水稻细菌性条斑病防治研究进展
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摘要
水稻细菌性条斑病是水稻上最重要的病害之一,在中国南方大部分水稻种植区都有发生,严重危害水稻产量,但目前仍未发现非常有效的防治方法。笔者主要从抗性基因与抗病品种的筛选以及抗性品种的培育方面,阐述了水稻抗细菌性条斑病的遗传育种研究。从生防菌的发现与利用以及抑菌活性物质的筛选,总结了水稻细菌性条斑病的生物防治;此外,介绍该病的化学防治,并在最后综述了水稻细菌性条斑病的综合防治措施,以期为该病的防治提供有用的参考信息。
The rice bacterial leaf streak(BLS) is one of the most important diseases in rice. It happens in mostrice-planting areas in southern China, and seriously decreases rice yield. However, effective strategies tocontrol the BLS are still absent so far. Here, we illuminate the genetic breeding control of BLS which containthe screening of resistant genes and rice varieties and the breeding of resistant rice varieties; and summarizethe biological control of BLS including the discovery and utilizing of biocontrol microbes and the screening ofantibacterial substances. In addition, the chemical control of BLS is also introduced in this paper. At last,integrated control strategies of BLS are reviewed in order to provide references for effectively control of thisdisease.
The rice bacterial leaf streak(BLS) is one of the most important diseases in rice. It happens in mostrice-planting areas in southern China, and seriously decreases rice yield. However, effective strategies tocontrol the BLS are still absent so far. Here, we illuminate the genetic breeding control of BLS which containthe screening of resistant genes and rice varieties and the breeding of resistant rice varieties; and summarizethe biological control of BLS including the discovery and utilizing of biocontrol microbes and the screening ofantibacterial substances. In addition, the chemical control of BLS is also introduced in this paper. At last,integrated control strategies of BLS are reviewed in order to provide references for effectively control of thisdisease.
引文
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[2] Singh, D. V., Banerjee, A. k., Kishun, R. et al. Effect of bacterial leaf streak on the quantitative and qualitative characters of rice[J].Indian J. Mycology and plant pathology,1980,10:67-68.
[3] V, A, Awoderu. N, Bangura, V. T, John. Incidence, distribution and severity of bacterial diseases on rice in West Africa[J].Trop.Pest Manag,1991,37(2):113-117.
[4]范怀忠,伍尚忠.广东省珠江三角洲水稻细菌性条斑病(白叶枯病)研究简报[J].植物知识,1957,1(1):6-8.
[5] Ni?o-L, Ronald PC, Bogdanove AJ, et al. Xanthomonas oryzae pathovars:model pathogens of a model crop[J].Molecular Plant Pathology,2006,7(5):303-324.
[6] Tang D Z, Wu W, Li W, et al. Mapping of QTLs conferring resistance to bacterial leaf streak in rice[J].Theor Appl Genet,2000,101(2):286-291.
[7]王侯聪,黄华康,邱思密,等.优质早籼稻新品种佳辐占的选育与应用[J].厦门大学学报:自然科学版,2006,45(1):114-119.
[8] Zhao B Y, Lin X H, Poland J, et al. A mazie resistance gene function against bacterial streak disease in rice[J].PANS,2005,102(25):15383-15388.
[9]肖友伦,肖放华,刘勇,等.湖南水稻主栽品种对水稻细菌性条斑病的抗性鉴定[J].植物保护,2011,37(1):45-49.
[10]张荣胜,戴秀华,王晓宇,等.江苏省水稻品种对水稻细菌性条斑病的抗性鉴定及评价[J].植物保护学报,2014,41(4):385-389.
[11]洪登伟,赵严,罗登杰,等.水稻细菌性条斑病的广谱抗性资源筛选[J].南方农业学报,2017,48(2):272-276.
[12]岑贞陆,黄思良,李蓉柏,等.稻种材料抗细菌条斑病抗性鉴定[J].安徽农业科学,2007,35(2):6850-6851.
[13]黄大辉,岑贞陆,刘驰,等.野生稻抗性遗传筛选与抗性分析[J].植物遗传资源学报,2008,9(1):11-14.
[14] Chen C, Zheng W, Huang X, et al. Major QTL conferring resistance to rice bacterial leaf streak[J].Agr Sci China,2006,5(3):216-220.
[15] Han Q D, Chen Z W, Deng Y, et al. Fine maping of qBlsr5a, a QTL controlling resistance to bacterial leaf streak in rice(in Chinese)[J].Acta Agron Sin,2008,34(4):587-590.
[16] Xie X F, Chen Z W, Cao J L, et al. Toward the position cloning of qBlsr5a, a QTL underlying resistance to bacterial leaf streak, using overlapping sub-cssls in rice[J].PLoS One,2014,9(4):e9575.
[17] Feng C, Zhang X, Wu T, et al. The polygalacturonase-inhibiting protein 4(OsPGIP4), a potential component of the q Blsr5a locus,confers resistance to bacterial leaf streak in rice[J].Planta,2016,243(5):1297-1308.
[18] Ju YH, Tian HJ, Zhang RH, et al. Overexpression of OsHSP18.0-Cl enhances resistance to bacterial leaf streak in ric[J]Rice,2017,10(12):111-121.
[19] Mei R X, Huang L Y, Zhang F, et al. Genome-Wide phylogenetic analysis of stress-activated protein kinase genes in rice(OsSAPKs)and expression profiling in response to Xanthomonas oryzae pv.Oryzicol infection[J].Plant Molecular Biology Reporter,2013,31(4):877-885.
[20] Ding X H, Cao Y L, Huang L L, et al. Activation of the indole-3-acetic acid-amido synthetase GH3-8 suppresses expansin expression and promotes aslicylate-and jasmonate-independent basal immunity in rice[J].Plant Cell,2008,20(1):228-240.
[21] Fu J, Liu H B, Yu H H, et al. Manipulating Broad-Spectrum Disease Resistance by Suppressing Pathogen-Induced Auxin Accumulation in Rice[C][W][OA][J].Plant Physiology,2011,151(1):589-602.
[22] Guo L J, Guo C M, Li M, et al. Supression of expresiion of the putative recepto-like kinase gene NRRB enhance resistance to bacterial leaf streak in rice[J].Molecular Biology Reporter,2014,41(4):2177-2187.
[23] Guo L J, Li M, Wang W J, Over-expression in the Nucleotidebinding site-leucine rice repeat gene DEPG1 Increases susceptibility to bacterial leaf streak disease in transgenic rice plant[J].Molecular Biology Reporter,2012,39(4):3491-3504.
[24] Tao Z, Liu H B, Qiu D Y, et al. A pair of allelic WRKY genes play an opposite role in rice-bacterial interaction.1[C][W][OA][J].Plant Physiology,2009,151(2):936-948.
[25] Cheng H T, Liu H B, Deng Y. The WRKY45-2 WRKY13WRKY42 transcriptional regulatory cascade is requried for rice resistance to fungal pathogen[J].Plant Physiology,2015,167(3):1087-1099.
[26]曾建敏,林文雄.水稻细菌性条斑病抗性及其研究进展[J].分子植物育种,2003,1(2):253-267.
[27]李齐向,周元昌,陈由禹.水稻细菌性条斑病抗性QTL微卫星标记的筛选及其在基因聚合育种研究中的应用[J].福建农业学报,2012,27(5):470-474.
[28] Wu L, Wu H, Chen L, et al. Difficidin and bacilysin from bacillus amyloliquefaciens FZB42 have antibacterial acivity against Xanthomonas oryzae rice pathogens[J].Scientific Reports,2015,13(5):1038-1047.
[29] Li S B, Xu S R, Zhang R N, et al. The antibiosis action and riceinducing resistance, mediated by a lipopeptide from Bacillus amyloliquefaciens B014, in controlling rice disease caused by Xanthomonas oryzae pv.oryzae[J].Microbiol Biotechnol,2016,26(4):748-756.
[30] Chung E J, Hossain M T, Khan A, et al. Bacillus oryzicola sp. Nov.,an endophytic bacterium isolated from the roots of rice with antimicrobial, plant growth promoting, and systemic resistance inducing activities in rice[J].Plant Pathol J,2015,31(2):152-164.
[31]庄春,李阳红.甲基营养型芽孢杆菌制剂防治水稻细菌性条斑病田间药效试验[J].现代农业科技,2017,05(01):105-107.
[32] Geng R M, Yu L Q, Luo C G, et al. Effects of spores and crude toxins of Helminthosporium gramineum rabenh f. sp. echinochloae on the activity of defensive enzymes in barnyardgrass[J].Agriculture Scinece&Technology,2012,13(12):2589-2593..
[33]朱凯,段桂芳,张建萍,等.禾长蠕孢菌代谢产物抑制水稻细菌性条斑病[J].中国农学通报,2010,26(8):240-242.
[34] Miao S, Mao X, Pei R, et al. lepista sordida polysacchaide induces apoptosis of hep-2 cancer via mitochondrial pathway[J].International Journal Biological Macromolmecules,2013,10(61):97-101.
[35]刘艳如,李晓民,李军进.花脸香菇对水稻细菌性条斑病的抑制活性研究初报[J].中国农学通报,2012,28(12):202-205.
[36]周金荣,黎芳靖,陈媛媛,等.狭叶十大功劳抑菌物质分离及其对水稻细菌性条斑病的防治作用[A].中国植物病理学会2016年学术年会论文集[C].
[37]魏昌英.没食子酸对水稻细菌性条斑病的抑制机制及其对病害的防治作用[D].广西:广西大学,2016.
[38]姜福良.水稻细菌性条斑病辨识及防治方法[J].园艺与种苗,2017,02(14):36-38.
[39]卢瑶,胡秋舲,杨胜英,等.五种药剂防治水稻细菌性条斑病药效研究[J].南方农业,2011,5(11):43-44.
[40]黄华英,梁盛铭,陈梅珍,等.水稻细菌性条斑病监测及防治技术规程[J].生物灾害科学,2017,40(1):58-60.
[2] Singh, D. V., Banerjee, A. k., Kishun, R. et al. Effect of bacterial leaf streak on the quantitative and qualitative characters of rice[J].Indian J. Mycology and plant pathology,1980,10:67-68.
[3] V, A, Awoderu. N, Bangura, V. T, John. Incidence, distribution and severity of bacterial diseases on rice in West Africa[J].Trop.Pest Manag,1991,37(2):113-117.
[4]范怀忠,伍尚忠.广东省珠江三角洲水稻细菌性条斑病(白叶枯病)研究简报[J].植物知识,1957,1(1):6-8.
[5] Ni?o-L, Ronald PC, Bogdanove AJ, et al. Xanthomonas oryzae pathovars:model pathogens of a model crop[J].Molecular Plant Pathology,2006,7(5):303-324.
[6] Tang D Z, Wu W, Li W, et al. Mapping of QTLs conferring resistance to bacterial leaf streak in rice[J].Theor Appl Genet,2000,101(2):286-291.
[7]王侯聪,黄华康,邱思密,等.优质早籼稻新品种佳辐占的选育与应用[J].厦门大学学报:自然科学版,2006,45(1):114-119.
[8] Zhao B Y, Lin X H, Poland J, et al. A mazie resistance gene function against bacterial streak disease in rice[J].PANS,2005,102(25):15383-15388.
[9]肖友伦,肖放华,刘勇,等.湖南水稻主栽品种对水稻细菌性条斑病的抗性鉴定[J].植物保护,2011,37(1):45-49.
[10]张荣胜,戴秀华,王晓宇,等.江苏省水稻品种对水稻细菌性条斑病的抗性鉴定及评价[J].植物保护学报,2014,41(4):385-389.
[11]洪登伟,赵严,罗登杰,等.水稻细菌性条斑病的广谱抗性资源筛选[J].南方农业学报,2017,48(2):272-276.
[12]岑贞陆,黄思良,李蓉柏,等.稻种材料抗细菌条斑病抗性鉴定[J].安徽农业科学,2007,35(2):6850-6851.
[13]黄大辉,岑贞陆,刘驰,等.野生稻抗性遗传筛选与抗性分析[J].植物遗传资源学报,2008,9(1):11-14.
[14] Chen C, Zheng W, Huang X, et al. Major QTL conferring resistance to rice bacterial leaf streak[J].Agr Sci China,2006,5(3):216-220.
[15] Han Q D, Chen Z W, Deng Y, et al. Fine maping of qBlsr5a, a QTL controlling resistance to bacterial leaf streak in rice(in Chinese)[J].Acta Agron Sin,2008,34(4):587-590.
[16] Xie X F, Chen Z W, Cao J L, et al. Toward the position cloning of qBlsr5a, a QTL underlying resistance to bacterial leaf streak, using overlapping sub-cssls in rice[J].PLoS One,2014,9(4):e9575.
[17] Feng C, Zhang X, Wu T, et al. The polygalacturonase-inhibiting protein 4(OsPGIP4), a potential component of the q Blsr5a locus,confers resistance to bacterial leaf streak in rice[J].Planta,2016,243(5):1297-1308.
[18] Ju YH, Tian HJ, Zhang RH, et al. Overexpression of OsHSP18.0-Cl enhances resistance to bacterial leaf streak in ric[J]Rice,2017,10(12):111-121.
[19] Mei R X, Huang L Y, Zhang F, et al. Genome-Wide phylogenetic analysis of stress-activated protein kinase genes in rice(OsSAPKs)and expression profiling in response to Xanthomonas oryzae pv.Oryzicol infection[J].Plant Molecular Biology Reporter,2013,31(4):877-885.
[20] Ding X H, Cao Y L, Huang L L, et al. Activation of the indole-3-acetic acid-amido synthetase GH3-8 suppresses expansin expression and promotes aslicylate-and jasmonate-independent basal immunity in rice[J].Plant Cell,2008,20(1):228-240.
[21] Fu J, Liu H B, Yu H H, et al. Manipulating Broad-Spectrum Disease Resistance by Suppressing Pathogen-Induced Auxin Accumulation in Rice[C][W][OA][J].Plant Physiology,2011,151(1):589-602.
[22] Guo L J, Guo C M, Li M, et al. Supression of expresiion of the putative recepto-like kinase gene NRRB enhance resistance to bacterial leaf streak in rice[J].Molecular Biology Reporter,2014,41(4):2177-2187.
[23] Guo L J, Li M, Wang W J, Over-expression in the Nucleotidebinding site-leucine rice repeat gene DEPG1 Increases susceptibility to bacterial leaf streak disease in transgenic rice plant[J].Molecular Biology Reporter,2012,39(4):3491-3504.
[24] Tao Z, Liu H B, Qiu D Y, et al. A pair of allelic WRKY genes play an opposite role in rice-bacterial interaction.1[C][W][OA][J].Plant Physiology,2009,151(2):936-948.
[25] Cheng H T, Liu H B, Deng Y. The WRKY45-2 WRKY13WRKY42 transcriptional regulatory cascade is requried for rice resistance to fungal pathogen[J].Plant Physiology,2015,167(3):1087-1099.
[26]曾建敏,林文雄.水稻细菌性条斑病抗性及其研究进展[J].分子植物育种,2003,1(2):253-267.
[27]李齐向,周元昌,陈由禹.水稻细菌性条斑病抗性QTL微卫星标记的筛选及其在基因聚合育种研究中的应用[J].福建农业学报,2012,27(5):470-474.
[28] Wu L, Wu H, Chen L, et al. Difficidin and bacilysin from bacillus amyloliquefaciens FZB42 have antibacterial acivity against Xanthomonas oryzae rice pathogens[J].Scientific Reports,2015,13(5):1038-1047.
[29] Li S B, Xu S R, Zhang R N, et al. The antibiosis action and riceinducing resistance, mediated by a lipopeptide from Bacillus amyloliquefaciens B014, in controlling rice disease caused by Xanthomonas oryzae pv.oryzae[J].Microbiol Biotechnol,2016,26(4):748-756.
[30] Chung E J, Hossain M T, Khan A, et al. Bacillus oryzicola sp. Nov.,an endophytic bacterium isolated from the roots of rice with antimicrobial, plant growth promoting, and systemic resistance inducing activities in rice[J].Plant Pathol J,2015,31(2):152-164.
[31]庄春,李阳红.甲基营养型芽孢杆菌制剂防治水稻细菌性条斑病田间药效试验[J].现代农业科技,2017,05(01):105-107.
[32] Geng R M, Yu L Q, Luo C G, et al. Effects of spores and crude toxins of Helminthosporium gramineum rabenh f. sp. echinochloae on the activity of defensive enzymes in barnyardgrass[J].Agriculture Scinece&Technology,2012,13(12):2589-2593..
[33]朱凯,段桂芳,张建萍,等.禾长蠕孢菌代谢产物抑制水稻细菌性条斑病[J].中国农学通报,2010,26(8):240-242.
[34] Miao S, Mao X, Pei R, et al. lepista sordida polysacchaide induces apoptosis of hep-2 cancer via mitochondrial pathway[J].International Journal Biological Macromolmecules,2013,10(61):97-101.
[35]刘艳如,李晓民,李军进.花脸香菇对水稻细菌性条斑病的抑制活性研究初报[J].中国农学通报,2012,28(12):202-205.
[36]周金荣,黎芳靖,陈媛媛,等.狭叶十大功劳抑菌物质分离及其对水稻细菌性条斑病的防治作用[A].中国植物病理学会2016年学术年会论文集[C].
[37]魏昌英.没食子酸对水稻细菌性条斑病的抑制机制及其对病害的防治作用[D].广西:广西大学,2016.
[38]姜福良.水稻细菌性条斑病辨识及防治方法[J].园艺与种苗,2017,02(14):36-38.
[39]卢瑶,胡秋舲,杨胜英,等.五种药剂防治水稻细菌性条斑病药效研究[J].南方农业,2011,5(11):43-44.
[40]黄华英,梁盛铭,陈梅珍,等.水稻细菌性条斑病监测及防治技术规程[J].生物灾害科学,2017,40(1):58-60.