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The evolutionary modifications of a GoLoco motif in the AGS protein facilitate micromere formation in the sea urchin embryo. | LitMetric

AI Article Synopsis

  • - The introduction of asymmetric cell division (ACD) plays a vital role in creating new cell types, leading to greater developmental and species diversity, with the sea urchin's micromere formation being a prime example.
  • - The study highlights the significance of the GoLoco motifs in the AGS protein's C-terminus in regulating micromere formation and how AGS's unique characteristics vary among echinoderms.
  • - Findings suggest that evolutionary changes in AGS contribute to differing ACD outcomes in echinoderms while maintaining their core developmental mechanisms, underscoring the role of individual molecular factors in evolutionary diversity.

Article Abstract

The evolutionary introduction of asymmetric cell division (ACD) into the developmental program facilitates the formation of a new cell type, contributing to developmental diversity and, eventually, species diversification. The micromere of the sea urchin embryo may serve as one of those examples: an ACD at the 16-cell stage forms micromeres unique to echinoids among echinoderms. We previously reported that a polarity factor, activator of G-protein signaling (AGS), plays a crucial role in micromere formation. However, AGS and its associated ACD factors are present in all echinoderms and across most metazoans. This raises the question of what evolutionary modifications of AGS protein or its surrounding molecular environment contributed to the evolutionary acquisition of micromeres only in echinoids. In this study, we learned that the GoLoco motifs at the AGS C-terminus play critical roles in regulating micromere formation in sea urchin embryos. Further, other echinoderms' AGS or chimeric AGS that contain the C-terminus of AGS orthologs from various organisms showed varied localization and function in micromere formation. In contrast, the sea star or the pencil urchin orthologs of other ACD factors were consistently localized at the vegetal cortex in the sea urchin embryo, suggesting that AGS may be a unique variable factor that facilitates ACD diversity among echinoderms. Consistently, sea urchin AGS appears to facilitate micromere-like cell formation and accelerate the enrichment timing of the germline factor Vasa during early embryogenesis of the pencil urchin, an ancestral type of sea urchin. Based on these observations, we propose that the molecular evolution of a single polarity factor facilitates ACD diversity while preserving the core ACD machinery among echinoderms and beyond during evolution.

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Source
http://dx.doi.org/10.7554/eLife.100086DOI Listing

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