Investigation of resistance mechanisms to bentazone in multiple resistant Amaranthus retroflexus populations

Pestic Biochem Physiol. 2022 Aug:186:105164. doi: 10.1016/j.pestbp.2022.105164. Epub 2022 Jul 1.

Abstract

Redroot amaranth (Amaranthus retroflexus L.) is a noxious weed that affects soybean production in China. Experiments were conducted to determine the molecular basis of resistance to bentazone. Whole-plant dose-response experiments showed that two populations (R1 and R2) exhibited resistance to bentazone with resistance indices of 9.01 and 6.85, respectively. Sequencing of the psbA gene revealed no amino acid substitution in the two populations. qRT-PCR analysis verified that psbA gene expression in R1 and R2 populations was increased significantly after treatment with bentazone, which was 3-fold and 5-fold higher than that in S1 and S2 populations, respectively. The P450 inhibitor malathion significantly reduced the level of resistance in the R1 and R2 populations when used prior to bentazone treatment. The R1 population exhibited multiple resistance to thifensulfuron-methyl and lactofen, caused by target site mutations (Asp-376-Glu in ALS, Arg-128-Gly in PPO2). In conclusion, increased gene expression of the psbA gene and enhanced herbicide metabolism seem to be the basis of resistance to bentazone in these A. retroflexus populations.

Keywords: Bentazone; Gene expression; Metabolic resistance; Redroot amaranth; Resistance mechanisms; psbA gene.

MeSH terms

  • Amaranthus* / genetics
  • Benzothiadiazines
  • Herbicide Resistance / genetics
  • Herbicides* / pharmacology

Substances

  • Benzothiadiazines
  • Herbicides
  • bentazone