Frontiers in Cell and Developmental Biology (Oct 2022)

Regulatory factor identification for nodal genes in zebrafish by causal inference

  • Cencan Xing,
  • Cencan Xing,
  • Zehua Zeng,
  • Yaqi Li,
  • Bo Gong,
  • Weimin Shen,
  • Roshan Shah,
  • Lu Yan,
  • Hongwu Du,
  • Anming Meng,
  • Anming Meng

DOI
https://doi.org/10.3389/fcell.2022.1047363
Journal volume & issue
Vol. 10

Abstract

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Activation of nodal genes is critical for mesoderm and endoderm induction. Our previous study reported that zebrafish nodal genes ndr1/squint and ndr2/cyclops are coordinately regulated by maternal Eomesa, Hwa-activated β-catenin (Hwa/β-catenin) signaling, and Nodal autoregulation (Nodal/Smad2) signaling. However, the exact contribution and underlying mechanisms are still elusive. Here, we applied “causal inference” to evaluate the causal between the independent and dependent variables, and we found that Hwa/β-catenin and Smad2 are the cause of ndr1 activation, while Eomesa is the cause of ndr2 activation. Mechanistically, the different cis-regulatory regions of ndr1 and ndr2 bound by Eomesa, β-catenin, and Smad2 were screened out via ChIP-qPCR and verified by the transgene constructs. The marginal GFP expression driven by ndr1 transgenesis could be diminished without both maternal Eomesa and Hwa/β-catenin, while Eomesa, not β-catenin, could bind and activate ndr2 demonstrated by ndr2 transgenesis. Thus, the distinct regulation of ndr1/ndr2 relies on different cis-regulatory regions.

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