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Reconciling diverse mammalian pigmentation patterns with a fundamental mathematical model

Author

Listed:
  • Richard L. Mort

    (MRC Human Genetics Unit, MRC IGMM, Western General Hospital, University of Edinburgh)

  • Robert J. H. Ross

    (Wolfson Centre for Mathematical Biology, University of Oxford)

  • Kirsten J. Hainey

    (MRC Human Genetics Unit, MRC IGMM, Western General Hospital, University of Edinburgh)

  • Olivia J. Harrison

    (MRC Human Genetics Unit, MRC IGMM, Western General Hospital, University of Edinburgh)

  • Margaret A. Keighren

    (MRC Human Genetics Unit, MRC IGMM, Western General Hospital, University of Edinburgh)

  • Gabriel Landini

    (Oral Pathology Unit, School of Dentistry, College of Medical and Dental Sciences, University of Birmingham)

  • Ruth E. Baker

    (Wolfson Centre for Mathematical Biology, University of Oxford)

  • Kevin J. Painter

    (Heriot-Watt University)

  • Ian J. Jackson

    (MRC Human Genetics Unit, MRC IGMM, Western General Hospital, University of Edinburgh
    Roslin Institute, University of Edinburgh)

  • Christian A. Yates

    (Centre for Mathematical Biology, University of Bath)

Abstract

Bands of colour extending laterally from the dorsal to ventral trunk are a common feature of mouse chimeras. These stripes were originally taken as evidence of the directed dorsoventral migration of melanoblasts (the embryonic precursors of melanocytes) as they colonize the developing skin. Depigmented ‘belly spots’ in mice with mutations in the receptor tyrosine kinase Kit are thought to represent a failure of this colonization, either due to impaired migration or proliferation. Tracing of single melanoblast clones, however, has revealed a diffuse distribution with high levels of axial mixing—hard to reconcile with directed migration. Here we construct an agent-based stochastic model calibrated by experimental measurements to investigate the formation of diffuse clones, chimeric stripes and belly spots. Our observations indicate that melanoblast colonization likely proceeds through a process of undirected migration, proliferation and tissue expansion, and that reduced proliferation is the cause of the belly spots in Kit mutants.

Suggested Citation

  • Richard L. Mort & Robert J. H. Ross & Kirsten J. Hainey & Olivia J. Harrison & Margaret A. Keighren & Gabriel Landini & Ruth E. Baker & Kevin J. Painter & Ian J. Jackson & Christian A. Yates, 2016. "Reconciling diverse mammalian pigmentation patterns with a fundamental mathematical model," Nature Communications, Nature, vol. 7(1), pages 1-13, April.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms10288
    DOI: 10.1038/ncomms10288
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    Cited by:

    1. Ross, Robert J.H. & Yates, C.A. & Baker, R.E., 2017. "The effect of domain growth on spatial correlations," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 466(C), pages 334-345.

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