Stability analysis of non-autonomous reaction-diffusion systems: the effects of growing domains A Madzvamuse, EA Gaffney, PK Maini Journal of mathematical biology 61 (1), 133-164, 2010 | 164* | 2010 |

A moving grid finite element method applied to a model biological pattern generator A Madzvamuse, AJ Wathen, PK Maini Journal of computational physics 190 (2), 478-500, 2003 | 147 | 2003 |

Time-stepping schemes for moving grid finite elements applied to reaction–diffusion systems on fixed and growing domains A Madzvamuse Journal of computational physics 214 (1), 239-263, 2006 | 138 | 2006 |

The surface finite element method for pattern formation on evolving biological surfaces R Barreira, CM Elliott, A Madzvamuse Journal of mathematical biology 63 (6), 1095-1119, 2011 | 122 | 2011 |

A numerical approach to the study of spatial pattern formation A Madzvamuse University of Oxford, 2000 | 106 | 2000 |

Velocity-induced numerical solutions of reaction-diffusion systems on continuously growing domains A Madzvamuse, PK Maini Journal of computational physics 225 (1), 100-119, 2007 | 100 | 2007 |

A moving grid finite element method for the simulation of pattern generation by Turing models on growing domains A Madzvamuse, PK Maini, AJ Wathen Journal of Scientific Computing 24 (2), 247-262, 2005 | 96 | 2005 |

A model for colour pattern formation in the butterfly wing of *Papilio dardanus*T Sekimura, A Madzvamuse, AJ Wathen, PK Maini Proceedings of the Royal Society of London. Series B: Biological Sciences …, 2000 | 82 | 2000 |

A numerical approach to the study of spatial pattern formation in the ligaments of arcoid bivalves A Madzvamuse, RDK Thomas, PK Maini, AJ Wathen Bulletin of mathematical biology 64 (3), 501-530, 2002 | 81 | 2002 |

Pigmentation pattern formation in butterflies: experiments and models HF Nijhout, PK Maini, A Madzvamuse, AJ Wathen, T Sekimura Comptes Rendus Biologies 326 (8), 717-727, 2003 | 62 | 2003 |

Stability analysis and simulations of coupled bulk-surface reaction–diffusion systems A Madzvamuse, AHW Chung, C Venkataraman Proceedings of the Royal Society A: Mathematical, Physical and Engineering …, 2015 | 61 | 2015 |

Implicit--explicit timestepping with finite element approximation of reaction--diffusion systems on evolving domains O Lakkis, A Madzvamuse, C Venkataraman SIAM Journal on Numerical Analysis 51 (4), 2309-2330, 2013 | 49 | 2013 |

A mechanochemical model of striae distensae SJ Gilmore, BL Vaughan Jr, A Madzvamuse, PK Maini Mathematical biosciences 240 (2), 141-147, 2012 | 44 | 2012 |

A coupled bulk-surface model for cell polarisation D Cusseddu, L Edelstein-Keshet, JA Mackenzie, S Portet, A Madzvamuse Journal of theoretical biology 481, 119-135, 2019 | 43 | 2019 |

Two interlinked bistable switches govern mitotic control in mammalian cells S Rata, MFSP Rodriguez, S Joseph, N Peter, FE Iturra, F Yang, ... Current biology 28 (23), 3824-3832. e6, 2018 | 41 | 2018 |

The bulk-surface finite element method for reaction–diffusion systems on stationary volumes A Madzvamuse, AHW Chung Finite Elements in Analysis and Design 108, 9-21, 2016 | 40 | 2016 |

Modeling parr-mark pattern formation during the early development of Amago trout C Venkataraman, T Sekimura, EA Gaffney, PK Maini, A Madzvamuse Physical Review E 84 (4), 041923, 2011 | 38 | 2011 |

Global existence for semilinear reaction–diffusion systems on evolving domains C Venkataraman, O Lakkis, A Madzvamuse Journal of mathematical biology 64 (1), 41-67, 2012 | 37 | 2012 |

A sensor kinase controls turgor-driven plant infection by the rice blast fungus LS Ryder, YF Dagdas, MJ Kershaw, C Venkataraman, A Madzvamuse, ... Nature 574 (7778), 423-427, 2019 | 36 | 2019 |

Mathematical modelling and numerical simulations of actin dynamics in the eukaryotic cell UZ George, A Stéphanou, A Madzvamuse Journal of mathematical biology 66 (3), 547-593, 2013 | 34 | 2013 |