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Items: 1 to 20 of 119

1.

A FAP46 mutant provides new insights into the function and assembly of the C1d complex of the ciliary central apparatus.

Brown JM, Dipetrillo CG, Smith EF, Witman GB.

J Cell Sci. 2012 Aug 15;125(Pt 16):3904-13. doi: 10.1242/jcs.107151.

2.

CFAP54 is required for proper ciliary motility and assembly of the central pair apparatus in mice.

McKenzie CW, Craige B, Kroeger TV, Finn R, Wyatt TA, Sisson JH, Pavlik JA, Strittmatter L, Hendricks GM, Witman GB, Lee L.

Mol Biol Cell. 2015 Sep 15;26(18):3140-9. doi: 10.1091/mbc.E15-02-0121.

3.

The Pcdp1 complex coordinates the activity of dynein isoforms to produce wild-type ciliary motility.

DiPetrillo CG, Smith EF.

Mol Biol Cell. 2011 Dec;22(23):4527-38. doi: 10.1091/mbc.E11-08-0739.

4.

Pcdp1 is a central apparatus protein that binds Ca(2+)-calmodulin and regulates ciliary motility.

DiPetrillo CG, Smith EF.

J Cell Biol. 2010 May 3;189(3):601-12. doi: 10.1083/jcb.200912009.

5.

The N-DRC forms a conserved biochemical complex that maintains outer doublet alignment and limits microtubule sliding in motile axonemes.

Bower R, Tritschler D, Vanderwaal K, Perrone CA, Mueller J, Fox L, Sale WS, Porter ME.

Mol Biol Cell. 2013 Apr;24(8):1134-52. doi: 10.1091/mbc.E12-11-0801.

6.

The conserved ciliary protein Bug22 controls planar beating of Chlamydomonas flagella.

Meng D, Cao M, Oda T, Pan J.

J Cell Sci. 2014 Jan 15;127(Pt 2):281-7. doi: 10.1242/jcs.140723.

7.

The MIA complex is a conserved and novel dynein regulator essential for normal ciliary motility.

Yamamoto R, Song K, Yanagisawa HA, Fox L, Yagi T, Wirschell M, Hirono M, Kamiya R, Nicastro D, Sale WS.

J Cell Biol. 2013 Apr 15;201(2):263-78. doi: 10.1083/jcb.201211048.

8.

Methods for analysis of calcium/calmodulin signaling in cilia and flagella.

DiPetrillo CG, Smith EF.

Methods Enzymol. 2013;524:37-57. doi: 10.1016/B978-0-12-397945-2.00003-2.

PMID:
23498733
9.

The CSC is required for complete radial spoke assembly and wild-type ciliary motility.

Dymek EE, Heuser T, Nicastro D, Smith EF.

Mol Biol Cell. 2011 Jul 15;22(14):2520-31. doi: 10.1091/mbc.E11-03-0271.

10.

Reconstitution of flagellar sliding.

Alper J, Geyer V, Mukundan V, Howard J.

Methods Enzymol. 2013;524:343-69. doi: 10.1016/B978-0-12-397945-2.00019-6.

PMID:
23498749
11.

Space-dependent formation of central pair microtubules and their interactions with radial spokes.

Nakazawa Y, Ariyoshi T, Noga A, Kamiya R, Hirono M.

PLoS One. 2014 Oct 21;9(10):e110513. doi: 10.1371/journal.pone.0110513.

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14.

The CSC connects three major axonemal complexes involved in dynein regulation.

Heuser T, Dymek EE, Lin J, Smith EF, Nicastro D.

Mol Biol Cell. 2012 Aug;23(16):3143-55. doi: 10.1091/mbc.E12-05-0357.

15.
16.

Modes of flagellar assembly in Chlamydomonas reinhardtii and Trypanosoma brucei.

Höög JL, Lacomble S, O'Toole ET, Hoenger A, McIntosh JR, Gull K.

Elife. 2014;3:e01479. doi: 10.7554/eLife.01479.

17.

A solid-state control system for dynein-based ciliary/flagellar motility.

King SM.

J Cell Biol. 2013 Apr 15;201(2):173-5. doi: 10.1083/jcb.201302077.

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19.

FAP20 is an inner junction protein of doublet microtubules essential for both the planar asymmetrical waveform and stability of flagella in Chlamydomonas.

Yanagisawa HA, Mathis G, Oda T, Hirono M, Richey EA, Ishikawa H, Marshall WF, Kikkawa M, Qin H.

Mol Biol Cell. 2014 May;25(9):1472-83. doi: 10.1091/mbc.E13-08-0464.

20.

Conserved structural motifs in the central pair complex of eukaryotic flagella.

Carbajal-González BI, Heuser T, Fu X, Lin J, Smith BW, Mitchell DR, Nicastro D.

Cytoskeleton (Hoboken). 2013 Feb;70(2):101-20. doi: 10.1002/cm.21094.

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