Abstract
AbstractOptogenetics for GPCR signaling is highly valuable but still requires effective and versatile tools with performance evaluation from molecular properties. Here we investigated performance of two animal opsins, mosquito Opn3 (MosOpn3) and lamprey parapinopsin (LamPP) in optical manipulation in vivo by using C. elegans. MosOpn3 introduced in a nociceptor neurons induced avoidance responses light-dependently with a retinal isomer ubiquitously present in every tissue, like ChR2 and unlike canonical vertebrate opsins. Remarkably, the sensitivity is ~7000 times higher than the case of ChR2 in the light-induced behavior. LamPP introduced in motor neurons induced violet light-dependent stop and green light-dependent go, demonstrating color-dependent manipulation of behaviors using LamPP. Furthermore, our molecular engineering extended the usability of MosOpn3 and LamPP to different signaling cascades and kinetics. Current findings demonstrated that the availability of two animal opsins is equivalent to that of ChR2 in terms of retinal requirement, providing solid strategies for GPCR optogenetics.
Publisher
Cold Spring Harbor Laboratory