BMC Genomics (Aug 2012)

Convergent and divergent evolution of genomic imprinting in the marsupial <it>Monodelphis domestica</it>

  • Das Radhika,
  • Anderson Nathan,
  • Koran MaryEllen I,
  • Weidman Jennifer R,
  • Mikkelsen Tarjei S,
  • Kamal Michael,
  • Murphy Susan K,
  • Linblad-Toh Kerstin,
  • Greally John M,
  • Jirtle Randy L

DOI
https://doi.org/10.1186/1471-2164-13-394
Journal volume & issue
Vol. 13, no. 1
p. 394

Abstract

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Abstract Background Genomic imprinting is an epigenetic phenomenon resulting in parent-of-origin specific monoallelic gene expression. It is postulated to have evolved in placental mammals to modulate intrauterine resource allocation to the offspring. In this study, we determined the imprint status of metatherian orthologues of eutherian imprinted genes. Results L3MBTL and HTR2A were shown to be imprinted in Monodelphis domestica (the gray short-tailed opossum). MEST expressed a monoallelic and a biallelic transcript, as in eutherians. In contrast, IMPACT, COPG2, and PLAGL1 were not imprinted in the opossum. Differentially methylated regions (DMRs) involved in regulating imprinting in eutherians were not found at any of the new imprinted loci in the opossum. Interestingly, a novel DMR was identified in intron 11 of the imprinted IGF2R gene, but this was not conserved in eutherians. The promoter regions of the imprinted genes in the opossum were enriched for the activating histone modification H3 Lysine 4 dimethylation. Conclusions The phenomenon of genomic imprinting is conserved in Therians, but the marked difference in the number and location of imprinted genes and DMRs between metatherians and eutherians indicates that imprinting is not fully conserved between the two Therian infra-classes. The identification of a novel DMR at a non-conserved location as well as the first demonstration of histone modifications at imprinted loci in the opossum suggest that genomic imprinting may have evolved in a common ancestor of these two Therian infra-classes with subsequent divergence of regulatory mechanisms in the two lineages.

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