗性的新型植物,而且还涉及吡啶氧基乙酸酯除草剂。 本发明还包括与一种或多种其它除草剂抗性基因一起产生本发明一种或多种酶“堆叠”的植物。 本发明能够以新的方式使用除草剂的新型组合。 此外,本发明提供了防止对一种或多种除草剂如草甘膦具有抗性的杂草的发育和控制菌株的新方法。 根据本发明使用的优选酶和基因在本文中称为AAD-13(丙烯酰氧基烷酸酯加氧酶)。 这种高度新颖的发现是显着的除草剂耐受性作物性状和选择性标记机会的基础。