COMPOSITIONS, METHODS AND USES FOR INDUCING VIRAL GROWTH
    1.
    发明申请
    COMPOSITIONS, METHODS AND USES FOR INDUCING VIRAL GROWTH 有权
    用于诱导病毒生长的组合物,方法和用途

    公开(公告)号:US20100144015A1

    公开(公告)日:2010-06-10

    申请号:US12631629

    申请日:2009-12-04

    IPC分类号: C12N7/00 C12N7/01

    摘要: Embodiments herein report methods, compositions and uses for inducing and/or accelerating viral growth. In certain embodiments, methods, compositions and uses generally related to copolymer compositions for inducing viral growth, reducing lag time and/or increasing viral plaque size. In other embodiments, methods, compositions and uses of copolymer compositions can be for inducing flaviviral growth, reducing lag in growth and/or increasing plaque size.

    摘要翻译: 本文的实施方案报告用于诱导和/或加速病毒生长的方法,组合物和用途。 在某些实施方案中,方法,组合物和用途通常涉及用于诱导病毒生长,减少滞后时间和/或增加病毒斑块大小的共聚物组合物。 在其它实施方案中,共聚物组合物的方法,组合物和用途可用于诱导黄病毒生长,减少生长滞后和/或增加斑块大小。

    Compositions, methods and uses for inducing viral growth
    2.
    发明授权
    Compositions, methods and uses for inducing viral growth 有权
    用于诱导病毒生长的组合物,方法和用途

    公开(公告)号:US08871487B2

    公开(公告)日:2014-10-28

    申请号:US12631629

    申请日:2009-12-04

    IPC分类号: C12N7/00 A61K39/12

    摘要: Embodiments herein report methods, compositions and uses for inducing and/or accelerating viral growth. In certain embodiments, methods, compositions and uses generally related to copolymer compositions for inducing viral growth, reducing lag time and/or increasing viral plaque size. In other embodiments, methods, compositions and uses of copolymer compositions can be for inducing flaviviral growth, reducing lag in growth and/or increasing plaque size.

    摘要翻译: 本文的实施方案报告用于诱导和/或加速病毒生长的方法,组合物和用途。 在某些实施方案中,方法,组合物和用途通常涉及用于诱导病毒生长,减少滞后时间和/或增加病毒斑块大小的共聚物组合物。 在其它实施方案中,共聚物组合物的方法,组合物和用途可用于诱导黄病毒生长,减少生长滞后和/或增加斑块大小。

    Sunflower seeds and oil having a high stearic acid content
    3.
    发明授权
    Sunflower seeds and oil having a high stearic acid content 失效
    向日葵种子和具有高硬脂酸含量的油

    公开(公告)号:US06410831B1

    公开(公告)日:2002-06-25

    申请号:US08682690

    申请日:1997-07-30

    IPC分类号: A01H100

    CPC分类号: A23D9/00 A01H1/06 A01H5/10

    摘要: The invention relates to a sunflower seed, comprising a sunflower oil having an increased stearic acid content as compared to wild type seeds, obtainable by treating parent seeds with a mutagenic agent during a period of time and in a concentration sufficient to induce one or more mutations in the genetic trait involved in stearic acid biosynthesis resulting in an increased production of stearic acid, germinating the treated seeds and culturing progeny plants therefrom, collecting and analyzing progeny seeds, selecting seeds that have acquired the desirable genetic trait and optionally repeating the cycle of germination, culturing and collection of seeds. Preferably the seeds comprise an oil having a stearic acid content of between 19.1 and 35% by weight related to the total amount of fatty acids in the oil, and are obtainable by treating the parent seeds with an alkylating agent, such as ethyl methane sulfonate in water, or with sodium azide in water. The invention further relates to sunflower oil obtainable by extracting the sunflower seeds, to a method for preparing sunflower seeds having an increased stearic acid content as compared to wild type seeds, a method for preparing a sunflower oil having an increased stearic acid content sunflower plants produced from the seeds and the use of the sunflower oil in various products.

    摘要翻译: 本发明涉及向日葵种子,其包含与野生型种子相比具有增加的硬脂酸含量的向日葵油,其可通过在诱变剂处理亲本种子在一段时间内并且足以诱导一种或多种突变的浓度而获得 在涉及硬脂酸生物合成的遗传性状中,导致硬脂酸的产生增加,使处理的种子发芽并从其培养后代植物,收集和分析后代种子,选择获得所需遗传特征并任选地重复发芽循环的种子 ,栽培和种子收集。 优选地,种子包含与油中脂肪酸总量相关的硬脂酸含量为19.1至35重量%的油,并且可通过用烷基化剂如甲磺酸乙酯处理母体种子获得 水或叠氮化钠在水中。 本发明还涉及通过提取向日葵种子获得的向日葵油,与野生型种子相比,制备具有增加的硬脂酸含量的向日葵种子的方法,制备具有增加的硬脂酸含量向日葵植物的向日葵油的方法 从种子和使用向日葵油的各种产品。

    Sunflower seeds and oil having a high stearic acid content

    公开(公告)号:US07009064B2

    公开(公告)日:2006-03-07

    申请号:US10306176

    申请日:2002-11-25

    IPC分类号: C07C57/00

    CPC分类号: A23D9/00 A01H1/06 A01H5/10

    摘要: The invention relates to a sunflower seed, comprising a sunflower oil having an increased stearic acid content as compared to wild type seeds, obtainable by treating parent seeds with a mutagenic agent during a period of time and in a concentration sufficient to induce one or more mutations in the genetic trait involved in stearic acid biosynthesis resulting in an increased production of stearic acid, germinating the treated seeds and culturing progeny plants therefrom, collecting and analyzing progeny seeds, selecting seeds that have acquired the desirable genetic trait and optionally repeating the cycle of germination, culturing and collection of seeds. Preferably the seeds comprise an oil having a stearic acid content of between 19.1 and 35% by weight related to the total amount of fatty acids in the oil, and are obtainable by treating the parent seeds with an alkylating agent, such as ethyl methane sulfonate in water, or with sodium azide in water. The invention further relates to sunflower oil obtainable by extracting the sunflower seeds, to a method for preparing sunflower seeds having an increased stearic acid content as compared to wild type seeds, a method for preparing a sunflower oil having an increased stearic acid content sunflower plants produced from the seeds and the use of the sunflower oil in various products.

    Sunflower seeds and oil having a high stearic acid content
    5.
    发明授权
    Sunflower seeds and oil having a high stearic acid content 有权
    向日葵种子和具有高硬脂酸含量的油

    公开(公告)号:US07217875B2

    公开(公告)日:2007-05-15

    申请号:US10850890

    申请日:2004-05-20

    IPC分类号: A01H5/00 A01H1/02

    CPC分类号: A23D9/00 A01H1/06 A01H5/10

    摘要: The invention relates to a sunflower seed, comprising a sunflower oil having an increased stearic acid content as compared to wild type seeds, obtainable by treating parent seeds with a mutagenic agent during a period of time and in a concentration sufficient to induce one or more mutations in the genetic trait involved in stearic acid biosynthesis resulting in an increased production of stearic acid, germinating the treated seeds and culturing progeny plants therefrom, collecting and analyzing progeny seeds, selecting seeds that have acquired the desirable genetic trait and optionally repeating the cycle of germination, culturing and collection of seeds. Preferably the seeds comprise an oil having a stearic acid content of between 19.1 and 35% by weight related to the total amount of fatty acids in the oil, and are obtainable by treating the parent seeds with an alkylating agent, such as ethyl methane sulfonate in water, or with sodium azide in water. The invention further relates to sunflower oil obtainable by extracting the sunflower seeds, to a method for preparing sunflower seeds having an increased stearic acid content as compared to wild type seeds, a method for preparing a sunflower oil having an increased stearic acid content sunflower plants produced from the seeds and the use of the sunflower oil in various products.

    摘要翻译: 本发明涉及向日葵种子,其包含与野生型种子相比具有增加的硬脂酸含量的向日葵油,其可通过在诱变剂处理亲本种子在一段时间内并且足以诱导一种或多种突变的浓度而获得 在涉及硬脂酸生物合成的遗传性状中,导致硬脂酸的产生增加,使处理的种子发芽并从其培养后代植物,收集和分析后代种子,选择获得所需遗传特征并任选地重复发芽循环的种子 ,栽培和种子收集。 优选地,种子包含与油中脂肪酸总量相关的硬脂酸含量为19.1至35重量%的油,并且可通过用烷基化剂如甲磺酸乙酯处理母体种子获得 水或叠氮化钠在水中。 本发明还涉及通过提取向日葵种子获得的向日葵油,与野生型种子相比,制备具有增加的硬脂酸含量的向日葵种子的方法,制备具有增加的硬脂酸含量向日葵植物的向日葵油的方法 从种子和使用向日葵油的各种产品。

    Sunflower seeds and oil having a high stearic acid content
    6.
    发明授权
    Sunflower seeds and oil having a high stearic acid content 有权
    向日葵种子和具有高硬脂酸含量的油

    公开(公告)号:US06486336B1

    公开(公告)日:2002-11-26

    申请号:US09649288

    申请日:2000-08-26

    IPC分类号: C07C5300

    CPC分类号: A23D9/00 A01H1/06 A01H5/10

    摘要: The invention relates to a sunflower seed, comprising a sunflower oil having an increased stearic acid content as compared to wild type seeds, obtainable by treating parent seeds with a mutagenic agent during a period of time and in a conceatration sufficient to induce one or more mutations in the genetic trait involved in stearic acid biosynthesis resulting in an incresed production of stearic acid, germinating the treated seeds and culturing progeny plants therefrom, collecting and analyzing progeny seeds, selecting seeds that have acquired the desirable genetic trait and optionally repeating the cycle of germination, culturing and collection of seeds. Preferably the seeds comprise an oil having a stearic acid content of between 19.1 and 35% by weight related to the total amount of fatty acids in the oil, and are obtainable by treating the parent seeds with an alkylating agent, such as ethyl methane sulfonate in water, or with sodium azide in water. The invention further relates to sunflower oil obtainable by extracting the sunflower seeds, to a method for preparing sunflower seeds having an incresed stearic acid content as compared to wild type seeds, a method for preparing a sunflower oil having an increased stearic acid content sunflower plants produced from the seeds and the use of the sunflower oil in various products.

    摘要翻译: 本发明涉及向日葵种子,其包含与野生型种子相比具有增加的硬脂酸含量的向日葵油,其可通过在一段时间内用诱变剂处理亲本种子并且足以诱导一种或多种突变 在涉及硬脂酸生物合成的遗传性状中,导致硬脂酸的生产不足,发芽处理的种子并从中培养后代植物,收集和分析后代种子,选择获得所需遗传特征并任选重复发芽循环的种子 ,栽培和种子收集。 优选地,种子包含与油中脂肪酸总量相关的硬脂酸含量为19.1至35重量%的油,并且可通过用烷基化剂如甲磺酸乙酯处理母体种子获得 水或叠氮化钠在水中。 本发明还涉及通过提取向日葵种子获得的向日葵油,与野生型种子相比,制备具有增加的硬脂酸含量的向日葵种子的方法,制备具有增加的硬脂酸含量向日葵植物产生的向日葵油的方法 从种子和使用向日葵油的各种产品。