Mixed-mode pattern in Doublefoot mutant mouse limb-Turing reaction-diffusion model on a growing domain during limb development

Takashi Miura; Kohei Shiota; Gillian Morriss-Kay; Philip K. Maini

doi:10.1016/j.jtbi.2005.10.016

Mixed-mode pattern in Doublefoot mutant mouse limb-Turing reaction-diffusion model on a growing domain during limb development

Takashi Miura, Kohei Shiota, Gillian Morriss-Kay, Philip K. Maini

Department of Basic Medicine

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

82 Citations (Scopus)

Abstract

It has been suggested that the Turing reaction-diffusion model on a growing domain is applicable during limb development, but experimental evidence for this hypothesis has been lacking. In the present study, we found that in Doublefoot mutant mice, which have supernumerary digits due to overexpansion of the limb bud, thin digits exist in the proximal part of the hand or foot, which sometimes become normal abruptly at the distal part. We found that exactly the same behaviour can be reproduced by numerical simulation of the simplest possible Turing reaction-diffusion model on a growing domain. We analytically showed that this pattern is related to the saturation of activator kinetics in the model. Furthermore, we showed that a number of experimentally observed phenomena in this system can be explained within the context of a Turing reaction-diffusion model. Finally, we make some experimentally testable predictions.

Original language	English
Pages (from-to)	562-573
Number of pages	12
Journal	Journal of Theoretical Biology
Volume	240
Issue number	4
DOIs	https://doi.org/10.1016/j.jtbi.2005.10.016
Publication status	Published - Jun 21 2006

All Science Journal Classification (ASJC) codes

Statistics and Probability
Modelling and Simulation
Biochemistry, Genetics and Molecular Biology(all)
Immunology and Microbiology(all)
Agricultural and Biological Sciences(all)
Applied Mathematics

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10.1016/j.jtbi.2005.10.016

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title = "Mixed-mode pattern in Doublefoot mutant mouse limb-Turing reaction-diffusion model on a growing domain during limb development",

abstract = "It has been suggested that the Turing reaction-diffusion model on a growing domain is applicable during limb development, but experimental evidence for this hypothesis has been lacking. In the present study, we found that in Doublefoot mutant mice, which have supernumerary digits due to overexpansion of the limb bud, thin digits exist in the proximal part of the hand or foot, which sometimes become normal abruptly at the distal part. We found that exactly the same behaviour can be reproduced by numerical simulation of the simplest possible Turing reaction-diffusion model on a growing domain. We analytically showed that this pattern is related to the saturation of activator kinetics in the model. Furthermore, we showed that a number of experimentally observed phenomena in this system can be explained within the context of a Turing reaction-diffusion model. Finally, we make some experimentally testable predictions.",

author = "Takashi Miura and Kohei Shiota and Gillian Morriss-Kay and Maini, {Philip K.}",

note = "Funding Information: The author is grateful for helpful discussions and comments with Drs. Mikiko Miura, Edmund Crampin, Shigeru Kondo, Atsushi Mochizuki, Axel Rossberg, Tomoyuki Ogawa and Jonathan Bard. This work is supported by Japan Society for the Promotion of Science and BBSRC. We also thank Wiley-Liss Inc. for giving us permission to use Fig. 7 c, d. ",

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doi = "10.1016/j.jtbi.2005.10.016",

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AU - Morriss-Kay, Gillian

AU - Maini, Philip K.

N1 - Funding Information: The author is grateful for helpful discussions and comments with Drs. Mikiko Miura, Edmund Crampin, Shigeru Kondo, Atsushi Mochizuki, Axel Rossberg, Tomoyuki Ogawa and Jonathan Bard. This work is supported by Japan Society for the Promotion of Science and BBSRC. We also thank Wiley-Liss Inc. for giving us permission to use Fig. 7 c, d.

PY - 2006/6/21

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N2 - It has been suggested that the Turing reaction-diffusion model on a growing domain is applicable during limb development, but experimental evidence for this hypothesis has been lacking. In the present study, we found that in Doublefoot mutant mice, which have supernumerary digits due to overexpansion of the limb bud, thin digits exist in the proximal part of the hand or foot, which sometimes become normal abruptly at the distal part. We found that exactly the same behaviour can be reproduced by numerical simulation of the simplest possible Turing reaction-diffusion model on a growing domain. We analytically showed that this pattern is related to the saturation of activator kinetics in the model. Furthermore, we showed that a number of experimentally observed phenomena in this system can be explained within the context of a Turing reaction-diffusion model. Finally, we make some experimentally testable predictions.

AB - It has been suggested that the Turing reaction-diffusion model on a growing domain is applicable during limb development, but experimental evidence for this hypothesis has been lacking. In the present study, we found that in Doublefoot mutant mice, which have supernumerary digits due to overexpansion of the limb bud, thin digits exist in the proximal part of the hand or foot, which sometimes become normal abruptly at the distal part. We found that exactly the same behaviour can be reproduced by numerical simulation of the simplest possible Turing reaction-diffusion model on a growing domain. We analytically showed that this pattern is related to the saturation of activator kinetics in the model. Furthermore, we showed that a number of experimentally observed phenomena in this system can be explained within the context of a Turing reaction-diffusion model. Finally, we make some experimentally testable predictions.

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Mixed-mode pattern in Doublefoot mutant mouse limb-Turing reaction-diffusion model on a growing domain during limb development

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