Maria Romanova Michailidi scite author profile

Maria Romanova Michailidi

2Publications

56Citation Statements Received

7Citation Statements Given

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University of Geneva

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Morphogen gradient scaling by recycling of intracellular Dpp

Michailidi

Hadjivasiliou

Aguilar-Hidalgo

et al. 2021

Nature

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Morphogen gradients are fundamental to establish morphological patterns in developing tissues 1 . During development, gradients scale to remain proportional to the size of growing organs 2,3 . Scaling is a universal gear adjusting patterns to size in living organisms 3-8 , yet its mechanisms remain unclear. Here, focusing on the Dpp gradient in the Drosophila wing disc, we unravel a cell biological basis behind scaling. From small to large discs, scaling of the Dpp gradient is achieved by increasing the contribution of the internalized Dpp molecules to Dpp transport: to expand the gradient, endocytosed molecules are re-exocytosed to spread extracellularly. To regulate the contribution of endocytosed Dpp to the spreading extracellular pool during tissue growth, it is the Dpp binding rates that are progressively modulated by the extracellular factor Pentagone, driving scaling. Thus, for some morphogens, evolution may act on endocytic trafficking to regulate the range of the gradient and its scaling, which could allow adaptation of shape and pattern to different sizes of organs in different species.

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Mechanism of Dpp transport and Dpp gradient scaling in the wing imaginal disc of Drosophila Melanogaster

Michailidi¹

2015

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