Connecting genes to whole plants in dilution effect of target-site ALS inhibitor resistance of Schoenoplectiella juncoides (Roxb.) Lye (Cyperaceae).

This study focuses on dilution effect of target-site resistance (TSR) to acetolactate synthase (ALS) inhibitors in Schoenoplectiella juncoides, which harbors two ALS genes, ALS1 and ALS2. We assessed gene expression, enzyme activity, and whole-plant resistance profiles across four S. juncoides lines: the susceptible line, the parental resistant lines with a homozygous mutation in either ALS1 or ALS2, and the bred progeny line with homozygous mutations in both ALS1 and ALS2. Gene expression and enzyme function showed a proportional relationship that the expression ratios of ALS1 to ALS2, approximately 70:30, were consistent with the functional ratio predicted by the double-sigmoidal plateau positions observed in enzyme assays. However, at the whole-plant level, resistance did not correlate to the putative abundance of susceptible enzyme, but the parental lines showed similar resistance to each other despite different enzyme-level resistances. This suggests a non-proportional mechanism in the reflection of physiological enzymatic profiles to whole-plant resistance profiles. These findings highlight the complexity of herbicide resistance and the need for further research to understand the mechanisms that influence resistance outcomes. Understanding these relationships is essential for developing strategies to manage herbicide resistance effectively.

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