Chromosomal Deletion in Isolates of Phytophthora infestans Correlates with Virulence on R3, R10, and R11 Potato Lines

Lee, T. van der; Testa, Antonino; Klooster, J.W. van t; Berg-Velthuis, G. van den; Govers, F.

doi:10.1094/mpmi.2001.14.12.1444

Cited by 37 publications

(28 citation statements)

References 22 publications

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“…The map was based on 22 RFLP markers, 228 randomly amplified polymorphic DNA (RAPD) markers, and 7 avirulence genes, and it covered 10 major and 12 minor linkage groups for a total of 830.5 cM. Recently, May et al (59) Several avirulence genes, involved in triggering genotypespecific resistance, have been mapped in the P. infestans and P. sojae maps, and their cloning is under progress (53,59,100,104,105,116). Highly representative bacterial artificial chromosome (BAC) libraries are also available and have facilitated the physical mapping of Phytophthora genomes (80,116).…”

Section: Molecular and Genomic Resourcesmentioning

confidence: 99%

Molecular Genetics of Pathogenic Oomycetes

2003

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Section: Molecular and Genomic Resourcesmentioning

confidence: 99%

Molecular Genetics of Pathogenic Oomycetes

2003

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“…R3a has since been cloned and encodes a presumed cytoplasmic coiledcoil nucleotide binding site leucine-rich repeat protein (8). Although several P. infestans Avr loci have been genetically mapped (1,9), no Avr genes have yet been reported, mainly due to difficulties encountered with positional cloning, such as high levels of repetitive DNA and aberrant segregation at the target locus. Our knowledge of the molecular basis of race evolution in this pathogen is thus limited.…”

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confidence: 99%

An ancestral oomycete locus contains late blight avirulence gene Avr3a , encoding a protein that is recognized in the host cytoplasm

Armstrong

Whisson

Pritchard

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

417

386

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The oomycete Phytophthora infestans causes late blight, the potato disease that precipitated the Irish famines in 1846 and 1847. It represents a reemerging threat to potato production and is one of >70 species that are arguably the most devastating pathogens of dicotyledonous plants. Nevertheless, little is known about the molecular bases of pathogenicity in these algae-like organisms or of avirulence molecules that are perceived by host defenses. Disease resistance alleles, products of which recognize corresponding avirulence molecules in the pathogen, have been introgressed into the cultivated potato from a wild species, Solanum demissum, and R1 and R3a have been identified. We used association genetics to identify Avr3a and show that it encodes a protein that is recognized in the host cytoplasm, where it triggers R3a-dependent cell death. Avr3a resides in a region of the P. infestans genome that is colinear with the locus containing avirulence gene ATR1 NdWsB in Hyaloperonospora parasitica, an oomycete pathogen of Arabidopsis. Remarkably, distances between conserved genes in these avirulence loci were often similar, despite intervening genomic variation. We suggest that Avr3a has undergone gene duplication and that an allele evading recognition by R3a arose under positive selection.microsynteny ͉ Phytophthora infestans ͉ hypersensitive response ͉ linkage disequilibrium ͉ hemibiotroph

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“…We have strong indications that a change in phenotype on R3b, R10, and R11 potato lines is associated with a genome rearrangement or chromosomal deletion at that locus (van der Lee et al 2001b). Avr3 has recently been renamed to Avr3b to indicate that this Avr gene elicits resistance on plants carrying R3b but not R3a (Huang et al 2004).…”

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confidence: 93%

“…Previously we identified a locus in P. infestans that carries three closely linked dominant Avr genes, Avr3, Avr10, and Avr11 (van der Lee et al 2001a(van der Lee et al , 2004. We have strong indications that a change in phenotype on R3b, R10, and R11 potato lines is associated with a genome rearrangement or chromosomal deletion at that locus (van der Lee et al 2001b).…”

mentioning

confidence: 94%

“…Field isolates are genetically highly variable, not only in Central America, the center of origin of P. infestans, but also in North America and Western Europe (Goodwin et al 1992(Goodwin et al , 1998Zwankhuizen et al 1998). Polyploidy, aneuploidy, and trisomy are found in field isolates (Tooley and Therrien 1987;Gu et al 1993;Carter et al 1999;van der Lee et al 2004), and chromosomal deletions and translocations related to virulence and mating behavior have been described (Judelson 1996;van der Lee et al 2001b). P. infestans has many transposon(-like) elements that are known to contribute to genome plasticity.…”

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confidence: 99%

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Amplification generates modular diversity at an avirulence locus in the pathogen Phytophthora

Jiang

Weide²,

Vondervoort³

et al. 2006

Genome Res.

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The destructive late blight pathogen Phytophthora infestans is notorious for its rapid adaptation to circumvent detection mediated by plant resistance (R) genes. We performed comparative genomic hybridization on microarrays (array-CGH) in a near genome-wide survey to identify genome rearrangements related to changes in virulence. Six loci with copy number variation were found, one of which involves an amplification colocalizing with a previously identified locus that confers avirulence in combination with either R gene R3b, R10, or R11. Besides array-CGH, we used three independent approaches to find candidate genes at the Avr3b-Avr10-Avr11 locus: positional cloning, cDNA-AFLP analysis, and Affymetrix array expression profiling. This resulted in one candidate, pi3.4, that encodes a protein of 1956 amino acids with regulatory domains characteristic for transcription factors. Amplification is restricted to the 3Ј end of the full-length gene but the amplified copies still contain the hallmarks of a regulatory protein. Sequence comparison showed that the amplification may generate modular diversity and assist in the assembly of novel full-length genes via unequal crossing-over. Analyses of P. infestans field isolates revealed that the pi3.4 amplification correlates with avirulence; isolates virulent on R3b, R10, and R11 plants lack the amplified gene cluster. The ancestral state of 3.4 in the Phytophthora lineage is a full-length, single-copy gene. In P. infestans, however, pi3.4 is a dynamic gene that is amplified and has moved to other locations. Modular diversity could be a novel mechanism for pathogens to quickly adapt to changes in the environment.

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Chromosomal Deletion in Isolates of Phytophthora infestans Correlates with Virulence on R3, R10, and R11 Potato Lines

Cited by 37 publications

References 22 publications

Molecular Genetics of Pathogenic Oomycetes

Molecular Genetics of Pathogenic Oomycetes

An ancestral oomycete locus contains late blight avirulence gene Avr3a , encoding a protein that is recognized in the host cytoplasm

Amplification generates modular diversity at an avirulence locus in the pathogen Phytophthora

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