Single-cell profiling of Anopheles gambiae spermatogenesis defines the onset of meiotic silencing and premeiotic overexpression of the X chromosome

Page, Nicole M.; Taxiarchi, Chrysanthi; Tonge, Daniel; Kuburic, Jasmina; Chesters, Emily; Kriezis, Antonios; Kyrou, Kyros; Gamé, Laurence; Nolan, Tony; Galizi, Roberto

doi:10.1038/s42003-023-05224-z

Cited by 2 publications

References 63 publications

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scRNA-seq Reveals Novel Genetic Pathways and Sex Chromosome Regulation in Tribolium Spermatogenesis

Robben,

Ramesh,

Pau

et al. 2024

Genome Biology and Evolution

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Spermatogenesis is critical to sexual reproduction yet evolves rapidly in many organisms. High throughput single cell transcriptomics promises unparalleled insight into this important process but understanding can be impeded in non-model systems by a lack of known genes that can reliably demarcate biologically meaningful cell populations. Tribolium castaneum, the red flour beetle, lacks known markers for spermatogenesis found in insect species like Drosophila melanogaster. Using single cell sequencing data collected from adult beetle testes, we implement a strategy for elucidating biologically meaningful cell populations by using transient expression stage identification markers, weighted principal component clustering, and SNP based haploid/diploid phasing. We identify populations that correspond to observable points in sperm differentiation and find species specific markers for each stage. Our results indicate that molecular pathways underlying spermatogenesis in Coleoptera are substantially diverged from those in Diptera. We also show that most genes on the X chromosome experience meiotic sex chromosome inactivation. Temporal expression of Drosophila MSL complex homologs coupled with spatial analysis of potential chromatin entry sites further suggests that the dosage compensation machinery may mediate escape from meiotic sex chromosome inactivation and postmeiotic reactivation of the X chromosome.

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scRNA-seq Reveals Novel Genetic Pathways and Sex Chromosome Regulation in Tribolium Spermatogenesis

Robben,

Ramesh,

Pau

et al. 2024

Genome Biology and Evolution

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Meiotic Sex Chromosome Inactivation: conservation across theDrosophilagenus

Avelino,

Mendonca,

Goldstein

et al. 2024

Preprint

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The inherent difference between sex chromosomes in males and females drives conflicts in gene expression, leading to adaptations such as Meiotic Sex Chromosome Inactivation (MSCI). In this study, we explore the evolutionary dynamics of MSCI within theDrosophilagenus by analyzing transcriptomes across different stages of spermatogenesis inD. melanogasterand its progressively more distant relatives, D. simulans,D. willistoni, andD. mojavensis. Stage-specific bulk RNA sequencing, showing a strong correlation in spermatogenic gene expression patterns among these species, revealed that MSCI dates back to the early evolution of theDrosophilagenus, impacting the regulation of both coding and long non-coding RNAs. Notably, for newly evolved genes, X-linked genes show higher expression levels than autosomal genes during mitosis and meiosis, indicating that MSCI predominantly regulates older genes. In contrast, newly evolved autosomal genes exhibit a gradual increase in expression throughout spermatogenesis, reaching their peak in the post-meiotic phase. During this phase, the expression of X-linked new genes decreases, eventually aligning with that of autosomal genes. This expression pattern suggests that haploid selection plays a crucial role in the regulation of new genes, with monoallelic expression of the X chromosome providing an advantage across all stages of germline development, while autosomal gene expression gains a selective edge primarily in the post-meiotic phase. Together, these findings provide new insights into the evolution of sex chromosomes and highlight the critical role of MSCI in shaping gene expression profiles inDrosophila.

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Single-cell profiling of Anopheles gambiae spermatogenesis defines the onset of meiotic silencing and premeiotic overexpression of the X chromosome

Cited by 2 publications

References 63 publications

scRNA-seq Reveals Novel Genetic Pathways and Sex Chromosome Regulation in Tribolium Spermatogenesis

scRNA-seq Reveals Novel Genetic Pathways and Sex Chromosome Regulation in Tribolium Spermatogenesis

Meiotic Sex Chromosome Inactivation: conservation across theDrosophilagenus

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