What question did this study set out to answer?

The aim is to explore how susceptibility genes can be manipulated for better crop resistance against pathogens.

March 26, 2026Open Access

Beyond Resistance Genes: Silencing Susceptibility

Key Points

The aim is to explore how susceptibility genes can be manipulated for better crop resistance against pathogens.
Reviewed existing literature on resistance and susceptibility genes.
Analyzed the role of pathogen adaptation in crop failures.
Discussed integrated approaches using multi-omics tools for crop protection.
Identified several susceptibility genes as potential targets for manipulation.
Showed that S-gene manipulation can lead to broad-spectrum resistance.
Highlighted the need to maintain plant fitness while implementing new strategies.

Abstract

The ongoing evolutionary struggle between crops and pathogens has highlighted the limitations of resistance gene (R gene)-based control, which often fails due to rapid pathogen adaptation. To address this, we must look beyond R genes and explore susceptibility genes (S genes) that pathogens take over during infection. Recent success stories suggest that S-gene manipulation can provide broad-spectrum resistance. However, moving this technology to the field requires careful balancing to ensure that plant fitness is not compromised. In this review, we focus on integrated multi-omics tools to identify new avenues for resistance, specifically the mechanisms of R-gene breakdown and the potential of omics-driven strategies for long-term crop protection.

Beyond Resistance Genes: Silencing Susceptibility

Key Points

Abstract

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