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公开(公告)号:US10231400B2
公开(公告)日:2019-03-19
申请号:US15582047
申请日:2017-04-28
发明人: Neal Bringe , Jonathan Jenkinson
摘要: The invention overcomes the deficiencies of the art by providing a soybean plant with non-transgenic mutations conferring decreased α-subunit of β-conglycinin content and increased α′-subunit content of β-conglycinin in seed. Moreover, the invention provides an agronomically elite soybean plant with non-transgenic mutations conferring a gyclinin null phenotype, increased β-conglycinin content, and increased α′-subunit content of β-conglycinin in the seed. The invention also provides derivatives, and plant parts of these plants and uses thereof. Methods for producing such plants are also provided.
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公开(公告)号:US20170164573A1
公开(公告)日:2017-06-15
申请号:US15389038
申请日:2016-12-22
发明人: Kunsheng Wu , Thomas Horejsi , Joseph R. Byrum , Neal Bringe , Julie Yang , Donghong Pei , Robert Reiter
CPC分类号: A01H5/10 , A01H1/02 , A01H1/04 , C12N15/8241 , C12N15/8245 , C12N15/8247 , C12N15/8251 , C12N15/8261 , C12N15/8262 , C12N15/8274 , C12N15/8275 , C12N15/8279 , C12N15/8286 , C12Q1/6895 , C12Q2600/13 , C12Q2600/156 , C12Q2600/172
摘要: The invention overcomes the deficiencies of the art by providing an agronomically elite soybean plant with non-transgenic mutations of at least two of the glycinin subunits selected from the group consisting of Gy1, Gy2, Gy3, Gy4, and Gy5, such as conferring a Gy2 and Gy4 null phenotype and increased β-conglycinin content in seed. The invention also provides derivatives, and plant parts of these plants and uses thereof. Methods for marker assisted selection of soybean varieties comprising non-transgenic mutations conferring a reduced Gy1, Gy2, Gy3, Gy4, and Gy5 phenotype are also provided as part of the current invention. Methods for producing such plants that are further lipoxygenase and/or Kunitz Trypsin Inhibitor null and the plants produced thereby are also provided. The invention is significant in that soybeans from such plants are preferred dietary additives and provide important health benefits.
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公开(公告)号:US20170231176A1
公开(公告)日:2017-08-17
申请号:US15582047
申请日:2017-04-28
发明人: Neal Bringe , Jonathan Jenkinson
摘要: The invention overcomes the deficiencies of the art by providing a soybean plant with non-transgenic mutations conferring decreased α-subunit of β-conglycinin content and increased α′-subunit content of β-conglycinin in seed. Moreover, the invention provides an agronomically elite soybean plant with non-transgenic mutations conferring a gyclinin null phenotype, increased β-conglycinin content, and increased α′-subunit content of β-conglycinin in the seed. The invention also provides derivatives, and plant parts of these plants and uses thereof. Methods for producing such plants are also provided.
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公开(公告)号:US09668502B2
公开(公告)日:2017-06-06
申请号:US14702887
申请日:2015-05-04
发明人: Neal Bringe , Jonathan Jenkinson
摘要: The invention overcomes the deficiencies of the art by providing a soybean plant with non-transgenic mutations conferring decreased α-subunit of β-conglycinin content and increased α′-subunit content of β-conglycinin in seed. Moreover, the invention provides an agronomically elite soybean plant with non-transgenic mutations conferring a gyclinin null phenotype, increased β-conglycinin content, and increased α′-subunit content of β-conglycinin in the seed. The invention also provides derivatives, and plant parts of these plants and uses thereof. Methods for producing such plants are also provided.
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5.发明申请公开(公告)号:US20140259196A1
公开(公告)日:2014-09-11
申请号:US14106707
申请日:2013-12-13
发明人: Kunsheng Wu , Thomas Horejsi , Joseph R. Byrum , Neal Bringe , Julie Yang , Donghong Pei , Robert Reiter
CPC分类号: A01H5/10 , A01H1/02 , A01H1/04 , C12N15/8241 , C12N15/8245 , C12N15/8247 , C12N15/8251 , C12N15/8261 , C12N15/8262 , C12N15/8274 , C12N15/8275 , C12N15/8279 , C12N15/8286 , C12Q1/6895 , C12Q2600/13 , C12Q2600/156 , C12Q2600/172
摘要: The invention overcomes the deficiencies of the art by providing an agronomically elite soybean plant with non-transgenic mutations of at least two of the glycinin subunits selected from the group consisting of Gy1, Gy2, Gy3, Gy4, and Gy5, such as conferring a Gy2 and Gy4 null phenotype and increased β-conglycinin content in seed. The invention also provides derivatives, and plant parts of these plants and uses thereof. Methods for marker assisted selection of soybean varieties comprising non-transgenic mutations conferring a reduced Gy1, Gy2, Gy3, Gy4, and Gy5 phenotype are also provided as part of the current invention. Methods for producing such plants that are further lipoxygenase and/or Kunitz Trypsin Inhibitor null and the plants produced thereby are also provided. The invention is significant in that soybeans from such plants are preferred dietary additives and provide important health benefits.
摘要翻译: 本发明克服了本领域的不足,提供了一种农业精英大豆植物,其具有选自Gy1,Gy2,Gy3,Gy4和Gy5的至少两种大豆球蛋白亚基的非转基因突变,例如赋予Gy2 和Gy4无表型,并增加了种子中的大豆球蛋白含量。 本发明还提供这些植物的衍生物和植物部分及其用途。 还提供了包括赋予减少的Gy1,Gy2,Gy3,Gy4和Gy5表型的非转基因突变的大豆品种的标记辅助选择的方法作为本发明的一部分。 还提供了用于生产进一步的脂氧合酶和/或Kunitz胰蛋白酶抑制剂无效的植物和由其生产的植物的方法。 本发明的重要意义在于,来自这些植物的大豆是优选的膳食添加剂并且提供重要的健康益处。
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公开(公告)号:US09554525B2
公开(公告)日:2017-01-31
申请号:US14106707
申请日:2013-12-13
发明人: Kunsheng Wu , Thomas Horejsi , Joseph R. Byrum , Neal Bringe , Julie Yang , Donghong Pei , Robert Reiter
CPC分类号: A01H5/10 , A01H1/02 , A01H1/04 , C12N15/8241 , C12N15/8245 , C12N15/8247 , C12N15/8251 , C12N15/8261 , C12N15/8262 , C12N15/8274 , C12N15/8275 , C12N15/8279 , C12N15/8286 , C12Q1/6895 , C12Q2600/13 , C12Q2600/156 , C12Q2600/172
摘要: The invention overcomes the deficiencies of the art by providing an agronomically elite soybean plant with non-transgenic mutations of at least two of the glycinin subunits selected from the group consisting of Gy1, Gy2, Gy3, Gy4, and Gy5, such as conferring a Gy2 and Gy4 null phenotype and increased β-conglycinin content in seed. The invention also provides derivatives, and plant parts of these plants and uses thereof. Methods for marker assisted selection of soybean varieties comprising non-transgenic mutations conferring a reduced Gy1, Gy2, Gy3, Gy4, and Gy5 phenotype are also provided as part of the current invention. Methods for producing such plants that are further lipoxygenase and/or Kunitz Trypsin Inhibitor null and the plants produced thereby are also provided. The invention is significant in that soybeans from such plants are preferred dietary additives and provide important health benefits.
摘要翻译: 本发明克服了本领域的不足,提供了一种农业精英大豆植物,其具有选自Gy1,Gy2,Gy3,Gy4和Gy5的至少两种大豆球蛋白亚基的非转基因突变,例如赋予Gy2 和Gy4无表型,并增加种子中的β-伴大豆球蛋白含量。 本发明还提供这些植物的衍生物和植物部分及其用途。 还提供了包括赋予减少的Gy1,Gy2,Gy3,Gy4和Gy5表型的非转基因突变的大豆品种的标记辅助选择的方法作为本发明的一部分。 还提供了用于生产进一步的脂氧合酶和/或Kunitz胰蛋白酶抑制剂无效的植物和由其生产的植物的方法。 本发明的重要意义在于,来自这些植物的大豆是优选的膳食添加剂并且提供重要的健康益处。
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公开(公告)号:US20150230506A1
公开(公告)日:2015-08-20
申请号:US14702887
申请日:2015-05-04
发明人: Neal Bringe , Jonathan Jenkinson
摘要: The invention overcomes the deficiencies of the art by providing a soybean plant with non-transgenic mutations conferring decreased α-subunit of β-conglycinin content and increased α′-subunit content of β-conglycinin in seed. Moreover, the invention provides an agronomically elite soybean plant with non-transgenic mutations conferring a gyclinin null phenotype, increased β-conglycinin content, and increased α′-subunit content of β-conglycinin in the seed. The invention also provides derivatives, and plant parts of these plants and uses thereof. Methods for producing such plants are also provided.
摘要翻译: 本发明通过为大豆植物提供非转基因突变,克服了本领域的缺点,赋予了大豆球蛋白含量降低的α-亚基和大豆球蛋白在大豆中的α'-亚基含量的增加。 此外,本发明提供了一种具有非转基因突变的农业精英大豆植物,其赋予了gyclinin无效表型,增加了大豆球蛋白含量,并增加了种子中大豆球蛋白的α'-亚基含量。 本发明还提供这些植物的衍生物和植物部分及其用途。 还提供了生产这种植物的方法。
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