Litcius/Paper detail

Crystal Structure of the Ryanodine Receptor SPRY2 Domain from the Diamondback Moth Provides Insights into the Development of Novel Insecticides

Yuanyuan Zhou, Dan Ma, Lianyun Lin, Minsheng You, Zhiguang Yuchi, Shijun You

2020Journal of Agricultural and Food Chemistry22 citationsDOIOpen Access PDF

Abstract

, a destructive agricultural pest worldwide that has developed resistance to all classes of insecticide at 2.06 Å resolution. The overall fold of DBM SPRY2 is similar to its mammalian homolog, but it shows distinct conformations in several loops. Docking it into the recently published cryo-electron microscope structure of the full-length RyR reveals that two insect-specific loops interact with the BSol domain from the neighboring subunit. The SPRY2-BSol interface will change the conformation upon channel gating, indicating that it might be a potential targeting site for insect-specific insecticides. Interestingly, several previously identified disease-causing mutations also lie in the same interface, implying that this interface is important for channel gating. Another insect-specific loop located in the SPRY2-SPRY3 interface might indirectly affect another gating interface between SPRY3 and Repeat34.

Topics & Concepts

Diamondback mothPlutellaRyanodine receptorBiologyInsectGatingBiophysicsGeneticsReceptorEcologyLarvaInsect Resistance and GeneticsInsect-Plant Interactions and ControlInsect and Pesticide Research