Identification of a Critical Region in the Drosophila Ryanodine Receptor That Confers Sensitivity to Diamide Insecticides

Overview

Journal Insect Biochem Mol Biol

Specialties Biochemistry
Biology
Molecular Biology

Date 2013 Jun 29

PMID 23806522

Citations 17

Authors

Yong Tao

Steven Gutteridge

Eric A Benner

Lihong Wu

Daniel F Rhoades

Matthew D Sacher

Michel A Rivera

Johan Desaeger

Daniel Cordova

Affiliations

Soon will be listed here.

Abstract

Anthranilic diamides, which include the new commercial insecticide, chlorantraniliprole, are an exciting new class of chemistry that target insect ryanodine receptors. These receptors regulate release of stored intracellular calcium and play a critical role in muscle contraction. As with insects, nematodes express ryanodine receptors and are sensitive to the plant alkaloid, ryanodine. However the plant parasitic nematode, Meloidogyne incognita, is insensitive to anthranilic diamides. Expression of a full-length Drosophila melanogaster ryanodine receptor in an insect cell line confers sensitivity to the receptor agents, caffeine and ryanodine along with nanomolar sensitivity to anthranilic diamides. Replacement of a 46 amino acid segment in a highly divergent region of the Drosophila C-terminus with that from Meloidogyne results in a functional RyR which lack sensitivity to diamide insecticides. These findings indicate that this region is critical to diamide sensitivity in insect ryanodine receptors. Furthermore, this region may contribute to our understanding of the differential selectivity diamides exhibit for insect over mammalian ryanodine receptors.

Citing Articles

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Chimeric Investigations into the Diamide Binding Site on the Lepidopteran Ryanodine Receptor.

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