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Recessive resistance against beet chlorosis virus is conferred by the eukaryotic translation initiation factor (iso)<scp>4E</scp> in <i>Beta vulgaris</i>

Lukas Rollwage, Hilde Van Houtte, Roxana Hossain, Niels Wynant, G. Willems, Mark Varrelmann

2024Plant Biotechnology Journal15 citationsDOIOpen Access PDF

Abstract

Summary Eukaryotic translation initiation factors (eIFs) are important for mRNA translation but also pivotal for plant‐virus interaction. Most of these plant‐virus interactions were found between plant eIFs and the viral protein genome‐linked (VPg) of potyviruses. In case of lost interaction due to mutation or deletion of eIFs, the viral translation and subsequent replication within its host is negatively affected, resulting in a recessive resistance. Here we report the identification of the Beta vulgaris Bv‐eIF(iso)4E as a susceptibility factor towards the VPg‐carrying beet chlorosis virus (genus Polerovirus ). Using yeast two‐hybrid and bimolecular fluorescence complementation assays, the physical interaction between Bv‐eIF(iso)4E and the putative BChV‐VPg was detected, while the VPg of the closely related beet mild yellowing virus (BMYV) was found to interact with the two isoforms Bv‐eIF4E and Bv‐eIF(iso)4E. These VPg‐eIF interactions within the polerovirus‐beet pathosystem were demonstrated to be highly specific, as single mutations within the predicted cap‐binding pocket of Bv‐eIF(iso)4E resulted in a loss of interaction. To investigate the suitability of eIFs as a resistance resource against beet infecting poleroviruses, B. vulgaris plants were genome edited by CRISPR/Cas9 resulting in knockouts of different eIFs. A simultaneous knockout of the identified BMYV‐interaction partners Bv‐eIF4E and Bv‐eIF(iso)4E was not achieved, but Bv‐eIF(iso)4E KO plants showed a significantly lowered BChV accumulation and decrease in infection rate from 100% to 28.86%, while no influence on BMYV accumulation was observed. Still, these observations support that eIFs are promising candidate genes for polerovirus resistance breeding in sugar beet.

Topics & Concepts

BiologyEukaryotic translationEIF4EInitiation factorComplementationGeneticsPathosystemVirologyVirusBimolecular fluorescence complementationGeneTranslation (biology)Messenger RNAMutantPlant Virus Research StudiesCRISPR and Genetic EngineeringPlant and Fungal Interactions Research
Recessive resistance against beet chlorosis virus is conferred by the eukaryotic translation initiation factor (iso)<scp>4E</scp> in <i>Beta vulgaris</i> | Litcius