Please wait a minute...

中国生物工程杂志

CHINA BIOTECHNOLOGY
中国生物工程杂志
中国生物工程杂志  2010, Vol. 30 Issue (09): 24-30    DOI: Q93
研究报告     
一株拮抗香蕉枯萎病的内生细菌的分离及其几丁质酶基因信号肽的分泌活性分析
夏启玉,王宇光**,孙建波,卢雪花,顾文亮
中国热带农业科学院热带生物技术研究所 农业部热带作物生物技术重点开放实验室 海口 571101
Isolation of a Strain of Endophytic Bacteria against Banana Fusarium Wilt and Activity Analysis of Signal Peptide of its Chitinase
XIA Qi-yu,WANG YU-guang,SUN Jian-bo,LU Xue-hua,GU Wen-liang
Key Laboratory of Tropical Crop Biotechnology, Ministry of Agriculture, Institute of Tropical Bioscience and Biotechnology, Chinese Academy of Tropical Agricultural Sciences, Haikou 571101,China  
 全文: PDF(852 KB)   HTML
摘要:

目的:旨在分离并选择一株香蕉内生细菌作为内生基因工程生防菌,并克隆其几丁质酶基因的信号肽序列。方法:从香蕉植株杆下部分离并选择了一株拮抗香蕉枯萎病且具有分泌几丁质酶能力的内生细菌,对该菌株进行了形态观察、生理生化测定和16S rDNA序列分析,克隆了其几丁质酶基因的编码序列并预测了其信号肽,构建了含有信号肽和不含信号肽的几丁质酶的表达菌株BL-chi1和BL-chi2。结果:结合形态观察、生理生化特征和16S rDNA序列比对分析确定该菌株为Klebsiella属,将该菌株命名为KKWB5;BL-chi1和BL-chi2经IPTG诱导后,均表达了与预期蛋白大小一致的蛋白,同时BL-chi1诱导后的培养基上清中出现一条约45kDa的条带,而BL-chi2和空载体的BL-pET22b诱导后的培养基上清中均无此条带;几丁质水解试验发现,BL-chi1诱导后的培养基上清中的蛋白经浓缩和纯化后都能在几丁质平板上形成透明水解圈。结论:该几丁质酶的信号肽能被BL21(DE3)所识别,将几丁质酶分泌到培养基中,并且分泌的几丁质酶具有水解几丁质的生物学活性。内生菌KKWB-5的分离及其几丁质酶分泌信号肽序列的克隆为进一步构建内生工程菌来防治香蕉枯萎病打下了基础。
关键词: 香蕉枯萎病内生细菌克雷伯氏菌几丁质酶信号肽分泌活性    
Abstract:

To construct an endophytic engineered bacterium, a strain of endophytic bacteria with resistance to banana Fusarium wilt and ability to degrade chitin was isolated from healthy banana plants. This strain was identified as Klebsiella based on its morphological, physiological and biochemical characteristics and 16S rDNA sequences analysis. The strain was named as KKWB-5. In order to obtain a secretion signal peptide, the chitinase II gene of KKWB-5 was cloned by PCR, and its signal peptide sequence was forecasted by Signal P3.0 Server. The chitinase gene was inserted into E.coli BL21(DE3) by pET22b to construct respectively the expression strain BL-chi1 and BL-chi2. The chitinase gene of BL-chi1 included the signal peptide sequence, while BL-chi2 removed it. After induced with IPTG, both BL-chi1 and BL-chi2 expressed a protein about 45KDa. The culture supernatant of BL-chi1 had a protein band about 45KDa too, while the culture supernatant of BL-chi2 and BL-pET22b control didn’t have. Biological activity determination showed that both concentrated liquid and purified liquid of the culture supernatant of BL-chi1 induced formed a clearing zone on the colloidal chitin plate. The results demonstrated the signal peptide sequence could be identified by E.coli BL21(DE3) and secrete the chitinase into culture supernatant, moreover, the secreted chitinase had biological activity. The isolation of KKWB-5 strain and cloning of signal peptide sequence of its chitinase served as a good foundation for further constructing engineered endophytic bacterium.
Key words: Banana fusarium wilt    Endophytic bacteria    Klebsiella    Chitinase signal peptide    Secretion activity
收稿日期: 2010-04-23 出版日期: 2010-08-25
基金资助:

中央级公益性科研院所基本科研业务费专项(ITBBZX2008-2-3)
通讯作者: 王宇光     E-mail: wygh28@263.net
服务  
把本文推荐给朋友
加入引用管理器
E-mail Alert
RSS
作者相关文章  
夏启玉
王宇光
孙建波
卢雪花
顾文亮

引用本文:

夏启玉 王宇光 孙建波 卢雪花 顾文亮. 一株拮抗香蕉枯萎病的内生细菌的分离及其几丁质酶基因信号肽的分泌活性分析[J]. 中国生物工程杂志, 2010, 30(09): 24-30.

JIA Qi-Yu, WANG Yu-Guang, SUN Jian-Bei, LEI Xue-Hua, GU Wen-Liang. Isolation of a Strain of Endophytic Bacteria against Banana Fusarium Wilt and Activity Analysis of Signal Peptide of its Chitinase. China Biotechnology, 2010, 30(09): 24-30.

链接本文:

https://manu60.magtech.com.cn/biotech/CN/Q93        https://manu60.magtech.com.cn/biotech/CN/Y2010/V30/I09/24

[1] Sturz A V,Christie B R,Nowak J. Baterial endophytes:Potential role in developing sustainable systems of crop production . Critical Reviews in Plant Sciences,2000,19 (1):130. 
[2] Chen C,Banske E M,Musson G,et al. Biological control of Fusarium wilt on cotton by use of endophytic bacteria. Biological Control,1995,5 (1):8391. 
[3] 吕恒玉,张科立,刘先宝,等. 一株香蕉拮抗内生细菌的分离及鉴定.热带农业工程,2009,33(5):2630. Lv H Y, Zhang K L,Liu X B,et al. Tropical Agricultural Engineering,2009,33(5):2630. 
[4] Chernin L,Ismailov Z,Haran S,et al. Chitinolytic enterobacter agglomerans antagonistic to fungal plant pathogens. Applied and Environmental Microbiology ,1995,61(5):17201726. 
[5] 东秀珠,蔡妙英.常见细菌系统鉴定手册.北京: 科学出版社,2001.9192. Dong X Z,Cai M Y. Manual of Identification in Common Bacteria. Beijing: Science Press,2001.9192. 
[6] Podschun R,Pietsch S,Holler C,et al. Incidence of Klebsiella species in surface waters and their expression of virulence factors . Applied and Environmental Microbiology,2001,67(7):3325–3327. 
[7] Riggs P J,Chelius M K,Iniguez A L,et al. Enhanced maize productivity by inoculation with diazotrophic bacteria. Australian Journal of Plant Physiology,2001,28(9):829–836. 
[8] Cameron D C,Altaras N E,Hoffman M L,et al. Metabolic engineering of propanediol pathways . Biotechnology Progress,1998,14(1):116~125. 
[9] 郑艳,刘喜朋,刘建华. 外源载体高效转化肺炎克雷伯菌的新途径. 微生物学报,2007,47(4):721724. Zheng Y,Liu X P,Liu J H. Acta Microbiologica Sinica,2007,47(4):721724. 
[10] 吕泽勋,李久蒂,朱至清. 用绿色荧光蛋白基因(gfp)标记产酸克雷伯氏菌SG11研究其在水稻苗期根部的定殖. 农业生物技术学报,2001,9(1):1318. Lv Z X,Li J D,Zhu Z Q. Journal of Agricultural Biotechnology,2001,9(1):1318. 
[11] 诸葛斌,王勇,方慧英,等. 利用PDOR同工酶基因yqhD对产1,3丙二醇克雷伯氏杆菌进行基因工程改造. 中国生物工程杂志,2008,28(11):5357. Zhu G B,Wang Y,Fang H Y,et al. China Biotechnology, 2008,28(11):5357. 
[12] Zeng A P,Biebl H. Bulk Chemicals from biotechnology:the case of 1,3propanediol production and the new trends. Advances in Biochemical Engineering/Biotechnology,2002,74(1):239259. 
[13] Dong Y,Iniguez A L,Triplett E W. Quantitative assessments of the host range and strain specificity of endophytic colonization by Klebsiella pneumoniae 342. Plant and Soil,2003,257(1):49–59. 
[14] Chelius M K,Triplett E W. Immunolocalization of dinitrogenase reductase produced by Klebsiella pneumoniae in association with Zea mays L. Applied and Environmental Microbiology,2000,66(2): 783787. 
[15] Dong Y,Iniguez A L,Ahmer B M,et al. Kinetics and strain specificity of rhizosphere and endophytic colonization by enteric bacteria on seedlings of Medicago sativa and Medicago truncatula. Applied and Environmental Microbiology,2003,69(3):17831790. 
[16] Iniguez A L,Dong Y,Triplett E W. Nitrogen fixation in wheat provided by Klebsiella pneumoniae 342. Molecular PlantMicrobe Interactions,2004,17(10):10781085. 
[17] Dong Y,Iniguez A L,Triplett E W. Quantitative assessments of the host range and strain specificity of endophytic colonization by Klebsiella pneumoniae 342. Plant and Soil,2003, 257(1):49–59. 
[18] Fouts D E,Tyler H L,Deboy R T,et al. Complete genome sequence of the n2fixing broad host range endophyte Klebsiella pneumoniae 342 and virulence predictions verified in mice . PLoS Genetics,2008,4(7):e1000141.
[1] 何若昱,林福玉,高向东,刘金毅. 信号肽在大肠杆菌分泌系统中的研究与应用进展[J]. 中国生物工程杂志, 2021, 41(5): 87-93.
[2] 安明晖,田文,韩晓旭,尚红. 表达HIV单链抗体的重组乳酸杆菌的构建及表型分析 *[J]. 中国生物工程杂志, 2019, 39(10): 1-8.
[3] 许敏华,张晶晶,金小宝,李小波,王艳,马艳. 美洲大蠊内生菌几丁质酶基因的克隆、表达及其活性研究 *[J]. 中国生物工程杂志, 2019, 39(1): 31-37.
[4] 王男,金吕华,张玲,林荣,杨海麟. 信号肽对亮氨酸脱氢酶在Bacillus subtilis中分泌表达的影响及酶学性质研究[J]. 中国生物工程杂志, 2018, 38(4): 46-53.
[5] 张玲,王男,金吕华,林荣,杨海麟. 双启动子促进亮氨酸脱氢酶在Bacillus subtilis中表达及发酵研究 *[J]. 中国生物工程杂志, 2018, 38(12): 21-31.
[6] 焦思明,程功,张毓宸,冯翠,任立世,李建军,杜昱光. 里氏木霉几丁质酶表达及其水解产物组成与结构分析 *[J]. 中国生物工程杂志, 2018, 38(10): 30-37.
[7] 杨青, 汪斌, 王亚伟, 张华山, 熊海容, 张莉. 介导两种半纤维素酶分泌表达的信号肽比较[J]. 中国生物工程杂志, 2017, 37(8): 15-22.
[8] 窦一涵, 李映, 赵鹏, 范如婷, 田平芳. 重组肺炎克雷伯氏菌转化甘油为聚3-羟基丙酸[J]. 中国生物工程杂志, 2017, 37(6): 86-92.
[9] 陈龙冠, 覃锦红, 黄云娜, 麦俊新, 谢秋玲. 信号肽优化对重组抗体分泌表达的影响及研究进展[J]. 中国生物工程杂志, 2016, 36(3): 77-81.
[10] 周勇, 徐刚, 杨立荣, 吴坚平. 信号肽优化在枯草芽孢杆菌体系中对脂肪酶LipS分泌表达的影响[J]. 中国生物工程杂志, 2015, 35(9): 42-49.
[11] 张瑞祥, 杨忠. 海底沉积物中几丁质酶的筛选、分离及活性分析[J]. 中国生物工程杂志, 2015, 35(8): 76-82.
[12] 岳昌武, 李园园, 吕玉红, 王苗, 邵美云, 刘明皓, 黄英. 海洋链霉菌Streptomyces olivaceus FXJ7.023来源多功能几丁质酶的克隆、表达及鉴定[J]. 中国生物工程杂志, 2014, 34(8): 47-53.
[13] 张军霞, 丛大鹏, 李雅华, 咸洪泉. 棘孢木霉几丁质酶tachi2 基因的原核表达及酶学性质研究[J]. 中国生物工程杂志, 2013, 33(6): 45-51.
[14] 林振亚, 吴琼, 孙瑞艳, 陈捷, 李雅乾. 链霉菌A01-chit33CT产纳他霉素和几丁质酶协同表达发酵条件优化[J]. 中国生物工程杂志, 2012, 32(10): 67-73.
[15] 陈科, 黄潇, 路蕾, 邢芸, 侯景, 吴洁, 刘景晶. 不同调控元件驱动下菊欧氏杆菌纤维素酶celY基因在大肠杆菌中表达的研究[J]. 中国生物工程杂志, 2012, 32(02): 24-28.
主管:中国科学院  主办:中国科学院文献情报中心  中国生物技术发展中心  中国生物工程学会