«ÉÏһƪ/Previous Article|±¾ÆÚĿ¼/Table of Contents|ÏÂһƪ/Next Article»

¡¶½­ËÕÅ©Òµ¿Æѧ¡·[ISSN:1002-1302/CN:32-1214/S]

¾í:

µÚ47¾í

ÆÚÊý:

2019ÄêµÚ21ÆÚ

Ò³Âë:

60-63

À¸Ä¿:

רÂÛÓë×ÛÊö

³ö°æÈÕÆÚ:

2019-12-05

ÎÄÕÂÐÅÏ¢/Info

Title:

Research progress on mixed infection of plant virus

×÷Õß:

ºØÕñ;  ¸Êº£·å;  ³Âö©

ÑïÖÝ´óѧ԰ÒÕÓëÖ²Îï±£»¤Ñ§Ôº£¬½­ËÕÑïÖÝ 225009

Author(s):

He Zhen; et al

¹Ø¼ü´Ê:

Ö²Îﲡ¶¾; »ìºÏÇÖȾ; »ùÒò³ÁĬÒÖÖÆ×Ó; ½ø»¯²©ÞÄ

Keywords:

-

·ÖÀàºÅ:

S432.4⁺1

DOI:

-

ÎÄÏ×±êÖ¾Âë:

A

ÕªÒª:

»ìºÏÇÖȾÊDz¡¶¾Îªº¦×÷Îïʱ´æÔÚµÄÒ»ÖÖÆÕ±éÏÖÏ󣬸øÅ©ÒµÉú²ú´øÀ´ÑÏÖØÍþв£¬²¢³£Ôì³ÉÖØ´óµÄ¾­¼ÃËðʧ¡£Ä¿Ç°£¬Òѱ¨µÀÁ˶àÖÖ²¡¶¾»ìºÏÇÖȾµÄÏà¹ØÑо¿¡£±¾ÎÄ×ÛÊöÁ˽üÄêÀ´¶ÔÖ²Îﲡ¶¾»ìºÏÇÖȾÏÖÏóÒÔ¼°ÄÚÔÚ»úÖƵÄÑо¿ÏÖ×´£¬´Ó»ùÒò³ÁĬÒÖÖÆ×Ó¡¢Ð¡RNA¡¢½ø»¯²©Þĵȷ½Ãæ̽ÌÖÁËÓ°ÏìÖ²Îﲡ¶¾»ìºÏÇÖȾµÄÒòËØ£¬ÒÔÆÚΪ²¡¶¾²¡º¦µÄÓÐЧ·À¿ØÌṩÒÀ¾Ý¡£

Abstract:

-

²Î¿¼ÎÄÏ×/References:

[1]Hull R. Matthew¬ðs plant virology£ÛM£Ý. New York£ºAcademic Press£¬2014£º184-188.
£Û2£ÝMukasa S B£¬Rubaihayo P R£¬Valkonen J P T. Interactions between a crinivirus£¬an ipomovirus and a potyvirus in coinfected sweetpotato plants£ÛJ£Ý. Plant Pathology£¬2006£¬55(3)£º458-467.
£Û3£ÝSyller J. Facilitative and antagonistic interactions between plant viruses in mixed infections£ÛJ£Ý. Molecular Plant Pathology£¬2012£¬13(2)£º204-216.
£Û4£ÝTatineni S£¬Graybosch R A£¬Hein G L£¬et al. Wheat cultivar-specific disease synergism and alteration of virus accumulation during co-infection with wheat streak mosaic virus and triticum mosaic virus£ÛJ£Ý. Phytopathology£¬2010£¬100(3)£º230-238.
£Û5£ÝElena S F£¬Bernet G P£¬Carrasco J L. The games plant viruses play£ÛJ£Ý. Current Opinion in Virology£¬2014(8)£º62-67.
£Û6£ÝTatineni S£¬Qu F£¬Li R H£¬et al. Triticum mosaic poacevirus enlists P1 rather than HC-Pro to suppress RNA silencing-mediated host defense£ÛJ£Ý. Virology£¬2012£¬433(1)£º104-115.
£Û7£ÝChen Z£¬Tan J Y£¬Wen Y£¬et al. A game-theoretic model of interactions between Hibiscus latent singapore virus and tobacco mosaic virus£ÛJ£Ý. PLoS One£¬2012£¬7(5)£ºe37007.
£Û8£ÝGarc¨ªa-Cano E£¬Resende R O£¬Fern¨¢ndez-Mu¢‹oz R£¬et al. Synergistic interaction between tomato chlorosis virus and tomato spotted wilt virus results in breakdown of resistance in tomato£ÛJ£Ý. Phytopathology£¬2006£¬96(11)£º1263-1269.
£Û9£ÝWintermantel W M£¬Cortez A A£¬Anchieta A G£¬et al. Co-infection by two criniviruses alters accumulation of each virus in a host-specific manner and influences efficiency of virus transmission£ÛJ£Ý. Phytopathology£¬2008£¬98(12)£º1340-1345.

[10£ÝSalvaudon L£¬de Moraes C M£¬Mescher M C. Outcomes of co-infection by two potyviruses£ºimplications for the evolution of manipulative strategies£ÛJ£Ý. Proceedings of the Royal Society B(Biological Sciences)£¬2013£¬280(1756)£º2012-2959.

[11£ÝWege C£¬Siegmund D. Synergism of a DNA and an RNA virus£ºenhanced tissue infiltration of the begomovirus abutilon mosaic virus (AbMV) mediated by cucumber mosaic virus (CMV)£ÛJ£Ý. Virology£¬2007£¬357(1)£º10-28.

[12£ÝMart¨ªn S£¬Elena S F. Application of game theory to the interaction between plant viruses during mixed infections£ÛJ£Ý. Journal of General Virology£¬2009£¬90(11)£º2815-2820.

[13£ÝTatineni S£¬Riethoven J J M£¬Graybosch R A£¬et al. Dynamics of small RNA profiles of virus and host origin in wheat cultivars synergistically infected by wheat streak mosaic virus and triticum mosaic virus.Virus infection caused a drastic shift in the endogenous small RNA profile£ÛJ£Ý. PLoS One£¬2014£¬9(11)£ºe111577.

[14£ÝPruss G£¬Ge X£¬Shi X M£¬et al. Plant viral synergism£ºthe potyviral genome encodes a broad-range pathogenicity enhancer that transactivates replication of heterologous viruses£ÛJ£Ý. Plant Cell£¬1997£¬9(6)£º859-868.

[15£ÝBance V B. Replication of potato virus X RNA is altered in coinfections with potato virus Y£ÛJ£Ý. Virology£¬1991£¬182(2)£º486-494.

[16£ÝWang J£¬Turina M£¬Medina V£¬et al. Synergistic interaction between the Potyvirus£¬Turnip mosaic virus and the crinivirus£¬lettuce infectious yellows virus in plants and protoplasts£ÛJ£Ý. Virus Research£¬2009£¬144(1/2)£º163-170.

[17£ÝPerera M F£¬Filippone M P£¬Ramallo C J£¬et al. Genetic diversity among viruses associated with sugarcane mosaic disease in Tucum¨¢n£¬Argentina£ÛJ£Ý. Phytopathology£¬2009£¬99(1)£º38-49.

[18£ÝXu D L£¬Park J W£¬Mirkov T E£¬et al. Viruses causing mosaic disease in sugarcane and their genetic diversity in southern China£ÛJ£Ý. Archive of Virology£¬2008£¬153£º1031-1039.

[19£ÝParameswari B£¬Bagyalakshmi K£¬Viswanathan R£¬et al. Molecular characterization of Indian sugarcane streak mosaic virus isolate£ÛJ£Ý. Virus Genes£¬2013£¬46(1)£º186-189.
£Û20£ÝBagyalakshmi K£¬Parameswari B£¬Chinnaraja C£¬et al. Genetic variability and potential recombination events in the HC-Pro gene of sugarcane streak mosaic virus£ÛJ£Ý. Archives of Virology£¬2012£¬157(7)£º1371-1375.
£Û21£ÝHe Z£¬Yasaka R£¬Li W F£¬et al. Genetic structure of populations of sugarcane streak mosaic virus in China£ºcomparison with the populations in India£ÛJ£Ý. Virus Research£¬2016£¬211£º103-116.
£Û22£ÝHe Z£¬Li W F£¬Yasaka R£¬et al. Molecular variability of sugarcane streak mosaic virus in China based on an analysis of the P1 and CP protein coding regions£ÛJ£Ý. Archives of Virology£¬2014£¬159(5)£º1149-1154.
£Û23£ÝºØÕñ£¬ÀîÎķÀîÊÀ·Ã. ÔÆÄÏÕáÇø¸ÊÕáÏßÌõ»¨Ò¶²¡¶¾·ÖÀëÎïNIa»ùÒòÐγÉдأÛJ£Ý. ΢ÉúÎïѧ±¨£¬2016£¬56(11)£º1802-1810.
£Û24£ÝLi W F£¬He Z£¬Li S F£¬et al. Molecular characterization of a new strain of sugarcane streak mosaic virus (SCSMV)£ÛJ£Ý. Archives of Virology£¬2011£¬156£º2101-2104.
£Û25£ÝMiralles R£¬Ferrer R£¬Sol¨¦ R V£¬et al. Multiple infection dynamics has pronounced effects on the fitness of RNA viruses£ÛJ£Ý. Journal of Evolutionary Biology£¬2001£¬14(4)£º654-662.
£Û26£ÝSalda¢‹a J£¬Elena S F£¬Sol¨¦ R V. Coinfection and superinfection in RNA virus populations£ºa selection-mutation model£ÛJ£Ý. Mathematical Biosciences£¬2003£¬183(2)£º135-160.
£Û27£ÝZiebell H£¬Carr J P. Cross-protection£ºa century of mystery£ÛJ£Ý. Advances in Virus Research£¬2010£¬76£º211-264.
£Û28£ÝFolimonova S Y£¬Robertson C J£¬Shilts T£¬et al. Infection with strains of Citrus tristeza virus does not exclude superinfection by other strains of the virus£ÛJ£Ý. Journal of Virology£¬2010£¬84(3)£º1314-1325.
£Û29£ÝSyller J. The roles and mechanisms of helper component proteins encoded by potyviruses and caulimoviruses£ÛJ£Ý. Physiological and Molecular Plant Pathology£¬2005£¬67(3/4/5)£º119-130.
£Û30£ÝSyller J. Molecular and biological features of umbraviruses£¬the unusual plant viruses lacking genetic information for a capsid protein£ÛJ£Ý. Physiological and Molecular Plant Pathology£¬2003£¬63(1)£º35-46.
£Û31£ÝGonz¨¢lez-Jara P£¬Tenllado F£¬Mart¨ªnez-Garc¨ªa B£¬et al. Host-dependent differences during synergistic infection by potyviruses with potato virus X£ÛJ£Ý. Molecular Plant Pathology£¬2004£¬5(1)£º29-35.
£Û32£ÝGonz¨¢lez-Jara P£¬Atencio F A£¬Mart¨ªnez-Garc¨ªa B£¬et al. A single amino acid mutation in the plum pox virus helper component-proteinase gene abolishes both synergistic and RNA silencing suppression activities£ÛJ£Ý. Phytopathology£¬2005£¬95(8)£º894-901.
£Û33£ÝWang M B£¬Metzlaff M. RNA silencing and antiviral defense in plants£ÛJ£Ý. Current Opinion in Plant Biology£¬2005£¬8(2)£º216-222.
£Û34£ÝVoinnet O. Induction and suppression of RNA silencing£ºinsights from viral infections£ÛJ£Ý. Nature Reviews Genetics£¬2005£¬6£º206-220.
£Û35£ÝDing S W. RNA-based antiviral immunity£ÛJ£Ý. Nature Reviews Immunology£¬2010£¬10(9)£º632-644.
£Û36£ÝDing S W£¬Voinnet O. Antiviral immunity directed by small RNAs£ÛJ£Ý. Cell£¬2007£¬130(3)£º413-426.
£Û37£ÝYoung B A£¬Stenger D C£¬Qu F£¬et al. Tritimovirus P1 functions as a suppressor of RNA silencing and an enhancer of disease symptoms£ÛJ£Ý. Virus Research£¬2012£¬163(2)£º672-677.
£Û38£ÝUrcuqui-Inchima S£¬Haenni A L£¬Bernardi F. Potyvirus proteins£ºa wealth of functions£ÛJ£Ý. Virus Research£¬2001£¬74(1/2)£º157-175.
£Û39£ÝKasschau K D£¬Xie Z X£¬Allen E£¬et al. P1/HC-Pro£¬a viral vuppressor of RNA silencing£¬interferes with Arabidopsis development and miRNA function£ÛJ£Ý. Developmental Cell£¬2003£¬4(2)£º205-217.
£Û40£ÝFukuzawa N£¬Itchoda N£¬Ishihara T£¬et al. HC-Pro£¬a potyvirus RNA silencing suppressor£¬cancels cycling of cucumber mosaic virus in Nicotiana benthamiana plants£ÛJ£Ý. Virus Genes£¬2010£¬40(3)£º440-446.
£Û41£ÝBrault V£¬Uzest M£¬Monsion B£¬et al. Aphids as transport devices for plant viruses£ÛJ£Ý. Comptes Rendus Biologies£¬2010£¬333(6/7)£º524-538.
£Û42£ÝManoussopoulos I N. Acquisition and retention of potato virus Y helper component in thetransmission of potato aucuba mosaic virus by aphids£ÛJ£Ý. Journal of Phytopathology£¬2001£¬149(2)£º103-106.
£Û43£ÝXia Z£¬Zhao Z£¬Chen L£¬et al. Synergistic infection of two viruses MCMV and SCMV increases the accumulations of both MCMV and MCMV-derived siRNAs in maize£ÛJ£Ý. Scientific Reports£¬2016£¬6£º20520.
£Û44£ÝNowak M A. Five rules for the evolution of cooperation£ÛJ£Ý. Science£¬2006£¬314(5805)£º1560-1563.
£Û45£ÝNowak M A£¬Sigmund K. Evolutionary dynamics of biological games£ÛJ£Ý. Science£¬2004£¬303(5659)£º793-799.

ÏàËÆÎÄÏ×/References:

[1]ÁõÑÞ,Ðí½¨Ãñ,ÍõÓÀƽ,µÈ.¿É¿ØζÈÓëʱ¼äµÄÖ²Îﲡ¶¾Èȶۻ¯ÏµÍ³[J].½­ËÕÅ©Òµ¿Æѧ,2015,43(01):376.
¡¡Liu Yan,et al.Thermotherapy virus inactivation system for plant with controllable temperature and time[J].Jiangsu Agricultural Sciences,2015,43(21):376.

±¸×¢/Memo

±¸×¢/Memo:

ÊÕ¸åÈÕÆÚ£º2018-07-26
»ù½ðÏîÄ¿£º¹ú¼Ò×ÔÈ»¿Æѧ»ù½ð(±àºÅ£º31601604)£»ÖÐÑë±¾¼¶ÖØ´óÔö¼õÖ§ÏîÄ¿(±àºÅ£º2060302)£»ÔÆÄÏÊ¡¸ÊÕáÒÅ´«¸ÄÁ¼ÖصãʵÑéÊÒ¿ª·Å¿ÎÌâ(±àºÅ£º2018DG018-1)£»Å©ÒµÅ©´å²¿ÈÈ´ø×÷ÎïÉúÎïѧÓëÒÅ´«×ÊÔ´ÀûÓÃÖصãʵÑéÊÒ¿ª·Å¿ÎÌâ(±àºÅ£º1630052019001)¡£
×÷Õß¼ò½é£ººØÕñ(1987¡ª)£¬ÄУ¬É½¶«ÁÙÒÊÈË£¬²©Ê¿£¬¸±½ÌÊÚ£¬Ñо¿·½ÏòΪֲÎﲡ¶¾Ñ§¡£E-mail£ºhezhen@yzu.edu.cn¡£

³£Óù¦ÄÜ

¸üÐÂÈÕÆÚ/Last Update: 2019-11-05