Team 15: Evolutionary Epigenomics and Genetic Conflicts

Access to genetic information is organized by epigenetic modifications and chromatin pathways. These mechanisms predate the last common ancestor to all eukaryotes and are hypothesized to perform conserved functions. Nevertheless, we find that they are subject to diversification in mammals (see publications). Genetic conflicts are well known to drive genome diversification, however their impact on epigenome evolution is poorly understood. Our team uses phylogenetics to identify chromatin pathways with evolutionary signatures of genetic conflicts, and test their function on the epigenome in vivo.

 

Recherche soutenue par la FRM, Amorçage de Jeunes Équipes (AJE201912009932).

Research

Currently, we use mouse models, mammalian cell culture and comparative epigenomics to answer the following questions:

1)    What are the functions of protein domains subject to diversification in chromatin modifying enzymes?

2)    Which evolutionary forces drive short histone H2A variants diversification in mammals?

3)    How does epigenome evolution shape normal development and disease progression in humans?

Research thematics

People

Last Name First Name Position Contact
Antoine MOLARO profile picture MOLARO Antoine Principal Investigator

Publications

  • 2020
    • A. Molaro, H. Malik and D. Bourc'his, “Dynamic evolution of de novo DNA methyltransferases in rodent and primate genomes.”, Molecular biology and evolution, 2020.
  • 2018
    • A. Molaro, J. Young and H. Malik, “Evolutionary origins and diversification of testis-specific short histone H2A variants in mammals.”, Genome Res., vol. 28 (4) , pp. 460–473, 2018.
    • J. Qu, E. Hodges, A. Molaro, P. Gagneux, M. Dean, G. Hannon and A. Smith, “Evolutionary expansion of DNA hypomethylation in the mammalian germline genome.”, Genome Res., vol. 28 (2) , pp. 145–158, 2018.
    • A. Molaro and I. Drinnenberg, “Studying the Evolution of Histone Variants Using Phylogeny.”, Meth. Mol. Biol., vol. 1832 , pp. 273–291, 2018.
  • 2017
    • A. Molaro and H. Malik, “Culture shock.”, eLife, vol. 6 , 2017.
  • 2016
    • A. Molaro and H. Malik, “Hide and seek: how chromatin-based pathways silence retroelements in the mammalian germline.”, Current opinion in genetics & development, vol. 37 , pp. 51–58, 2016.
  • 2014
    • A. Molaro, I. Falciatori, E. Hodges, A. Aravin, K. Marran, S. Rafii, W. McCombie, A. Smith and G. Hannon, “Two waves of de novo methylation during mouse germ cell development.”, Genes Dev., vol. 28 (14) , pp. 1544–9, 2014.
  • 2013
    • L. Kaaij, M. van de Wetering, F. Fang, B. Decato, A. Molaro, H. van de Werken, J. van Es, J. Schuijers, E. de Wit, W. de Laat, G. Hannon, H. Clevers, A. Smith and R. Ketting, “DNA methylation dynamics during intestinal stem cell differentiation reveals enhancers driving gene expression in the villus.”, Genome biology, vol. 14 (5) , pp. R50, 2013.
  • 2012
    • F. Fang, E. Hodges, A. Molaro, M. Dean, G. Hannon and A. Smith, “Genomic landscape of human allele-specific DNA methylation.”, Proc. Natl. Acad. Sci. U.S.A., vol. 109 (19) , pp. 7332–7, 2012.
    • F. Muerdter, I. Olovnikov, A. Molaro, N. Rozhkov, B. Czech, A. Gordon, G. Hannon and A. Aravin, “Production of artificial piRNAs in flies and mice.”, RNA, vol. 18 (1) , pp. 42–52, 2012.
  • 2011
    • E. Hodges, A. Molaro, C. Dos Santos, P. Thekkat, Q. Song, P. Uren, J. Park, J. Butler, S. Rafii, W. McCombie, A. Smith and G. Hannon, “Directional DNA methylation changes and complex intermediate states accompany lineage specificity in the adult hematopoietic compartment.”, Molecular cell, vol. 44 (1) , pp. 17–28, 2011.
    • A. Molaro, E. Hodges, F. Fang, Q. Song, W. McCombie, G. Hannon and A. Smith, “Sperm methylation profiles reveal features of epigenetic inheritance and evolution in primates.”, Cell, vol. 146 (6) , pp. 1029–41, 2011.