Evolution and expression of glial cells missing (GCM1 and GCM2) in monotremes suggest an ancient role in reproduction
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2025
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Wilson, I.
Hamdan, D.D.M.
van der Ploeg, R.
Perry, T.
Grützner, F.
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Open Biology, 2025; 15(12):250083-1-250083-11
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Isabella Wilson, Diana Demiyah Mohd Hamdan, Rachel van der Ploeg, Tahlia Perry, and Frank Grützner
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The glial cells missing (GCM) genes were first discovered in Drosophila and encode transcription factors important for gliogenesis. In placental mammals, GCM1 regulates several genes that are important for early placenta development, while its paralogue GCM2 is important for parathyroid gland development. The egg-laying monotremes, which represent the most diverged extant mammalian lineage, undergo a short period of intrauterine development and form a simple placenta. To gain more insight into the evolution of GCM genes, we analysed the sequence, expression and genomic localization of GCM1 and GCM2 genes in the platypus and echidna. We found that the chromosomal localization of GCM1 changed after the divergence of therian mammals, coinciding with the evolution of a complex placenta. Expression analysis revealed the presence of GCM transcripts in male and female monotreme gonads, as well as expression of GCM1 in the female reproductive tract. GCM-binding sites in target genes associated with placental development in therian mammals were also present in the monotremes and the chicken. Together, this suggests that the role of GCM1 in reproduction emerged early in mammalian evolution.
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© 2025 The Authors. Published by the Royal Society under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, provided the original author and source are credited.