Abstract
Teleost fishes, thanks to their rapid evolution of sex determination mechanisms, provide remarkable opportunities to study the formation of sex chromosomes and the mechanisms driving the birth of new master sex determining (MSD) genes. However, the evolutionary interplay between the sex chromosomes and the MSD genes they harbor is rather unexplored. We characterized a male-specific duplicate of the anti-Müllerian hormone (amh) as the MSD gene in Northern Pike (Esox lucius), using genomic and expression evidence as well as by loss-of-function and gain-of-function experiments. Using RAD-Sequencing from a family panel, we identified Linkage Group (LG) 24 as the sex chromosome and positioned the sex locus in its sub-telomeric region. Furthermore, we demonstrated that this MSD originated from an ancient duplication of the autosomal amh gene, which was subsequently translocated to LG24. Using sex-specific pooled genome sequencing and a new male genome sequence assembled using Nanopore long reads, we also characterized the differentiation of the X and Y chromosomes, revealing a small male-specific insertion containing the MSD gene and a limited region with reduced recombination. Our study reveals an unexpectedly low level of differentiation between a pair of sex chromosomes harboring an old MSD gene in a wild teleost fish population, and highlights both the pivotal role of genes from the amh pathway in sex determination, as well as the importance of gene duplication as a mechanism driving the turnover of sex chromosomes in this clade.
Highlights
The evolution of sex determination (SD) systems and sex chromosomes has sparked the interest of evolutionary biologists for decades
Population level knowledge of both the sex chromosome and the master sex determining gene is only available for the Japanese medaka, a model species
We identified and provided functional proofs of an old duplicate of anti-Mullerian hormone (Amh), a member of the Tgfβ family, as the male master sex determining gene in the Northern pike, Esox lucius. We found that this duplicate, named amhby (Y-chromosome-specific anti-Mullerian hormone paralog b), was translocated to the sub-telomeric region of the new sex chromosome, and amhby shows strong sequence divergence as well as substantial expression pattern differences from its autosomal paralog, amha
Summary
The evolution of sex determination (SD) systems and sex chromosomes has sparked the interest of evolutionary biologists for decades. Sex determination systems in fish can differ between very closely related species, as illustrated by the group of Asian ricefish (genus Oryzias) [20,21,22,23,24,25], and sometimes even among different populations of one species, as in the Southern platyfish, Xiphophorus maculatus [26]. Beside this remarkable dynamic of sex determination systems, the rapid turnover of sex chromosomes in teleosts provides many opportunities to examine sex chromosome pairs at different stages of differentiation. Recent studies on fish sex determination have revealed a dozen new master sex determining (MSD) genes [14,16,27], providing additional insight to the forces driving the turnover of SD systems and the formation of sex chromosomes
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
