Over expression of TaFer gene from Tamarix androssowii improves iron and drought tolerance in transgenic Populus tomentosa 被引量：1

Over expression of TaFer gene from Tamarix androssowii improves iron and drought tolerance in transgenic Populus tomentosa

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摘要 Ferritin, a universal intracellular protein, can store large amounts of iron and improve plant resistance to abiotic and biotic stress. In this study, a ferritin gene(TaFer) from Tamarix androssowii Litv. was transferred into Populus tomentosa Carr. cv 'BJR01' via Agrobacterium. Six independent transgenic lines were obtained with a tolerance to kanamycin and three were randomly selected for further analysis. The PCR and RT-PCR results indicate that the TaFer gene had been integrated into the poplar genome. The effect of the gene on abiotic stress tolerance was tested, and the results show that transgenic plants improve growth, had higher chlorophyll and lower MDA contents, and higher relative electrical conductivity,fewer changes of SOD and POD activities, higher iron content, higher root ferric reductase activity and lower levels of ROS accumulation and cell death in response to drought, Fe-insufficient or Fe-excess tolerance. These results indicate that the TaFer gene can improve abiotic stress tolerance in transgenic Populus tomentosa. Ferritin, a universal intracellular protein, can store large amounts of iron and improve plant resistance to abiotic and biotic stress. In this study, a ferritin gene(TaFer) from Tamarix androssowii Litv. was transferred into Populus tomentosa Carr. cv 'BJR01' via Agrobacterium. Six independent transgenic lines were obtained with a tolerance to kanamycin and three were randomly selected for further analysis. The PCR and RT-PCR results indicate that the TaFer gene had been integrated into the poplar genome. The effect of the gene on abiotic stress tolerance was tested, and the results show that transgenic plants improve growth, had higher chlorophyll and lower MDA contents, and higher relative electrical conductivity,fewer changes of SOD and POD activities, higher iron content, higher root ferric reductase activity and lower levels of ROS accumulation and cell death in response to drought, Fe-insufficient or Fe-excess tolerance. These results indicate that the TaFer gene can improve abiotic stress tolerance in transgenic Populus tomentosa.

作者 Bo Zhao Jingli Yang Wenjing Yao Boru Zhou Wei Zheng Tingbo Jiang

机构地区 State Key Laboratory of Tree Genetics and Breeding Department of Pharmacy Research Center on Life Sciences and Environmental Sciences

出处《Journal of Forestry Research》 SCIE CAS CSCD 2019年第1期171-181,共11页 林业研究（英文版）

基金 supported by Hi-Tech Research and Development Program of China(2013AA102701) Excellent Creative Talents Supporting Program of Heilongjiang University of Chinese Medicine(2012RCQ24)

关键词 Tarmarix andnssowii FERRITIN IRON Genetic transformation Stress resistance Tarmarix andnssowii Ferritin Iron Genetic transformation Stress resistance

分类号 S [农业科学]

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参考文献1

1ZHANG TingTing SONG YunZhi LIU YuDong GUO XingQi ZHU ChangXiang WEN FuJiang.Overexpression of phospholipase Dα gene enhances drought and salt tolerance of Populus tomentosa[J].Chinese Science Bulletin,2008,53(23):3656-3665. 被引量：3

二级参考文献13

1邹维华,赵强,崔德才,王斌.反义磷脂酶Dγ基因与几丁质酶基因转化美洲黑杨G2[J].林业科学,2006,42(1):37-42. 被引量：12
2B. Z. Guo,G. Xu,Y. G. Cao,C. C. Holbrook,R. E. Lynch.Identification and characterization of phospholipase D and its association with drought susceptibilities in peanut (Arachis hypogaea)[J].Planta.2006(3)
3Hayat El Maarouf,Yasmine Zuily-Fodil,Monique Gareil,Agnès d’Arcy-Lameta,Anh Thu Pham-Thi.Enzymatic activity and gene expression under water stress of phospholipase D in two cultivars of Vigna unguiculata L.Walp. differing in drought tolerance[J].Plant Molecular Biology.1999(6)
4Nelson D E,Shen B,Bohnert H J.Salinity tolerance: Mechanisms, models and the metabolic engineering of complex traits[].Genet Eng (N Y).1998
5Wang X.Plant Phospholipase[].Annual Review of Plant Physiology.2001
6Wang X.Multiple forms of phospholipase D in plants: The gene family, catalytic and regulatory properties, and cellular functions[].Progress in Lipid Research.2000
7Qin C,Wang X.The Arabidopsis phospholipase D family: Characterization of a Ca2+-independent and phosphatidylcholine-selective PLDz1 with distinct regulatory domains[].Plant Physiology.2002
8Katagiri T,Takahashi S,Shinozaki K.Involvement of a novel Arabidopsis phospholipase D, AtPLDd, in dehydrationinducible accumulation of phosphatidic acid in stress signaling[].Plant Journal The.2001
9Pappan K,Austin-Brown S,Chapman K D, et al.Substrate selectivities and lipid modulation of phospholipase Dα, b, and g from plants[].Archive of Biochemistry and Biophysics.1998
10Fan L,Cui D,Wang X.Subcellular distribution and tissue expression of phospholipase Dα, β, and δ, in Arabidopsis[].Plant Physiology.1999

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1康伟伟,张超,易自力,陈智勇,谭炎宁.水稻磷脂酶PLD家族生物信息学分析[J].西南农业学报,2019,32(10):2259-2264. 被引量：1
2刘聪,张洋,夏德安,陈雪冰,魏志刚.毛果杨PLD基因家族全基因组水平鉴定及其盐胁迫下的表达分析[J].林业科学研究,2021,34(3):23-36. 被引量：4

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1贾继文,王军辉,张金凤,张守攻,张建国,赵鲲.楸树与滇楸种间杂交的初步研究[J].林业科学研究,2010,23(3):382-386. 被引量：16
2麻文俊,张守攻,王军辉,翟文继,崔永志,王秋霞.楸树新无性系木材的物理力学性质[J].林业科学,2013,49(9):126-134. 被引量：12
3Liuqiang Wang,Chao Wang,Liping Qin,Ping Hu,Yucheng Wang.ThERF1 from Tamarix hispida confers decreased tolerance to oxidative and drought stresses and is regulated by a WRKY protein[J].Journal of Forestry Research,2016,27(4):767-772. 被引量：2

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3ZHENG Jingyi,FENG Rongrong,HE Caimei,LI Xiaoxia.Graphene-Gold Nanoparticle-modified Electrochemical Sensor for Detection of Kanamycin Based on Target-induced Aptamer Displacement[J].Chemical Research in Chinese Universities,2018,34(6):952-958.
4Yuan Guo,Qiyan Jiang,Zheng Hu,Xianjun Sun,Shoujin Fan,Hui Zhang.Function of the auxin-responsive gene TaSAUR75 under salt and drought stress[J].The Crop Journal,2018,6(2):181-190. 被引量：6
5Jianhui Li,Dingwei Luo,Guifang Ma,Licui Jia,Jinliang Xu,Huahong Huang,Zaikang Tong,Yong-Quan Lu.Response of Chinese fir seedlings to low phosphorus stress and analysis of gene expression differences[J].Journal of Forestry Research,2019,30(1):183-192. 被引量：1
6XUE Chen-chen,XU Jin-yan,WANG Can,GUO Na,HOU Jin-feng,XUE Dong,ZHAO Jin-ming,XING Han.Molecular cloning and functional characterization of a soybean GmG MP1 gene reveals its involvement in ascorbic acid biosynthesis and multiple abiotic stress tolerance in transgenic plants[J].Journal of Integrative Agriculture,2018,17(3):539-553. 被引量：1
7Zhang, Lijun,Li, Xiuxiu,Ma, Bin,Gao, Qiang,Du, Huilong,Han, Yuanhuai,Li, Yan,Cao, Yinghao,Qi, Ming,Zhu, Yaxin,Lu, Hongwei,Ma, Mingchuan,Liu, Longlong,Zhou, Jianping,Nan, Chenghu,Qin, Yongjun,Wang, Jun,Cui, Lin,Liu, Huimin,Liang, Chengzhi,Qiao, Zhijun.The Tartary Buckwheat Genome Provides Insights into Rutin Biosynthesis and Abiotic Stress Tolerance[J].Molecular Plant,2017,10(9):1224-1237. 被引量：61
8陈薇薇.澳大利亚TAFE教育对我国新时代职业教育的启示[J].北京经济管理职业学院学报,2018,33(4):37-40. 被引量：5
9LIU Pu,SHI Yuanyuan,ZHU Liwu.Genetic Variation in Resistance to Valsa canker is Related to Arbutin and Gallic Acid Content in Pyrus bretschneideri[J].Horticultural Plant Journal,2018,4(6):233-238. 被引量：1
10Laura Pietola,Jussi Jero,Reetta Jalkanen,Teemu J Kinnari,Olga Jero,Mikko Frilander,Katri Pajusola,Marjo Salminen,Antti A Aarnisalo.Effects of p27^(Kip1)- and p53- shRNAs on kanamycin damaged mouse cochlea[J].World Journal of Otorhinolaryngology,2012,2(1):1-7.

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