Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.4.4 (kinesin)
 5,033 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intraflagellar transport (IFT) is an evolutionarily conserved mechanism thought to be required for the assembly and maintenance of all eukaryotic cilia and flagella. Although IFT proteins are present in cells with sensory cilia, the organization of IFT protein complexes in those cells has not been analyzed. To determine whether the IFT complex is conserved in the sensory cilia of photo-receptors, we investigated protein interactions among four mammalian IFT proteins: IFT88/Polaris, IFT57/Hippi, IFT52/NGD5, and IFT20. We demonstrate that IFT proteins extracted from bovine photoreceptor outer segments, a modified sensory cilium, co-fractionate at approximately 17 S, similar to IFT proteins extracted from mouse testis. Using antibodies to IFT88 and IFT57, we demonstrate that all four IFT proteins co-immunoprecipitate from lysates of mouse testis, kidney, and retina. We also extended our analysis to interactions outside of the IFT complex and demonstrate an ATP-regulated co-immunoprecipitation of heterotrimeric kinesin II with the IFT complex. The internal architecture of the IFT complex was investigated using the yeast two-hybrid system. IFT20 exhibited a strong interaction with IFT57/Hippi and the kinesin II subunit, KIF3B. Our data indicate that all four mammalian IFT proteins are part of a highly conserved complex in multiple ciliated cell types. Furthermore, IFT20 appears to bridge kinesin II with the IFT complex.
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PMID:IFT20 links kinesin II with a mammalian intraflagellar transport complex that is conserved in motile flagella and sensory cilia. 1282 68

Defects in protein transport within vertebrate photoreceptors can result in photoreceptor degeneration. In developing and mature photoreceptors, proteins targeted to the outer segment are transported through the connecting cilium via the process of intraflagellar transport (IFT). In studies of vertebrate IFT, mutations in any component of the IFT particle typically abolish ciliogenesis, suggesting that IFT proteins are equally required for IFT. To determine whether photoreceptor outer segment formation depends equally on individual IFT proteins, we compared the retinal phenotypes of IFT57 and IFT88 mutant zebrafish. IFT88 mutants failed to form outer segments, whereas IFT57 mutants formed short outer segments with reduced amounts of opsin. Our phenotypic analysis revealed that IFT57 is not essential for IFT, but is required for efficient IFT. In co-immunoprecipitation experiments from whole-animal extracts, we determined that kinesin II remained associated with the IFT particle in the absence of IFT57, but IFT20 did not. Additionally, kinesin II did not exhibit ATP-dependent dissociation from the IFT particle in IFT57 mutants. We conclude that IFT20 requires IFT57 to associate with the IFT particle and that IFT57 and/or IFT20 mediate kinesin II dissociation.
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PMID:The intraflagellar transport protein IFT57 is required for cilia maintenance and regulates IFT-particle-kinesin-II dissociation in vertebrate photoreceptors. 1849 93

Intraflagellar transport (IFT) is crucial for the assembly and maintenance of cilia and is mediated by IFT particles containing IFT-A and IFT-B complexes. IFT-B powered by heterotrimeric kinesin-II and IFT-A powered by the dynein-2 complex are responsible for anterograde and retrograde protein trafficking, respectively. However, little is known about the molecular basis of the trafficking of these IFT particles regulated by kinesin and dynein motors. Using the visible immunoprecipitation assay, we identified in this study a three-to-four protein interaction involving the kinesin-II trimer KIF3A-KIF3B-KAP3 and the IFT-B-connecting tetramer IFT38-IFT52-IFT57-IFT88; among the kinesin-II subunits, KIF3B contributed mainly to IFT-B binding. Furthermore, we showed that the ciliogenesis defect of KIF3B-knockout cells can be rescued by the exogenous expression of wild-type KIF3B but not by that of its mutant compromised with respect to IFT-B binding. Thus, interaction of heterotrimeric kinesin-II with the IFT-B-connecting tetramer is crucial for ciliogenesis via the powering of IFT particles to move in the anterograde direction.
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PMID:Interaction of heterotrimeric kinesin-II with IFT-B-connecting tetramer is crucial for ciliogenesis. 2990 77

Intraflagellar transport (IFT) is a bi-directional process by which particles are carried within the cilia or flagella. This process is essential for ciliary growth and functional maintenance. The IFT complex B (IFTB) is linked to a kinesin motor for anterograde transport towards the ciliary tip. The IFT complex A (IFTA) is connected to a dynein motor for retrograde transport towards the ciliary basis. This study focuses on IFT46, an IFTB member that participates in this process. In Paramecium, a GFP-labelled IFT46 protein was found in basal bodies and in some cilia, mostly those undergoing biogenesis. RNA interference against IFT46 in Paramecium triggered severe defects in ciliary growth and architecture, including a decreased cilia number and shortened cilia length. This result differed from that obtained from the cells that were depleted of IFT80, another IFTB protein. Moreover, IFT57-GFP fusion protein abnormally accumulated in the cortex and cytoplasm in IFT46-depleted cells compared with the control. Furthermore, transcriptomic analysis showed that IFT46 depletion induced the abnormal expression of several genes that encodeding kinesin and dynein chains. These findings together indicate that IFT46 plays important roles in trafficking IFT proteins between the cytoplasm and cilia of Paramecium.
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PMID:Intraflagellar transport 46 (IFT46) is essential for trafficking IFT proteins between cilia and cytoplasm in Paramecium. 2991 51