August 2003, Volume 93, Number 8 Pages 941-952
DOI: 10.1094/PHYTO.2003.93.8.941
Analytical and Theoretical Plant Pathology An Analysis of the Durability of Resistance to Plant Viruses Fernando García-Arenal and Bruce A. McDonald First author: Departamento de Biotecnología, E.T.S. Ingenieros Agrónomos, Universidad Politécnica de Madrid, E-28040 Madrid, Spain; and second author: Institute of Plant Sciences, Phytopathology Group, ETH Zentrum/LFW, Universitätstrasse 2, CH-8092 Zürich, Switzerland  Open Access.
Genetic resistance often fails because a resistance-breaking (RB) pathogen genotype increases in frequency. On the basis of an analysis of cellular plant pathogens, it was recently proposed that the evolutionary potential of a pathogen is a major determinant of the durability of resistance. We test this hypothesis for plant viruses, which differ substantially from cellular pathogens in the nature, size, and expression of their genomes. Our analysis was based on 29 plant virus species that provide a good representation of the genetic and biological diversity of plant viruses. These 29 viruses were involved in 35 pathosystems, and 50 resistance factors deployed against them were analyzed. Resistance was found to be durable more often than not, in contrast with resistance to cellular plant pathogens. In a third of the analyzed pathosystems RB strains have not been reported, and in another third RB strains have been reported but have not become prevalent in the virus population. The evolutionary potential of the viruses in the 35 pathosystems was evaluated with a compound risk index based on three evolutionary factors: the population of the pathogen, the degree of recombination, and the amount of gene and genotype flow. Our analysis indicates that evolutionary potential may be an important determinant of the durability of resistance against plant viruses. Cited byDurability of plant major resistance genes to pathogens depends on the genetic background, experimental evidence and consequences for breeding strategiesNew Phytologist Aug 2009, Volume 183, Number 1: 190-199 CrossRef Constraints on evolution of virus avirulence factors predict the durability of corresponding plant resistancesMolecular Plant Pathology Jul 2009 CrossRef Recombination structure and genetic relatedness among members of the family Bromoviridae based on their RNAs 1 and 2 sequence analysesVirus Genes Jul 2009, Volume 38, Number 3: 435-444 CrossRef Contribution of recombination and selection to molecular evolution of Citrus tristeza virusJournal of General Virology Jul 2009, Volume 90, Number 6: 1527-1538 CrossRef Genetic resistance for the sustainable control of plant virus diseases: breeding, mechanisms and durabilityEuropean Journal of Plant Pathology May 2009 CrossRef The evolution of virulence and pathogenicity in plant pathogen populationsMolecular Plant Pathology Jun 2008, Volume 9, Number 3: 369-384 CrossRef EVOLUTION OF HOST SPECIFICITY DRIVES REPRODUCTIVE ISOLATION AMONG RNA VIRUSESEvolution Dec 2007, Volume 61, Number 11: 2614-2622 CrossRef Legume yellow mosaic viruses: genetically isolated begomovirusesMolecular Plant Pathology Aug 2007, Volume 8, Number 4: 343-348 CrossRef Genetic structure in natural populations of barley/cereal yellow dwarf virus isolates from AlaskaArchives of Virology Jun 2007, Volume 152, Number 5: 891-902 CrossRef Sources of natural resistance to plant viruses: status and prospectsMolecular Plant Pathology Apr 2007, Volume 8, Number 2: 223-231 CrossRef Can the durability of resistance be predicted?Journal of the Science of Food and Agriculture Jan 2007, Volume 86, Number 15: 2523-2526 CrossRef Molecular Ecology and Emergence of Tropical Plant VirusesAnnual Review of Phytopathology Oct 2006, Volume 44, Number 1: 235-260 CrossRef Field trial of serially passaged isolates of BYDV-PAV overcoming resistance derived from Thinopyrum intermedium in wheatPlant Breeding Jul 2006, Volume 125, Number 3: 211-216 CrossRef Host resistance and the evolutionary response of plant virusesJournal of Applied Ecology Jul 2006, Volume 43, Number 3: 506-516 CrossRef Biological and Serological Properties of Potato virus Y Isolates in Northeastern United States PotatoPlant Disease May 2006, Volume 90, Number 5: 559-566 Abstract
| PDF Print (337 KB)
| PDF with Links (213 KB) Occurrence of Resistance-Breaking Isolates of Rice yellow mottle virus in West and Central AfricaPlant Disease Mar 2006, Volume 90, Number 3: 259-263 Abstract
| Interpretive Summary
| PDF Print (143 KB)
| PDF with Links (235 KB) Genetic Structure of the Population of Pepino mosaic virus Infecting Tomato Crops in SpainPhytopathology Mar 2006, Volume 96, Number 3: 274-279 Abstract
| PDF Print (226 KB)
| PDF with Links (250 KB) Durability of natural and transgenic resistances in rice to Rice yellow mottle virusEuropean Journal of Plant Pathology Sep 2005, Volume 112, Number 4: 349-359 CrossRef Resistance to Monopartite Begomoviruses Associated with the Bean Leaf Crumple Disease in Phaseolus vulgaris Controlled by a Single Dominant GenePhytopathology Jul 2005, Volume 95, Number 7: 819-826 Abstract
| PDF Print (632 KB)
| PDF with Links (354 KB) An Analysis of Host Adaptation and Its Relationship with Virulence in Cucumber mosaic virusPhytopathology Jul 2005, Volume 95, Number 7: 827-833 Abstract
| PDF Print (116 KB)
| PDF with Links (142 KB) Another quarter century of great progress in understanding the biological properties of plant virusesAnnals of Applied Biology Feb 2005, Volume 146, Number 1: 15-37 CrossRef |
|
= "Open" Access
