稻曲病菌UvHog1基因的克隆及表达分析

doi:10.3969/j.issn.1001-7216.2014.01.002

中国水稻科学 ›› 2014, Vol. 28 ›› Issue (1): 9-14.DOI: 10.3969/j.issn.1001-7216.2014.01.002

稻曲病菌UvHog1基因的克隆及表达分析

饶玉春^1,2,# ,丁正中^1,3,# ,陈析丰¹ ,曾大力² ,马伯军¹,顾志敏 ^1,*

¹浙江师范大学化学与生命科学学院，浙江金华 321004； ²中国水稻研究所水稻生物学国家重点实验室，杭州 310006； ³金华市
艾青中学，浙江金华 321015；

收稿日期:2013-09-16 修回日期:2013-11-15 出版日期:2014-01-10 发布日期:2014-01-10
通讯作者: 顾志敏1,*
基金资助:
国家自然科学基金资助项目（31240079； 30800677; 31201183）；浙江省自然科学基金资助项目（LY12C06001）；浙江省重中之重学科开放基金资助项目。

Cloning and Expression Analysis of UvHog1 Gene in Ustilaginoidea virens

RAO Yuchun ^1,2,# , DING Zhengzhong ^1,3,# , CHEN Xifeng¹ , ZENG Dali ² , MA Bojun¹, GU Zhimin ^1,*

¹College of Chemistry and Life Sciences, Zhejiang Normal University, Jinhua 321004, China; ²State Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006, China; ³Jinhua Aiqing School, Jinhua 321015, China;

Received:2013-09-16 Revised:2013-11-15 Online:2014-01-10 Published:2014-01-10
Contact: GU Zhimin1,*

摘要/Abstract

摘要： 稻曲病由稻曲病菌引起，是水稻穗部的重要病害。利用同源克隆和RACE技术，根据丝状真菌相对保守的氨基酸序列设计简并引物，从稻曲病菌中分离了丝裂原活化蛋白激酶（MAPK）编码基因的全长cDNA序列，命名为UvHog1。 UvHog1含有MAPK保守的蛋白激酶激活域（TGY），序列与稻瘟病菌MgOsm1 （AAF09475.1）、球孢白僵菌BbHog1（AAS77871.1）、烟曲霉AfOsm1 （XP752664.1）和隐球酵母CrHog1（AAM26267.1）等MAPK高度同源，相似性分别为95%、93%、88%和81%。系统聚类结果表明，UvHog1与酵母Hog1 MAPK同源。在盐胁迫条件下，UvHog1的相对表达量明显降低，表明UvHog1参与了对盐胁迫的信号响应。

关键词: 稻曲病菌, Hog1, 克隆, 表达分析

Abstract: Rice false smut, caused by Ustilaginoidea virens, is an important disease in rice panicle. Degenerate PCR primers were designed according to the conserved amino acid sequence of several filamentous fungus mitogen activated protein kinase(MAPK) homologous to yeast Hog1 MAPK, and partial DNA fragment encoding a MAPK was amplified from U. virens through PCR. Then, a whole DNA sequence encoding the MAPK, designated as UvHog1, was obtained from U. virens by extending upstream and downstream sequence of the amplified fragment using RACE method. And its amino acid sequence shared 95%, 93%, 88% and 81% identity to MgOsm1 （AAF09475.1） from Magnaporthe grisea, BbHog1 （AAS77871.1） from Beauveria bassiana, AfOsm1（XP752664.1）from Aspergillus fumigatus and CrHog1（AAM26267.1）from Cryptococcus neoformans var. neoformans, respectively. Phylogenetic clustering suggested that UvHog1 is homologous to yeast Hog1 MAPK. The results of the decreased transcript levels of UvHog1 by salinity suggest that UvHog1 may be involved in the specifically responses to salt stresses.

Key words: Ustilaginoidea virens, Hog1, cloning, expression analysis

中图分类号:

饶玉春1,2,#,丁正中1,3,#,陈析丰1,曾大力2,马伯军1,顾志敏1,* . 稻曲病菌UvHog1基因的克隆及表达分析[J]. 中国水稻科学, 2014, 28(1): 9-14.

RAO Yuchun1,2,#, DING Zhengzhong1,3,#, CHEN Xifeng1, ZENG Dali2, MA Bojun1, GU Zhimin1,*. Cloning and Expression Analysis of UvHog1 Gene in Ustilaginoidea virens[J]. Chinese Journal of Rice Science, 2014, 28(1): 9-14.

参考文献

\[1\]姜慎，唐春生，谭志琼. 国内外稻曲病研究现状.热带农业科学， 2010， 30（3）： 6266.

\[2\] Zhu H C, Xu X P, Xiao G Y, et al. Enhancing disease resistances of super hybrid rice with four antifungal genes. Sci China Ser CLife Sci, 2007, 50（1）: 3139.

\[3\]陈丽，胡东维，陈美军，等. 稻曲球及稻曲病菌菌落微结构的SEM观察. 菌物学报, 2007, 26（1）: 8996.

\[4\]李西川. 酿酒酵母菌和白念珠菌中RCK2和HOG1蛋白激酶在高渗胁迫、氧化胁迫和细胞壁完整性方面的功能研究\[学位论文\]. 天津：天津大学， 2009： 812

\[5\]吴雪昌，胡森杰，钱凯先. 酵母HOGMAPK途径. 细胞生物学杂志, 2005, 27: 247252.

\[6\]杨洪强，接玉玲. 植物MAPK及其在病原信号传递中的作用. 植物病理学报, 2003, 33 （1）: 813.

\[7\]Chen R E，Thorner J. Function and regulation in MAPK signaling pathways: Lessons learned from the yeast Saccharomyces cerevisiae. Biochim Biophys Acta, 2007, 1773 （8）: 13111340.

\[8\]Gustin M C, Alberty N J， Alexander M. MAP kinase pathways in the yeast Saccharomyces cerevisiae. Microbiol Mol Biol Rev, 1998, 62: 12641301.

\[9\]Stock A M, Robinson V L，Goudreau P N. Twocomponent signal transduction. Annu Rev Biochem, 2000, 69: 183215.

\[10\] O′Rourke S M, Herskowitz I, O′Shea E K. Yeast go the whole HOG for the hyperosmotic response. Trends Genet, 2002, 18: 405412.

\[11\]Posas F, Saito H. Activation of the yeast SSK2 MAP kinase kinase kinase by the SSK1 twocomponent response regulator. EMBO J, 1998, 17: 13851394.

\[12\]Posas F, Witten E A, Saito H. Requirement of STE50 for osmostressinduced activation of the STE11 mitogenactivated protein kinase kinase kinase in the highosmolarity glycerol response pathway. Mol Cell Biol, 1998, 18: 57885796.

\[13\] van Wuytswinkel O, Reiser V, Siderius M, et al. Response of Saccharomyces cerevisiae to severe osmotic stress: Evidence for a novel activation mechanism of the HOG MAP kinase pathway. Mol Microbiol, 2000， 37: 382397.

\[14\] Ramezani Rad M, Jansen G, Buhring F,et al. Ste50p is involved in regulating filamentous growth in the yeast Saccharomyces cerevisiae and associates with Stel lp. Mol Gen Genet, 1998, 259: 2938.

\[15\] Wu X C, Chi X Q, Wang P M, et al. The evolutionary rate variation among genes of HOGsignaling pathway in yeast genomes. Biol Direct, 2010, 5: 46.

\[16\] Arana D M, AlonsoMonge R, Du C, et al. Differential susceptibility of mitogenactivated protein kinase pathway mutants to oxidativemediated killing by phagocytes in the fungal pathogen Candida albicans. Cell Microbiol, 2007, 9: 16471659.

\[17\] Dixon K P, Xu J R, Smirnoff N, et al. Independent signaling pathways regulate cellular turgor during hyperosmotic stress and appressoriummediated plant infection by Magnaporthe grisea. Plant Cell, 1999, 11: 20452058.

\[18\]Schuller C, Brewster J L, Alexander M R, et al. The HOG pathway controls osmotic regulation of transcription via the stress response element （STRE） of the Saccharomyces cerevisiae CTT1 gene. J EMBO, 1994, 13: 43824389.

\[19\]Horwitz B A, Sharon A, Lu S, et al. A G protein alpha subunit from Cochliobolus heterostrophus involved in mating and appressorium formation. Fungal Genet Biol, 1999, 26: 1932.

\[20\] Zhang Y, Neo S Y, Wang X H, et al. Axin forms a complex with MEKK1 and activates cJun NH2terminal kinase/stressactivated protein kinase through domains distinct from Wnt signaling. J Biol Chem, 1999, 274: 3524735254.

\[21\] Kojima K, Takano Y, Yoshimi A, et al. Fungicide activity through activation of a fungal signaling pathway. Mol Microbiol, 2004, 53 （6）: 17851796.

\[22\] Zhang Y J, Zhao J H, Fang W G, et al. Mitogenactivated protein kinase hog1 in the entomopathogenic fungus Beauveria bassiana regulates environmental stress responses and virulence to insects. Appl Environ Microbiol, 2009, 75（11）: 37873795.

\[23\]张震，王教瑜，杜新法，等. 稻曲病菌cDNA文库的构建. 植物病理学报, 2008, 38（5）: 462467.

\[24\]张震，杜新法，柴荣耀，等. 稻曲病菌PMK1类同源基因克隆及在稻瘟病菌遗传互补中的功能验证. 微生物学报, 2008, 48 （11）: 14731478.

\[25\]冯飞. 极细链格袍菌HOG1、PBS2基因克隆及功能初步分析\[学位论文\]. 北京：中国农业科学院， 2007： 5064.

\[26\]周洁，郑祥梓，兰斓，等. 稻瘟病菌假定的糖基水解酶62家族初步研究. 中国农业科学, 2009, 42（8）: 27542762.

\[27\]冯飞，纪春艳，杨秀芬，等. 细极链格孢菌Hog1 MAPK（酵母）同源基因AtHOG1的克隆与功能分析. 华北农学报, 2009, 24 （4）: 7479.

[1]	伏荣桃, 陈诚, 王剑, 赵黎宇, 陈雪娟, 卢代华. 转录组和代谢组联合分析揭示稻曲病菌的致病因子[J]. 中国水稻科学, 2024, 38(4): 375-385.
[2]	尹潇潇, 张芷菡, 颜绣莲, 廖蓉, 杨思葭, 郭岱铭, 樊晶, 赵志学, 王文明. 多个稻曲病菌效应因子的信号肽验证和表达分析[J]. 中国水稻科学, 2024, 38(3): 256-265.
[3]	廉院训, 韦子芸, 张强, 李清, 任德勇, 胡江, 朱丽, 高振宇, 张光恒, 郭龙彪, 曾大力, 钱前, 沈兰. 水稻斑马叶突变体zl7的鉴定与基因的精细定位[J]. 中国水稻科学, 2023, 37(2): 113-124.
[4]	曹跃炫, 严绘景, 王克剑, 刘朝雷. 苗期快速分选水稻人工无融合生殖克隆种子[J]. 中国水稻科学, 2022, 36(6): 656-662.
[5]	伏荣桃, 王剑, 陈诚, 赵黎宇, 陈雪娟, 卢代华. 水稻幼穗响应稻曲病菌毒素胁迫早期的转录组分析[J]. 中国水稻科学, 2022, 36(5): 447-458.
[6]	裘霖琳, 刘窍, 付亚萍, 刘文真, 胡国成, 翟玉凤, 庞礴, 汪得凯. 水稻矮化小穗基因DSP2的鉴定与克隆[J]. 中国水稻科学, 2022, 36(2): 150-158.
[7]	张涛荟, 王海宇, 万华, 张莉萍, 谢振威, 陈可毅, 何晓栋, 赵志刚, 万建民. 水稻雌雄不育突变体Osfma2的细胞学观察及基因图位克隆[J]. 中国水稻科学, 2022, 36(1): 13-26.
[8]	吴先美, 李三峰, 胡萍, 何瑞, 焦然, 毛一剑, 鲁草林, 胡娟, 林晗, 吴荣梁, 朱旭东, 饶玉春, 王跃星. 水稻分蘖调控基因HTD3的克隆与功能研究[J]. 中国水稻科学, 2021, 35(6): 535-542.
[9]	朱玉君, 左紫薇, 张振华, 樊叶杨. 一种水稻微效QTL精细定位和克隆新途径[J]. 中国水稻科学, 2021, 35(4): 407-414.
[10]	杜溢墨潘天田云录刘世家刘喜江玲张文伟王益华* 万建民. 水稻粉质皱缩胚乳突变体fse4的表型分析与基因克隆[J]. 中国水稻科学, 2019, 33(6): 499-512.
[11]	冯辉, 范亚磊, 张金凤, 朱红利, 魏利辉. 谷氧还蛋白(AbGrx-1)对水稻干尖线虫在氧化胁迫下的保护作用[J]. 中国水稻科学, 2019, 33(6): 565-574.
[12]	何婧, 刘寒, 郭留明, 李静, 张恒木. 水稻小热休克蛋白OsHSP20抗体特性鉴定及应用[J]. 中国水稻科学, 2019, 33(3): 235-240.
[13]	吕凤, 唐倩莹, 王启明, 郑海, 尤世民, 柏文婷, 肖晏嘉, 赵志刚, 万建民. 水稻雌性败育基因FA的图位克隆[J]. 中国水稻科学, 2018, 32(6): 519-528.
[14]	周坤能, 夏加发, 马廷臣, 王元垒, 李泽福. 水稻条纹叶和白穗基因SLWP的定位及变异分析[J]. 中国水稻科学, 2018, 32(4): 325-334.
[15]	江绍锋, 王陈骄子, 舒灿伟, 周而勋. 水稻纹枯病菌RsPhm基因的克隆及其表达分析[J]. 中国水稻科学, 2018, 1(1): 111-118.

稻曲病菌UvHog1基因的克隆及表达分析

Cloning and Expression Analysis of UvHog1 Gene in Ustilaginoidea virens

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics