Intrinsic noise, Delta-Notch signalling and delayed reactions promote sustained, coherent, synchronized oscillations in the presomitic mesoderm

Joseph W. Baron; Tobias Galla

doi:10.1098/rsif.2019.0436

Intrinsic noise, Delta-Notch signalling and delayed reactions promote sustained, coherent, synchronized oscillations in the presomitic mesoderm

Joseph W. Baron, Tobias Galla

Department of Mathematical Sciences

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

6 Citations (SciVal)

Abstract

Using a stochastic individual-based modelling approach, we examine the role that Delta-Notch signalling plays in the regulation of a robust and reliable somite segmentation clock. We find that not only can Delta-Notch signalling synchronize noisy cycles of gene expression in adjacent cells in the presomitic mesoderm (as is known), but it can also amplify and increase the coherence of these cycles. We examine some of the shortcomings of deterministic approaches to modelling these cycles and demonstrate how intrinsic noise can play an active role in promoting sustained oscillations, giving rise to noise-induced quasi-cycles. Finally, we explore how translational/transcriptional delays can result in the cycles in neighbouring cells oscillating in anti-phase and we study how this effect relates to the propagation of noise-induced stochastic waves.

Original language	English
Article number	0436
Number of pages	13
Journal	Journal of The Royal Society Interface
Volume	16
Issue number	160
Early online date	27 Nov 2019
DOIs	https://doi.org/10.1098/rsif.2019.0436
Publication status	Published - 29 Nov 2019

Bibliographical note

Publisher Copyright:
© 2019 The Author(s) Published by the Royal Society. All rights reserved.

Data Availability Statement

Electronic supplementary material discussing further details of the model and the mathematical analysis can be found on the J. R. Soc. Interface website and at https://arxiv.org/abs/1906.09236. No experimental data were obtained for this work.

Funding

J.W.B. thanks the Engineering and Physical Sciences Research Council (EPSRC) for funding (PhD studentship, EP/N509565/1). T.G. acknowledges partial financial support from the Maria de Maeztu Program for Units of Excellence in R&D (MDM-2017-0711).

Keywords

Clock-wavefront model
Delta-Notch signalling
Quasi-cycles
Somite segmentation
Stochastic fluctuations
Synchronization

ASJC Scopus subject areas

Biotechnology
Biophysics
Bioengineering
Biomaterials
Biochemistry
Biomedical Engineering

Access to Document

10.1098/rsif.2019.0436

Cite this

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abstract = "Using a stochastic individual-based modelling approach, we examine the role that Delta-Notch signalling plays in the regulation of a robust and reliable somite segmentation clock. We find that not only can Delta-Notch signalling synchronize noisy cycles of gene expression in adjacent cells in the presomitic mesoderm (as is known), but it can also amplify and increase the coherence of these cycles. We examine some of the shortcomings of deterministic approaches to modelling these cycles and demonstrate how intrinsic noise can play an active role in promoting sustained oscillations, giving rise to noise-induced quasi-cycles. Finally, we explore how translational/transcriptional delays can result in the cycles in neighbouring cells oscillating in anti-phase and we study how this effect relates to the propagation of noise-induced stochastic waves.",

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AB - Using a stochastic individual-based modelling approach, we examine the role that Delta-Notch signalling plays in the regulation of a robust and reliable somite segmentation clock. We find that not only can Delta-Notch signalling synchronize noisy cycles of gene expression in adjacent cells in the presomitic mesoderm (as is known), but it can also amplify and increase the coherence of these cycles. We examine some of the shortcomings of deterministic approaches to modelling these cycles and demonstrate how intrinsic noise can play an active role in promoting sustained oscillations, giving rise to noise-induced quasi-cycles. Finally, we explore how translational/transcriptional delays can result in the cycles in neighbouring cells oscillating in anti-phase and we study how this effect relates to the propagation of noise-induced stochastic waves.

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Intrinsic noise, Delta-Notch signalling and delayed reactions promote sustained, coherent, synchronized oscillations in the presomitic mesoderm

Abstract

Bibliographical note

Data Availability Statement

Funding

Keywords

ASJC Scopus subject areas

Access to Document

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