Construction of Fusion Expression Vector Carrying GFP and ZmCIPK

Construction of Fusion Expression Vector Carrying GFP and ZmCIPK

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摘要 [Objective] The aim was to isolate the CBL-interacting protein kinases(CIPK)from maize(Zea mays L.)and construct the fusion gene expression vector which consisted the ZmCIPK8 and GFP.[Method] The ZmCIPK8 cDNA was successfully cloned by using RT-PCR method.And then,it was connected to the pBlueScript SK(pSK)plasmid,which contained the GFP gene.So that the fusion gene vector pSK-CIPK-GFP was obtained.Then,the fusion gene was connected into the efficient plant expression vector PBI121 to construct the fusion gene expression vector PBI-CIPK-GFP.At last,the recombined expression vector was transformed to Agrobacterium tumefaciems LBA4404 to produce the engineering strain LBA4404-PBI-CIPK-GFP.[Result] The fusion gene expression vector which consisted of GFP and ZmCIPK8 gene and engineering strain LBA4404-PBI-CIPK-GFP were successfully constructed.[Conclusion] The results lays a foundation for further study of subcellular localization of ZmCIPK8,which can help to clarify the molecular mechanism of regulation serious stresses,and also provides an important basis for the research on resistance stress engineering of maize. [Objective] The aim was to isolate the CBL-interacting protein kinases（CIPK）from maize（Zea mays L.）and construct the fusion gene expression vector which consisted the ZmCIPK8 and GFP.[Method] The ZmCIPK8 cDNA was successfully cloned by using RT-PCR method.And then,it was connected to the pBlueScript SK（pSK）plasmid,which contained the GFP gene.So that the fusion gene vector pSK-CIPK-GFP was obtained.Then,the fusion gene was connected into the efficient plant expression vector PBI121 to construct the fusion gene expression vector PBI-CIPK-GFP.At last,the recombined expression vector was transformed to Agrobacterium tumefaciems LBA4404 to produce the engineering strain LBA4404-PBI-CIPK-GFP.[Result] The fusion gene expression vector which consisted of GFP and ZmCIPK8 gene and engineering strain LBA4404-PBI-CIPK-GFP were successfully constructed.[Conclusion] The results lays a foundation for further study of subcellular localization of ZmCIPK8,which can help to clarify the molecular mechanism of regulation serious stresses,and also provides an important basis for the research on resistance stress engineering of maize.

作者 TAI Fu-ju WANG Qi WANG Wei SHEN Teng-fei LI Xiao

机构地区 College of Life Science

出处《Agricultural Science & Technology》 CAS 2011年第5期655-658,共4页 农业科学与技术（英文版）

关键词 MAIZE CIPK Fusion gene 融合表达载体 GFP 绿色荧光蛋白基因基因工程菌株融合基因植物表达载体重组表达载体基因表达载体

分类号 Q782 [生物学—分子生物学] Q78 [生物学—分子生物学]

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1李郑娜,杨春贤,杨颖舫,成瑜,冯国庆,陈敏,廖志华.The Construction of Fusion Expression Vector Carrying GFP and TP of GGPPS from Ginkgo biloba L.[J].Agricultural Science & Technology,2010,11(4):90-93. 被引量：1
2Girdhar K Pandey,Yong Hwa Cheongx,Beom-Gi Kim,John J Grant,Legong Li,Sheng Luan.CIPK9: a calcium sensor-interacting protein kinase required for low-potassium tolerance in Arabidopsis[J].Cell Research,2007,17(5):411-421. 被引量：23
3Kyung-Nam Kim,Jung-Sook Lee,Hee Han,Seung Ah Choi,Seung Joo Go,In Sun Yoon.Isolation and characterization of a novel rice Ca2 +-regulated protein kinase gene involved in responses to diverse signals including cold, light, cytokinins, sugars and salts[J]. Plant Molecular Biology . 2003 (6)
4HARPER JF.Dissecting calcium oscillators in plant cells. Trends in Plant Science . 2001
5WEINL S,KUDLA J.The CBL-CIPK Ca2+-decoding signaling net-work:function and perspectives. New Phytologist . 2009
6Shi,J.,Kim,K.N.,Ritz,O.,Albrecht,V.,Gupta,R.,Harter,K.,Luan,S.,Kudla,J.Novel protein kinases associated with calcineurin B_like calcium sensors in Arabidopsis. The Plant Cell . 1999
7V Albrecht,O Ritz,S Linder,K Harter,J Kudla.The NAF domain defines a novel protein-protein interaction module conserved in Ca2+-regulated kinases. EMBO Journal . 2001
8O Batistic,N Sorek,S SchuSltke,S Yalovsky,J Kudla.Dual fatty acyl modification determines the localization and plasma membrane targeting of CBL/CIPK Ca2+ signaling complexes in Arabidopsis. The Plant Cell . 2008
9Batistic O,Waadt R,Steinhorst L,Held K,Kudla J.CBL-mediated targeting of CIPKs facilitates decoding of calcium signals emanating from distinct cellular stores. Plant Journal The . 2010
10Kim K N,Cheong Y H,Gupta R,et al.Interaction specificity of Arabidopsis calcineurin B-like calcium sensors and their target kinases. Plant Physiology . 2000

二级参考文献65

1兰小中,孙敏.红豆杉香叶基香叶基焦磷酸合成酶基因克隆分析[J].西南农业大学学报（自然科学版）,2006,28(4):537-543. 被引量：7
2罗胜勇,董六一,范丽,方明,陈志武.山茶花总黄酮对大鼠脑缺血再灌注损伤的保护作用[J].中国药理学通报,2006,22(11):1383-1386. 被引量：12
3Li L, Kim BG, Cheong YH, et al. A Ca^2+ signaling pathway regulates a K^+ channel for low-K response in Arabidopsis. Proc Natl Acad Sci USA 2006; 103:12625-12630.
4Pandey GK, Grant J J, Cheong YH, et al. ABR 1, an APETALA2- domain transcription factor that functions as a repressor of ABA response in Arabidopsis. Plant Physio12005; 139:1185-1193.
5Murashige T, Skoog F. A revised medium for rapid growth and bioassays with tobacco tissue culture. Physiol Plant 1 1962; 5:473-497.
6Clough S J, Bent AF. Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana. Plant J 1998; 16:735-743.
7Jefferson RA, Kavanagh TA, Bevan MW. GUS fusion:betaglucurodinase as a sensitive and versatile gene fusion marker in higher plants. EMBO J 1987; 6:3901-3907.
8Wu S-J, Ding LT, Zhu JK. SOS1, a genetic locus essential for salt tolerance and potassium acquisition. Plant Cell 1996; 8:617- 627.
9Armengaud P, Breitling R, Amtmann A. The potassium-dependent transcriptome of Arabidopsis reveals a prominent role ofjasmonic acid in nutrient signaling. Plant Physiol 2004; 136:2556-2576.
10Horie T, Schroeder JI. Sodium transporters in plants. Diverse genes and physiological functions. Plant Physiol 2004; 136:2457- 2462.

共引文献22

1QIN YuZhi2,3, GUO Ming1, LI Xu1, XIONG XingYao2,3, HE ChangZheng2,3, NIE XianZhou4 & LIU XuanMing1 1College of Life Science and Biotechnology, Hunan University, Changsha 410082, China,2College of Horticulture and Landscape, Hunan Agricultural University, Changsha 410128, China,3Hunan Provincial Key Laboratory of Crop Germplasm Innovation and Utilization, Hunan Agricultural University, Changsha 410128, China,4Potato Research Centre, Agriculture and Agri-Food Canada, Fredericton, New Brunswick E3B 4Z7, Canada.Stress responsive gene CIPK14 is involved in phytochrome A-mediated far-red light inhibition of greening in Arabidopsis[J].Science China(Life Sciences),2010,53(11):1307-1314. 被引量：5
2Anna Amtmann,Patrick Armengaud.The role of calcium sensor-interacting protein kinases in plant adaptation to potassium-deficiency: new answers to old questions[J].Cell Research,2007,17(6):483-485. 被引量：11
3Ruifen Li,Junwen Zhang,Jianhua Wei,Hongzhi Wang,Yanzhen Wang,Rongcai Ma.Functions and mechanisms of the CBL-CIPK signaling system in plant response to abiotic stress[J].Progress in Natural Science:Materials International,2009,19(6):667-676. 被引量：15
4章俊丽,杨鵾,张玉满,颜永胜,赵志强,方荣祥,孙宗修,傅亚萍,陈晓英.水稻OsCIPK10基因的克隆和功能分析[J].生物工程学报,2009,25(9):1394-1401. 被引量：1
5李会云,王伟,胡秀丽,王琦,邰付菊.玉米蛋白激酶基因ZmCIPK的序列及表达特性分析[J].河南农业大学学报,2010,44(1):12-18. 被引量：3
6Yi Wang Wei-Hua Wu.Plant Sensing and Signaling in Response to K＋-Deficiency[J].Molecular Plant,2010,3(2):280-287. 被引量：19
7Patrick Armengaud,Rainer Breitling,Anna Amtmann.Coronatine-lnsensitive 1 （COI1） Mediates Transcriptional Responses of Arabidopsis thaliana to External Potassium Supply[J].Molecular Plant,2010,3(2):390-405. 被引量：4
8王永波,高世庆,唐益苗,刘美英,郭丽香,张朝,赵昌平.植物蔗糖非发酵-1相关蛋白激酶家族研究进展[J].生物技术通报,2010,26(11):7-18. 被引量：8
9Xifeng Chen,Zhimin Gu,Dedong Xin,Liang Hao,Chengjie Liu,Ji Huang,Bojun Ma,Hongsheng Zhang.Identification and characterization of putative CIPK genes in maize[J].Journal of Genetics and Genomics,2011,38(2):77-87. 被引量：42
10赵晋锋,余爱丽,王高鸿,田岗,王寒玉,杜艳伟,常海霞.植物CBL/CIPK网络系统逆境应答研究进展[J].中国农业科技导报,2011,13(4):32-38. 被引量：16

1李会云,王伟,胡秀丽,王琦,邰付菊.玉米蛋白激酶基因ZmCIPK的序列及表达特性分析[J].河南农业大学学报,2010,44(1):12-18. 被引量：3
2徐俊华.玉米ZmCIPK基因的克隆及表达分析[J].江苏农业科学,2014,42(5):51-53.
3李横江,邵幼岩.玉米ZmCIPK基因的克隆及表达模式分析[J].河南农业科学,2014,43(1):15-18. 被引量：1
4袁德梽,周浓.玉米ZmCIPK基因的克隆及表达特性[J].湖北农业科学,2014,53(15):3665-3668.
5赵晋锋,余爱丽,王寒玉,杜艳伟,王高鸿,常海霞.非生物逆境胁迫下ZmCIPK10基因表达分析[J].生物技术进展,2011,1(2):130-134. 被引量：9
6Xifeng Chen,Zhimin Gu,Dedong Xin,Liang Hao,Chengjie Liu,Ji Huang,Bojun Ma,Hongsheng Zhang.Identification and characterization of putative CIPK genes in maize[J].Journal of Genetics and Genomics,2011,38(2):77-87. 被引量：42
7谢维,邱奇峰,董雪吟,华子春,徐贤秀.Fusion expression of mutated cecropin CMIV in E. coli[J].Science China(Life Sciences),1997,40(3):225-231.
8Lin, LZ,Yu, H,Ying, MY,Tang, J,Zhou, W,Zhao, SY,Li, CB.Cloning of murine BRI3 gene and study on its function for inducing cell death[J].Chinese Science Bulletin,2002,47(5):375-378.

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Construction of Fusion Expression Vector Carrying GFP and ZmCIPK

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