Jump straight to content - Accessibility Information and Accesskeys.

Results from the ResistVir database
Genetic resistances to plant viruses and their vectors

List of the genetic resistances studied by ResistVir members and recorded in the Resistvir database on 2009-04-14

Display format: with this format it could be impossible to print all records. You should prefer the print format if you want to print this page.

This table contains data extracted from the ResistVir database and has been built with a specific program.

Each row corresponds with a genetic resistance studied by one member of the ResistVir Consortium. This list is sorted by host plant, resistance name, country, town and name of the research group.

If you prefer to look at these data with your favorite spreadsheet tool, you can upload the corresponding csv file. Use the Unicode encoding for OpenOffice tools or cp1252 encoding for Microsoft ® Excel ©. In both files the field separator is ; and the string delimiter is ".


Arabidopsis thaliana   Beta vulgaris   Capsicum annuum   Citrus   Cucumis melo   Cucumis sativus   Cucurbita pepo   Hordeum vulgare   Lactuca sativa   Lycopersicon esculentum   Nicotiana benthamiana   Nicotiana tabacum   Pisum sativum   Prunus   Prunus armeniaca   Prunus persica   Ribes   Solanum tuberosum   Vitis vinifera  

Genetic Resistances studied - 2009-04-14
No Host plant             Resistance name             Group                                     Viruses Vectors Study period Description             Origin of resistance             Mechanism             Availability for plant breeders Durability              Genetic determinism Genes or QTL controlling the resistance Cloned gene Nature of the involved gene or protein QTL or genes names Chromosomal location Alleles                             Accessions
1 Arabidopsis thaliana RLM - Arabidopsis thaliana Interactions Plante/Virus - UMR GDPP - Centre INRA Bordeaux-Aquitaine - INRA (Villenave d'Ornon - France) Lettuce mosaic virus 2002 - 2007 Screening of several accessions of Arabidopsis with three isolates of LMV allowed the identification of a resistance targetting all LMV isolates tested ecotype Cvi-1 In Cvi-1, LMV is able to multiply in inoculated leaves but unable to move systemically in plant no Unknown monogenic dominant one gene involved no RLM1 Chromosome 1
2 Arabidopsis thaliana RTM - Arabidopsis thaliana Interactions Plante/Virus - UMR GDPP - Centre INRA Bordeaux-Aquitaine - INRA (Villenave d'Ornon - France) Lettuce mosaic virus
Plum pox virus
2004 - 2007 The RTM resistance was described in A. thaliana first with TEV after a screen of a mutant library Arabidopsis thaliana, ecotype Columbia The RTM resistance restricts the long distance transport of potyvirus, probably blocking the loading of virus in phloem No Unknown polygenic dominant at least three genes involved. Two of them are cloned (RTM1 and RTM2) yes A jacalin-like protein (RTM1), a small heat-shock protein (RTM2) RTM1
RTM2
RTM3
Chromosome 1
Chromosome 5
Chromosome 3
Several resistant and susceptible alleles were identified for RTM1 and RTM2 in different Arabidopsis ecotypes

AF191302
AF208051
3 Beta vulgaris subsp. vulgaris Resistance to BNYVV UCL-FYMY Unité de Phytopathologie - UCL-AGRO - UCL (Louvain-la-Neuve - Belgium) Beet necrotic yellow vein virus Polymyxa betae January 2005 - December 2011 Unknown no
4 Capsicum annuum Polygenic resistance to PVY and PVMV Unité de Pathologie Végétale - SPE - INRA (Montfavet - France) Pepper veinal mottle virus
Potato virus Y
2006 and before Capsicum annuum cv. Perennial yes Durable without known breaking strains polygenic no
5 Capsicum annuum pvr2 - pepper Caractérisation fonctionnelle des interactions plantes-bioagresseurs - GAFL - GAP - INRA (Montfavet - France) Potato virus Y
Tobacco etch virus
1997 and after Capsicum annuum cv. Yolo Y (allele pvr2-1) and Florida VR2 (allele pvr2-2) yes Durable with known breaking strains Monogenic yes translation initiation factor eIF4E pvr2 pepper chromosome 4 numerous alleles with diverse resistance mechanism and resistance spectrum against potyviruses AY122052
AF521963
AF521964
AF521965
6 Capsicum annuum pvr2 - pepper Unité de Pathologie Végétale - SPE - INRA (Montfavet - France) Potato virus Y
Tobacco etch virus
2006 and before Capsicum annuum cv. Yolo Y (allele pvr2-1) and Florida VR2 (allele pvr2-2) yes Durable with known breaking strains Monogenic yes translation initiation factor eIF4E pvr2 pepper chr 4 numerous alleles with diverse resistance mechanism and resistance spectrum against potyviruses AY122052
AF521963
AF521964
AF521965
7 Capsicum annuum Pvr4 - pepper Caractérisation fonctionnelle des interactions plantes-bioagresseurs - GAFL - GAP - INRA (Montfavet - France) Pepper mottle virus
Potato virus Y
Aphididae 1997 and after Capsicum annuum Criollo de Morelos 334 yes Unknown one dominant gene no
8 Capsicum annuum Pvr4 - pepper Unité de Pathologie Végétale - SPE - INRA (Montfavet - France) Pepper mottle virus
Pepper severe mosaic virus
Pepper yellow mosaic virus
Potato virus Y
2006 and before Capsicum annuum cv. Criollo de Morelos 334 yes Durable without known breaking strains Monogenic no Pvr4 pepper chr 10
9 Capsicum annuum pvr6 - pepper Caractérisation fonctionnelle des interactions plantes-bioagresseurs - GAFL - GAP - INRA (Montfavet - France) Pepper veinal mottle virus 2006 and before Capsicum annuum cv. Perennial yes Unknown Digenic : controls PVMV resistance only when combined with some resistance alleles at the pvr2 locus 2 yes Translation initiation factor eIF(iso)4E pvr6 pepper chromosome 3 a single resistance allele DQ022080
DQ022081
DQ022082
DQ022083
DQ022084
10 Capsicum annuum pvr6 - pepper Unité de Pathologie Végétale - SPE - INRA (Montfavet - France) Pepper veinal mottle virus 2006 and before Capsicum annuum cv. Perennial yes Unknown Digenic : controls PVMV resistance only when combined with some resistance alleles at the pvr2 locus 2 yes Translation initiation factor eIF(iso)4E pvr6 pepper chr 3 a single resistance allele DQ022080
DQ022081
DQ022082
DQ022083
DQ022084
11 Capsicum annuum QTL for CMV resistance in pepper Caractérisation fonctionnelle des interactions plantes-bioagresseurs - GAFL - GAP - INRA (Montfavet - France) Cucumber mosaic virus Aphididae 2006 and before Capsicum annuum Vania ; Capsicum annuum Perennial yes Unknown polygenic one major QTL and several minor ones no
12 Citrus CTV resistance Plant Protection Section - ARICY (Nicosia - Cyprus) Citrus tristeza virus Aphididae 1992 and after Unknown no
13 Cucumis melo cab-1 and cab-2 - muskmelon Caractérisation fonctionnelle des interactions plantes-bioagresseurs - GAFL - GAP - INRA (Montfavet - France) Cucurbit aphid-borne yellows virus Aphididae 1994 and after aphids in a persistent manner Cucumis melo PI 414723 (India), PI 124112 (India) complete resistance yes Unknown Two complementary recessive genes: cab-1 and cab-2 no cab-1
cab-2
14 Cucumis melo Cys - muskmelon Grupo de Patología Vegetal - Departamento de Biología del Estrés y Patología Vegetal - CEBAS - CSIC (Murcia - Spain) Cucurbit yellow stunting disorder virus Bemisia tabaci 2000 - 2004 Accession no. TGR-1551 Tolerance Unknown Monogenic dominant no
15 Cucumis melo nsv - muskmelon Caractérisation fonctionnelle des interactions plantes-bioagresseurs - GAFL - GAP - INRA (Montfavet - France) Melon necrotic spot virus Olpidium bornovanus 2000 and after Cm-eIF4E accessions:
PI 161375 : DQ393830 (resistant)
Védrantais: DQ393831
Cucumis melo PI 161375 (Korea) immunity yes Durable with known breaking strains monogenic yes Translation initiation factor eIF4E nsv a single resistance allele DQ393830
DQ393831
16 Cucumis melo nsv - muskmelon Grupo de Patología Vegetal - Departamento de Biología del Estrés y Patología Vegetal - CEBAS - CSIC (Murcia - Spain) Melon necrotic spot virus Olpidium bornovanus 2000 and after Cultivars PI 161375 and "Gulfstream" Recessive yes Durable with known breaking strains Monogenic yes Cm-eIF4E
17 Cucumis melo Prv - muskmelon Caractérisation fonctionnelle des interactions plantes-bioagresseurs - GAFL - GAP - INRA (Montfavet - France) Papaya ringspot virus Aphididae 2000 and after Cucumis melo PI 414723 (India), PI 124112 (India) hypersensitivity yes Unknown monogenic no Prv Cucumis melo linkage group IX Several alleles presenting various level of necrotic response towards different strains
18 Cucumis melo QTL for CMV resistance in melon Caractérisation fonctionnelle des interactions plantes-bioagresseurs - GAFL - GAP - INRA (Montfavet - France) Cucumber mosaic virus Aphididae 1997 and after Cucumis melo PI 161375 (Korea) yes Unknown polygenic One major QTL and several minor ones no major QTL The major QTL is located on linkage group XII
19 Cucumis melo Vat - muskmelon Caractérisation fonctionnelle des interactions plantes-bioagresseurs - GAFL - GAP - INRA (Montfavet - France) Cucumber mosaic virus
Potyvirus
Aphis gossypii 1997 and after Cucumis melo PI 161375 (Korea) Resistance to Aphis gossypii and to transmission of non-persistent viruses yes Durable with known breaking strains Monogenic yes CC-NBS-LRR Vat melon linkage group V
20 Cucumis sativus Resistance to CMV ARO Department of Plant Pathology - Institute of Plant Protection - ARO (Bet Dagan - Israel) Cucumber mosaic virus 2004 - 2006 We were interested in the resistance to CMV and the breaking of this resistance by mixed infection with ZYMV or WMV and CMV Suppression of silencing Durable with known breaking strains not known 3 probably no not known
21 Cucurbita pepo Resistance to ZYMV - squash Unité de Pathologie Végétale - SPE - INRA (Montfavet - France) Zucchini yellow mosaic virus Aphididae 1995 - 2010 Almost complete resistance in C. moschata; partial (reduced symptoms but high virus accumulation) in C. pepo. Overcome by a point mutation in the P3 protein of ZYMV Cucurbita moschata (squash) Frequently used by breeders Not durable no Zym
22 Hordeum vulgare HvMsv-1 - barley John Innes Centre - BBSRC (Norwich - United Kingdom) Maize streak virus 2002 - 2006 Resistance located on the short arm of chromosome 6
Comparative mapping suggest this gene is not the same as msv-1 from maize
Hordeum vulgare
unknown geographical region
Dominant resistance immunity no Unknown Dominant one no unknown HvMsv-1 barley chr 6 short arm unknown
23 Hordeum vulgare Yd2 - barley Oddělení virologie - Odbor rostlinolékařství - RICP (Prague - Czech Republic) Barley yellow dwarf virus - PAV 1992 and after Hordeum vulgare, cv. ´Brea´S´/Ben´, breeding line ´Giza´121/Pue yes Unknown Monogenic, co-dominant no
24 Lactuca sativa mo1 - lettuce Interactions Plante/Virus - UMR GDPP - Centre INRA Bordeaux-Aquitaine - INRA (Villenave d'Ornon - France) Lettuce mosaic virus 2000 - 2003 the recessive mo11 and mo12 alleles at the mo1 locus are associated with reduced accumulation and lack of symptoms (tolerance) or absence of accumulation (resistance) of common isolates of LMV in Lactuca sativa. Lactuca sativa The mo1 resistance gene encodes the translation initiation factor eIF4E involved in the viral cycle (probably for the translation of viral RNA). yes Durable with known breaking strains monogenic recessive yes translation initiation factor eIF4E mo1 The mo11 and mo12 alleles are the identified resistance alleles of the mo1 gene. AF530162
25 Lycopersicon esculentum Am - tomato Caractérisation fonctionnelle des interactions plantes-bioagresseurs - GAFL - GAP - INRA (Montfavet - France) Alstroemeria mosaic virus 2000 - 2004 Lycopersicon hirsutum (Solanum habrochaites) PI134414 complete resistance yes Unknown one dominant gene no Am tomato chromosome 6
26 Lycopersicon esculentum pot-1 - tomato Caractérisation fonctionnelle des interactions plantes-bioagresseurs - GAFL - GAP - INRA (Montfavet - France) Potato virus Y 2006 and before Solanum habrochaites Solanum habrochaites PI 247087 yes Unknown monogenic yes Translation initiation factor eIF4E pot-1 tomato chromosome 3 a single resistance allele AY723733
AY723735
AY723736
27 Lycopersicon esculentum pot-1 - tomato Unité de Pathologie Végétale - SPE - INRA (Montfavet - France) Potato virus Y 2006 and before Solanum habrochaites PI 247087 yes Unknown monogenic yes Translation initiation factor eIF4E pot-1 tomato chr 3 a single resistance allele AY723733
AY723735
AY723736
28 Lycopersicon esculentum Sw5 - tomato Dipartimento Protezione delle Piante e Microbiologia Applicata - UNIBA (Bari - Italy) Tomato spotted wilt virus Thripidae 2004 and after Sw5 - Resistance to TSWV in tomato
Ciuffo et al., 2005. Plant Pathology 54 (4), 564-564.
Solanum peruvianum Study on Sw-5 resistance breaking strains of TSWV in Italy yes Unknown no
29 Lycopersicon esculentum Sw5 - tomato WU Laboratory of Virology - WU Department of Plant Sciences - Wageningen Universiteit - Wageningen UR (Wageningen - Netherlands) Groundnut ringspot virus
Tomato chlorotic spot virus
Tomato spotted wilt virus
Wheat streak mosaic virus
Frankliniella occidentalis 01/1997 - 12/2007 High durability yet breaking isolates have been found. HR yes Durable with known breaking strains yes CC_NBS_LRR Sw5 tomato chr 9
30 Lycopersicon esculentum tolerance to CMV/satRNA-induced necrosis and stunting Dipartimento Protezione delle Piante e Microbiologia Applicata - UNIBA (Bari - Italy) Cucumber mosaic virus 2002 and after Solanum chilense Latent infection and Down-regulation of viral replication in the presence of satRNA no Unknown no
31 Lycopersicon esculentum transgenic satRNA mediated tolerance to necrogenic strains of CMV/satRNA Dipartimento Protezione delle Piante e Microbiologia Applicata - UNIBA (Bari - Italy) Cucumber mosaic virus 1995 - 2003 Cillo et al., 2004. MPMI 17: 98-108 pathogen-derived transgenic resistance Latent infection and Down-regulation of viral replication upon amplification of transgenic satRNA, satRNA-induced RNA silencing of exogenous satRNAs Unknown no
32 Lycopersicon esculentum TYLCV resistance Plant Protection Section - ARICY (Nicosia - Cyprus) Tomato yellow leaf curl virus Bemisia tabaci 1990 - 2000 Lycopersicon pimpinellifolium
Lycopersicon chilense
Lycopersicon peruvianum
Unknown no
33 Nicotiana benthamiana Pathogen derived resistance to PPV Pflanzenbiotechnologie Unit IAM - IAM-BOKU - BOKU University (Vienna - Austria) Plum pox virus 1990 - 2005 viral genome PTGS (post-transcriptional gene silencing) Unknown no
34 Nicotiana benthamiana Pathogen derived resistance to Vitis vinifera viruses Pflanzenbiotechnologie Unit IAM - IAM-BOKU - BOKU University (Vienna - Austria) Arabis mosaic virus
Grapevine fanleaf virus
Grapevine virus A
Grapevine virus B
1995 - 2005 viral genome PTGS (post-transcriptional gene silencing) Unknown no
35 Nicotiana tabacum CMV RNAi UOC Plant Molecular Biology Laboratory - UOC Department of Biology - UOC (Heraklion - Greece) Cucumber mosaic virus 2000 and after Transgenic resistance based on RNAi
Durable after 8th generation
Sequence accessions upon request
RNAi contact UOC and IMBB Unknown 1-4 yes virus derived
36 Nicotiana tabacum PVY RNAi UOC Plant Molecular Biology Laboratory - UOC Department of Biology - UOC (Heraklion - Greece) Potato virus Y 1997 and after Transgenic resistance through expression of dsRNA of the virus
Durable after 3rd generation
RNAi contact IMBB and UOC Unknown 1-4 yes virus derived
37 Pisum sativum sbm-1 - Pisum sativum John Innes Centre - BBSRC (Norwich - United Kingdom) Pea seed-borne mosaic virus Myzus persicae 1996 - 2009 One of two PSbMV resistances located on chromosome 6 (sbm-1 & -4) and 2 (sbm-2). Ethiopia? Recessive resistance based upon the need for eIF4E to support virus infection yes Unknown recessive One yes translation initiation factor eIF4E Pisum sativum chr 6 Different alleles with differing virus specificity are known- Gao et al (2004) Plant J 40:376-385. AY611423
AY423375
AY611425
38 Prunus Pathogen derived resistance to PPV Pflanzenbiotechnologie Unit IAM - IAM-BOKU - BOKU University (Vienna - Austria) Plum pox virus 1990 - 2005 viral genome PTGS (post-transcriptional gene silencing) Unknown no
39 Prunus armeniaca PPVres1 - apricot Oddělení virologie - Odbor rostlinolékařství - RICP (Prague - Czech Republic) Plum pox virus 1991 and after Prunus armeniaca, cv. 'Stark Early Orange' yes Unknown Oligogenic no
40 Prunus persica Rm1 - peach Caractérisation fonctionnelle des interactions plantes-bioagresseurs - GAFL - GAP - INRA (Montfavet - France) Plum pox virus Myzus persicae 2002 and after antixenosis yes Durable without known breaking strains Monogenic no Rm1 under investigation
41 Prunus persica Rm2 - peach Caractérisation fonctionnelle des interactions plantes-bioagresseurs - GAFL - GAP - INRA (Montfavet - France) Plum pox virus Myzus persicae 2002 and after antixenosis yes Durable with known breaking strains Monogenic no Rm2 under investigation
42 Ribes BRV resistance Oddeleni Virologie - UMBR - Biologické centrum Akademie ved CR (Ceske Budejovice - Czech Republic) Blackcurrant reversion virus 2000 - 2008 Different resistances of cultivars after graft transmission of the virus
Vector: Cecidiophis ribis
Unknown no
43 Solanum tuberosum Extreme resistance to potato virus Y Kasvipatologian laboratorio - Soveltavan biologian laitos - UH (Helsinki - Finland) Potato virus Y 01/1994  and after gene-for-gene resistance Unknown no
44 Solanum tuberosum Extreme resistance to Potato virus Y (PVY) from Ry-fsto Instytut Hodowli i Aklimatyzacji Roślin, Oddział Młochów - IHAR (Młochów - Poland) Potato virus Y 2004 - 2008 A novel locus for extreme resistance to Potato virus Y (PVY), Ry-f>sto was identified on potato chromosome XII. Bulked segregant analysis identified an ISSR marker UBC857980 linked to Ry-fsto. This marker mapped to linkage group XII of a reference potato RFLP map. CAPS marker GP122718 converted from chromosome XII specific RFLP markers was tightly linked to the resistance gene. Solanum stoloniferum Unknown a single dominant gene no Ry-fsto Chromosome XII
45 Solanum tuberosum Resistance to Potato leafroll virus from PLRV.4 Instytut Hodowli i Aklimatyzacji Roślin, Oddział Młochów - IHAR (Młochów - Poland) Potato leaf roll virus 2004 - 2007 A novel locus for potato resistance to potato leafroll virus (PLRV) was characterized by inheritance studies and molecular mapping. The PLRV.4 locus was mapped to a central position on linkage group XI of the potato molecular map, where no resistance locus has been mapped previously. The inheritance of resistance to PLRV accumulation may be explained by a model of two complementary alleles of a single gene (PLRV.4) or by two complementary genes that are closely linked in repulsion phase. Unknown A model of two complementary alleles or a single gene (PLRV.4) no PLRV.4 Chromosome XI
46 Solanum tuberosum Resistance to Potato leafroll virus from QTL Instytut Hodowli i Aklimatyzacji Roślin, Oddział Młochów - IHAR (Młochów - Poland) Potato leaf roll virus 1998 and after Quantitative trait locus (QTL) analysis of resistance to potato leafroll virus accumulation revealed one major and two minor QTL. Resistance to PLRV is controlled by genetics factors that limit plant infection by viruliferous aphids or virus multiplication and accumulation. Unknown no a major QTL PLRV.1 and two minor QTL PLRV.1 on chromosome XI; the two minor QTL mapped to chromosome V and VI.
47 Solanum tuberosum Resistance to Potato virus M from Gm Instytut Hodowli i Aklimatyzacji Roślin, Oddział Młochów - IHAR (Młochów - Poland) Potato virus M 1998 and after Two new loci for resistance to potato virus M, Gm and Rm, have been mapped in potato. Gm was mapped to a central region on potato chromosome IX. Solanum gourlayi Gm confers resistance to PVM infection after mechanical inoculation. Unknown no Gm Chromosome IX
48 Solanum tuberosum Resistance to Potato virus M from Rm Instytut Hodowli i Aklimatyzacji Roślin, Oddział Młochów - IHAR (Młochów - Poland) Potato virus M 1998 and after Two new loci for resistance to potato virus M, Gm and Rm, have been mapped in potato. Rm was mapped to the short arm of chromosome XI, close to the marker loci GP250 and GP283, where a hotspot for monogenic and polygenic resistance to diverse pathogens is located in the potato and tomato. Solanum megistacrolobum Rm induce a hypersensitive response in potato plants. Unknown no Rm Chromosome XI
49 Solanum tuberosum Resistance to Potato virus S Instytut Hodowli i Aklimatyzacji Roślin, Oddział Młochów - IHAR (Młochów - Poland) Potato virus S 1998 and after The potato virus S resistance gene Ns maps to potato chromosome VIII. The dominant allele Ns confers in potato resistance to Potato virus S. To identify the chromosomal location of Ns, we mapped the Ns-linked marker SCG17448 and the ISSR marker UBC811600 to linkage group VIII of the RFLP map of a population that did not segregate for Ns. The genetic distance between Ns and the closest CP16 locus was 4.2cM. Unknown dominant allele no Ns Chromosome VIII
50 Solanum tuberosum Resistance to virus movement Kasvipatologian laboratorio - Soveltavan biologian laitos - UH (Helsinki - Finland) Potato virus A 01/1997  and after Unknown no
51 Vitis vinifera Pathogen derived resistance to Vitis vinifera viruses Pflanzenbiotechnologie Unit IAM - IAM-BOKU - BOKU University (Vienna - Austria) Arabis mosaic virus
Grapevine fanleaf virus
Grapevine virus A
Grapevine virus B
1995 - 2005 viral genome PTGS (post-transcriptional gene silencing) Unknown no
52 Vitis vinifera transgenic rootstock mediated resistance INRA Colmar, Equipe Virologie-Vection - UMR 1131 - Centre INRA Colmar (Colmar - France) Grapevine fanleaf virus Xiphinema index 1995 and after Varieties of rootstocks of grapevine
Transgenic lines agrotransformed with structural (mainly CP gene) or non structural genes from GFLV
nepovirus-derived constructs expected mechanism : post-transcriptional gene silencing n/a Unknown not yet evaluated not yet evaluated yes not yet evaluated not yet evaluated not yet evaluated NC_003623
NC_003615