PLoS Biology (Jun 2006)

X chromosomes alternate between two states prior to random X-inactivation.

  • Susanna Mlynarczyk-Evans,
  • Morgan Royce-Tolland,
  • Mary Kate Alexander,
  • Angela A Andersen,
  • Sundeep Kalantry,
  • Joost Gribnau,
  • Barbara Panning

DOI
https://doi.org/10.1371/journal.pbio.0040159
Journal volume & issue
Vol. 4, no. 6
p. e159

Abstract

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Early in the development of female mammals, one of the two X chromosomes is silenced in half of cells and the other X chromosome is silenced in the remaining half. The basis of this apparent randomness is not understood. We show that before X-inactivation, the two X chromosomes appear to exist in distinct states that correspond to their fates as the active and inactive X chromosomes. Xist and Tsix, noncoding RNAs that control X chromosome fates upon X-inactivation, also determine the states of the X chromosomes prior to X-inactivation. In wild-type ES cells, X chromosomes switch between states; among the progeny of a single cell, a given X chromosome exhibits each state with equal frequency. We propose a model in which the concerted switching of homologous X chromosomes between mutually exclusive future active and future inactive states provides the basis for the apparently random silencing of one X chromosome in female cells.