Precise staging of beetle horn formation in Trypoxylus dichotomus reveals the pleiotropic roles of doublesex depending on the spatiotemporal developmental contexts.

Shinichi Morita,Akiteru Maeno,Teruyuki Niimi,Shuji Shigenobu,Toshiya Ando,Mutsuki Mase,Takeshi Mizutani,Claude Desplan

doi:10.1371/journal.pgen.1008063

Abstract

Many scarab beetles have sexually dimorphic exaggerated horns that are an evolutionary novelty. Since the shape, number, size, and location of horns are highly diverged within Scarabaeidae, beetle horns are an attractive model for studying the evolution of sexually dimorphic and novel traits. In beetles including the Japanese rhinoceros beetle Trypoxylus dichotomus, the sex differentiation gene doublesex (dsx) plays a crucial role in sexually dimorphic horn formation during larval-pupal development. However, knowledge of when and how dsx drives the gene regulatory network (GRN) for horn formation to form sexually dimorphic horns during development remains elusive. To address this issue, we identified a Trypoxylus-ortholog of the sex determination gene, transformer (tra), that regulates sex-specific splicing of the dsx pre-mRNA, and whose loss of function results in sex transformation. By knocking down tra function at multiple developmental timepoints during larval-pupal development, we estimated the onset when the sex-specific GRN for horn formation is driven. In addition, we also revealed that dsx regulates different aspects of morphogenetic activities during the prepupal and pupal developmental stages to form appropriate morphologies of pupal head and thoracic horn primordia as well as those of adult horns. Based on these findings, we discuss the evolutionary developmental background of sexually dimorphic trait growth in horned beetles.

Highlights

Beetle horns are used as weapons for intraspecific combats between males
We identified the exact developmental timepoints during which the morphological sexual dimorphism of horn primordia appears, estimated the onset of the developmental program for sexually dimorphic horn formation driven by doublesex, and revealed that doublesex regulates different aspects of cell activities during horn formation depending on particular spatiotemporal developmental contexts
To identify the developmental timepoint when sexual dimorphism of horns first appears in T. dichotomus, we described morphological changes of head and thoracic horn primordia during the prepupal period

Summary

Introduction

Beetle horns display sexual dimorphism in many Scarab species, and their shapes, numbers, sizes and forming regions are highly diverged even among closely related species [1,2,3]. The diversified horn forms are associated with the fighting styles employed by the beetles, such as scooping up, piercing and throwing [4]. Horns are an outgrowth structure derived not from an appendage but from a dorsal epidermal sheet. Elucidating how these novel traits were acquired in Scarab species will lead to better understanding the mechanisms of morphological diversification during evolution. Beetle horns are an attractive model for studying the association of trait novelty with sexually dimorphic development and the evolution of novel traits

Methods

Results

Discussion

Conclusion