Evolution of social insect polyphenism facilitated by the sex differentiation cascade

Antonia Klein; Eva Schultner; Helena Lowak; Lukas Schrader; Jürgen Heinze; Luke Holman; Jan Oettler

doi:10.1371/journal.pgen.1005952

Evolution of social insect polyphenism facilitated by the sex differentiation cascade

Antonia Klein, Eva Schultner, Helena Lowak, Lukas Schrader, Jürgen Heinze, Luke Holman, Jan Oettler

30 Citations (Scopus)

Abstract

The major transition to eusociality required the evolution of a switch to canalize development into either a reproductive or a helper, the nature of which is currently unknown. Following predictions from the 'theory of facilitated variation', we identify sex differentiation pathways as promising candidates because of their pre-adaptation to regulating development of complex phenotypes. We show that conserved core genes, including the juvenile hormone-sensitive master sex differentiation gene doublesex (dsx) and a krüppel homolog 2 (kr-h2) with putative regulatory function, exhibit both sex and morph-specific expression across life stages in the ant Cardiocondyla obscurior. We hypothesize that genes in the sex differentiation cascade evolved perception of alternative input signals for caste differentiation (i.e. environmental or genetic cues), and that their inherent switch-like and epistatic behavior facilitated signal transfer to downstream targets, thus allowing them to control differential development into morphological castes.

Original language	English
Article number	e1005952
Journal	P L o S Genetics
Volume	12
Issue number	3
Number of pages	16
ISSN	1553-7390
DOIs	https://doi.org/10.1371/journal.pgen.1005952
Publication status	Published - Mar 2016
Externally published	Yes

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title = "Evolution of social insect polyphenism facilitated by the sex differentiation cascade",

abstract = "The major transition to eusociality required the evolution of a switch to canalize development into either a reproductive or a helper, the nature of which is currently unknown. Following predictions from the 'theory of facilitated variation', we identify sex differentiation pathways as promising candidates because of their pre-adaptation to regulating development of complex phenotypes. We show that conserved core genes, including the juvenile hormone-sensitive master sex differentiation gene doublesex (dsx) and a kr{\"u}ppel homolog 2 (kr-h2) with putative regulatory function, exhibit both sex and morph-specific expression across life stages in the ant Cardiocondyla obscurior. We hypothesize that genes in the sex differentiation cascade evolved perception of alternative input signals for caste differentiation (i.e. environmental or genetic cues), and that their inherent switch-like and epistatic behavior facilitated signal transfer to downstream targets, thus allowing them to control differential development into morphological castes.",

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AU - Klein, Antonia

AU - Schultner, Eva

AU - Lowak, Helena

AU - Schrader, Lukas

AU - Heinze, Jürgen

AU - Holman, Luke

AU - Oettler, Jan

PY - 2016/3

Y1 - 2016/3

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AB - The major transition to eusociality required the evolution of a switch to canalize development into either a reproductive or a helper, the nature of which is currently unknown. Following predictions from the 'theory of facilitated variation', we identify sex differentiation pathways as promising candidates because of their pre-adaptation to regulating development of complex phenotypes. We show that conserved core genes, including the juvenile hormone-sensitive master sex differentiation gene doublesex (dsx) and a krüppel homolog 2 (kr-h2) with putative regulatory function, exhibit both sex and morph-specific expression across life stages in the ant Cardiocondyla obscurior. We hypothesize that genes in the sex differentiation cascade evolved perception of alternative input signals for caste differentiation (i.e. environmental or genetic cues), and that their inherent switch-like and epistatic behavior facilitated signal transfer to downstream targets, thus allowing them to control differential development into morphological castes.

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Evolution of social insect polyphenism facilitated by the sex differentiation cascade

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