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首页 > 过刊浏览>2022年第23卷第4期 >1132-1142. DOI:10.13430/j.cnki.jpgr.20211221001
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苦荞转录因子FtDREB6基因克隆及其抗旱功能鉴定
作者:
作者单位:

1.河北农业大学园林与旅游学院;2.中国农业科学院作物科学研究所

基金项目:

河北省教育厅青年拔尖人才项目(BJ2019022);保定市科技支撑计划项目(2011ZN001)


Cloning of a Transcription Factor gene FtDREB6 in Tartary Buckwheat (Fagopyrum tataricum) and Identification of its Function in Drought Resistance
Author:
Affiliation:

1.College of Landscape Architecture and Tourism, Agricultural University of Hebei;2.Institute of Crop Sciences, Chinese Academy of Agricultural Sciences

Fund Project:

Talented Youth Project of Hebei Education Department(BJ2019022),, Science and Technology Support Program Project Supported by Baoding(2011ZN001)

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    摘要:

    AP2/ERF转录因子家族在植物逆境胁迫中发挥重要作用,本文以‘品苦1号’为材料,从中克隆得到FtDREB6基因,该基因CDS全长615 bp,编码204个氨基酸,编码蛋白分子量22.7 KDa,等点位点为4.96。在Tair网站上将其与拟南芥进行同源比对,发现其与拟南芥AtERF043同源性较高。转录激活活性分析表明FtDREB6全长没有自激活活性。利用农杆菌介导法将FtDREB6基因转入拟南芥,过表达FtDREB6基因显著提高转基因拟南芥的抗旱性。将FtDREB6基因转入发根农杆菌A4,侵染苦荞外植体诱导毛状根,在甘露醇处理下,过表达毛状根的SOD和CAT活性显著高于对照组A4且MDA含量显著低于对照组。以上结果表明,FtDREB6参与苦荞干旱胁迫反应,为进一步研究苦荞抗旱分子机制提供了参考。

    Abstract:

    AP2/ERF transcription factor family members have been identified to play important roles in abiotic stress responses. In this study, the full-length coding sequence of the FtDREB6 gene was cloned with a length of 615 bp, which encodes for 204 amino acids residues, with a molecular weight of 22.7 kDa and an isoelectric point of 4.96 from tartary buckwheat (Fagopyrum tataricum) cultivar “Pinku 1”. The sequence of FtDREB6 represented higher homology with Arabidopsis thaliana AtERF043 by the sequence alignment on TAIR website. FtDREB6 gene was showed without the transcription activity by transactivation analysis. Moreover, by transforming the coding sequence of FtDREB6 into A. thaliana by Agrobacterium-mediated transformation approach, transgenic FtDREB6-overexpressing plants showed significant increase on the drought resistance. The expression vector containing FtDREB6 gene was transformed into Agrobacterium rhizogenes A4, which was subjected to infect explant for inducing the hairy roots. Under D-Mannitol treatment, the superoxide dismutase activity and catalase activity in overexpressing hairy roots were significantly higher than that of the control, and the content of malondialdehyde was significantly lower than the control. These results indicated that FtDREB6 was involved in responses to drought stress, which provided a reference for future deciphering the molecular mechanism for drought tolerance in tartary buckwheat.

    参考文献
    [1]聂俊峰. 我国北方干旱灾害性分析及减灾对策研究[D].西北农林科技大学,2005.Nie Junfeng. Drought disaster Analysis and disaster Mitigation Countermeasures in North China [D]. Northwest University of Agriculture and Forestry Science and Technology, 2005.
    [2]胡实,莫兴国,林忠辉.未来气候情景下我国北方地区干旱时空变化趋势[J].干旱区地理,2015,38(02):239-248.Hu Shi, Mo Xingguo, Lin Zhonghui. The spatio-temporal variation trend of drought in northern China under the future climate scenario [J]. Geography of Arid areas, 2015,38 (02): 239-248.
    [3]张红丽,张强,刘骞,颜鹏程.中国南方和北方气候干燥程度的变化特征及差异性分析[J].高原气象,2016,35(05):1339-1351.Zhang Hongli, Zhang Qiang, Liu Qian, Yan Pengcheng. Analysis on the variation characteristics and differences of climate dryness between southern and northern China [J]. Plateau Meteorology, 2016. 35 (05): 1339-1351.
    [4]杨歆雨. 中国北方区域强干旱事件的特征及重现期研究[D].南京信息工程大学,2019.Yang Xianyu. Study on the characteristics and recurrence period of severe drought events in North China [D]. Nanjing University of Information Engineering, 2019.
    [5]陈一.拟南芥跨膜组氨酸激酶ATHK1研究进展[J].安徽农业科学,2014,42(07):1923-1924+2036.DOI:10.13989/j.cnki.0517-6611.2014.07.003.Chen Yi. Advances in the study of transmembrane histidine kinase ATHK1 in Arabidopsis thaliana [J]. Anhui agricultural science, 2014,42(07):1923-1924+2036.DOI:10.13989/j.cnki.0517-6611.2014.07.003.
    [6]Toshitsugu Nakano, Kaoru Suzuki, Tatsuhito Fujimura, and Hideaki Shinshi. Genome-Wide Analysis of the ERF Gene Family in Arabidopsis and Rice[J]. Plant Physiology, 2006, 140(2):411.
    [7]Sakuma Y , Liu Q , Dubouzet J G , et al. DNA-binding specificity of the ERF/AP2 domain of Arabidopsis DREBs, transcription factors involved in dehydration- and cold-inducible gene expression.[J]. Biochemical Biophysical Research Communications, 2002, 290(3):998-1009.
    [8]洪林,杨蕾,杨海健,王武.AP2/ERF转录因子调控植物非生物胁迫响应研究进展[J].植物学报,2020,55(04):481-496.Hong Lin, Yang Lei, Yang Haijian, Wang Wu. Advances in the regulation of plant abiotic stress response by AP2 / ERF transcription factors [J]. Journal of Botanical Sciences,2020,55(04):481-496.
    [9]肖丽娜,李荣冲,彭振英,田丽彬,韩燕,崔凤,万书波,李国卫,刘译阳.花生AhDREB转录因子对逆境胁迫的响应[J].花生学报,2020,49(01):1-8.DOI:10.14001/j.issn.1002-4093.2020.01.001.Xiao Lina, Li Rongchong, Peng Zhenying, Tian Libin, Han Yan, Cui Feng, Wan Shubo, Li Guowei, Liu Yiyang. Response of peanut AhDREB transcription factor to stress [J]. Journal of Peanut,2020,49(01):1-8.DOI:10.14001/j.issn.1002-4093.2020.01.001.
    [10]陆昕,苟亚夫,李显玉,乌志颜,关岛,杨素芝,李英爽,郑志民.文冠果DREB转录因子家族鉴定及非生物胁迫表达分析[J/OL].分子植物育种:1-18[2021-12-20].http://kns.cnki.net/kcms/detail/46.1068.S.20210621.1054.002.html.Lu Xin, Gou Yafu, Li Xianyu, Wu Zhiyan, Guam, Yang Suzhi, Li Yingshuang, Zheng Zhimin. Identification of DREB transcription factor family and analysis of abiotic stress expression in Xanthoceras sorbifolia [J/OL]. Molecular plant breeding:1-18[2021-12-20].http://kns.cnki.net/kcms/detail/46.1068.S.20210621.1054.002.html.
    [11]Chen M , Wang Q Y , Cheng X G , et al. GmDREB2, a soybean DRE-binding transcription factor, conferred drought and high-salt tolerance in transgenic plants.[J]. Biochemical Biophysical Research Communications, 2007, 353(2):299-305.
    [12]Dubouzet J G , Sakuma Y , Ito Y , et al. OsDREB genes in rice, Oryza sativa L. encode transcription activators that function in drought-, high-salt- and cold-responsive gene expression.[J]. Plant Journal, 2003, 33(4):751-763.
    [13]Overexpression of an ERF transcription factor TSRF1 improves rice drought tolerance[J]. Plant Biotechnology Journal, 2010, 8(4):476-488.
    [14]Xu Z S , Xia L Q , Chen M , et al. Isolation and molecular characterization of the Triticum aestivum L. ethylene-responsive factor 1 (TaERF1) that increases multiple stress tolerance.[J]. Plant Molecular Biology, 2007, 65(6):719-732.
    [15]苟艳丽,张乐,郭欢,马红萍,包爱科.植物AP2/ERF类转录因子研究进展[J].草业科学,2020,37(06):1150-1159.Gou Yanli, Zhang Le, Guo Huan, Ma Hongping, Bao Aike. Advances in the study of plant AP2/ERF transcription factors [J]. Pratacultural science,2020,37(06):1150-1159.
    [16]M Pré, Atallah M , Champion A , et al. The AP2/ERF Domain Transcription Factor ORA59 Integrates Jasmonic Acid and Ethylene Signals in Plant Defense[J]. Plant Physiology, 2008, 147(3):1347-1357.
    [17]Guo Z J , Chen X J , Wu X L , et al. Overexpression of the AP2/EREBP transcription factor OPBP1 enhances disease resistance and salt tolerance in tobacco[J]. Plant Molecular Biology, 2004, 55(4):607-618.
    [18]Finkelstein R R . Mutations at two new Arabidopsis ABA response loci are similar to the abi3 mutations[J]. Plant Journal, 2010, 5(6):765-771.
    [19]王春梅,王会文,张劲松,陈受宜.一个种子特异的大豆AP2类转录因子参与调控种子萌发[J].中国科学(C辑:生命科学),2008(03):199-208.Wang Chunmei, Wang Huiwen, Zhang Jinsong, Chen Yiyi. A seed-specific soybean AP2 transcription factor is involved in the regulation of seed germination [J]. Chinese Science (part C: life Science) ,2008(03):199-208.
    [20]张麒,陈静,李俐,赵明珠,张美萍,王义.植物AP2/ERF转录因子家族的研究进展[J].生物技术通报,2018,34(08):1-7.DOI:10.13560/j.cnki.biotech.bull.1985.2017-1142.Zhang Qi, Chen Jing, Li Li, Zhao Mingzhu, Zhang Meiping, Wang Yi. Research progress of plant AP2/ERF transcription factor family [J]. Biotechnology bulletin, 2018,34(08):1-7.DOI:10.13560/j.cnki.biotech.bull.1985.2017-1142.
    [21]钱金娥,齐志茹,马秀英.山荞麦的繁育技术及在园林绿化中的应用[J].河北林业科技,2006(02):50.DOI:10.16449/j.cnki.issn1002-3356.2006.02.029.Qian Jine, Qi Zhiru, Ma Xiuying. Breeding technology of buckwheat and its application in landscaping [J]. Hebei forestry science and technology,2006(02):50.DOI:10.16449/j.cnki.issn1002-3356.2006.02.029.
    [22]雷兴华,钟光驰,罗兰,田晓庆,刘光德 荞麦产业发展新方向——观赏荞麦[J]. 人间, 2015(8):185-186.Lei Xinghua, Zhong Guangchi, Luo Lan, Tian Xiaoqing, Liu Guangde new direction of buckwheat industry development-- ornamental buckwheat [J]. Human world, 2015(8):185-186.
    [23] Joshi D C , Chaudhari G V , Sood S , et al. Revisiting the versatile buckwheat: reinvigorating genetic gains through integrated breeding and genomics approach[J]. Planta, 2019, 250(Special issue).
    [24]Chenglei, Li, Haixia, et al. Validation of Reference genes for gene expression studies in tartary buckwheat (Fagopyrum tataricum Gaertn.) using quantitative real-time PCR.[J]. Peerj, 2019.
    [25]谈天斌,卢晓玲,张凯旋,丁梦琦,廖志勇,周美亮.TrMYB308基因的克隆及在苦荞毛状根中的功能分析[J].植物遗传资源学报,2019,20(06):1542-1553.DOI:10.13430/j.cnki.jpgr.20190412003.Tan Tianbin, Lu Xiaoling, Zhang Kaixuan, Ding Mengqi, Liao Zhiyong, Zhou Meiliang. Cloning of TrMYB308 gene and functional analysis in Tartary buckwheat hairy root [J]. Journal of plant genetic resources, 2019,20(06):1542-1553.DOI:10.13430/j.cnki.jpgr.20190412003.
    [26]柳小平,陈思航.浅谈城市园林绿化工程中存在的问题及解决对策[J].智能城市,2021,7(19):46-47.Liu Xiaoping, Chen Sihang. A brief discussion on the problems existing in urban landscaping engineering and their countermeasures [J]. Smart city, 2021,7(19):46-47.
    [27]Yin F , Zeng Y , Ji J , et al. The Halophyte Halostachys caspica AP2/ERF Transcription Factor HcTOE3 Positively Regulates Freezing Tolerance in Arabidopsis[J]. Frontiers in plant science, 12:638788.
    [28]陈悦,孙明哲,贾博为,冷月,孙晓丽.水稻AP2/ERF转录因子参与逆境胁迫应答的分子机制研究进展[J/OL].作物学报:1-12[2021-12-20].http://kns.cnki.net/kcms/detail/11.1809.S.20210830.1156.002.html.Chen Yue, Sun Mingzhe, Jia Bowei, Leng Yue, Sun Xiaoli. Advances in molecular mechanisms of rice AP2/ERF transcription factors involved in stress response [J/OL]. Crop journal:1-12[2021-12-2 0]. http://kns.cnki.net/kcms/detail/11.1809.S.20210830.1156.002.html.
    [29]李慧,杨亚苓,李聪,李丽红,韩占品,王春国.花椰菜AP2/ERF转录因子家族成员BobERF17响应逆境胁迫的表达及功能研究[J].核农学报,2021,35(08):1794-1801.Li Hui, Yang Yaling, Li Cong, Li Lihong, Han Zhanpin, Wang Chunguo. Study on the expression and function of BobERF17, a member of AP2/ERF transcription factor family in cauliflower in response to stress [J]. Journal of nuclear agriculture,2021,35(08):1794-1801.
    [30]Yin F , Zeng Y , Ji J , et al. The Halophyte Halostachys caspica AP2/ERF Transcription Factor HcTOE3 Positively Regulates Freezing Tolerance in Arabidopsis[J]. Frontiers in plant science, 12:638788.
    [31]薄晓雪,吴楠,王楠,孟祥鹏,曲静,刘思言,王丕武.大豆抗逆相关基因GmERF10克隆及生物信息学分析[J].吉林农业大学学报,2021,43(05):524-529.DOI:10.13327/j.jjlau.2021.4951.Bo Xiaoxue, Wu Nan, Wang Nan, Meng Xiangpeng, qu Jing, Liu Siyan, Wang Piwu. GmERF10 cloning and bioinformatics analysis of stress resistance related genes in soybean [J]. Journal of Jilin Agricultural University,2021,43(05):524-529.DOI:10.13327/j.jjlau.2021.4951.
    [32]王园园,赵明,张红香,卢正宽,穆春生.干旱胁迫对紫花苜蓿幼苗形态和生理特征的影响[J].中国草地学报,2021,43(09):78-87.DOI:10.16742/j.zgcdxb.20200290.Garden, Zhao Ming, Zhang Hongxiang, Lu Zhengkuan, Mu Chunsheng. Effects of drought stress on morphological and physiological characteristics of alfalfa seedlings [J]. Chinese Journal of grassland,2021,43(09):78-87.DOI:10.16742/j.zgcdxb.20200290.
    [33]王兴珍,卯旭辉,贾秀苹,梁根生.聚乙二醇模拟干旱胁迫下油葵种质资源萌发期抗旱性评价[J].安徽农业科学,2021,49(20):40-44+104.Wang Xingzhen, Mao Xuhui, Jia Xiuping, Liang Gensheng. Evaluation of drought resistance of oil sunflower germplasm resources at germination stage under polyethylene glycol simulated drought stress [J]. Anhui agricultural science,2021,49(20):40-44+104.
    [34]朱珍珍,陈宏伟,廖芳丽,李莉,刘昌燕,刘良军,杨访问,孙虎,范如旖,毛政,沙爱华,万正煌.小豆种子萌发期耐旱性评价及耐旱种质资源筛选[J].南方农业学报,2019,50(06):1183-1190.Zhu Zhenzhen, Chen Hongwei, Liao Fangli, Li Li, Liu Changyan, Liu Liangjun, Yang visit, Sun Hu, Fan Ruyi, Mao Zheng, Sha Aihua, Wan Zhenghuang. Evaluation of drought tolerance and screening of drought-tolerant germplasm resources during seed germination of adzuki bean [J]. Journal of Southern Agriculture,2019,50(06):1183-1190.
    [35]翁文凤,伍小方,张凯旋,唐宇,江燕,阮景军,周美亮.过表达FtbZIP5提高苦荞毛状根黄酮积累及其耐 盐性[J].作物杂志,2021(04):1-9.DOI:10.16035/j.issn.1001-7283.2021.04.001.Weng Wenfeng, Wu Xiaofang, Zhang Kaixuan, Tang Yu, Jiang Yan, Ruan Jingjun, Zhou Meiliang. Overexpression of FtbZIP5 increased flavonoid accumulation and salt tolerance in hairy roots of Tartary buckwheat [J]. Crop magazine,2021(04):1-9.DOI:10.16035/j.issn.1001-7283.2021.04.001.
    [36]王园园,赵明,张红香,卢正宽,穆春生.干旱胁迫对紫花苜蓿幼苗形态和生理特征的影响[J].中国草地学报,2021,43(09):78-87.DOI:10.16742/j.zgcdxb.20200290.
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赵梦雨,杨 迪,郝彦蓉,等.苦荞转录因子FtDREB6基因克隆及其抗旱功能鉴定[J].植物遗传资源学报,2022,23(4):1132-1142.

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  • 收稿日期:2021-12-21
  • 最后修改日期:2022-03-02
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