植原体传播、分布及发病症状研究进展

PDF (PC)

Like

Knowledge

Research progress on the transmission,distribution,and disease symptoms of phytoplasma

Abstract

References

Metrics

Abstract

Cite this article

share this article

References

Related Articles 15

Metrics

Comments

Recommended 0

doi:10.12190/j.issn.2096-1197.2025.01.12

Abstract: Phytoplasma is a kind of single-celled prokaryotes parceled by biofilm,without cell wall and similar to plant pathogenic bacteria. Its host include plants and insects. Phytoplasma has highly transmission and has a widely action range,which can cause systemic diseases in various plants and leading to abnormal growth and development,and even death. The article provides an overview of the characteristics,transmission pathway,distribution,and disease symptoms of phytoplasma,summarizes the prevention and control methods of phytoplasma,and looks forward to its future research focus,aiming to provide reference for ensuring the healthy development of agriculture.

Key words: Phytoplasma, Transmission, Distribution, Disease symptoms, Prevention and control method

CLC Number:

S432.4

FAN Bowen, SUN Pingping, ZHANG Lei, ZHENG Na, LI Zhengnan. Research progress on the transmission,distribution,and disease symptoms of phytoplasma[J].Journal of Northern Agriculture, 2025, 53(1): 100-106.

[1] 李季晗. 植原体导致樱桃僵果的转录组和代谢组分析[D].重庆:西南大学,2022.
[2] DOI Y,TERANAKA M,YORA K,et al.Mycoplasmaor PLA group like microorganisms found in the phloem elements of plants infected with mulberry dwarf,potato witches′ broom,aster yellows,or paulownia witches′ broom[J].Japanese Journal of Phytopathology,1967,33(4):259-266.
[3] LEE I M,DAVIS R E.Phloem-limited prokaryotes in sieve elements isolated by enzyme treatment of disease plant tissues[J].Phytopathology.1983,73:1540-1543.
[4] YANG J,LIAO Y J,NING J H,et al.Identification of a phytoplasma associated with Syringa reticulata witches′ broom disease in China[J].Forest pathology,2020,50:e12592.
[5] S A H,KENRO O,El-DESOUKY A,et al.Phytoplasmas:bacteria that manipulate plants and insects[J].Molecular Plant Pathology,2008,9(4):403-423.
[6] GU P W.Identification of phytoplasmas and molecular characterization of immunodominant menbrane protein gene from wheat blue dwarf[J].The Journal of Hebei Forestry Science and Technology,2003(4):1-2.
[7] 李丰,赖刚刚,赵志惠,等.柽柳丛枝植原体鉴定及16S rRNA基因多样性分析[J].新疆农业科学,2023,60(10):2551-2557.
[8] ANDERSEN M T,NEWCOMB R D,LIEFTING L W,et al.Phylogenetic analysis of “Candidatus Phytoplasma australiense” reveals distinct populations in New Zealand[J].Phytopathology,2006,96(8):838-845.
[9] MORABITO C,PAGLIARANI C,LOVISOLO C,et al.The sucrose signalling route controls Flavescence dorée phytoplasma load in grapevine leaves[J].Journal of Experimental Botany,2024:1-17.
[10] 穆雪,赵洋,李春艳,等.国内外樱桃植原体(phytoplasma)病害研究进展[J].果树学报,2019,36(12):1754-1762.
[11] TRAN-NGUYEN LT,KUBE M,SCHNEIDER B,et al.Comparative genome analysis of “Candidatus Phytoplasma australiense”(subgroup tuf-Australia I;rp-A) and “Ca.Phytoplasma asteris” strains OY-M and AY-WB[J].Journal of Bacteriology,2008,190(11):3979-3991.
[12] SASKLA A.H,KENRO O,EL-DESOMKY A,et al.Phytoplasmas:bacteria that manipulate plants and insects[J].Molecular Plant Pathology,2008,9:403-423.
[13] 李继东,陈鹏,倪静,等.植原体致病分子机理研究进展[J].园艺学报,2019,46(9):1691-1700.
[14] 顾沛雯. 小麦蓝矮病植原体的鉴定及其免疫膜蛋白(Imp)基因分子特征研究[J].河北林业科技,2003(4):1-2.
[15] 吴宽,田小曼.陕西枣疯病发病规律与苗木带病检测[J].西北农业学报,2019,28(5):809-814.
[16] TOHIDI Z,SALEHI M,GHASEMI S,et al.Association of a 16SrⅨ-C phytoplasma with eggplant phyllody in Iran[J].Journal of Crop Protection,2015,4(2):247-256.
[17] VIROL E J.Detection of phytoplasma in tomato and pepper plants by electron microscopy and molecular biology based methods[J].Egyptian Journal of Virology,2007,4:93-111.
[18] RAPPUSSI M,ECKSTEIN B,FlÔRES D,et al.Cauliflower stunt associated with a phytoplasma of subgroup 16SrⅢ-J and the spatial pattern of disease[J].European Journal of Plant Pathology,2012,133(4):829-840.
[19] CHOUEIRI E,SALAR P,JREIJIRI F,et al.Occurrence and distribution of ‘Candidatus Phytoplasma trifolii’associated with diseases of solanaceous crops in Lebanon[J].European Journal of Plant Pathology,2007,118(4):411-416.
[20] 耿显胜,舒金平,王浩杰,等.植原体病害的传播、流行和防治研究进展[J].中国农学通报,2015,31(25):164-170.
[21] SUGIO A,MACLEAN A M,KINGDOM H N,et al.Diverse targets of phytoplasma effectors:from plant development to defense against insects[J].Annual Review Phytopathology,2011,49(1):175.
[22] SUZUKI S,OSHIMA K,KAKIZAWA S,et al.Interaction between the membrane protein of a pathogen and insect microfilament complex determines insect-vector specificity[J].Proceedings of the National Academy of Sciences of the United States of America,2006,103(11):4252-4257.
[23] 丁磊,陆文静,杨彦君,等.ATP6 蛋白影响异沙叶蝉对小麦蓝矮植原体的传播效率[J].昆虫学报,2021,64(11):1275-1282.
[24] 孟秀利,黄英凯,林兆威,等.银毛吹绵蚧可传播中国海南省槟榔黄化病[J/OL].分子植物育种,2024:1-10.(2024-05-17).http://kns.cnki.net/kcms/detail/46.1068.s.20240516.0024.002.html.
[25] 李文凤,王晓燕,仓晓燕,等.耿马甘蔗白叶病植原体昆虫介体调查与检测[J].农学学报,2022,12(5):6-9.
[26] 周斯琦,杨小蓉,王郅怡,等.水稻橙叶植原体在病株中积累及其经电光叶蝉传播的主要特征[J].南方农业学报,2024,55(7):2108-2115.
[27] 赵德轩. 板栗黄化皱缩病植原体空间分布及综合防治效果[D].秦皇岛:河北科技师范学院,2024.
[28] CLARK M F,BARBARA D J,DAVIES D L,et al.Production and characteristics of antisera to Spiroplasma citri and clover phyllody-associated antigens derived from plants[J].Annals of Applied Biology,1983,103:251-259.
[29] WEI W,KAKIZAWA S,JUNG H Y,et al.An antibody against the SecA membrane protein of one phytoplasma reacts with those of phylogenetically different phytoplasmas[J].Phytopathology,2004,94:683-686.
[30] 李正男. 西北地区常见植物植原体病害分子鉴定及株系多样性研究[D].咸阳:西北农林科技大学,2015.
[31] 万琼莲,王连春,王泉,等.羽脉山黄麻丛枝植原体的分子鉴定及病害调查[J].林业科学,2021,57(5):195-201.
[32] 田国忠,黄钦才,袁巧平,等.感染MLO泡桐组培苗代谢变化与致病机理的关系[J].中国科学,1994(5):484-490.
[33] 雷启义,董志,周江菊,等.泡桐丛枝病的分子生物学研究进展[J].安徽农业科学,2008(22):9609-9610.
[34] 赵会杰,吴光英,林学梧,等.泡桐丛枝病与超氧物歧化酶的关系[J].植物生理学报,1995,31(4):266-267.
[35] 赖刚刚,李丰,党金欢,等.新疆南疆柳树植原体病害发生情况调查与分析[J].现代园艺,2021,44(5):85-87.
[36] 杨文杰,温晓蕾,冯丽娜,等.板栗黄化皱缩病的病原菌鉴定及其防治[J].中国农业科技导报,2022,24(3):148-156.
[37] 王清和. 砍疯枝能否防治枣疯病的探讨[J].中国果树,1980(1):43-44.
[38] LINCK H,LANKES C,KRUGER E,et al.Elimination of phytoplasmas in rubus mother plants by tissue culture coupled with heat therapy[J].Plant Disease,2019,103(6):1252-1255.
[39] ZHAO L,WANG M R,LI J W,et al.Cryobiotechnology:a double-edged sword for obligate plant pathogens[J].Plant Disease,2019,103(6):1058-1067.
[40] 张曼莹. 贵州樱桃植原体类型的鉴定及脱除技术的建立[D].贵阳:贵州大学,2023.
[41] WANG R R,MOU H Q,GAO X X,et al.Cryopreservation for eradication of jujube witches′ broom phytoplasma from Chinese jujube(Ziziphus jujuba)[J].Annals of Applied Biology,2015,166(2):218-228.
[42] 冯文全,王树娟,张晓萝,等.柳树丛枝病生物学特性及防治方法[J].内蒙古林业,2015(11):14-15.
[43] 陈晓兰. 桑树萎缩病的识别与防治[J].农技服务,2011,28(4):470.
[44] 李岩峰,邹大军.四环素与阿维菌素复配防治柳树植原体病害初探[J].林业科技通讯,2015(7):47-48.
[45] BOLGARI D,BOZKURT AI,CASATI P,et al.Endophytic bacterial community living in roots of healthy and ‘Candidatus Phytoplasma mali’-infected apple(Malus domestica Borkh.)trees[J].Antonie van Leeuwenhoek,2012,102(4):677-687.

Viewed

Full text

	From	local

	Times	33
	Rate	100%

Abstract

Just accepted	Online first	Issue

0	0	44

	From	local

	Times	45
	Rate	100%

Cited

Web of Science	Crossref	ScienceDirect	Search for Citations in Google Scholar >>


This page requires you have already subscribed to WoS.

Shared

Just accepted

Online first

Just accepted

Online first

[1]	MA Hongzhen, WANG Ning, WU Yin, XU Haitao, TIAN Yuan, FENG Xiaoxi, XU Bo, ZHANG Jungang, GUO Haibin. Study on the difference of dynamic accumulation and distribution of protein,fat,and starch content in spring sowing and summer sowing maize grains [J]. Journal of Northern Agriculture, 2024, 52(4): 69-83.
[2]	PAN Lijie, ZHANG Baolin, LI Ruixin, NIU Panting, GUO Jianpeng, Siqin′gaowa , HE Meiling. Research progress on maize leaf chlorophyll content vertical distribution in different leaf positions [J]. Journal of Northern Agriculture, 2023, 51(4): 28-37.
[3]	LI Jingru, ZHANG Lei, SUN Pingping, WANG Yong, FU Chongyi, SI Lujun, ZHANG Chenxin, LI Zhengnan. Research progress on viruses infecting five leafy vegetables [J]. Journal of Northern Agriculture, 2022, 50(4): 122-134.
[4]	LIU Bo, LIU Guanzhi, LIU Guohou, JIN Rong, CHENG Xinghua. Inner Mongolia distributed national key protected wild plants and the floristic characteristics [J]. Journal of Northern Agriculture, 2022, 50(3): 44-52.
[5]	HUANG Haiqing, HUANG Yangfan, BIAN Xu. Bibliometric analysis of taxonomy research of Orthoptera insects [J]. Journal of Northern Agriculture, 2021, 49(3): 116-127.
[6]	FU Chongyi, WANG Yong, YANG Shuqing, LIU Xiangping. Effect of photosynthetic characteristics and the rules of ¹⁵N absorption and distribution in strawberry under different dormancy states [J]. Journal of Northern Agriculture, 2020, 48(5): 90-94.
[7]	HUO Hongli, XI Xianmei, BAI Quanjiang, ZHANG Xiaoyu, LI Nan, WANG Xiang′en. Diversity survey of soil nematode population in three crops in Inner Mongolia [J]. Journal of Northern Agriculture, 2020, 48(2): 76-81.
[8]	JIN Yue, CUI Lijian, WANG Gang, FAN Bing, WU Haiming, LIANG Cunzhu. Characterization of soil organic carbon content in western desert of Alagxa League of Inner Mongolia [J]. Journal of Northern Agriculture, 2019, 47(4): 97-101.
[9]	ZHAO Limei;SUN Wenjing;GAO Bingde(College of Pharmacutical Science,Zhejiang Chinese Medical University,Hangzhou 311402,China;Inner Mongolia Environmental Monitoring Center Station,Hohhot 010011,China;College of Grassland,Resources and Environment,Inner Mongolia Agricultural University,Hohhot 010019,China). Influence of selenium fertilizer as seed manure on selenium absorption and distribution in spring wheat [J]. Journal of Northern Agriculture, 2019, 47(2): 52-58.
[10]	. Dynamic distribution of NPK of maize in different growth period [J]. Journal of Northern Agriculture, 2017, 45(6): 48-48.
[11]	. Research and investigate on distribution and status of development urban agriculture in Qingdao [J]. Journal of Northern Agriculture, 2017, 45(4): 131-131.
[12]	. Classification,origin,germplasm preservation,domestic distribution and special function from various Legumes [J]. Journal of Northern Agriculture, 2017, 45(3): 36-36.
[13]	. Study on the“A map”production of crop spatial distribution based on“3S”technology [J]. Journal of Northern Agriculture, 2017, 45(3): 103-103.
[14]	. Research progress of spatial and temporal distribution of snow cover in Inner Mongolia [J]. Journal of Northern Agriculture, 2017, 45(2): 90-90.
[15]	. The occurrence and distribution of pest Frankliniella occidentalis in midwest region of Inner Mongolia [J]. Journal of Northern Agriculture, 2017, 45(2): 82-82.