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The molecular evolution of spermatogenesis across mammals

Author

Listed:
  • Florent Murat

    (Heidelberg University
    INRAE, LPGP)

  • Noe Mbengue

    (Heidelberg University)

  • Sofia Boeg Winge

    (Copenhagen University Hospital
    Copenhagen University Hospital
    Aarhus University)

  • Timo Trefzer

    (University of Medicine Berlin, Corporate Member of the Free University of Berlin, Humboldt-University of Berlin)

  • Evgeny Leushkin

    (Heidelberg University)

  • Mari Sepp

    (Heidelberg University)

  • Margarida Cardoso-Moreira

    (Francis Crick Institute)

  • Julia Schmidt

    (Heidelberg University)

  • Celine Schneider

    (Heidelberg University)

  • Katharina Mößinger

    (Heidelberg University)

  • Thoomke Brüning

    (Heidelberg University)

  • Francesco Lamanna

    (Heidelberg University)

  • Meritxell Riera Belles

    (Aarhus University)

  • Christian Conrad

    (University of Medicine Berlin, Corporate Member of the Free University of Berlin, Humboldt-University of Berlin)

  • Ivanela Kondova

    (Biomedical Primate Research Center (BPRC))

  • Ronald Bontrop

    (Biomedical Primate Research Center (BPRC))

  • Rüdiger Behr

    (Platform Degenerative Diseases
    Partner Site Göttingen)

  • Philipp Khaitovich

    (Skolkovo Institute of Science and Technology)

  • Svante Pääbo

    (Max Planck Institute for Evolutionary Anthropology)

  • Tomas Marques-Bonet

    (Institute of Evolutionary Biology (UPF-CSIC)
    Catalan Institution of Research and Advanced Studies (ICREA)
    Barcelona Institute of Science and Technology (BIST)
    Autonomous University of Barcelona)

  • Frank Grützner

    (University of Adelaide)

  • Kristian Almstrup

    (Copenhagen University Hospital
    Copenhagen University Hospital
    University of Copenhagen)

  • Mikkel Heide Schierup

    (Aarhus University)

  • Henrik Kaessmann

    (Heidelberg University)

Abstract

The testis produces gametes through spermatogenesis and evolves rapidly at both the morphological and molecular level in mammals1–6, probably owing to the evolutionary pressure on males to be reproductively successful7. However, the molecular evolution of individual spermatogenic cell types across mammals remains largely uncharacterized. Here we report evolutionary analyses of single-nucleus transcriptome data for testes from 11 species that cover the three main mammalian lineages (eutherians, marsupials and monotremes) and birds (the evolutionary outgroup), and include seven primates. We find that the rapid evolution of the testis was driven by accelerated fixation rates of gene expression changes, amino acid substitutions and new genes in late spermatogenic stages, probably facilitated by reduced pleiotropic constraints, haploid selection and transcriptionally permissive chromatin. We identify temporal expression changes of individual genes across species and conserved expression programs controlling ancestral spermatogenic processes. Genes predominantly expressed in spermatogonia (germ cells fuelling spermatogenesis) and Sertoli (somatic support) cells accumulated on X chromosomes during evolution, presumably owing to male-beneficial selective forces. Further work identified transcriptomal differences between X- and Y-bearing spermatids and uncovered that meiotic sex-chromosome inactivation (MSCI) also occurs in monotremes and hence is common to mammalian sex-chromosome systems. Thus, the mechanism of meiotic silencing of unsynapsed chromatin, which underlies MSCI, is an ancestral mammalian feature. Our study illuminates the molecular evolution of spermatogenesis and associated selective forces, and provides a resource for investigating the biology of the testis across mammals.

Suggested Citation

  • Florent Murat & Noe Mbengue & Sofia Boeg Winge & Timo Trefzer & Evgeny Leushkin & Mari Sepp & Margarida Cardoso-Moreira & Julia Schmidt & Celine Schneider & Katharina Mößinger & Thoomke Brüning & Fran, 2023. "The molecular evolution of spermatogenesis across mammals," Nature, Nature, vol. 613(7943), pages 308-316, January.
    • Handle: RePEc:nat:nature:v:613:y:2023:i:7943:d:10.1038_s41586-022-05547-7
    DOI: 10.1038/s41586-022-05547-7
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    Cited by:

    1. Shixuan Liu & Camille Ezran & Michael F. Z. Wang & Zhengda Li & Kyle Awayan & Jonathan Z. Long & Iwijn De Vlaminck & Sheng Wang & Jacques Epelbaum & Christin S. Kuo & Jérémy Terrien & Mark A. Krasnow , 2024. "An organism-wide atlas of hormonal signaling based on the mouse lemur single-cell transcriptome," Nature Communications, Nature, vol. 15(1), pages 1-27, December.
    2. Xena Marie Mapel & Naveen Kumar Kadri & Alexander S. Leonard & Qiongyu He & Audald Lloret-Villas & Meenu Bhati & Maya Hiltpold & Hubert Pausch, 2024. "Molecular quantitative trait loci in reproductive tissues impact male fertility in cattle," Nature Communications, Nature, vol. 15(1), pages 1-15, December.

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