玉米大斑病菌STK2的基因组定位、蛋白质结构预测及其表达

doi:10.3864/j.issn.0578-1752.2013.12.022

Abstract

Abstract: 【Objective】The objectives of this study is to determine the location in genome, and to investigate the protein structure of STK2 of Setosphaeria turcica. Meanwhile, a eukaryotic expression vector of STK2 was constructed and expressed in Pichia pastoris to obtain secreted protein in extracellular. 【Method】 The location of STK2 and protein structures were analyzed using bioinformatics method. Primers were designed according to multiple cloning sites in vector pPIC9K and the ORF sequence of STK2. A recombinant eukaryotic expression vector was constructed and transformed into host yeast strain GS115 by electroporation. The aiming protein expressed in yeast cell through induction and was identified by SDS-PAGE. 【Result】 The identity of STK2 was 91433, locating between 1561986 and 1563262 in the positive-strand of scaffold_3 in the genome of S. turcica. Stk2 shared characteristic conserved domains of MAPK-like protein kinase. α-helices and random coils were its main elements of the secondary structure of Stk2, β strands were lesser and mainly located in N ends in this structure. The 3D structure was composed of a smaller N-terminal lobe and a bigger C-terminal lobe. The eukaryotic expression vector of pPIC9K-STK2 was successfully constructed, and the transformants were screened according to their resistance. A protein, with its molecular weight of about 41 kD, was obtained after induced by methanol, while no corresponding proteins were found in control, suggesting STK2 had been secreted to extracellular of the yeast cells.【Conclusion】STK2 is located between 1561986 and 1563262 in the positive-strand of scaffold_3 in the genome of S. turcica. The characteristics of Stk2 were analyzed, and showed that Stk2 shared all of conserved domains of MAPK kinase. The results also revealed that STK2 was successfully expressed in yeast cell and soluble protein was got in the experiment. These results will lay a foundation for the preparation of Stk2 polyclonal antibody and for the study of the functions of STK2.

Key words: Setosphaeria turcica , bioinformatics method , eukaryotic expression , MAPK

GONG Xiao-Dong, FAN Yu, LI Po, YANG Yang, ZHANG Chang-Zhi, TIAN Lan, ZHANG Xiao-Yu, FAN Yong-Shan, HAN Jian-Min, GU Shou-Qin, DONG Jin-Gao. Localization of STK2 of Setosphaeria turcica in the Genome, Characterization of Its Protein Structure and Expression in Eukaryotic Cells[J].Scientia Agricultura Sinica, 2013, 46(12): 2599-2606.

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References

[1]Dickman M B, Yarden O. Serine/threonine protein kinases and phosphatases in filamentious fungi. Fungal Genetics and Biology, 1999, 26(2): 99-117.

[2]Schaeffer H J, Webber M J. Mitogen-activated protein kinases: sepecific messages from ubiquitous messengers. Molecular and Cellular Biology, 1999, 19(4): 2435-2444.

[3]Banuett F. Signalling in the yeasts: an informational cascade with links to the filamentous fungi. Microbiology and Molecular Biology Reviews, 1998, 62(2): 249-274.

[4]Xu J R. MAP kinases in fungal pathogens. Fungal Genetics and Biology, 2000, 31(3): 137-152.

[5]Lengeler K B, Davidson R C, D'souza C, Harashima T, Shen W C, Wang P, Pan X, Waugh M, Heitman J. Signal transduction cascades regulating fungal development and virulence. Microbiology and Molecular Biology Reviews, 2000, 64(4): 746-785.

[6]Idnurm A, Howlett B J. Pathogenicity genes of phytopathogenic fungi. Molecular Plant Pathology, 2001, 2(4): 241-255.

[7]范永山, 刘颖超, 谷守芹, 桂秀梅, 董金皋. 植物病原真菌的MAPK基因及其功能. 微生物学报, 2004, 44(4): 547-551.

Fan Y S, Liu Y C, Gu S Q, Gui X M, Dong J G. Mitogen Activated Protein Kinase genes and its functions in phytopathogenic fungus. Acta Microbiologica Sinica, 2004, 44(4): 547-551. (in Chinese)

[8]Qi M, Elion E A. MAP kinase pathways. Journal of Cell Science, 2005, 118: 3569-3572.

[9]Urban M, Mott E, Farley T, Hammond K K. The Fusarium graminearum MAP1 gene is essential for pathogenicity and development of perithecia. Molecular Plant Pathology, 2003, 4(5): 347-359.

[10]Xu J R, Hamer J E. MAP kinase and cAMP signaling regulate infection structure formation and pathogenic growth in the rice blast fungus Magnaporthe grisea. Genes & Development, 1996, 12(10): 2696-2706.

[11]Zhao X H, Mehrabi R, Xu J R. Mitogen-activated protein kinase pathways and fungal pathogenesis. Eukaryotic Cell, 2007, 6(10): 1701-1714.

[12]Brachmann A, Schirawski J, Muller P, Kahmann R. An unusual MAP kinase is required for efficient penetration of the plant surface by Ustilago maydis. The European Molecular Biology Organization Journal, 2003, 22: 2199-2210.

[13]Guo J, Dai X, Xu J R, Wang Y, Bai P, Liu F, Duan Y, Zhang H, Huang L, Kang Z. Molecular characterization of a Fus3/Kss1 type MAPK from Puccinia striiformis f. sp. tritici, PsMAPK1. PLoS ONE, 2011, 6(7): e21895.

[14]徐慧妮, 王秀峰, 孙旭东, 杨凤娟, 杜栋良. 黄瓜促分裂原活化蛋白激酶基因的生物信息学分析及原核表达. 园艺学报, 2008, 35(7): 1017-1022.

Xu H N, Wang X F, Sun X D, Yang F J, Du D L. Bioinformatics analysis and prokaryotic expression of MAPK in cucumber. Acta Horticulturae Sinica, 2008, 35(7): 1017-1022. (in Chinese)

[15]刘西燕, 柏锡, 李莹, 李杰. OsMAPK4 基因的原核表达及蛋白纯化. 东北农业大学学报, 2008, 39(8): 59-63.

Liu X Y, Bai X, Li Y, Li J. Prokaryotic expression of OsMAPK4 gene and purification of the protein. Journal of Northeast Agricultural University, 2008, 39(8): 59-63. (in Chinese)

[16]杨金丽, 尹恒, 赵小明, 马小军, 杜昱光. 壳寡糖诱导的烟草Ser /Thr 蛋白激酶的原核表达纯化及多克隆抗体的特异性检测. 西北农业学报, 2008, 17(6) : 253-257.

Yang J L, Yin H, Zhao X M, Ma X J, Du Y G. Prokaryotic expression, purification and antibody production of a Ser/Thr protein kinase in tobacco induced by oligochitosan. Acta Agriculturae Boreali- occidentalis Sinica, 2008, 17(6): 253-257. (in Chinese)

[17]张腾国, 刘玉冰, 孙坤, 杨宁, 安黎哲. 高山离子芥CbMAPK3 基因克隆与原核表达. 植物研究, 2009, 29(6): 692-695.

Zhang T G, Liu Y B, Sun K, Yang N, An L Z. Cloning and prokaryotic expression of Chorispora bungeana CbMAPK3 gene. Bulletin of Botanical Research, 2009, 29(6): 692-695. (in Chinese)

[18]王宁, 谷守芹, 范永山, 李坡, 王文秀, 董金皋. 玉米大斑病菌STK1原核表达载体的构建及其表达. 中国农业科学, 2010, 43(18): 3876-3881.

Wang N, Gu S Q, Fan Y S, Li P, Wang W X, Dong J G. Construction and expression of prokaryotic expression vector of STK1 from Setosphaeria turcica. Scientia Agricultura Sinica, 2010, 43(18): 3876-3881. (in Chinese)

[19]Reményi A, Good M C, Bhattacharyya R P, Lim W A. The role of docking interactions in mediating signaling input, output, and discrimination in the yeast MAPK network. Molecular Cell, 2005, 20(6): 951-962.

[20]Wang Z, Harkins P C, Ulevitch R J, Han J, Cobb M H, Goldsmith E J. The structure of mitogen-activated protein kinase p38 at 2.1-A resolution. Proceedings of the National Academy of Sciences of the United States of America, 1997, 94(6): 2327-2332.

[21]Xie X, Gu Y, Fox T, Coll J T, Fleming M A, Markland W, Caron P R, Wilson K P, Su M S. Crystal structure of JNK3: a kinase implicated in neuronal apoptosis. Structure, 1998, 6(8): 983-991.

[22]Cereghino J L, Cregg J M. Heterologous protein expression in the methylotrophic yeast Pichia pastoris. Federation of European Materials Societies Microbiology Reviews, 2000, 24(1): 45-66.

[23]Xia Z, Dickens M, Raingeaud J, Davis R J, Greenberg M E. Opposing effects of ERK and JNK-p38 MAP kinases on apoptosis. Science, 1995, 270(5240): 1326-1331.

[24]Johnson G L, Lapadat R L. Mitogen-activated protein kinase pathways mediated by ERK, JNK, and p38 protein kinases. Science, 2002, 298(5600): 1911-1912.

[25]Cook J G, Bardwell L, Thorner J. Inhibitory and activating functions for MAPK Kss1 in the S. cerevisiae filamentous-growth signaling pathway. Nature, 1997, 390: 85-88.

[26]Ma D, Cook J G, Thorner J. Phosphorylation and localization of Kss1, a MAP kinase of the Saccharomyces cerevisiae pheromone response pathway. Molecular Biology of the Cell, 1995, 6(7): 889-909.

[27]Kusari A B, Molina D M, Sabbagh W, Lau C S, Bardwell L. A conserved protein interaction network involving the yeast MAP kinases Fus3 and Kss1. The Journal of Cell Biology, 2004, 164(2): 267-277.

[28]Brückner S, Köhler T, Braus G H, Heise B, Bolte M, Mösch H U. Differential regulation of Tec1 by Fus3 and Kss1 confers signaling specificity in yeast development. Current Genetics, 2004, 46(6): 331-342.

[29]Yang H Y, Tatebayashi K, Yamamoto K, Saito H. Glycosylation defects activate filamentous growth Kss1 MAPK and inhibit osmoregulatory Hog1 MAPK. The European Molecular Biology Organization Journal, 2009, 28: 1380-1391.

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Localization of STK2 of Setosphaeria turcica in the Genome, Characterization of Its Protein Structure and Expression in Eukaryotic Cells

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