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Escape from X inactivation is directly modulated by levels of Xist non-coding RNA.

Antonia HauthJasper PantenEmma KneussChristel PicardNicolas ServantIsabell RallYuvia A Pérez-RicoLena ClerquinNila Hendrika ServaasLaura VillacortaFerris E JungChristy LuongHoward Y ChangJudith Barbara ZauggOliver StegleDuncan T OdomAgnese LodaEdith Heard
Published in: bioRxiv : the preprint server for biology (2024)
In placental females, one copy of the two X chromosomes is largely silenced during a narrow developmental time window, in a process mediated by the non-coding RNA Xist 1 . Here, we demonstrate that Xist can initiate X-chromosome inactivation (XCI) well beyond early embryogenesis. By modifying its endogenous level, we show that Xist has the capacity to actively silence genes that escape XCI both in neuronal progenitor cells (NPCs) and in vivo , in mouse embryos. We also show that Xist plays a direct role in eliminating TAD-like structures associated with clusters of escapee genes on the inactive X chromosome, and that this is dependent on Xist's XCI initiation partner, SPEN 2 . We further demonstrate that Xist's function in suppressing gene expression of escapees and topological domain formation is reversible for up to seven days post-induction, but that sustained Xist up-regulation leads to progressively irreversible silencing and CpG island DNA methylation of facultative escapees. Thus, the distinctive transcriptional and regulatory topologies of the silenced X chromosome is actively, directly - and reversibly - controlled by Xist RNA throughout life.
Keyphrases
  • dna methylation
  • gene expression
  • genome wide
  • copy number
  • transcription factor
  • high resolution
  • brain injury
  • men who have sex with men
  • hiv infected
  • antiretroviral therapy