iScience (May 2022)

Allele-specific aberration of imprinted domain chromosome architecture associates with large offspring syndrome

  • Yahan Li,
  • Frimpong Boadu,
  • Max R. Highsmith,
  • Darren E. Hagen,
  • Jianlin Cheng,
  • Rocío Melissa Rivera

Journal volume & issue
Vol. 25, no. 5
p. 104269

Abstract

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Summary: Large offspring syndrome (LOS) and Beckwith-Wiedemann syndrome are similar epigenetic congenital overgrowth conditions in ruminants and humans, respectively. We have reported global loss-of-imprinting, methylome epimutations, and gene misregulation in LOS. However, less than 4% of gene misregulation can be explained with short range (20kb in cis and in trans (other chromosomes). Our analyses focused on two imprinted domains that frequently reveal misregulation in these syndromes, namely KvDMR1 and IGF2R. Using bovine fetal fibroblasts, we identified CTCF binding at IGF2R imprinting control region but not KvDMR1, and allele-specific chromosome architecture of these domains in controls. In LOS, analyses identified erroneous long-range contacts and clustering tendency in the direction of expression of misregulated genes. In conclusion, altered chromosome architecture is associated with LOS.

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