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1.发明授权Hyperactive light signal related molecule of HFR1-ΔN105 and transgenic plant thereof 失效HFR1-DeltaN105的多活性光信号相关分子及其转基因植物公开(公告)号:US07164013B2
公开(公告)日:2007-01-16
申请号:US10641100
申请日:2003-08-15
申请人: Moon-Soo Soh , Pill-Soon Song , Ki-Young Yang
发明人: Moon-Soo Soh , Pill-Soon Song , Ki-Young Yang
CPC分类号: C12N15/8237
摘要: This invention is about the functionally hyperactive light signal related molecule, HFR1-ΔN105, of which the nucleic acids that encode N-terminal 105 amino acid residues were deleted. HFR1 as a bHLH transcription factor functions in a subset of phytochrome A signaling cascade and it was reported to be regulated negatively by COP1. Experiments with a HFR1-ΔN105 overexpressing plant revealed that the deletion of N-terminal amino acids makes the HFR1 more active in photomorphogenic development such as germination and de-etiolation. In addition, the transgenic plants showed hypersensitive photo-responses in the inhibition of hypocotyl elongation, dependently on another positive element of light signaling, a bZIP protein, HY5. The end-of-day far-red light response and petiole elongation were suppressed in the HFR1-ΔN105 overexpressing plants. These results suggest that N-terminal region of HFR1 negatively regulate HFR1 function and that HFR1-ΔN105 is hyperactive.
摘要翻译: 本发明涉及功能性超活动光信号相关分子HFR1-DeltaN105,其中编码N末端105个氨基酸残基的核酸被缺失。 HFR1作为bHLH转录因子在植物色素A信号级联的一个子集中起作用,据报道COP1负调节。 HFR1-DeltaN105过表达植物的实验显示,N末端氨基酸的缺失使得HFR1在光形态发生如萌发和脱乙酰化中更具活性。 此外,转基因植物在抑制下胚轴延伸方面表现出过敏光响应,依赖于光信号传导的另一阳性元件bZIP蛋白HY5。 在HFR1-DeltaN105过表达植物中,终末的远红光反应和叶柄伸长被抑制。 这些结果表明,HFR1的N末端区域负调节HFR1功能,HFR1-DeltaN105是多活性的。
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2.发明申请Hyperactive light signal related molecule of HFR1-deltaN105 and transgenic plant thereof 失效HFR1-δN105的多活性光信号相关分子及其转基因植物公开(公告)号:US20050039225A1
公开(公告)日:2005-02-17
申请号:US10641100
申请日:2003-08-15
申请人: Moon-Soo Soh , Pill-Soon Song , Ki-Young Yang
发明人: Moon-Soo Soh , Pill-Soon Song , Ki-Young Yang
CPC分类号: C12N15/8237
摘要: This invention is about the functionally hyperactive light signal related molecule, HFR1-ΔN105, of which the nucleic acids that encode N-terminal 105 amino acid residues were deleted. HFR1 as a bHLH transcription factor functions in a subset of phytochrome A signaling cascade and it was reported to be regulated negatively by COP1. Experiments with a HFR1-ΔN105 overexpressing plant revealed that the deletion of N-terminal amino acids makes the HFR1 more active in photomorphogenic development such as germination and de-etiolation. In addition, the transgenic plants showed hypersensitive photo-responses in the inhibition of hypocotyl elongation, dependently on another positive element of light signaling, a bZIP protein, HY5. The end-of-day far-red light response and petiole elongation were suppressed in the HFR1-ΔN105 overexpressing plants. These results suggest that N-terminal region of HFR1 negatively regulate HFR1 function and that HFR1-ΔN105 is hyperactive.
摘要翻译: 本发明涉及功能性超活动光信号相关分子HFR1-DeltaN105,其中编码N末端105个氨基酸残基的核酸被缺失。 HFR1作为bHLH转录因子在植物色素A信号级联的一个子集中起作用,据报道COP1负调节。 HFR1-DeltaN105过表达植物的实验显示,N末端氨基酸的缺失使得HFR1在光形态发生如萌发和脱乙酰化中更具活性。 此外,转基因植物在抑制下胚轴延伸方面表现出过敏光响应,依赖于光信号传导的另一阳性元件bZIP蛋白HY5。 在HFR1-DeltaN105过表达植物中,终末的远红光反应和叶柄伸长被抑制。 这些结果表明,HFR1的N末端区域负调节HFR1功能,HFR1-DeltaN105是多活性的。
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