The development and function of vertebrate cilia

Roy, Sudipto

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Introduction
Paramecium (protozoan)
Vertebrate cells make two distinct kinds of cilia
Distribution of cilia in different organisms
Ciliary development is linked with cell cycle
How to build the motile cilium
The mammals transcription factor Foxj1
Motility of nodal cilia and asymmetric development
Summary
The zebrafish as a model system
Zebrafish foxj1a
Loss of Foxj1a compromises motile cilia formation
Loss of Foxj1a and asymmetry of visceral organs
Foxj1a regulates expression of dynein and centrin2
Foxj1a induce left-right dynein and centrin2
Motile ciliogenic genes are Foxj1a-dependent
Promoters of ciliary genes and Foxj1a activity
Promoters of ciliary genes and Foxj1a in vivo
Foxj1a activity induce ectopic motile cilia-like cilia
Tektin- and EFHC1-GFP fusion proteins
The Foxj1a induced ectopic cilia are motile
Conclusions (1)
Primary cilia and hedgehog signaling
Hh signaling and patterning of vertebrate embryo
Mechanism of Hh signal transduction
Hh signaling: connection with primary cilia
Activator/repressor forms of Gli
Hh pathway components localize to basal bodies
Mutation of the igu gene and Hh signaling
igu encodes a protein necessary for Gli activity
igu gene and primary cilia formation
Igu function is required for axonemal biogenesis
Motile cilia formation and Igu activity
The Igu protein localizes to basal bodies
Conclusions (2)
Acknowledgements

Topics Covered

Motile and primary cilia
Developmental regulation of ciliogenesis
Role of the Roxj1 transcription factor in motile cilia formation
Hedgehog signaling and primary cilia
DZIP1 proteins in ciliary biogenesis

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Talk Citation

Roy, S. (2010, August 4). The development and function of vertebrate cilia [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved April 15, 2025, from https://doi.org/10.69645/XLTF9545.
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