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A candidate sex determination locus in amphibians which evolved by structural variation between X- and Y-chromosomes

Heiner Kuhl, Wen Hui Tan, Christophe Klopp, Wibke Kleiner, Baturalp Koyun, Mitică Ciorpac, Romain Feron, Martin Knytl, Werner Kloas, Manfred Schartl, Christoph Winkler, Matthias Stöck

2024Nature Communications21 citationsDOIOpen Access PDF

Abstract

Most vertebrates develop distinct females and males, where sex is determined by repeatedly evolved environmental or genetic triggers. Undifferentiated sex chromosomes and large genomes have caused major knowledge gaps in amphibians. Only a single master sex-determining gene, the dmrt1-paralogue (dm-w) of female-heterogametic clawed frogs (Xenopus; ZW♀/ZZ♂), is known across >8740 species of amphibians. In this study, by combining chromosome-scale female and male genomes of a non-model amphibian, the European green toad, Bufo(tes) viridis, with ddRAD- and whole genome pool-sequencing, we reveal a candidate master locus, governing a male-heterogametic system (XX♀/XY♂). Targeted sequencing across multiple taxa uncovered structural X/Y-variation in the 5'-regulatory region of the gene bod1l, where a Y-specific non-coding RNA (ncRNA-Y), only expressed in males, suggests that this locus initiates sex-specific differentiation. Developmental transcriptomes and RNA in-situ hybridization show timely and spatially relevant sex-specific ncRNA-Y and bod1l-gene expression in primordial gonads. This coincided with differential H3K4me-methylation in pre-granulosa/pre-Sertoli cells, pointing to a specific mechanism of amphibian sex determination.

Topics & Concepts

Heterogametic sexBiologyLocus (genetics)GeneticsGenomeY chromosomeGeneW chromosomeAmphibianDisorders of sex developmentEvolutionary biologyChromosomeKaryotypeEcologyGenetic and Clinical Aspects of Sex Determination and Chromosomal AbnormalitiesGenetic and phenotypic traits in livestockCancer-related molecular mechanisms research
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