Luis Pacheco scite author profile

SUMMARYThe importance of cilia in embryonic development and adult physiology is emphasized by human ciliopathies. Despite its relevance, molecular signalling pathways behind cilia formation are poorly understood. We show that Notch signalling is a key pathway for cilia length control. In deltaD zebrafish mutants, cilia length is reduced in Kupffer´s vesicle and can be rescued by the ciliogenic factor foxj1a. Conversely, cilia length increases when Notch signalling is hyperactivated. Short cilia found in deltaD mutants reduce the fluid flow velocity inside Kupffer´s vesicle, thus compromising the asymmetric expression of the flow sensor charon. Notch signalling brings together ciliary length control and fluid flow hydrodynamics with transcriptional activation of laterality genes. In addition, our deltaD mutant analysis discloses an uncoupling between gut and heart laterality.

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16-P010 A novel role for notch signalling in left–right determination through ciliary length control

Lopes

Lourenço

Pacheco

et al. 2009

Mechanisms of Development

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Luis Pacheco

Notch signalling regulates left-right asymmetry through ciliary length control

16-P010 A novel role for notch signalling in left–right determination through ciliary length control

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