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  • A digital twin reproducing gene regulatory network dynamics of early Ciona embryos indicates robust buffers in the network.

A digital twin reproducing gene regulatory network dynamics of early Ciona embryos indicates robust buffers in the network.

PLoS genetics (2023-09-27)
Miki Tokuoka, Yutaka Satou
ABSTRACT

How gene regulatory networks (GRNs) encode gene expression dynamics and how GRNs evolve are not well understood, although these problems have been studied extensively. We created a digital twin that accurately reproduces expression dynamics of 13 genes that initiate expression in 32-cell ascidian embryos. We first showed that gene expression patterns can be manipulated according to predictions by this digital model. Next, to simulate GRN rewiring, we changed regulatory functions that represented their regulatory mechanisms in the digital twin, and found that in 55 of 100 cases, removal of a single regulator from a conjunctive clause of Boolean functions did not theoretically alter qualitative expression patterns of these genes. In other words, we found that more than half the regulators gave theoretically redundant temporal or spatial information to target genes. We experimentally substantiated that the expression pattern of Nodal was maintained without one of these factors, Zfpm, by changing the upstream regulatory sequence of Nodal. Such robust buffers of regulatory mechanisms may provide a basis of enabling developmental system drift, or rewiring of GRNs without changing expression patterns of downstream genes, during evolution.

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Product Description

Sigma-Aldrich
U0126, U0126, CAS 109511-58-2, is a potent and specific inhibitor of MEK1 (IC₅₀ = 72 nM) and MEK2 (IC₅₀ = 58 nM). The inhibition is noncompetitive with respect to both ATP and ERK.
Sigma-Aldrich
GSK-3 Inhibitor IX, BIO, CAS 667463-62-9, is a cell-permeable, highly potent, selective, reversible, and ATP-competitive inhibitor of GSK-3α/β (IC₅₀ = 5 nM). Maintains self-renewal in human & mouse embryonic stem cells.