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Radial spoke

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Structure in undulipodium 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. 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. In all, the radial spoke is known to contain at least seventeen proteins, five in the head and twelve in 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.

Proteins

Human axonemal radial spoke subunits: RSPH1, RSPH3, RSPH4A, RSPH6A, RSPH9, RSPH10B, RSPH10B2, RSPH14.

References

  1. Karp G (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.
  2. Yang P, Diener DR, Yang C, Kohno T, Pazour GJ, Dienes JM, Agrin NS, King SM, Sale WS, Kamiya R, Rosenbaum JL, Witman GB (March 2006). "Radial spoke proteins of Chlamydomonas flagella". Journal of Cell Science. 119 (Pt 6): 1165–74. doi:10.1242/jcs.02811. PMC 1973137. PMID 16507594.
  3. Yang P, Diener DR, Rosenbaum JL, Sale WS (June 2001). "Localization of calmodulin and dynein light chain LC8 in flagellar radial spokes". The Journal of Cell Biology. 153 (6): 1315–26. doi:10.1083/jcb.153.6.1315. PMC 2192029. PMID 11402073.
  4. "Gene group: Axonemal radial spoke subunits (RSPH)". HUGO Gene Nomenclature Committee. Retrieved 28 December 2024.
Structures of the cell / organelles
Endomembrane
system
Cytoskeleton
Endosymbionts
Other internal
External
Ciliary proteins
Nephrocystin
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
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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