The intraflagellar transport protein, IFT88, is essential for vertebrate photoreceptor assembly and maintenance
The Journal of cell biology, 2002•rupress.org
Approximately 10% of the photoreceptor outer segment (OS) is turned over each day,
requiring large amounts of lipid and protein to be moved from the inner segment to the OS.
Defects in intraphotoreceptor transport can lead to retinal degeneration and blindness. The
transport mechanisms are unknown, but because the OS is a modified cilium, intraflagellar
transport (IFT) is a candidate mechanism. IFT involves movement of large protein complexes
along ciliary microtubules and is required for assembly and maintenance of cilia. We show …
requiring large amounts of lipid and protein to be moved from the inner segment to the OS.
Defects in intraphotoreceptor transport can lead to retinal degeneration and blindness. The
transport mechanisms are unknown, but because the OS is a modified cilium, intraflagellar
transport (IFT) is a candidate mechanism. IFT involves movement of large protein complexes
along ciliary microtubules and is required for assembly and maintenance of cilia. We show …
Approximately 10% of the photoreceptor outer segment (OS) is turned over each day, requiring large amounts of lipid and protein to be moved from the inner segment to the OS. Defects in intraphotoreceptor transport can lead to retinal degeneration and blindness. The transport mechanisms are unknown, but because the OS is a modified cilium, intraflagellar transport (IFT) is a candidate mechanism. IFT involves movement of large protein complexes along ciliary microtubules and is required for assembly and maintenance of cilia. We show that IFT particle proteins are localized to photoreceptor connecting cilia. We further find that mice with a mutation in the IFT particle protein gene, Tg737/IFT88, have abnormal OS development and retinal degeneration. Thus, IFT is important for assembly and maintenance of the vertebrate OS.
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