The evolution of the <i>Gp‐Rbp‐1</i> gene in <i>Globodera pallida</i> includes multiple selective replacements

Carpentier, J L; Esquibet, Magali; Fouville, Didier; Manzanares-Dauleux, Maria; Kerlan, Marie-Claire; Grenier, Éric

doi:10.1111/j.1364-3703.2011.00769.x

Cited by 22 publications

(26 citation statements)

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“…RanGAP2 shows less sequence size variations and a lower polymorphism rate (31.4% vs 19%) than Gp-Rbp-1 [20], the gene encoding for the effector recognized by GPA2. Furthermore RanGAP2 also appears to be less variable than the housekeeping gene nitrate reductase, whose variability was evaluated in various Solanum species [28].…”

Section: Discussionmentioning

confidence: 99%

“…Compared to Rx, Gpa2 induces a much weaker hypersensitive response (HR) when transiently expressed with its effector counterpart (the avirulence protein Gp-RBP-1 of G. pallida ) in tobacco [19]. Unexpectedly, numerous variants of the G. pallida avirulence protein GP-RBP-1 are recognized by GPA2, even those from nematode populations described as virulent against S. tuberosum cultivars expressing Gpa2 [20]. Thus, other proteins involved in the recognition of GP-RBP-1 by GPA2 may explain these results and RanGAP2 has been thought to mediate recognition of the avirulence protein GP-RBP-1 by GPA2.…”

Section: Introductionmentioning

confidence: 99%

“…The genetic diversity of the genes encoding both the avirulence proteins (PVX CP and Gp-RBP-1) and the resistance proteins (Rx and GPA2) has been well characterized. A high frequency of polymorphic sites in the four genes has been identified, including key residues necessary for recognition of the CP and GP-RBP-1 by Rx and GPA2, respectively [19,20,23,24]. On the other hand, the genetic diversity or sequence polymorphism of the co-factor RanGAP2 has not yet been reported.…”

Section: Introductionmentioning

confidence: 99%

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Evolution and variability of Solanum RanGAP2, a cofactor in the incompatible interaction between the resistance protein GPA2 and the Globodera pallida effector Gp-RBP-1

et al. 2013

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BackgroundThe Ran GTPase Activating Protein 2 (RanGAP2) was first described as a regulator of mitosis and nucleocytoplasmic trafficking. It was then found to interact with the Coiled-Coil domain of the Rx and GPA2 resistance proteins, which confer resistance to Potato Virus X (PVX) and potato cyst nematode Globodera pallida, respectively. RanGAP2 is thought to mediate recognition of the avirulence protein GP-RBP-1 by GPA2. However, the Gpa2-induced hypersensitive response appears to be relatively weak and Gpa2 is limited in terms of spectrum of efficiency as it is effective against only two nematode populations. While functional and evolutionary analyses of Gp-Rbp-1 and Gpa2 identified key residues in both the resistance and avirulence proteins that are involved in recognition determination, whether variation in RanGAP2 also plays a role in pathogen recognition has not been investigated.ResultsWe amplified a total of 147 RanGAP2 sequences from 55 accessions belonging to 18 different di-and tetraploid Solanum species from the section Petota. Among the newly identified sequences, 133 haplotypes were obtained and 19.1% of the nucleotide sites were found to be polymorphic. The observed intra-specific nucleotide diversity ranges from 0.1 to 1.3%. Analysis of the selection pressures acting on RanGAP2 suggests that this gene evolved mainly under purifying selection. Nonetheless, we identified polymorphic positions in the protein sequence at the intra-specific level, which could modulate the activity of RanGAP2. Two polymorphic sites and a three amino-acid deletion in RanGAP2 were found to affect the timing and intensity of the Gpa2-induced hypersensitive response to avirulent GP-RBP-1 variants even though they did not confer any gain of recognition of virulent GP-RBP-1 variants.ConclusionsOur results highlight how a resistance gene co-factor can manage in terms of evolution both an established role as a cell housekeeping gene and an implication in plant parasite interactions. StRanGAP2 gene appears to evolve under purifying selection. Its variability does not seem to influence the specificity of GPA2 recognition but is able to modulate this activity by enhancing the defence response. It seems therefore that the interaction with the plant resistance protein GPA2 (and/or Rx) rather than with the nematode effector was the major force in the evolution of the RanGAP2 locus in potato. From a mechanistic point of view these results are in accordance with a physical interaction of RanGAP2 with GPA2 and suggest that RBP-1 would rather bind the RanGAP2-GPA2 complex than the RanGAP2 protein alone.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Evolution and variability of Solanum RanGAP2, a cofactor in the incompatible interaction between the resistance protein GPA2 and the Globodera pallida effector Gp-RBP-1

et al. 2013

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“…The study revealed that eight sites are under positive selection in Gp-RBP-1, six of which were predicted to localise to the SPRY domain, including the P/S polymorphism at position 187 known to be required for recognition by Gpa2. The five novel sites in the SPRY domain were not involved in Gpa recognition but are hypothesised potentially to interact with other plant host proteins (Carpentier et al, 2012). Hallmarks of positive selection have been demonstrated in effector genes of the oomycete Phytophthora and implicated in host adaptation (Raffaele et al, 2010).…”

Section: Identification Of Root-knot and Cyst Nematode Avr Genesmentioning

confidence: 99%

“…The SPRY domain was shown to be involved in the recognition of Gp-RBP-1 by Gpa2, as the polymorphism correlating to Avr gene recognition was localised to a single amino acid in the Gp-RBP-1 SPRY domain (Sacco et al, 2009). In another study, the diversity and evolution of Gp-RBP-1 was investigated using a dataset of 157 highly polymorphic Gp-RBP-1 sequences obtained from numerous G. pallida populations collected in Peru and Chile (Carpentier et al, 2012). The study revealed that eight sites are under positive selection in Gp-RBP-1, six of which were predicted to localise to the SPRY domain, including the P/S polymorphism at position 187 known to be required for recognition by Gpa2.…”

Section: Identification Of Root-knot and Cyst Nematode Avr Genesmentioning

confidence: 99%

Resistance genes against plant-parasitic nematodes: a durable control strategy?

Davies

Elling

2015

Nematol

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Plant-parasitic nematodes are a major pest of all agricultural systems, causing extensive economic losses. Natural resistance (R) genes offer an alternative to chemical control and have been shown effectively to limit nematode damage to crops in the field. Whilst a number of resistant cultivars have conferred resistance against root-knot and cyst nematodes for many decades, an increasing number of reports of resistance-breaking nematode pathotypes are beginning to emerge. The forces affecting the emergence of virulent nematodes are complex, multifactorial and involve both the host and parasite of the plant-nematode interaction. This review provides an overview of the root-knot and cyst nematode R genes characterised to date, in addition to examining the evolutionary forces influencing nematode populations and the emergence of virulence. Finally, potential strategies to improve R gene durability in the field are outlined, and areas that would benefit from further research efforts are highlighted.

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Emerging Roles of Cyst Nematode Effectors in Exploiting Plant Cellular Processes

Gardner

Verma

Mitchum

2015

Advances in Botanical Research

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The evolution of the Gp‐Rbp‐1 gene in Globodera pallida includes multiple selective replacements

Cited by 22 publications

References 29 publications

Evolution and variability of Solanum RanGAP2, a cofactor in the incompatible interaction between the resistance protein GPA2 and the Globodera pallida effector Gp-RBP-1

Evolution and variability of Solanum RanGAP2, a cofactor in the incompatible interaction between the resistance protein GPA2 and the Globodera pallida effector Gp-RBP-1

Resistance genes against plant-parasitic nematodes: a durable control strategy?

Emerging Roles of Cyst Nematode Effectors in Exploiting Plant Cellular Processes

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