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Immunogenetic losses co-occurred with seahorse male pregnancy and mutation in tlx1 accompanied functional asplenia.

Yali LiuMeng QuHan JiangRalph F SchneiderGeng QinWei LuoHaiyan YuBo ZhangXin WangYanhong ZhangHuixian ZhangZhixin ZhangYongli WuYingyi ZhangJianping YinSi ZhangByrappa VenkateshOlivia RothAxel MeyerQiang Lin
Published in: Nature communications (2022)
In the highly derived syngnathid fishes (pipefishes, seadragons & seahorses), the evolution of sex-role reversed brooding behavior culminated in the seahorse lineage's male pregnancy, whose males feature a specialized brood pouch into which females deposit eggs during mating. Then, eggs are intimately engulfed by a placenta-like tissue that facilitates gas and nutrient exchange. As fathers immunologically tolerate allogenic embryos, it was suggested that male pregnancy co-evolved with specific immunological adaptations. Indeed, here we show that a specific amino-acid replacement in the tlx1 transcription factor is associated with seahorses' asplenia (loss of spleen, an organ central in the immune system), as confirmed by a CRISPR-Cas9 experiment using zebrafish. Comparative genomics across the syngnathid phylogeny revealed that the complexity of the immune system gene repertoire decreases as parental care intensity increases. The synchronous evolution of immunogenetic alterations and male pregnancy supports the notion that male pregnancy co-evolved with the immunological tolerance of the embryo.
Keyphrases
  • pregnancy outcomes
  • preterm birth
  • crispr cas
  • transcription factor
  • healthcare
  • single cell
  • amino acid
  • machine learning
  • pregnant women
  • copy number
  • quality improvement
  • health insurance
  • genome wide identification