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植物内生细菌及其生防作用研究进展(PDF)

《南京林业大学学报(自然科学版)》[ISSN:1000-2006/CN:32-1161/S]

Issue:
2014年06期
Page:
153-159
Column:
综合述评
publishdate:
2014-12-09

Article Info:/Info

Title:
Endophytic bacteria: research advances and biocontrol applications
Article ID:
1000-2006(2014)06-0153-07
Author(s):
HE Lingmin YE Jianren*
Jiangsu Key Laboratory for Prevention and Management of Invasive Species, College of Forestry, Nanjing Forestry University, Nanjing 210037, China
Keywords:
endophytic bacteria biocontrol bioremediation gentic engineering
Classification number :
S435
DOI:
10.3969/j.issn.1000-2006.2014.06.029
Document Code:
A
Abstract:
Endophytic bacteria colonizes in healthy plant tissue, and formes a harmonious relationship with their hosts during a long coevolutionary process. Endophytic bacteria has been widely used in biological control of plant disease due to a variety of biological functions, such as disease resistance,growth promotion,nitrogen fixation, bioremediation and so on. In recent years, the biological control potential and integrated control effect of endophytic bacteria have been enhanced by the technology of genetic engineering.This paper summarized the research achievements of endophytic bacteria at home and abroad, involving the aspects of concept, classification, identification methods of endophytic bacteria, and the interaction of endophytic bacteria with their hosts. Moreover, the phytoremediation capacity of endophytic bacteria, the potential applications and problems of endophytic bacteria on agricultural and forestry biocontrol were mainly discussed.

References

[1] Wilson D. Endophyte: the evolution of a term, and clarification of its use and definition[J]. Oikos, 1995, 73(2): 274-276.
[2] 鲍敏, 康明浩. 植物内生菌研究发展现状[J]. 青海草业, 2011, 20(1): 21-25. Bao M, Kang M. The summarize on research of endogenous bacteria[J]. Qinghai Prataculture, 2011, 20(1): 21-25.
[3] Wang Y, Dai C C. Endophytes: A potential resource for biosynthesis, biotransformation, and biodegradation[J]. Annals of microbiology, 2011, 61(2): 207-215.
[4] Qin S, Xing K, Jiang J H, et al. Biodiversity, bioactive natural products and biotechnological potential of plant-associated endophytic actinobacteria[J]. Applied Microbiology and Biotechnology, 2011, 89(3): 457-473.
[5] Duijff B J, Gianinazzi Pearson V, Lemanceau P. Involvement of the outer membrane lipopolysaccharides in the endophytic colonization of tomato roots by biocontrol Pseudomonas fluorescens strain WCS417r[J]. New Phytologist, 1997, 135(2): 325-334.
[6] Krishnamurthy K, Gnanamanickam S. Biological control of sheath blight of rice: Induction of systemic resistance in rice by plant-associated Pseudomonas spp.[J]. Current Science, 1997, 72(5): 331-334.
[7] Sturz A, Matheson B. Populations of endophytic bacteria which influence host-resistance to Erwinia-induced bacterial soft rot in potato tubers[J]. Plant and Soil, 1996, 184(2): 265-271.
[8] Azevedo J L, Maccheroni Jr W, Pereira J O, et al. Endophytic microorganisms: A review on insect control and recent advances on tropical plants[J]. Electronic Journal of Biotechnology, 2000, 3(1): 15-16.
[9] Bent E, Chanway C P. The growth-promoting effects of a bacterial endophyte on lodgepole pine are partially inhibited by the presence of other rhizobacteria[J]. Canadian Journal of Microbiology, 1998, 44(10): 980-988.
[10] Chanway C. Inoculation of tree roots with plant growth promoting soil bacteria: an emerging technology for reforestation[J]. Forest Science, 1997, 43(1): 99-112.
[11] Hallmann J, Quadt-Hallmann A, Kloepper J. Interactions between Meloidogyne incognita and endophytic bacteria in cotton and cucumber[J]. Soil Biology and Biochemistry, 1998, 30(7): 925-937.
[12] Hallmann J, Quadt-Hallmann A, Mahaffee W, et al. Bacterial endophytes in agricultural crops[J]. Canadian Journal of Microbiology, 1997, 43(10): 895-914.
[13] de Oliveira N C, Rodrigues A A, Alves M I, et al. Endophytic bacteria with potential for bioremediation of petroleum hydrocarbons and derivatives[J]. African Journal of Biotechnology, 2012, 11(12): 2977-2984.
[14] Gallego J L, Loredo J, Llamas J F, et al. Bioremediation of diesel-contaminated soils: Evaluation of potential in situ techniques by study of bacterial degradation[J]. Biodegradation, 2001, 12(5): 325-335.
[15] Newman L A, Reynolds C M. Bacteria and phytoremediation: new uses for endophytic bacteria in plants[J]. Trends in Biotechnology, 2005, 23(1): 6-8.
[16] Solano-Serena F, Marchal R, Casarégola S, et al. A mycobacterium strain with extended capacities for degradation of gasoline hydrocarbons[J]. Applied and Environmental Microbiology, 2000, 66(6): 2392-2399.
[17] Wongsa P, Tanaka M, Ueno A, et al. Isolation and characterization of novel strains of Pseudomonas aeruginosa and Serratia marcescens possessing high efficiency to degrade gasoline, kerosene, diesel oil, and lubricating oil[J]. Current Microbiology, 2004, 49(6): 415-422.
[18] Berg G, Eberl L, Hartmann A. The rhizosphere as a reservoir for opportunistic human pathogenic bacteria[J]. Environmental Microbiology, 2005, 7(11): 1673-1685.
[19] 严婉荣, 赵廷昌, 肖彤斌, 等. 生防细菌在植物病害防治中的应用[J]. 基因组学与应用生物学, 2013, 32(4): 533-539. Yan W R, Zhao T C, Xiao T B, et al. Applications of biocontrol bacteria in plant disease control[J]. Genomics and Applied Biology, 2013, 32(4): 533-539.
[20] De Bary. A Morphologie, Physiologie der Pilze, Flechten und Myxomyceten[M]. Leipzig: Engelmann, 1866.
[21] Perotti R. On the limits of biological enquiry in soil science[J]. Proc Int Soc Soil Sci, 1926, 2: 146-161.
[22] Carroll G. Biology of endophytism in plants with particular reference to woody perennials[J]. Microbiology of the Phyllosphere, 1986: 205-222.
[23] Kloepper J W, Beauchamp C J. A review of issues related to measuring colonization of plant roots by bacteria[J]. Canadian Journal of Microbiology, 1992, 38(12): 1219-1232.
[24] 方中达. 植病研究方法[M]. 北京: 中国农业出版社, 2007.
[25] Tholozan J, Cappelier J, Tissier J, et al. Physiological characterization of viable-but-Nonculturable Campylobacter jejuni cells[J]. Applied and Environmental Microbiology, 1999, 65(3):1110-1116.
[26] Lodewyckx C, Vangronsveld J, Porteous F, et al. Endophytic bacteria and their potential applications[J]. Critical Reviews in Plant Sciences, 2002, 21(6): 583-606.
[27] Tabacchioni S, Chiarini L, Bevivino A, et al. Bias caused by using different isolation media for assessing the genetic diversity of a natural microbial population[J]. Microbial Ecology, 2000, 40(3): 169-176.
[28] 陈泽斌, 夏振远, 雷丽萍, 等. 烟草可培养内生细菌的分离及多样性分析[J]. 微生物学通报, 2011, 38(9): 1347-1354. Chen Z B, Xia Z Y, Lei L P, et al. Diversity of cultivable endophytic bacteria isolated from tobacco[J]. Microbiology China, 2011, 38(9): 1347-1354.
[29] Vendan R T, Lee S H, Yu Y J, et al. Analysis of bacterial community in the ginseng soil using denaturing gradient gel electrophoresis(DGGE)[J]. Indian Journal of Microbiology, 2012, 52(2): 286-288.
[30] Sessitsch A, Reiter B, Pfeifer U, et al. Cultivation-independent population analysis of bacterial endophytes in three potato varieties based on eubacterial and Actinomycetes-specific PCR of 16S rRNA genes[J]. FEMS Microbiology Ecology, 2002, 39(1): 23-32.
[31] Miyamoto T, Kawahara M, Minamisawa K. Novel endophytic nitrogen-fixing clostridia from the grass Miscanthus sinensis as revealed by terminal restriction fragment length polymorphism analysis[J]. Applied and Environmental Microbiology, 2004, 70(11): 6580-6586.
[32] 王瑫, 李永, 朱天辉, 等. 植物内生细菌及其研究方法[R]. 成都: 中国医学科学院医药生物技术研究所, 2012. Wang Y, Li Y, Zhu T H, et al. Endophytic bacteria and the mothods of researching[R]. Chengdu: Chinese Academy of Medical Sciences Institute of Biological Technology, 2012.
[33] 张则君, 张晓宇, 刘宏, 等. 植物内生细菌分离鉴定方法概述[J]. 农业技术与装备, 2012, 11(250): 75-77. Zhang Z J, Zhang X Y, Liu H, et al. The method of isolation and identification of endophytic bacteria[J]. Agricultural Technology and Equipment, 2012, 11(250): 75-77.
[34] Conn V M, Franco C M. Analysis of the endophytic actinobacterial population in the roots of wheat(Triticum aestivum L.)by terminal restriction fragment length polymorphism and sequencing of 16S rRNA clones[J]. Applied and Environmental Microbiology, 2004, 70(3): 1787-1794.
[35] 黄静, 盛下放, 何琳燕. 具溶磷能力的植物内生促生细菌的分离筛选及其生物多样性[J]. 微生物学报, 2010, 50(6): 710-716. Huang J, Sheng X F, He L Y. Biodiversity of phosphate-dissolving and plant growth-promoting endophytic bacteria of two crops[J]. Acta Microbiologica Sinica, 2010, 50(6): 710-716.
[36] Seghers D, Wittebolle L, Top E M, et al. Impact of agricultural practices on the Zea mays L. endophytic community[J]. Applied and Environmental Microbiology, 2004, 70(3): 1475-1482.
[37] Siciliano S D, Fortin N, Mihoc A, et al. Selection of specific endophytic bacterial genotypes by plants in response to soil contamination[J]. Applied and Environmental Microbiology, 2001, 67(6): 2469-2475.
[38] Kuklinsky-Sobral J, Araújo W L, Mendes R, et al. Isolation and characterization of soybean-associated bacteria and their potential for plant growth promotion[J]. Environmental Microbiology, 2004, 6(12): 1244-1251.
[39] Pillay V, Nowak J. Inoculum density, temperature, and genotype effects on in vitro growth promotion and epiphytic and endophytic colonization of tomato(Lycopersicon esculentum L.)seedlings inoculated with a pseudomonad bacterium[J]. Canadian Journal of Microbiology, 1997, 43(4): 354-361.
[40] Rosenblueth M, Martínez L, Silva J, et al. Klebsiella variicola, a novel species with clinical and plant-associated isolates[J]. Systematic and Applied Microbiology, 2004, 27(1): 27-35.
[41] Araújo W L, Maccheroni Jr W, Aguilar-Vildoso CI, et al. Variability and interactions between endophytic bacteria and fungi isolated from leaf tissues of citrus rootstocks[J]. Canadian Journal of Microbiology, 2001, 47(3): 229-236.
[42] 易有金, 罗宽, 刘二明. 内生细菌在植物病害生物防治中的作用[J]. 核农学报, 2007, 21(5): 474-477. Yi Y J, Luo K, Liu E M. Effect of endophytic bacteria on biological control of plant disease[J]. Journal of Nuclear Agricultural Sciences, 2007, 21(5): 474-477.
[43] Ulrich K, Ulrich A, Ewald D. Diversity of endophytic bacterial communities in poplar grown under field conditions[J]. FEMS Microbiology Ecology, 2008, 63(2): 169-180.
[44] Fuentes-Ramírez L E, Caballero-Mellado J, Sepúlveda J, et al. Colonization of sugarcane by Acetobacter diazotrophicus is inhibited by high N-fertilization[J]. Fems Microbiology Ecology, 1999, 29(2): 117-128.
[45] Tan Z, Hurek T, Reinhold-Hurek B. Effect of N-fertilization, plant genotype and environmental conditions on nifH gene pools in roots of rice[J]. Environmental Microbiology, 2003, 5(10): 1009-1015.
[46] Afzal M, Khan S, Iqbal S, et al. Inoculation method affects colonization and activity of Burkholderia phytofirmans PsJN during phytoremediation of diesel-contaminated soil[J]. International Biodeterioration & Biodegradation, 2013, 85: 331-336.
[47] Reiter B, Pfeifer U, Schwab H, et al. Response of endophytic bacterial communities in potato plants to infection with Erwinia carotovora subsp. atroseptica[J]. Applied and Environmental Microbiology, 2002, 68(5): 2261-2268.
[48] Cooley M B, Miller W G, Mandrell R E. Colonization of Arabidopsis thaliana with Salmonella enterica and enterohemorrhagic Escherichia coli O157: H7 and competition by Enterobacter asburiae[J]. Applied and Environmental Microbiology, 2003, 69(8): 4915-4926.
[49] Whipps J M. Microbial interactions and biocontrol in the rhizosphere[J]. Journal of Experimental Botany, 2001, 52(S1): 487-511.
[50] Ramesh R, Joshi A, Ghanekar M. Pseudomonads: major antagonistic endophytic bacteria to suppress bacterial wilt pathogen, Ralstonia solanacearum in the eggplant(Solanum melongena L.)[J]. World Journal of Microbiology and Biotechnology, 2009, 25(1): 47-55.
[51]Amaresan N, Jayakumarc V, Kumarb K, et al. Endophytic bacteria from tomato and chilli, their diversity and antagonistic potential against Ralstonia solanacearum[J]. Archives of Phytopathology and Plant Protection, 2012, 45(3): 344-355.
[52] Ramamoorthy V, Viswanathan R, Raguchander T, et al. Induction of systemic resistance by plant growth promoting rhizobacteria in crop plants against pests and diseases[J]. Crop Protection, 2001, 20(1): 1-11.
[53] Nowak J, Shulaev V. Priming for transplant stress resistance in in vitro propagation[J]. In Vitro Cellular & Developmental Biology-Plant, 2003, 39(2): 107-124.
[54] Gao X, Han Q, Chen Y, et al. Biological control of oil seed rape Sclerotinia stem rot by Bacillus subtilis strain Em7[J]. Biocontrol Science and Technology, 2014, 24(1): 39-52.
[55] Aravind R, Kumar A, Eapen S. Pre-plant bacterisation: a strategy for delivery of beneficial endophytic bacteria and production of disease-free plantlets of black pepper(Piper nigrum L.)[J]. Archives of Phytopathology and Plant Protection, 2012, 45(9): 1115-1126.
[56] Ren J, Ye J, Liu H, et al. Isolation and characterization of a new Burkholderia pyrrocinia strain JK-SH007 as a potential biocontrol agent[J]. World Journal of Microbiology and Biotechnology, 2011, 27(9): 2203-2215.
[57] Liu B, Qiao H, Huang L, et al. Biological control of take-all in wheat by endophytic Bacillus subtilis E1R-j and potential mode of action[J]. Biological Control, 2009, 49(3): 277-285.
[58] 吴忠红, 杜鹃, 王刚霞, 等. 植物内生菌在果蔬保鲜中的研究进展[J]. 生物技术进展, 2013, 3(6): 399-402. Wu Z H, Du J, Wang G X, et al. Research advance on plant endophytes in fruit and vegetable preservation[J]. Current Biotechnology, 2013, 3(6): 399-402.
[59] 石晶盈, 刘爱媛, 冯淑杰, 等. 番木瓜内生细菌 MG-Y2 的鉴定及其生防作用[J]. 果树学报, 2007, 24(6): 810-814. Shi J Y, Liu A Y, Feng S J, et al. Identification and biocontrol effect of endophytic bacterial strain MG-Y2 isolated from papaya[J].Journal of Fruit Science, 2007, 24(6): 810-814.
[60] Rajendran L, Samiyappan R, Raguchander T, et al. Endophytic bacteria mediate plant resistance against cotton bollworm[J]. Journal of Plant Interactions, 2007, 2(1): 1-10.
[61] Andreote F D, Gullo M J M, de Souza Lima A O, et al. Impact of genetically modified Enterobacter cloacae on indigenous endophytic community of Citrus sinensis seedlings[J]. Journal of Microbiology, 2004, 42(3): 169-173.
[62] Herrera G, Snyman S J, Thomson J A. Construction of a bioinsecticidal strain of Pseudomonas fluorescens active against the sugarcane borer, Eldana saccharina[J]. Applied and Environmental Microbiology, 1994, 60(2): 682-690.
[63] Downing K J, Leslie G, Thomson J A. Biocontrol of the Sugarcane Borer Eldana saccharina by expression of the Bacillus thuringiensiscry1Ac7 and Serratia marcescens chiA genes in sugarcane-associated bacteria[J]. Applied and Environmental Microbiology, 2000, 66(7): 2804-2810.
[64] 徐静, 张青文, 田海月. 玉米内生杀虫工程菌对玉米螟的离体及活体生物测定[J]. 昆虫学报, 1998, 41(1): 126-131. Xu J, Zhang Q W, Tian H Y. In vitro and plant bioassays of engineered endophytic bacterium in corn with corn borer[J]. Acta Entomologica Sinica, 1998, 41(1): 126-131.
[65] 徐静, 张青文, 丁军, 等. BtcryⅠA(c)杀虫基因向棉花内生细菌Bacillus cereus染色体中整合的研究[J]. 农业生物技术学报, 2002, 10(2): 189-193. Xu J, Zhang Q W, Ding J, et al. Cloning BtcryⅠA(c) gene into the chromosome of cotton endophytic bacterium Bacillus cereus[J]. Journal of Agricultral Biotechnology, 2002, 10(2): 189-193.
[66] 段灿星, 张青文, 徐静, 等. 杀虫荧光假单胞工程菌的构建及其杀虫效果[J]. 昆虫学报, 2002, 45(4): 419-424. Duan C X, Zhang Q W, Xu J, et al. Construction of insecticidal engineered stains of pseudomonas fluorescens and their insecticidal activity[J]. Acta Entomologica Sinica, 2002, 45(4): 419-424.
[67] 陈中义, 张杰, 曹景萍, 等. 杀虫防病基因工程枯草芽孢杆菌的构建[J]. 生物工程学报, 1999, 15(2): 215-220. Chen Z Y, Zhang J, Cao J P, et al. Construction of genetically engineered strains of Bacillus subtilis against insect pests and plant pathogens[J]. Chinese Journal of Biotechnology, 1999, 15(2): 215-220.
[68] 罗楚平, 陈志谊, 刘永锋, 等. 杀虫晶体蛋白基因 CrylAc在生防菌 B-916 中的表达[J]. 江苏农业学报, 2007, 23(4): 306-311. Luo C P, Chen Z Y, Liu Y F, et al. Expression of insecticidal crystal protein Cry1Ac gene in biocontrol Bacillus subtilis stain B-916[J]. Jiangsu Journal of Agricultural Sciences, 2007, 23(4): 306-311.
[69] 黄玉杰, 杨合同, 周红姿, 等. 芽孢杆菌几丁质酶基因的克隆、序列分析及其在伯克氏菌 B418 中的表达[J]. 中国生物防治, 2006, 22(S1): 72-77. Huang Y J, Yang H T, Zhou H Z, et al. Chitinase gene from Bacillus subtilis: cloning, sequencing and expression in Burkholderia B418[J]. Chinese Journal of Biological Comtrol, 2006, 22(S1): 72-77.
[70] Ryan R P, Germaine K, Franks A, et al. Bacterial endophytes: recent developments and applications[J]. FEMS Microbiology Letters, 2008, 278(1): 1-9.
[71] Idris R, Trifonova R, Puschenreiter M, et al. Bacterial communities associated with flowering plants of the Ni hyperaccumulator Thlaspi goesingense[J]. Applied and Environmental Microbiology, 2004, 70(5): 2667-2677.
[72] Sheng X F, Xia J J, Jiang C Y, et al. Characterization of heavy metal-resistant endophytic bacteria from rape(Brassica napus)roots and their potential in promoting the growth and lead accumulation of rape[J]. Environmental Pollution, 2008, 156(3): 1164-1170.
[73] Sun L N, Zhang Y F, He L Y, et al. Genetic diversity and characterization of heavy metal-resistant-endophytic bacteria from two copper-tolerant plant species on copper mine wasteland[J]. Bioresource Technology, 2010, 101(2): 501-509.
[74] Lodewyckx C, Taghavi S, Mergeay M, et al. The effect of recombinant heavy metal-resistant endophytic bacteria on heavy metal uptake by their host plant[J]. International Journal of Phytoremediation, 2001, 3(2): 173-187.
[75] Wei H L, Zhang L Q. Quorum-sensing system influences root colonization and biological control ability in Pseudomonas fluorescens 2P24[J]. Antonie van Leeuwenhoek, 2006, 89(2): 267-280.
[76] Chen X H, Koumoutsi A, Scholz R, et al. Comparative analysis of the complete genome sequence of the plant growth-promoting bacterium Bacillus amyloliquefaciens FZB42[J]. Nature Biotechnology, 2007, 25(9): 1007-1014.
[77] van Peer R, Punte H L, de Weger L A, et al. Characterization of root surface and endorhizosphere Pseudomonads in relation to their colonization of roots[J]. Applied and Environmental Microbiology, 1990, 56(8): 2462-2470.
[78] 张润杰, 欧阳革成. 植物内生菌 Bacillus spp. 与松材线虫病的关系研究[J]. 中山大学学报: 自然科学版, 2005, 44(2): 82-85. Zhang R J, Ouyang G C. The occurrence of pine wilt disease caused by Bursaphelenchus xylophilus related to endophyte[J]. Acta Scientiarum Naturalium Universitatis Sunyatseni, 2005, 44(2):82-85.
[79] 叶建仁, 任嘉红, 李浩, 等.洋葱伯克霍尔德氏菌及其在林木病害防治中的应用[J]. 南京林业大学学报:自然科学版, 2013, 37(4): 149-155. Ye J R, Ren J H, Li H, et al. Application and its prospect analysis for Burkholderia cepacia in forest disease control[J]. Journal of Nanjing Forestry University:Natural Sciences Edition, 2013, 37(4): 149-155.

Last Update: 2014-12-31