Radial spoke

This article is about the structure within biological organisms. For the aspect of bicycle wheel design, see Bicycle wheel § Lacing.

The radial spoke is a multi-unit protein structure found in the axonemes of eukaryotic cilia and flagella.^[1] Although experiments have determined the importance of the radial spoke in the proper function of these organelles, its structure and mode of action remain poorly understood.

Cellular location and structure

The radial spoke shown in an axoneme cross-section

Radial spokes are T-shaped structures present inside the axoneme. Each spoke consists of a "head" and a "stalk," while each of these sub-structures is itself made up of many protein subunits.^[2] In all, the radial spoke is known to contain at least 17 different proteins,^[3] with 5 located in the head and at least 12 making up the stalk. The spoke stalk binds to the A-tubule of each microtubule outer doublet, and the spoke head faces in towards the center of the axoneme (see illustration at right).

Function

The radial spoke is known to play a role in the mechanical movement of the flagellum/cilium. For example, mutant organisms lacking properly functioning radial spokes have flagella and cilia that are immotile. Radial spokes also influence the cilium "waveform"; that is, the exact bending pattern the cilium repeats.

How the radial spoke carries out this function is poorly understood. Radial spokes are believed to interact with both the central pair microtubules and the dynein arms, perhaps in a way that maintains the rhythmic activation of the dynein motors. For example, one of the radial spoke subunits, RSP3, is an anchor protein predicted to hold another protein called protein kinase A (PKA). PKA would theoretically then be able to activate/inactivate the adjacent dynein arms via its kinase activity.

However, the identities and functions of the many radial spoke subunits are just beginning to be elucidated.

References

↑ Gerald Karp (19 October 2009). Cell and Molecular Biology: Concepts and Experiments. John Wiley and Sons. pp. 342–. ISBN 978-0-470-48337-4. Retrieved 25 November 2010.
↑ Yang P, Diener DR, Yang C, et al. (March 2006). "Radial spoke proteins of Chlamydomonas flagella". J. Cell. Sci. 119 (Pt 6): 1165–74. doi:10.1242/jcs.02811. PMC 1973137. PMID 16507594.
↑ Yang P, Diener DR, Rosenbaum JL, Sale WS (June 2001). "Localization of calmodulin and dynein light chain LC8 in flagellar radial spokes". J. Cell Biol. 153 (6): 1315–26. doi:10.1083/jcb.153.6.1315. PMC 2192029. PMID 11402073.

Structures of the cell / organelles (TH H1.00.01.2-3)

Endomembrane system	Cell membrane Nucleus Nucleolus Endoplasmic reticulum Golgi apparatus Parenthesome Autophagosome Vesicles Exosome Lysosome Endosome Phagosome Vacuole Acrosome Cytoplasmic granules Melanosome Microbody Glyoxysome Peroxisome Weibel–Palade body

Cytoskeleton	Microfilaments Intermediate filaments Microtubules Prokaryotic cytoskeleton MTOCs Centrosome Centriole Basal body Spindle pole body Myofibril

Endosymbionts	Mitochondrion Plastids Chloroplast Chromoplast Gerontoplast Leucoplast Amyloplast Elaioplast Proteinoplast Tannosome

Other internal	RNA Ribosome Spliceosome Vault Cytoplasm Proteasome

External	Undulipodium Cilium Flagellum Axoneme Radial spoke Extracellular matrix Cell wall

Ciliary proteins

Nephrocystin	NPHP1 INVS NPHP3 NPHP4 IQCB1 CEP290 GLIS2 RPGRIP1L

Basal body	BBsome BBS1 BBS2 BBS4 BBS5 BBS7 TTC8 BBS9 chaperone MKKS BBS10 BBS12 Other ARL6 TRIM32 ALMS1 CC2D2A CEP290 MKS1 RPGRIP1L OFD1 AHI1 INVS NPHP4 NEK8 NPHP1

Cilia	connecting cilia LCA5 RP1 RPGR RPGRIP1 TULP1 primary cilia ARL13B INPP5E IQCB1 PKHD1 PKD1 PKD2 TMEM67

Dynein	outer dynein arms DNAH5 DNAI2 DNAL1 axoneme DNAH11 DNAI1

Radial spokes	RSPH1 RSPH3 RSPH4A RSPH6A RSPH9 RSPH10B

Other	cytoplasm KTU nucleus GLIS2 intraflagellar transport IFT80 other AHI1 ARL13B BRCC3 INPP5E KIF3A LRRC50 SDCCAG8 TMEM216 TXNDC3

see also: ciliopathy

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