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A Developmental Model for Branching Morphogenesis of Lake Cress Compound Leaf

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  • Akiko Nakamasu
  • Hokuto Nakayama
  • Naomi Nakayama
  • Nobuhiko J Suematsu
  • Seisuke Kimura

Abstract

Lake cress, Rorippa aquatica (Brassicaceae), is a semi-aquatic plant that exhibits a variety of leaf shapes, from simple leaves to highly branched compound leaves, depending on the environment. Leaf shape can vary within a single plant, suggesting that the variation can be explained by a simple model. In order to simulate the branched structure in the compound leaves of R. aquatica, we implemented reaction-diffusion (RD) patterning onto a theoretical framework that had been developed for serration distribution in the leaves of Arabidopsis thaliana, with the modification of the one-dimensional reaction-diffusion domain being deformed with the spatial periodicity of the RD pattern while expanding. This simple method using an iterative pattern could create regular and nested branching patterns. Subsequently, we verified the plausibility of our theoretical model by comparing it with the experimentally observed branching patterns. The results suggested that our model successfully predicted both the qualitative and quantitative aspects of the timing and positioning of branching in growing R. aquatica leaves.

Suggested Citation

  • Akiko Nakamasu & Hokuto Nakayama & Naomi Nakayama & Nobuhiko J Suematsu & Seisuke Kimura, 2014. "A Developmental Model for Branching Morphogenesis of Lake Cress Compound Leaf," PLOS ONE, Public Library of Science, vol. 9(11), pages 1-7, November.
    • Handle: RePEc:plo:pone00:0111615
    DOI: 10.1371/journal.pone.0111615
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    1. Didier Reinhardt & Eva-Rachele Pesce & Pia Stieger & Therese Mandel & Kurt Baltensperger & Malcolm Bennett & Jan Traas & Jiří Friml & Cris Kuhlemeier, 2003. "Regulation of phyllotaxis by polar auxin transport," Nature, Nature, vol. 426(6964), pages 255-260, November.
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