Response to nodal morphogen gradient is determined by the kinetics of target gene induction

Julien Dubrulle; Benjamin M. Jordan; Laila Akhmetova; Jeffrey A. Farrell; Seok Hyung Kim; Lilianna Solnica-Krezel; Alexander F. Schier

doi:10.7554/eLife.05042.001

Response to nodal morphogen gradient is determined by the kinetics of target gene induction

Julien Dubrulle, Benjamin M. Jordan, Laila Akhmetova, Jeffrey A. Farrell, Seok Hyung Kim, Lilianna Solnica-Krezel, Alexander F. Schier

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

Morphogen gradients expose cells to different signal concentrations and induce target genes with different ranges of expression. To determine how the Nodal morphogen gradient induces distinct gene expression patterns during zebrafish embryogenesis, we measured the activation dynamics of the signal transducer Smad2 and the expression kinetics of long- and short-range target genes. We found that threshold models based on ligand concentration are insufficient to predict the response of target genes. Instead, morphogen interpretation is shaped by the kinetics of target gene induction: the higher the rate of transcription and the earlier the onset of induction, the greater the spatial range of expression. Thus, the timing and magnitude of target gene expression can be used to modulate the range of expression and diversify the response to morphogen gradients.

Original language	English
Article number	e05042
Journal	eLife
Volume	2015
Issue number	4
DOIs	https://doi.org/10.7554/eLife.05042.001
State	Published - Apr 14 2015

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title = "Response to nodal morphogen gradient is determined by the kinetics of target gene induction",

abstract = "Morphogen gradients expose cells to different signal concentrations and induce target genes with different ranges of expression. To determine how the Nodal morphogen gradient induces distinct gene expression patterns during zebrafish embryogenesis, we measured the activation dynamics of the signal transducer Smad2 and the expression kinetics of long- and short-range target genes. We found that threshold models based on ligand concentration are insufficient to predict the response of target genes. Instead, morphogen interpretation is shaped by the kinetics of target gene induction: the higher the rate of transcription and the earlier the onset of induction, the greater the spatial range of expression. Thus, the timing and magnitude of target gene expression can be used to modulate the range of expression and diversify the response to morphogen gradients.",

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AU - Farrell, Jeffrey A.

AU - Kim, Seok Hyung

AU - Solnica-Krezel, Lilianna

AU - Schier, Alexander F.

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AB - Morphogen gradients expose cells to different signal concentrations and induce target genes with different ranges of expression. To determine how the Nodal morphogen gradient induces distinct gene expression patterns during zebrafish embryogenesis, we measured the activation dynamics of the signal transducer Smad2 and the expression kinetics of long- and short-range target genes. We found that threshold models based on ligand concentration are insufficient to predict the response of target genes. Instead, morphogen interpretation is shaped by the kinetics of target gene induction: the higher the rate of transcription and the earlier the onset of induction, the greater the spatial range of expression. Thus, the timing and magnitude of target gene expression can be used to modulate the range of expression and diversify the response to morphogen gradients.

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Response to nodal morphogen gradient is determined by the kinetics of target gene induction

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