A new eIF4E1 allele characterized by RNAseq data mining is associated with resistance to potato virus Y in tomato albeit with a low durability

Lebaron, Caroline; Rosado, Aurélie; Sauvage, Christopher; Gauffier, Camille; German-Retana, Sylvie; Moury, Benoît; Gallois, Jean‐Luc

doi:10.1099/jgv.0.000609

Cited by 21 publications

(27 citation statements)

References 56 publications

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“…Yet, evidence seems inconclusive. Additional elF4E1 alleles have been identified in wild tomato species, albeit with a limited resistance spectrum [81]. Conversely, in chili peppers (Capsicum annuum), many variants confer resistance and are thought to have originated from loci under positive selection.…”

Section: S Gene Diversitymentioning

confidence: 99%

Good Riddance? Breaking Disease Susceptibility in the Era of New Breeding Technologies

2018

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Despite a high abundance and diversity of natural plant pathogens, plant disease susceptibility is rare. In agriculture however, disease epidemics often occur when virulent pathogens successfully overcome immunity of a single genotype grown in monoculture. Disease epidemics are partially controlled by chemical and genetic plant protection, but pathogen populations show a high potential to adapt to new cultivars or chemical control agents. Therefore, new strategies in breeding and biotechnology are required to obtain durable disease resistance. Generating and exploiting a genetic loss of susceptibility is one of the recent strategies. Better understanding of host susceptibility genes (S) and new breeding technologies now enable the targeted mutation of S genes for genetic plant protection. Here we summarize biological functions of susceptibility factors and both conventional and DNA nuclease-based technologies for the exploitation of S genes. We further discuss the potential trade-offs and whether the genetic loss of susceptibility can provide durable disease resistance.

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Section: S Gene Diversitymentioning

confidence: 99%

Good Riddance? Breaking Disease Susceptibility in the Era of New Breeding Technologies

2018

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“…Even if the exact mechanism(s) involved in eIF4E ‐mediated resistance are still unclear (Wang and Krishnaswamy, ), it has been shown that the viral genome linked protein (VPg) can interact with eIF4E, mimicking the 5’ cap structure of messenger RNAs (mRNAs). In addition, potyviruses can evolve towards resistance breaking through the acquisition of mutations that either restore compatibility of their VPg with the host mutant eIF4E or allow an interaction with another member of the eIF4E family (Charron et al , ; Gallois et al , , ; Lebaron et al , ; Takakura et al , ).…”

Section: Introductionmentioning

confidence: 99%

A complex eIF4E locus impacts the durability of va resistance to Potato virus Y in tobacco

Michel

Julio²,

Candresse

et al. 2019

Molecular Plant Pathology

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Summary Many recessive resistances against potyviruses are mediated by eukaryotic translation initiation factor 4E (eIF4E). In tobacco, the va resistance gene commonly used to control Potato virus Y (PVY) corresponds to a large deletion affecting the eIF4E‐1 gene on chromosome 21. Here, we compared the resistance durability conferred by various types of mutations affecting eIF4E‐1 (deletions of various sizes, frameshift or nonsense mutations). The ‘large deletion’ genotypes displayed the broadest and most durable resistance, whereas frameshift and nonsense mutants displayed a less durable resistance, with rapid and frequent apparition of resistance‐breaking variants. In addition, genetic and transcriptomic analyses revealed that resistance durability is strongly impacted by a complex genetic locus on chromosome 14, which contains three other eIF4E genes. One of these, eIF4E‐3 , is rearranged as a hybrid gene between eIF4E‐2 and eIF4E‐3 ( eIF4E‐ 2‐3 ) in the genotypes showing the most durable resistance, while eIF4E‐2 is differentially expressed between the tested varieties. RNA‐seq and quantitative reverse transcriptase‐polymerase chain reaction experiments demonstrated that eIF4E‐2 expression level is positively correlated with resistance durability. These results suggest that besides the nature of the mutation affecting eIF4E‐1 , three factors linked with a complex locus may potentially impact va durability: loss of an integral eIF4E‐3 , presence of eIF4E‐ 2‐3 and overexpression of eIF4E‐2. This latter gene might act as a decoy in a non‐productive virus–plant interaction, limiting the ability of PVY to evolve towards resistance breaking. Taken together, these results show that va resistance durability can in large part be explained by complex redundancy effects in the eIF4E gene family.

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“…Interestingly, the eif4e1 KO eIF4E1 W69L plants' responses to both isolates were not homogenous, with seven plants showing full resistance and nine plants showing full susceptibility. This difference may be caused by resistance breaking, as previously shown for other eIF4E‐based alleles (Charron et al ., ; Lebaron et al ., ). On the contrary, both eif4e1 KO eIF4E1 T80DS81D and eif4e1 KO eIF4E1 N176K plants displayed full resistance to the No.…”

Section: Resultsmentioning

confidence: 97%

“…The independent selection of these mutations in pepper and in pea provides a compelling argument for their contribution to potyvirus resistance (Charron et al ., ). Interestingly, the G114R mutation located in Region II was not sufficient to provide efficient resistance, similar to equivalent mutations in the same region in the Solanum pimpinellifolium LA0411 resistance allele (Lebaron et al ., ). T80D‐S81D and G114R are substitutions that are frequently isolated in resistance alleles in pepper, tomato and pea, and appear to be under positive selection (Cavatorta et al ., ; Moury et al ., ).…”

Section: Discussionmentioning

confidence: 97%

Mimicking natural polymorphism in eIF4E by CRISPR‐Cas9 base editing is associated with resistance to potyviruses

Bastet

Zafirov

Giovinazzo

et al. 2019

Plant Biotechnology Journal

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143

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Summary In many crop species, natural variation in eIF 4E proteins confers resistance to potyviruses. Gene editing offers new opportunities to transfer genetic resistance to crops that seem to lack natural eIF 4E alleles. However, because eIF 4E are physiologically important proteins, any introduced modification for virus resistance must not bring adverse phenotype effects. In this study, we assessed the role of amino acid substitutions encoded by a Pisum sativum eIF 4E virus‐resistance allele (W69L, T80D S81D, S84A, G114R and N176K) by introducing them independently into the Arabidopsis thaliana eIF 4E1 gene, a susceptibility factor to the Clover yellow vein virus (Cl YVV ). Results show that most mutations were sufficient to prevent Cl YVV accumulation in plants without affecting plant growth. In addition, two of these engineered resistance alleles can be combined with a loss‐of‐function eIF iso4E to expand the resistance spectrum to other potyviruses. Finally, we use CRISPR ‐ nC as9‐cytidine deaminase technology to convert the Arabidopsis eIF 4E1 susceptibility allele into a resistance allele by introducing the N176K mutation with a single‐point mutation through C‐to‐G base editing to generate resistant plants. This study shows how combining knowledge on pathogen susceptibility factors with precise genome‐editing technologies offers a feasible solution for engineering transgene‐free genetic resistance in plants, even across species barriers.

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A new eIF4E1 allele characterized by RNAseq data mining is associated with resistance to potato virus Y in tomato albeit with a low durability

Cited by 21 publications

References 56 publications

Good Riddance? Breaking Disease Susceptibility in the Era of New Breeding Technologies

Good Riddance? Breaking Disease Susceptibility in the Era of New Breeding Technologies

A complex eIF4E locus impacts the durability of va resistance to Potato virus Y in tobacco

Mimicking natural polymorphism in eIF4E by CRISPR‐Cas9 base editing is associated with resistance to potyviruses

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