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The replaceable master of sex determination: bottom-up hypothesis revisited

Publisher

ROYAL SOC
DOI: 10.1098/rstb.2020.0090

Keywords

vertebrate; sex determination; bottom-up; master gene

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Funding

  1. Graduate School of Life Sciences (GSLS) PostDoc Plus funding: Deutsche Forschungsgemeinschaft (DFG) grant [SCHA 408 10-1/13-1/14-1/15-1/]

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Different groups of vertebrates and invertebrates exhibit a remarkable diversity in gene regulation for sex determination, with the possibility of evolution from the bottom to the top of the genetic network. The operation of the sex determination network is primarily through dynamic opposing male and female pathways, with a persistent need to maintain sexual identity in gonadal cells. New sex-promoting genes may arise through allelic diversification or gene duplication, acting specifically during the sex determination period without fully integrating into the network.
Different group of vertebrates and invertebrates demonstrate an amazing diversity of gene regulations not only at the top but also at the bottom of the sex determination genetic network. As early as 1995, based on emerging findings in Drosophila melanogaster and Caenorhabditis elegans, Wilkins suggested that the evolution of the sex determination pathway evolved from the bottom to the top of the hierarchy. Based on our current knowledge, this review revisits the 'bottom-up' hypothesis and applies its logic to vertebrates. The basic operation of the determination network is through the dynamics of the opposing male and female pathways together with a persistent need to maintain the sexual identity of the cells of the gonad up to the reproductive stage in adults. The sex-determining trigger circumstantially acts from outside the genetic network, but the regulatory network is not built around it as a main node, thus maintaining the genetic structure of the network. New sex-promoting genes arise either through allelic diversification or gene duplication and act specially at the sex-determination period, without integration into the complete network. Due to this peripheral position the new regulator is not an indispensable component of the sex-determining network and can be easily replaced. This article is part of the theme issue 'Challenging the paradigm in sex chromosome evolution: empirical and theoretical insights with a focus on vertebrates (Part I)'.

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