The diversity of organism morphology is heavily dependent on the evolution of the Gene regulatory networks (GRNs). However, the mechanistic basis in which change can be incorporated within these systems remains poorly understood. Evolution of the echinoderm hesC gene as a novel upstream mesoderm regulator found uniquely in the euechinoid sea urchin lineage is an intriguing example of GRN modification. In aim to reveal how novel components can be incorporated within upstream pathways, we investigated the starfish mesoderm regulatory pathway which lack the derived hesC mesoderm regulation. We show that starfish HesC is able to perform the function of endogenous HesC in the context of sea urchin embryogenesis. Furthermore, we revealed that both starfish and euechinoids employ the klf2 gene as an upstream mesoderm regulator within a similar regulatory apparatus as the euechinoid hesC. It can be speculated that klf2 played a critical role in buffering the recruitment of hesC into a similar regulatory position through a gradual exchange of players, which may be a prevalent mechanism for drastic regulatory innovations.
Regulatory innovation driven by redundant repressors; Role of klf2 for innovation of the Pmar1-HesC double-negative gate in echinoderms
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These authors contributed equally to the work
Present address: Institute of Zoology and Evolutionary Research, Friedrich Schiller University Jena, Jena, Germany.
- Award Group:
- Funder(s): Japan Society for the Promotion of Science
- Award Id(s): 18H04004,24K21983
- Funder(s):
Nina Levin, Natalia Gogoleva, Atsuko Yamazaki, Shumpei Yamakawa, Yoshiaki Morino, Hiroshi Wada; Regulatory innovation driven by redundant repressors; Role of klf2 for innovation of the Pmar1-HesC double-negative gate in echinoderms. Development 2025; dev.204492. doi: https://doi.org/10.1242/dev.204492
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