Yun-Qiu Shen scite author profile

Yun-Qiu Shen

5Publications

59Citation Statements Received

125Citation Statements Given

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119

Affiliations

Western Washington University, University of California, Riverside

Publications

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Interaction of Turing patterns with an external linear morphogen gradient

2009

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We investigate a simple generic model of a reaction-diffusion system consisting of an activator and an inhibitor molecule in the presence of a linear morphogen gradient. We assume that this morphogen gradient is established independently of the reaction-diffusion system and acts by increasing the production of the activator proportional to the morphogen concentration. The model is motivated by several existing models in developmental biology in which a Turing patterning mechanism is proposed and various chemical gradients are known to be important for development. Mathematically, this leads to reactiondiffusion equations with explicit spatial dependence. We investigate how the Turing pattern is affected, if it exists. We also show that in the parameter range where a Turing pattern is not possible, the system may nevertheless produce 'Turing-like' patterns.

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Newton's method for singular nonlinear equations using approximate left and right nullspaces of the Jacobian

Shen

Ypma

2005

Applied Numerical Mathematics

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Solving separable nonlinear least squares problems using the QR factorization

Shen

Ypma

2019

Journal of Computational and Applied Mathematics

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Reaction–Diffusion Systems and External Morphogen Gradients: The Two-Dimensional Case, with an Application to Skeletal Pattern Formation

et al. 2011

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We investigate a reaction-diffusion system consisting of an activator and an inhibitor in a two-dimensional domain. There is a morphogen gradient in the domain. The production of the activator depends on the concentration of the morphogen. Mathematically, this leads to reaction-diffusion equations with explicitly space-dependent terms. It is well known that in the absence of an external morphogen, the system can produce either spots or stripes via the Turing bifurcation. We derive first-order expansions for the possible patterns in the presence of an external morphogen and show how both stripes and spots are affected. This work generalizes previous one-dimensional results to two dimensions. Specifically, we consider the quasi-one-dimensional case of a thin rectangular domain and the case of a square domain. We apply the results to a model of skeletal pattern formation in vertebrate limbs. In the framework of reaction-diffusion models, our results suggest a simple explanation for some recent experimental findings in the mouse limb which are much harder to explain in positional-information-type models.

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Solving nonlinear systems of equations with only one nonlinear variable

Shen

Ypma

1990

Journal of Computational and Applied Mathematics

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Yun-Qiu Shen

Interaction of Turing patterns with an external linear morphogen gradient

Newton's method for singular nonlinear equations using approximate left and right nullspaces of the Jacobian

Solving separable nonlinear least squares problems using the QR factorization

Reaction–Diffusion Systems and External Morphogen Gradients: The Two-Dimensional Case, with an Application to Skeletal Pattern Formation

Solving nonlinear systems of equations with only one nonlinear variable

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