The gene encoding the insulin-like androgenic gland hormone in an all-female parthenogenetic crayfish.

Tom Levy,Ohad Rosen,Ohad Simons,Amir Sagi,Amit Savaya Alkalay

doi:10.1371/journal.pone.0189982

Tom Levy, Ohad Rosen + Show 3 more

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https://doi.org/10.1371/journal.pone.0189982

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Journal: PloS one	Publication Date: Dec 20, 2017
Citations: 23	License type: CC BY 4.0

Affiliation: Ben-Gurion University of the Negev

Abstract

Male sexual differentiation in crustaceans is controlled by the androgenic gland (AG), a unique male endocrine organ that, in decapods, is located at the base of the 5th pereiopod. In these animals, the insulin-like androgenic gland hormone (IAG) is the major factor secreted from the AG to induce masculinization and maintain male characteristics. It has, however, recently been proposed that this hormone also plays a role in growth and ovarian development in females. In this study, we tested such a possibility by searching for the IAG gene in the marbled crayfish, a parthenogenetic animal that reproduces asexually to form an all-female genetic clone. Based on the phylogenetic relationship between the marbled crayfish and Procambarus fallax, a gonochoristic species of the same North American Cambaridae family, we searched for the IAG gene in the marbled crayfish and then fully sequenced it. The open reading frame of the gene was found to be completely identical in the two species, and their introns shared over 94% identity. It was also found that, in addition to its expression at the base of the 5th pereiopod and in the testes of male P. fallax crayfish, IAG was expressed in the muscle tissue of P. fallax males and females and even of the parthenogenetic marbled crayfish. These findings provide new insight into possible functions of IAG, in addition to its role as a masculinization-inducing factor, and also constitute the basis for a discussion of the evolutionary relationship between the above two species.

Highlights

In crustaceans, male sexual differentiation is fundamentally controlled by the androgenic gland (AG), a unique male crustacean endocrine organ [1, 2]
We confirmed that the AG of the crayfish P. fallax is present in its typical location, the base of the male 5th pereiopod, proximal to the sperm duct [6, 29], and we sequenced the gene encoding for insulin-like androgenic gland hormone (IAG) in P. fallax (Pf-IAG)
The phylogenetic tree that we constructed of deduced IAG protein sequences in 18 crustacean species showed that the IAG hormone is highly conserved among crayfish species; for example, the finding that Pf-IAG and Pc-IAG have identical A and B chains is in keeping with the phylogenetic relationship between P. fallax and P. clarkii, both species belonging to the North American Cambaridae family [16]

Summary

Introduction

Male sexual differentiation is fundamentally controlled by the androgenic gland (AG), a unique male crustacean endocrine organ [1, 2]. Since the discovery of the AG by Cronin [3], it has been regarded as the major player in the crustacean masculinization process [1, 4,5,6]. This notion was supported by the findings that AG implantation in females caused masculinization [7], while andrectomized males exhibited feminization [8, 9].

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