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GmAGL1 a MADS-Box Gene from Soybean Is Involved in Floral Organ Identity and Fruit Dehiscence

机译：GmAGL1一种来自大豆的MADS-box基因参与花器官的识别和果实裂开

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摘要

MADS-domain proteins are important transcription factors involved in many aspects of plant reproductive development. In this study, a MADS-box gene, Glycine max AGAMOUS-LIKE1 (GmAGL1), was isolated from soybean flower. The transcript of GmAGL1 was expressed in flowers and pods of different stages in soybean and was highly expressed in carpels. GmAGL1 is a nucleus-localized transcription factor and can interact directly with SEP-like proteins in soybean flowers. Ectopic overexpression of GmAGL1 resulted in the absence of petals in Arabidopsis. Moreover, morphological changes in the valves were observed in 35S:GmAGL1 Arabidopsis fruits that dehisced before the seeds reached full maturity. GmAGL1 was found to be sufficient to activate the expression of Arabidopsis ALC, IND, STK, SEP1, and SEP3. Therefore, our data suggest that GmAGL1 may play important roles in both floral organ identity and fruit dehiscence.

机译：MADS结构域蛋白是参与植物生殖发育许多方面的重要转录因子。在这项研究中，从大豆花中分离出MADS-box基因Glycine max AGAMOUS-LIKE1（GmAGL1）。 GmAGL1的转录物在大豆的不同阶段的花和豆荚中表达，并在心皮中高度表达。 GmAGL1是一种位于核内的转录因子，可以直接与大豆花中的SEP样蛋白相互作用。 GmAGL1的异位过表达导致拟南芥中没有花瓣。此外，在种子完全成熟之前开裂的35S：GmAGL1拟南芥果实中观察到了瓣膜的形态变化。发现GmAGL1足以激活拟南芥ALC，IND，STK，SEP1和SEP3的表达。因此，我们的数据表明GmAGL1可能在花器官识别和水果开裂中都起重要作用。

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期刊名称 other
作者
Yingjun Chi; Tingting Wang; Guangli Xu; Hui Yang; Xuanrui Zeng; Yixin Shen; Deyue Yu; Fang Huang;
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年(卷),期 -1(8),-1
年度 -1
页码 175
总页数 11
原文格式 PDF
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关键词
AGAMOUS-LIKE1 soybean fruit dehiscence floral organ identity genes protein interactions;

机译：AGAMOUS-LIKE1;大豆;果实开裂;花器官同一性基因;蛋白质相互作用;

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专利

1. A soybean MADS-box protein modulates floral organ numbers, petal identity and sterility [J] . Fang Huang, Guangli Xu, Yingjun Chi, BMC Plant Biology . 2014,第1期

机译：大豆疯子盒蛋白调节花器官数，花瓣身份和无菌性
2. The Duplicated B-class MADS-Box Genes Display Dualistic Characters in Orchid Floral Organ Identity and Growth [J] . Hong-Hwa Chen Plant and Cell Physiology . 2011,第9期

机译：重复的B类MADS框基因在兰花花器官的身份和生长中显示二元性。
3. The Duplicated B-class MADS-Box Genes Display Dualistic Characters in Orchid Floral Organ Identity and Growth [J] . Pan Zhao-Jun, Cheng Chih-Chin, Tsai Wen-Chieh, Plant and cell physiology . 2011,第9期

机译：重复的B类MADS盒基因在兰花花器官的身份和生长中显示二元性。
4. Alteration of rice floral organ identity by ectopic expression of the rice M ADS-box gene [C] . S. Lee, J.S. Jeon, Y.H. Moon, International Rice Genetics Symposium . 2008

机译：稻米ADS箱基因异位表达改变水稻花器官鉴定
5. Transcriptional regulation of FRUITFULL, a MADS-box gene involved in Arabidopsis fruit development [D] . Nguyen, Ann Luu 2007

机译：FRUITFULL，涉及拟南芥果实发育的MADS-box基因的转录调控
6. Soybean MADS-box gene GmAGL1 promotes flowering via the photoperiod pathway [O] . Xuanrui Zeng, Hailun Liu, Hongyang Du, 2018

机译：大豆MADS-box基因GmAGL1通过光周期途径促进开花
7. GmAGL1, a MADS-Box Gene from Soybean, Is Involved in Floral Organ Identity and Fruit Dehiscence [O] . Yingjun Chi, Tingting Wang, Guangli Xu, 2017

机译：GmaGL1，一种来自大豆的maDs-Box基因，参与花器官识别和果实裂开
8. Control of Fruit Dehiscence in Plants by Indehiscent1 Genes. [R] . Yanofsky, M. F., Liljegren, S. 2004

机译：不同基因控制植物果实裂开的研究。

GmAGL1 a MADS-Box Gene from Soybean Is Involved in Floral Organ Identity and Fruit Dehiscence

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