中国樱桃花变叶病相关植原体的分子检测及鉴定
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摘要
从重庆市采集到表现花变叶症状的中国樱桃枝条样品,利用透射电镜在感病樱桃枝条韧皮部筛管细胞内观察到直径为200~500nm的圆形或者近圆形的植原体粒子。提取感病和健康花瓣的总DNA,利用植原体16S rRNA基因及延伸因子rp基因通用引物进行PCR扩增,从感病植株中扩增得到了长度分别为1.4kb的16SrRNA基因和1.2kb的rp基因。序列一致率分析表明,樱桃花变叶植原体16SrRNA基因和rp基因均与四川甜樱桃花变绿植原体相应基因的核苷酸一致率最高,分别为100%和99.8%;16SrRNA基因相似系数分析表明,樱桃花变叶植原体与四川甜樱桃花变绿植原体、枣疯植原体的相似系数均为1.00;基于16SrRNA基因和rp基因构建系统进化树时发现,樱桃花变叶植原体均与16SrV-B亚组成员聚为一簇,该植原体属于16SrV组的B亚组。
To confirm phytoplasma infection,samples of Chinese cherry(Prunus pseudocerasus L.)plants showing phyllody symptom were collected from an orchard in Chongqing,China. By using transmission electron microscope technology,structures resembling phytoplasmal cells,about 200–500 nm,were observed in the phloem sieve elements of symptomatic but not in healthy plant tissues. Total DNAs were extracted from symptomatic and asymptomatic plants for PCR amplification. Specific fragments of 1.4 kb and 1.2 kb in length were amplified from diseased cherry tissue,but not from healthy plant,using universal primers for phytoplasmal 16 S rRNA gene and rp gene,respectively. The phytoplasma associated with the disease was designated as Chinese cherry phyllody phytoplasma Chongqing isolate(ChP-CQ). Sequence analysis indicated that the 16 S rRNA gene and rp gene of ChP-CQ shared the highest similarities of 100% and 99.8%,respectively,to those of cherry virescence phytoplasma Sichuan isolate(MF848961). i PhyClassifier analysis for 16 S rRNA gene showed that ChP-CQ has the same restriction enzyme pattern with reference strains of 16 SrV-B. Phylogenetic analysis based on 16 S rRNA and rp genes further revealed that ChP-CQ belonged to 16 SrV-B subgroup. In conclusion,the phytoplasma associated with Chinese cherry phyllody disease in Chongqing,China was classified as a member of the subgroup B of the elm yellows group(16 SrV).
To confirm phytoplasma infection,samples of Chinese cherry(Prunus pseudocerasus L.)plants showing phyllody symptom were collected from an orchard in Chongqing,China. By using transmission electron microscope technology,structures resembling phytoplasmal cells,about 200–500 nm,were observed in the phloem sieve elements of symptomatic but not in healthy plant tissues. Total DNAs were extracted from symptomatic and asymptomatic plants for PCR amplification. Specific fragments of 1.4 kb and 1.2 kb in length were amplified from diseased cherry tissue,but not from healthy plant,using universal primers for phytoplasmal 16 S rRNA gene and rp gene,respectively. The phytoplasma associated with the disease was designated as Chinese cherry phyllody phytoplasma Chongqing isolate(ChP-CQ). Sequence analysis indicated that the 16 S rRNA gene and rp gene of ChP-CQ shared the highest similarities of 100% and 99.8%,respectively,to those of cherry virescence phytoplasma Sichuan isolate(MF848961). i PhyClassifier analysis for 16 S rRNA gene showed that ChP-CQ has the same restriction enzyme pattern with reference strains of 16 SrV-B. Phylogenetic analysis based on 16 S rRNA and rp genes further revealed that ChP-CQ belonged to 16 SrV-B subgroup. In conclusion,the phytoplasma associated with Chinese cherry phyllody disease in Chongqing,China was classified as a member of the subgroup B of the elm yellows group(16 SrV).
引文
Bai X D,Zhang J H,Ewing A,Miller S A,Jancso Radek A,Shevchenko D V,Tsukerman K,Walunas T,Lapidus A,Campbell J W,Hogenhout S A.2006.Living with genome instability:the adaptation of phytoplasmas to diverse environments of their insect and plant hosts.J Bacteriol,188:3682-3696.
Blodgett E C,Nyland G.1976.“Sweet cherry crinkle leaf,deep suture,and variegation”,virus diseases and noninfectious disorders of stone fruits in North America.U.S.Dept Agri Handbook,437:306.
FránováJ,Bertaccini A,Duduk B.2014.Molecular tools in COST FA0807 action//Bertaccini A.Phytoplasmas and phytoplasma disease management:how to reduce their economic impact.Bologna:International Phytoplasmologist Working Group:179-184.
Gao R,Wang J,Shao Y H,Li X D,Yang B H,Chang W C,Zhao W J,Zhu S F.2011.Molecular identification of a phytoplasma associated with elm witches’-broom in China.Forest Pathology,41:355-360.
Gao R,Wang J,Zhao W,Li X D,Zhu S F,Hao Y J.2011.Identification of a phytoplasma associated with cherry virescence in China.Journal of Plant Pathology,93(2):465-469.
Gao Rui,Wang Jie,Zhu Tian-sheng,Jia Xi,Li Xiang-dong.2018.Identification and molecular characterization of a phytoplasma associated with pomegranate fasciation disease.Horticultural Plant Journal,4(1):30-34.
IRPCM Phytoplasma/Spiroplasma Working Team-Phytoplasma Taxonomy Group.2004.Description of the genus‘Candidatus Phytoplasma’,a taxon for the wall-less nonhelical prokaryotes that colonize plant phloem and insects.Int J Syst Evol Microbiol,54:1243-1255.
Lee I M,Gundersen D E,Bertaccini A.1998a.Phytoplasma:ecology and genomic diversity.Phytopathology,88:1359-1366.
Lee I M,Gundersen-Rindal D E,Davis R E,Bartoszyk I M.1998b.Revised classification scheme of phytoplasmas based on RFLP analyses of16S rRNA and ribosomal protein gene sequences.Int J Syst Bacteriol,48:1153-1169.
Lee I M,Martini M,Marcone C,Zhu S F.2004.Classification of phytoplasma strains in the elm yellows group(16SrV)and proposal of‘Candidatus Phytoplasma ulmi’for the phytoplasma associated with elm yellows.Int J Syst Evol Microbiol,54:337-347.
Lee I M,Zhao Y,Bottner K D.2006.SecY gene sequence analysis for finer differentiation of diverse strains in the aster yellows phytoplasma group.Molecular and Cellular Probes,20:87-91.
Mehle N,Brzin J,Boben J,Hren M,Frank J,Petrovi?N,Gruden K,Dreo T,?e?lina I,Seljak G,Ravnikar M.2007.First report of‘Candidatus Phytoplasma mali’in Prunus avium,P.armeniaca and P.domestica.Plant Pathology,56(4):721-721.
Németh M.1986.Virus,Mycoplasma and rickettsia diseases of fruit trees.Dordrecht,The Netherlands:Martinus Nijhoff Publishers.
Schneider B,Gibb K S,Seemüller E.1997.Sequence and RFLP analysis of the elongation factor Tu gene used in differentiation and classification of phytoplasmas.Microbiology,143:3381-3389.
Tamura K,Peterson D,Peterson N,Stecher G,Nei M,Kumar S.2011.MEGA5:molecular evolutionary genetics analysis using maximum likelihood,evolutionary distance,and maximum parsimony methods.Mol Biol Evol,28:2731-2739.
Wang J,Ai C X,Yu X M,Zhang K P,Gao R,Li X D.2018a.First report of‘Candidatus phytoplasma asteris’related strain associated with sweet cherry fasciation disease in China.Plant Disease,102(1):237.
Wang J,Liu Q,Wei W,Davis R E,Tan Y,Lee I-M,Zhu D,Wei H,Zhao Y.2018b.Multilocus genotyping identifies a highly homogeneous phytoplasma lineage associated with sweet cherry virescence disease in China and its carriage by an erythroneurine leafhopper.Crop Protection,106:13-22.
Wang Jia-wei,Zhu Dong-zi,Wei Hai-rong,Zong Xiao-juan,Tan Yue,Liu Qing-zhong.2014.Molecular identification of witches’-broom disease on sweet cherry.Journal of Fruit Science,31(Supplement):153-158.(in Chinese)王甲威,朱东姿,魏海蓉,宗晓娟,谭钺,刘庆忠.2014.甜樱桃丛枝病的形态及分子鉴定.果树学报,31(增刊):153-158.
Wang Jie,Gao Rui,Yu Xian-mei,An Miao,Ai Cheng-xiang.2017.Morphological and molecular detection of phytoplasma associated with persimmon fasciation disease.Plant Physiology Journal,53(2):219-226.(in Chinese)王洁,高瑞,余贤美,安淼,艾呈祥.2017.柿树带化病相关植原体的形态及分子鉴定.植物生理学报,53(2):219-226.
Wei W,Davis R E,Lee I M,Zhao Y.2007.Computer-simulated RFLP analysis of 16S rRNA genes:identification of ten new phytoplasma groups.Int J Syst Evol Microbiol,57:1855-1867.
Zhao Y,Wei W,Lee I M,Shao J,Suo X B,Davis R E.2009.Construction of an interactive online phytoplasma classification tool,i Phyclassifier,and its application in analysis of the peach X-disease phytoplasma group(16SrⅢ).Int J Syst Evol Micr,59:2582-2593.
Zheng Xiao-hui,Zhu Guo-ao,Wang Lian-chun,Zhu Jian-xun,Cai Hong,Chen Hai-ru.2012.Molecular identification of a phytoplasma associated with cherry virescence disease.Acta Phytopathologica Sinica,42(5):546-550.(in Chinese)郑晓慧,朱国翱,王连春,朱建勋,蔡红,陈海如.2012.樱桃花变绿病植原体的分子鉴定.植物病理学报,42(5):546-550.
Zhu S F,Hadidi A,Gundersen D E,Lee I M,Zhang C L.1997.Characterization of the phytoplasmas associated with cherry lethal yellows and jujube witches’-broom diseases in China.Acta Hort,472:701-714.
Blodgett E C,Nyland G.1976.“Sweet cherry crinkle leaf,deep suture,and variegation”,virus diseases and noninfectious disorders of stone fruits in North America.U.S.Dept Agri Handbook,437:306.
FránováJ,Bertaccini A,Duduk B.2014.Molecular tools in COST FA0807 action//Bertaccini A.Phytoplasmas and phytoplasma disease management:how to reduce their economic impact.Bologna:International Phytoplasmologist Working Group:179-184.
Gao R,Wang J,Shao Y H,Li X D,Yang B H,Chang W C,Zhao W J,Zhu S F.2011.Molecular identification of a phytoplasma associated with elm witches’-broom in China.Forest Pathology,41:355-360.
Gao R,Wang J,Zhao W,Li X D,Zhu S F,Hao Y J.2011.Identification of a phytoplasma associated with cherry virescence in China.Journal of Plant Pathology,93(2):465-469.
Gao Rui,Wang Jie,Zhu Tian-sheng,Jia Xi,Li Xiang-dong.2018.Identification and molecular characterization of a phytoplasma associated with pomegranate fasciation disease.Horticultural Plant Journal,4(1):30-34.
IRPCM Phytoplasma/Spiroplasma Working Team-Phytoplasma Taxonomy Group.2004.Description of the genus‘Candidatus Phytoplasma’,a taxon for the wall-less nonhelical prokaryotes that colonize plant phloem and insects.Int J Syst Evol Microbiol,54:1243-1255.
Lee I M,Gundersen D E,Bertaccini A.1998a.Phytoplasma:ecology and genomic diversity.Phytopathology,88:1359-1366.
Lee I M,Gundersen-Rindal D E,Davis R E,Bartoszyk I M.1998b.Revised classification scheme of phytoplasmas based on RFLP analyses of16S rRNA and ribosomal protein gene sequences.Int J Syst Bacteriol,48:1153-1169.
Lee I M,Martini M,Marcone C,Zhu S F.2004.Classification of phytoplasma strains in the elm yellows group(16SrV)and proposal of‘Candidatus Phytoplasma ulmi’for the phytoplasma associated with elm yellows.Int J Syst Evol Microbiol,54:337-347.
Lee I M,Zhao Y,Bottner K D.2006.SecY gene sequence analysis for finer differentiation of diverse strains in the aster yellows phytoplasma group.Molecular and Cellular Probes,20:87-91.
Mehle N,Brzin J,Boben J,Hren M,Frank J,Petrovi?N,Gruden K,Dreo T,?e?lina I,Seljak G,Ravnikar M.2007.First report of‘Candidatus Phytoplasma mali’in Prunus avium,P.armeniaca and P.domestica.Plant Pathology,56(4):721-721.
Németh M.1986.Virus,Mycoplasma and rickettsia diseases of fruit trees.Dordrecht,The Netherlands:Martinus Nijhoff Publishers.
Schneider B,Gibb K S,Seemüller E.1997.Sequence and RFLP analysis of the elongation factor Tu gene used in differentiation and classification of phytoplasmas.Microbiology,143:3381-3389.
Tamura K,Peterson D,Peterson N,Stecher G,Nei M,Kumar S.2011.MEGA5:molecular evolutionary genetics analysis using maximum likelihood,evolutionary distance,and maximum parsimony methods.Mol Biol Evol,28:2731-2739.
Wang J,Ai C X,Yu X M,Zhang K P,Gao R,Li X D.2018a.First report of‘Candidatus phytoplasma asteris’related strain associated with sweet cherry fasciation disease in China.Plant Disease,102(1):237.
Wang J,Liu Q,Wei W,Davis R E,Tan Y,Lee I-M,Zhu D,Wei H,Zhao Y.2018b.Multilocus genotyping identifies a highly homogeneous phytoplasma lineage associated with sweet cherry virescence disease in China and its carriage by an erythroneurine leafhopper.Crop Protection,106:13-22.
Wang Jia-wei,Zhu Dong-zi,Wei Hai-rong,Zong Xiao-juan,Tan Yue,Liu Qing-zhong.2014.Molecular identification of witches’-broom disease on sweet cherry.Journal of Fruit Science,31(Supplement):153-158.(in Chinese)王甲威,朱东姿,魏海蓉,宗晓娟,谭钺,刘庆忠.2014.甜樱桃丛枝病的形态及分子鉴定.果树学报,31(增刊):153-158.
Wang Jie,Gao Rui,Yu Xian-mei,An Miao,Ai Cheng-xiang.2017.Morphological and molecular detection of phytoplasma associated with persimmon fasciation disease.Plant Physiology Journal,53(2):219-226.(in Chinese)王洁,高瑞,余贤美,安淼,艾呈祥.2017.柿树带化病相关植原体的形态及分子鉴定.植物生理学报,53(2):219-226.
Wei W,Davis R E,Lee I M,Zhao Y.2007.Computer-simulated RFLP analysis of 16S rRNA genes:identification of ten new phytoplasma groups.Int J Syst Evol Microbiol,57:1855-1867.
Zhao Y,Wei W,Lee I M,Shao J,Suo X B,Davis R E.2009.Construction of an interactive online phytoplasma classification tool,i Phyclassifier,and its application in analysis of the peach X-disease phytoplasma group(16SrⅢ).Int J Syst Evol Micr,59:2582-2593.
Zheng Xiao-hui,Zhu Guo-ao,Wang Lian-chun,Zhu Jian-xun,Cai Hong,Chen Hai-ru.2012.Molecular identification of a phytoplasma associated with cherry virescence disease.Acta Phytopathologica Sinica,42(5):546-550.(in Chinese)郑晓慧,朱国翱,王连春,朱建勋,蔡红,陈海如.2012.樱桃花变绿病植原体的分子鉴定.植物病理学报,42(5):546-550.
Zhu S F,Hadidi A,Gundersen D E,Lee I M,Zhang C L.1997.Characterization of the phytoplasmas associated with cherry lethal yellows and jujube witches’-broom diseases in China.Acta Hort,472:701-714.
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