Leonie Alten scite author profile

The mouse homeobox gene Noto represents the homologue of zebrafish floating head ( flh ) and is expressed in the organizer node and in the nascent notochord. Previous analyses suggested that Noto is required exclusively for the formation of the caudal part of the notochord. Here, we show that Noto is also essential for node morphogenesis, controlling ciliogenesis in the posterior notochord, and the establishment of laterality, whereas organizer functions in anterior–posterior patterning are apparently not compromised. In mutant embryos, left–right asymmetry of internal organs and expression of laterality markers was randomized. Mutant posterior notochord regions were variable in size and shape, cilia were shortened with highly irregular axonemal microtubuli, and basal bodies were, in part, located abnormally deep in the cytoplasm. The transcription factor Foxj1 , which regulates the dynein gene Dnahc11 and is required for the correct anchoring of basal bodies in lung epithelial cells, was down-regulated in mutant nodes. Likewise, the transcription factor Rfx3 , which regulates cilia growth, was not expressed in Noto mutants, and various other genes important for cilia function or assembly such as Dnahc5 and Nphp3 were down-regulated. Our results establish Noto as an essential regulator of node morphogenesis and ciliogenesis in the posterior notochord, and suggest Noto acts upstream of Foxj1 and Rfx3 .

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Identification of FOXJ1 effectors during ciliogenesis in the foetal respiratory epithelium and embryonic left-right organiser of the mouse

Stauber

Weidemann

Dittrich–Breiholz

et al. 2017

Developmental Biology

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Differential regulation of node formation, nodal ciliogenesis and cilia positioning by Noto and Foxj1

Alten

Schuster-Gossler

Beckers

et al. 2012

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The mouse transcription factor Noto is expressed in the node and controls node morphogenesis, formation of nodal cilia and left-right asymmetry. Noto acts upstream of Foxj1, which regulates ciliogenesis in other mouse tissues. However, the significance of Foxj1 for the formation of cilia in the mouse node is unclear; in non-amniote species Foxj1 is required for ciliogenesis in the structures equivalent to the node. Here, we analyzed nodes, nodal cilia and nodal flow in mouse embryos in which we replaced the Noto-coding sequence with that of Foxj1, or in embryos that were deficient for Foxj1. We show that Foxj1 expressed from the Noto locus is functional and restores the formation of structurally normal motile cilia in the absence of Noto. However, Foxj1 is not sufficient for the correct positioning of cilia on the cell surface within the plane of the nodal epithelium, and cannot restore normal node morphology. We also show that Foxj1 is essential for ciliogenesis upstream of Rfx3 in the node. Thus, the function of Foxj1 in vertebrate organs of asymmetry is conserved, and Noto regulates node morphogenesis and the posterior localization of cilia on node cells independently of Foxj1.

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Leonie Alten

The mouse homeobox gene Noto regulates node morphogenesis, notochordal ciliogenesis, and left–right patterning

Identification of FOXJ1 effectors during ciliogenesis in the foetal respiratory epithelium and embryonic left-right organiser of the mouse

Differential regulation of node formation, nodal ciliogenesis and cilia positioning by Noto and Foxj1

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