* Sex chromosome evolution: We showed that the ZW pair of sex chromosomes is ancestral to the Artemia genus (Elkrewi et al., under review), but that parts of it lost recombination independently in the American and Eurasian lineages, making this system a perfect model for investigating young and older sex-linked regions.
* Dosage compensation on the Z-chromosome: We found that Z-specific genes are expressed at similar levels in males and females, supporting the presence of global dosage compensation (Huylmans et al., GBE, 2019; Elkrewi et al., under review), an uncommon occurrence in ZW systems.
* Evolution of asexuality: Only a small set of genes shows convergent shifts in expression in asexuals, suggesting that the switch to asexuality may involve few molecular changes to the meiotic program. Asexual females have neither a feminized nor masculinized transcriptome, contrary to theoretical expectations (Huylmans et al. 2021).
* A role for the Z chromosome in the transmission of asexuality: We use backcrossing experiments between a rare male (derived from an asexual lineage) and sexual females to obtain evidence for the presence of a locus controlling asexuality on the Z-chromosome (Elkrewi et al., under review), highlighting the interplay between sex determination and asexual reproduction.
* A role for sex-specific selective pressures in shaping polyploid genomes: We showed that after a whole genome duplication, duplicated genes often become “sexually subfunctionalized”, i.e. each copy is coopted by one sex, in agreement with predictions made for the resolution of sexual conflict (but previously only described in the context of individual gene duplications; Toups et al., under revision; Gammerdinger et al., under revision) .
* Evolution of the t-haplotype: We characterized this mouse selfish genetic element at the genomic level and transcriptomic level (Kelemen & Vicoso, 2018, Kelemen et al., Proc. B, 2022), and inferred highly dynamic patterns of evolution, with both loss and gain of expression as well as recruitment of gene duplicates from other chromosomes.