通过早期的生长模式和组织极性来生成叶片形状。

Generation of leaf shape through early patterns of growth and tissue polarity.

机构信息

John Innes Centre, Norwich Research Park, Norwich, UK.

出版信息

Science. 2012 Mar 2;335(6072):1092-6. doi: 10.1126/science.1214678.

Abstract

A major challenge in biology is to understand how buds comprising a few cells can give rise to complex plant and animal appendages like leaves or limbs. We address this problem through a combination of time-lapse imaging, clonal analysis, and computational modeling. We arrive at a model that shows how leaf shape can arise through feedback between early patterns of oriented growth and tissue deformation. Experimental tests through partial leaf ablation support this model and allow reevaluation of previous experimental studies. Our model allows a range of observed leaf shapes to be generated and predicts observed clone patterns in different species. Thus, our experimentally validated model may underlie the development and evolution of diverse organ shapes.

摘要

生物学的一个主要挑战是理解如何从包含少数细胞的芽中产生复杂的植物和动物附属物，如叶子或肢体。我们通过时间 lapse 成像、克隆分析和计算建模的组合来解决这个问题。我们得出一个模型，表明叶子形状如何通过早期定向生长模式和组织变形之间的反馈产生。通过部分叶片消融的实验测试支持这个模型，并允许对以前的实验研究进行重新评估。我们的模型允许生成一系列观察到的叶片形状，并预测不同物种中的观察到的克隆模式。因此，我们经过实验验证的模型可能是不同器官形状发育和进化的基础。

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通过早期的生长模式和组织极性来生成叶片形状。

Generation of leaf shape through early patterns of growth and tissue polarity.

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