Viruses are a major threat causing massive yield loss and economical damage to crop production worldwide. Through complex evolutionary processes, plants encounter and overcome viral infection by developing effective resistance mechanisms. Over the past decade, remarkable progress has been made in understanding the nature of plant resistance to viruses at the molecular level. This review summarizes the major resistance strategies that plants use to prevent viral infection. Recent investigations suggest that antiviral RNA silencing is the most prevalent defense strategy in plants. Other forms of resistance include R gene-mediated resistance and host factor-related recessive resistance. Naturally occurring resistances arise and are maintained in numerous virus-plant pathosystems based mainly on arms-race relationships and the cost-efficiency of resistance acquisition. In addition to the current status of the known resistance mechanisms, this review discusses the future prospectus for the practical application of plant resistances that influence resistance durability in agricultural ecosystems. Such applications include molecular breeding strategies using advanced molecular marker systems and the utilization of trans- or cis- genetics via the acquisition of engineered disease resistances.

1 Ratcliff F, "similarity between viral defense and gene silencing in plants" 276 : 1558-1560, 1997

2 Gaj T, "ZFN, TALEN, and CRISPR/Cas-based methods for genome engineering" 31 : 397-405, 2013

3 Baulcombe D, "Viruses and gene silencing in plants" 15 : 189-201, 1999

4 Montarry J, "Virus adaptation to quantitative plant resistance: erosion or breakdown?" 25 : 2242-2252, 2012

5 Cook DE, "Understanding plant immunity as a surveillance system to detect invasion" 53 : 541-563, 2015

6 Morroni M, "Twenty years of transgenic plants resistant to Cucumber mosaic virus" 21 : 675-684, 2008

7 Robaglia C, "Translation initiation factors: a weak link in plant RNA virus infection" 11 : 40-45, 2006

8 Kamphuis LG, "Transcriptome sequencing of different narrow-leafed lupin tissue types provides a comprehensive uni-gene assembly and extensive gene-based molecular markers" 13 : 14-25, 2015

9 Vaucheret H, "Transcriptional gene silencing in plants:targets, inducers and regulators" 17 : 29-35, 2001

10 AI-Kaff NS, "Transcriptional and post-transcriptional gene silencing in response to a pathogen" 279 : 2113-2115, 1998

11 Gottula J, "Toward a quarter century of pathogen-derived resistance and practical approaches to plant virusdisease control" 75 : 161-183, 2009

12 Ribeiro SG, "Tomato chlorotic mottle virus is a target of RNA silencing but the presence of specific short interfering RNAs does not guarantee resistance in transgenic plants" 81 : 1563-1573, 2007

13 Kang BC, "The pvr1 locus in Capsicum encodes a translation initiation factor eIF4E that interacts with Tobacco etch virus VPg" 42 : 392-405, 2005

14 Whitham S, "The product of the Tobacco mosaic virus resistance gene N: similarity to toll and the interleukin-1 receptor" 78 : 1101-1115, 1994

15 Gao Z, "The potyvirus recessive resistance gene, sbm1, identifies a novel role for translation initiation factor eIF4E in cell-to-cell trafficking" 40 : 376-385, 2004

16 Jones JD, "The plant immune system" 444 : 323-329, 2006

17 Fraser RSS, "The genetics of resistance to plant viruses" 28 : 179-200, 1990

18 Fraser RSS, "The genetics of plantvirus interactions: implications for plant breeding" 63 : 175-185, 1992

19 Nicaise V, "The eukaryotic translation initiation factor 4E controls lettuce susceptibility to the Potyvirus Lettuce mosaic virus" 132 : 1272-1282, 2003

20 Stein N, "The eukaryotic translation initiation factor 4E confers multiallelic recessive bymovirus resistance in Hordeum vulgare (L.)" 42 : 912-922, 2005

21 Zhao JH, "The dual edge of RNA silencing suppressors in the virus-host interactions" 17 : 39-44, 2016

22 Rairdan GJ, "The coiled-coil and nucleotide binding domains of the Potato Rx disease resistance protein function in pathogen recognition and signaling" 20 : 739-751, 2008

23 Büschges R, "The barley Mlo gene: a novel control element of plant pathogen resistance" 88 : 695-705, 1997

24 Yoshii M, "The Arabidopsis cucumovirus multiplication 1 and 2 loci encode translation initiation factors 4E and 4G" 78 : 6102-6111, 2004

25 Brommonschenkel SH, "Tanksley SD(2000)The broad-spectrum tospovirus resistance gene Sw-5 of tomato is a homolog of the root-knot nematode resistance gene Mi" 13 : 1130-1138, 2000

26 Vlot AC, "Systemic acquired resistance:the elusive signal(s)" 11 : 436-442, 2008

27 Schaad MC, "Strain-specific interaction of the Tobacco etch virus NIa protein with the translation initiation factor eIF4E in the yeast two-hybrid system" 273 : 300-306, 2000

28 Brotman Y, "Stovbun N(2013)Dual resistance of melon to Fusarium oxysporum races 0 and 2 and to Papaya ring spot virus is controlled by a pair of head-to-head-oriented NB-LRR genes of unusual architecture" 6 : 235-238, 2013

29 Gao Y, "Specific and heritable gene editing in Arabidopsis" 111 : 4357-4358, 2014

30 Maule AJ, "Sources of natural resistance to plant viruses: status and prospects" 8 : 223-231, 2007

31 Molnar A, "Small silencing RNAs in plants are mobile and direct epigenetic modification in recipient cells" 328 : 872-875, 2010

32 Ruffel S, "Simultaneous mutations in translation initiation factors eIF4E and eIF(iso)4E are required to prevent Pepper veinal mottle virus infection of pepper" 87 : 2089-2098, 2006

33 Carrington JC, "Role of microRNAs in plant and animal development" 301 : 336-338, 2003

34 Hammond-Kosack KE, "Resistance gene-dependent plant defense responses" 8 : 1773-1791, 1996

35 Hayes AJ, "Recombination within a nucleotide-binding-site/leucine-rich-repeat gene cluster produces new variants conditioning resistance to Soybean mosaic virus in soybeans" 166 : 493-503, 2004

36 Truniger V, "Recessive resistance to plant viruses" 75 : 119-159, 2009

37 Iyer-Pascuzzi AS, "Recessive resistance genes and the Oryza sativa-Xanthomonas oryzae pv. oryzae pathosystem" 20 : 731-739, 2007

38 Cosson P, "RTM3, which controls long-distance movement of potyviruses, is a member of a new plant gene family encoding a meprin and TRAF homology domain-containing protein" 154 : 222-232, 2010

39 Marathe R, "RNA viruses as inducers, suppressors and targets of post-transcriptional gene silencing" 43 : 295-306, 2000

40 Pumplin N, "RNA silencing suppression by plant pathogens: defence, counter-defence and counter-counter-defence" 11 : 745-760, 2013

41 Voinnet O, "RNA silencing as a plant immune system against viruses" 17 : 449-459, 2001

42 Incarbone M, "RNA silencing and its suppression:novel insights from in planta analyses" 18 : 382-392, 2013

43 Takahashi H, "RCY1, an Arabidopsis thaliana RPP8/HRT family resistance gene, conferring resistance to Cucumber mosaic virus requires salicylic acid, ethylene and a novel signal transduction mechanism" 32 : 655-667, 2002

44 Richardson KL, "Pyramiding and dissecting disease resistance QTL to barley stripe rust" 113 : 485-495, 2006

45 Tena G, "Protein kinase signaling networks in plant innate immunity" 14 : 519-529, 2011

46 Naderpour M, "Potyviral resistance derived from cultivars of Phaseolus vulgaris carrying bc-3 is associated with the homozygotic presence of a mutated eIF4E allele" 11 : 255-263, 2010

47 Vidal S, "Potato gene Y-1 is an N gene homolog that confers cell death upon infection with Potato virus Y" 15 : 717-727, 2002

48 Depicker A, "Post-transcriptional gene silencing in plants" 9 : 373-382, 1997

49 Hammond SM, "Post-transcriptional gene silencing by double-stranded RNA" 2 : 110-119, 2001

50 Cavatorta JR, "Positive Darwinian selection at single amino acid sites conferring plant virus resistance" 67 : 551-559, 2008

51 Covey SN, "Plants combat infection by gene silencing" 85 : 780-781, 1997

52 Sanfaçon H, "Plant translation factors and virus resistance" 7 : 3392-3419, 2015

53 Dangl JL, "Plant pathogens and integrated defense responses to infection" 411 : 826-833, 2001

54 Ling KS, "Non-synonymous single nucleotide polymorphisms in the watermelon eIF4E gene are closely associated with resistance to Zucchini yellow mosaic virus" 120 : 191-200, 2009

55 Collier SM, "NB-LRRs work a “bait and switch”on pathogens" 14 : 521-529, 2009

56 Foolad MR, "Molecular markers as selection tools in tomato breeding" 695 : 225-240, 2005

57 이제민, "Molecular Markers for Selecting Diverse Disease Resistances in Tomato Breeding Programs" 한국육종학회 3 (3): 308-322, 2015

58 Miedaner T, "Marker-assisted selection for disease resistance in wheat and barley breeding" 102 : 560-566, 2012

59 Martin GB, "Map-based cloning of a protein kinase gene conferring disease resistance in tomato" 262 : 1432-1436, 1993

60 Eleazar Rodriguez, "Making sense of plant autoimmunity and ‘negative regulators’" Wiley-Blackwell 283 (283): 1385-1391, 2016

61 Lellis AD, "Loss-of-susceptibility mutants of Arabidopsis thaliana reveal an essential role for eIF(iso)4E during potyvirus infection" 12 : 1046-1051, 2002

62 Holmes FO, "Local lesions in tobacco mosaic" 87 : 39-55, 1929

63 Yamaji Y, "Lectin-mediated resistance impairs plant virus infection at the cellular level" 24 : 778-793, 2012

64 Butterbach P, "Kormelink R(2014)Tomato yellow leaf curl virus resistance by Ty-1 involves increased cytosine methylation of viral genomes and is compromised by Cucumber mosaic virus infection" 111 : 12942-12947, 2014

65 Maiti S, "Isolation, characterization, and structure analysis of a non-TIR-NBS-LRR encoding candidate gene from MYMIV-resistant Vigna mungo" 52 : 217-233, 2012

66 Nakahara KS, "Interaction between viral RNA silencing suppressors and host factors in plant immunity" 20 : 88-95, 2014

67 Thomashow MF, "Integration and organization of Ti plasmid sequences in crown gall tumors" 19 : 729-739, 1980

68 Tang X, "Initiation of plant disease resistance by physical interaction of AvrPto and Pto kinase" 274 : 2060-2063, 1996

69 Padgett HS, "Identification of the TMV replicase sequence that activates the N gene-mediated hypersensitive response" 10 : 709-715, 1997

70 Jin M, "Identification and mapping of a novel dominant resistance gene, TuRB07 to Turnip mosaic virus in Brassica rapa" 127 : 509-519, 2014

71 Michael J. Thomson, "High-Throughput SNP Genotyping to Accelerate Crop Improvement" 한국육종학회 2 (2): 195-212, 2014

72 Lochlainn SO, "High Resolution Melt (HRM) analysis is an efficient tool to genotype EMS mutants in complex crop genomes" 7 : 43-, 2011

73 Burgyán J, "Havelda Z(2011)Viral suppressors of RNA silencing" 16 : 265-272, 2011

74 Ren T, "HRT gene function requires interaction between a NAC protein and viral capsid protein to confer resistance to turnip crinkle virus" 12 : 1917-1926, 2000

75 Meyers BC, "Genome-wide analysis of NBS-LRR-encoding genes in Arabidopsis" 13 : 809-834, 2003

76 Kang BC, "Genetics of plant virus resistance" 43 : 581-621, 2005

77 Dasgupta I, "Genetic engineering for virus resistance" 84 : 341-354, 2003

78 Tomita R, "Genetic basis for the hierarchical interaction between Tobamovirus spp. and L resistance gene alleles from different pepper species" 24 : 108-117, 2011

79 Vallejos CE, "Genetic and molecular characterization of the I locus of Phaseolus vulgaris" 172 : 1229-1242, 2006

80 Grishok A, "Genes and mechanisms related to RNA interference regulate expression of the small temporal RNAs that control C. elegans developmental timing" 106 : 23-34, 2001

81 Keen NT, "Gene-for-gene complementarity in plant-pathogen interactions" 24 : 447-463, 1990

82 Jung J, "Gene-based molecular marker system for multiple disease resistances in tomato against Tomato yellow leaf curl virus, late blight, and verticillium wilt" 205 : 599-613, 2015

83 Smyth DR, "Gene silencing: plants and viruses fight it out" 9 : R100-102, 1999

84 Kage U, "Functional molecular markers for crop improvement" 16 : 1-14, 2015

85 Yeam I, "Functional dissection of naturally occurring amino acid substitutions in eIF4E that confers recessive potyvirus resistance in plants" 19 : 2913-2928, 2007

86 Van der Hoorn RA, "From guard to decoy: a new model for perception of plant pathogen effectors" 20 : 2009-2017, 2008

87 Salgotra RK, "From genomics to functional markers in the era of next-generation sequencing" 36 : 417-426, 2014

88 Niu QW, "Expression of artificial microRNAs in transgenic Arabidopsis thaliana confers virus resistance" 24 : 1420-1428, 2006

89 Cavatorta J, "Engineering virus resistance using a modified potato gene" 9 : 1014-1021, 2011

90 Galvez LC, "Engineered plant virus resistance" 228 : 11-25, 2014

91 Kang BC, "Ectopic expression of a recessive resistance gene generates dominant potyvirus resistance in plants" 5 : 526-536, 2007

92 Rathjen JP, "Early signal transduction events in specific plant disease resistance" 6 : 300-306, 2003

93 Mundt CC, "Durable resistance: a key to sustainable management of pathogens and pests" 27 : 446-455, 2014

94 Brown JK, "Durable resistance of crops to disease: a Darwinian perspective" 53 : 513-539, 2015

95 Ueda H, "Direct interaction between the Tobacco mosaic virus helicase domain and the ATP-bound resistance protein, N factor during the hypersensitive response in tobacco plants" 61 : 31-45, 2006

96 Jones E, "Development of single nucleotide polymorphism (SNP) markers for use in commercial maize (Zea mays L.) germplasm" 24 : 165-176, 2009

97 Abel PP, "Delay of disease development in transgenic plants that express the Tobacco mosaic virus coat protein gene" 232 : 738-743, 1986

98 Dangl JL, "Death don't have no mercy: Cell death programs in plant-microbe interactions" 8 : 1793-1807, 1996

99 Richberg MH, "Dead cells do tell tales" 1 : 480-485, 1998

100 Flor HH, "Current status of the gene-for-gene concept" 9 : 275-296, 1971

101 Nicaise V, "Crop immunity against viruses: outcomes and future challenges" 5 : 660-, 2014

102 Bendahmane A, "Constitutive gain-of-function mutants in a nucleotide binding site-leucine rich repeat protein encoded at the Rx locus of potato" 32 : 195-204, 2002

103 Chisholm ST, "Cloning of the Arabidopsis RTM1 gene, which controls restriction of long-distance movement of tobacco etch virus" 97 : 489-494, 2000

104 Lanfermeijer FC, "Cloning and characterization of the durable Tomato mosaic virus resistance gene Tm-2(2) from Lycopersicon esculentum" 52 : 1037-1049, 2003

105 Ma JF, "Cloning and characterization of the BcTuR3 gene related to resistance to Turnip mosaic virus (TuMV) from non-heading chinese cabbage" 28 : 588-596, 2010

106 Carrington JC, "Cell-to-cell and long-distance transport of viruses in plants" 8 : 1669-1681, 1996

107 Ruffel S, "Caranta C(2005)The recessive potyvirus resistance gene pot-1 is the tomato orthologue of the pepper pvr2-eIF4E gene" 274 : 346-353, 2005

108 Prins M, "Broad virus resistance in transgenic plants" 21 : 373-375, 2003

109 Ilardi V, "Biotechnological strategies and tools for Plum pox virus resistance: trans-, intra-, cis-genesis, and beyond" 6 : 379-, 2015

110 Boualem A, "Bendahmane A(2016)The battle for survival between viruses and their host plants" 17 : 32-38, 2016

111 Bendahmane A, "Baulcombe DC(1995)The coat protein of Potato virus X is a strain-specific elicitor of Rx1-mediated virus resistance in potato" 8 : 933-941, 1995

112 Nishimura MT, "Arabidopsis and the plant immune system" 61 : 1053-1066, 2010

113 Whitham SA, "Arabidopsis RTM2 gene is necessary for specific restriction of Tobacco etch virus and encodes an unusual small heat shock-like protein" 12 : 569-582, 2000

114 Ding SW, "Antiviral immunity directed by small RNAs" 130 : 413-426, 2007

115 Ishibashi K, "An inhibitor of viral RNA replication is encoded by a plant resistance gene" 104 : 13833-13838, 2007

116 Nieto C, "An eIF4E allele confers resistance to an uncapped and nonpolyadenylated RNA virus in melon" 48 : 452-462, 2006

117 Yang KY, "Activation of a mitogen-activated protein kinase pathway is involved in disease resistan in tobacco" 98 : 741-746, 2001

118 Seo YS, "A viral resistance gene from common bean functions across plant families and is up-regulated in a non-virus-specific man" 103 : 11856-11861, 2006

119 Orjuela J, "A recessive resistance to Rice yellow mottle virus is associated with a rice homolog of the CPR5 gene, a regulator of active defense mechanisms" 26 : 1455-6143, 2013

120 Lapidot M, "A novel route controlling begomovirus resistance by the messenger RNA surveillance factor Pelota" 11 : e1005538-, 2015

121 Ruffel S, "A natural recessive resistance gene against Potato virus Y in pepper corresponds to the eukaryotic initiation factor 4E (eIF4E)" 32 : 1067-1075, 2002

122 Wicker T, "A detailed look at 7 million years of genome evolution in a 439 kb contiguous sequence at the barley Hv-eIF4E locus: recombination, rearrangements and repeats" 41 : 184-194, 2005

123 Kasschau KD, "A counter defensive strategy of plant viruses: suppression of posttranscriptional gene silencing" 95 : 461-470, 1998