Evolution of Phototransduction Genes in Lepidoptera

Author:

Macias-Muñoz Aide,Rangel Olguin Aline G.,Briscoe Adriana D.

Abstract

AbstractVision is underpinned by phototransduction, a signaling cascade that converts light energy into an electrical signal. Among insects, phototransduction is best understood inDrosophila melanogaster.A survey of phototransduction genes in four insect genomes found gains and losses betweenD. melanogasterand other insects; this study did not include lepidopterans. Diurnal butterflies and nocturnal moths occupy different light environments and have distinct eye morphologies, which might impact the expression of their phototransduction genes. Here, we used transcriptomics and phylogenetics to identify phototransduction genes that vary betweenD. melanogasterand Lepidoptera, and between moths and butterflies. Most phototransduction genes were conserved betweenD. melanogasterand Lepidoptera, with some exceptions. We found two lepidopteran opsins lacking aD. melanogasterortholog, and using antibodies found that one, a candidate retinochrome which we name unclassified opsin (UnRh), is expressed in the crystaline cone cells and the pigment cells of the butterflyHeliconius melpomene. We also found differences between Lepidoptera andD. melanogasterphototransduction in diacylglycerol regulation where a lepidopteran paralog, DAGβ, may be taking on a role in vision. Lastly, butterflies express similar amounts oftrpandtrplchannel mRNAs, while moths express approximately 50x lesstrp. Since TRP/TRPL channels allow Ca2+and Na+influx this might explain why moths appear to express lessCalxandNckx30CNa+/Ca2+channel mRNAs. Our findings suggest that while many single-copyD. melanogasterphototransduction genes are conserved in lepidopterans, phototransduction gene expression differences exist between moths and butterflies that may be linked to their visual light environment.

Publisher

Cold Spring Harbor Laboratory

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