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Extraordinary variability in gene activation and repression programs during gonadal sex differentiation across vertebrates

Núria Sánchez-Baizán, Ignasi Jarne-Sanz, Álvaro S. Roco, Manfred Schartl, Francesc Piferrer

2024Frontiers in Cell and Developmental Biology15 citationsDOIOpen Access PDF

Abstract

Genes involved in gonadal sex differentiation have been traditionally thought to be fairly conserved across vertebrates, but this has been lately questioned. Here, we performed the first comparative analysis of gonadal transcriptomes across vertebrates, from fish to mammals. Our results unambiguously show an extraordinary overall variability in gene activation and repression programs without a phylogenetic pattern. During sex differentiation, genes such as dmrt1 , sox9 , amh , cyp19a and foxl2 were consistently either male- or female-enriched across species while many genes with the greatest expression change within each sex were not. We also found that downregulation in the opposite sex, which had only been quantified in the mouse model, was also prominent in the rest of vertebrates. Finally, we report 16 novel conserved markers (e.g., fshr and dazl ) and 11 signaling pathways. We propose viewing vertebrate gonadal sex differentiation as a hierarchical network, with conserved hub genes such as sox9 and amh alongside less connected and less conserved nodes. This proposed framework implies that evolutionary pressures may impact genes based on their level of connectivity.

Topics & Concepts

BiologySexual differentiationTranscriptomeGenePsychological repressionSOX9VertebrateGeneticsDisorders of sex developmentTestis determining factorGene regulatory networkPhylogenetic treeEvolutionary biologyConserved sequenceSex reversalGene expressionY chromosomeBase sequenceGenetic and Clinical Aspects of Sex Determination and Chromosomal AbnormalitiesAnimal Genetics and ReproductionGenetic and phenotypic traits in livestock