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Items: 17

1.

Microtubule glycylation promotes attachment of basal bodies to the cell cortex.

Junker AD, Soh AWJ, O'Toole ET, Meehl JB, Guha M, Winey M, Honts JE, Gaertig J, Pearson CG.

J Cell Sci. 2019 Aug 7;132(15). pii: jcs233726. doi: 10.1242/jcs.233726.

PMID:
31243050
2.

Key phosphorylation events in Spc29 and Spc42 guide multiple steps of yeast centrosome duplication.

Jones MH, O'Toole ET, Fabritius AS, Muller EG, Meehl JB, Jaspersen SL, Winey M.

Mol Biol Cell. 2018 Sep 15;29(19):2280-2291. doi: 10.1091/mbc.E18-05-0296. Epub 2018 Jul 25.

3.

Tetrahymena Poc1 ensures proper intertriplet microtubule linkages to maintain basal body integrity.

Meehl JB, Bayless BA, Giddings TH Jr, Pearson CG, Winey M.

Mol Biol Cell. 2016 Aug 1;27(15):2394-403. doi: 10.1091/mbc.E16-03-0165. Epub 2016 Jun 1.

4.

Conventional transmission electron microscopy.

Winey M, Meehl JB, O'Toole ET, Giddings TH Jr.

Mol Biol Cell. 2014 Feb;25(3):319-23. doi: 10.1091/mbc.E12-12-0863.

5.

Sfr13, a member of a large family of asymmetrically localized Sfi1-repeat proteins, is important for basal body separation and stability in Tetrahymena thermophila.

Stemm-Wolf AJ, Meehl JB, Winey M.

J Cell Sci. 2013 Apr 1;126(Pt 7):1659-71. doi: 10.1242/jcs.120238. Epub 2013 Feb 20.

6.

The two domains of centrin have distinct basal body functions in Tetrahymena.

Vonderfecht T, Stemm-Wolf AJ, Hendershott M, Giddings TH Jr, Meehl JB, Winey M.

Mol Biol Cell. 2011 Jul 1;22(13):2221-34. doi: 10.1091/mbc.E11-02-0151. Epub 2011 May 11.

7.

Electron tomography and immuno-labeling of Tetrahymena thermophila basal bodies.

Giddings TH Jr, Meehl JB, Pearson CG, Winey M.

Methods Cell Biol. 2010;96:117-41. doi: 10.1016/S0091-679X(10)96006-8.

PMID:
20869521
8.

High pressure freezing, electron microscopy, and immuno-electron microscopy of Tetrahymena thermophila basal bodies.

Meehl JB, Giddings TH Jr, Winey M.

Methods Mol Biol. 2009;586:227-41. doi: 10.1007/978-1-60761-376-3_12.

PMID:
19768433
9.

The two SAS-6 homologs in Tetrahymena thermophila have distinct functions in basal body assembly.

Culver BP, Meehl JB, Giddings TH Jr, Winey M.

Mol Biol Cell. 2009 Mar;20(6):1865-77. doi: 10.1091/mbc.E08-08-0838. Epub 2009 Jan 21.

10.

Chromosome congression by Kinesin-5 motor-mediated disassembly of longer kinetochore microtubules.

Gardner MK, Bouck DC, Paliulis LV, Meehl JB, O'Toole ET, Haase J, Soubry A, Joglekar AP, Winey M, Salmon ED, Bloom K, Odde DJ.

Cell. 2008 Nov 28;135(5):894-906. doi: 10.1016/j.cell.2008.09.046.

11.

New Tetrahymena basal body protein components identify basal body domain structure.

Kilburn CL, Pearson CG, Romijn EP, Meehl JB, Giddings TH Jr, Culver BP, Yates JR 3rd, Winey M.

J Cell Biol. 2007 Sep 10;178(6):905-12. Epub 2007 Sep 4. Erratum in: J Cell Biol. 2007 Oct 8;179(1):167.

12.

Anaphase inactivation of the spindle checkpoint.

Palframan WJ, Meehl JB, Jaspersen SL, Winey M, Murray AW.

Science. 2006 Aug 4;313(5787):680-4. Epub 2006 Jul 6.

13.

The yeast protein kinase Mps1p is required for assembly of the integral spindle pole body component Spc42p.

Castillo AR, Meehl JB, Morgan G, Schutz-Geschwender A, Winey M.

J Cell Biol. 2002 Feb 4;156(3):453-65. Epub 2002 Feb 4.

14.

Stop-and-go movements of plant Golgi stacks are mediated by the acto-myosin system.

Nebenf├╝hr A, Gallagher LA, Dunahay TG, Frohlick JA, Mazurkiewicz AM, Meehl JB, Staehelin LA.

Plant Physiol. 1999 Dec;121(4):1127-42.

16.

Z-membranes: artificial organelles for overexpressing recombinant integral membrane proteins.

Gong FC, Giddings TH, Meehl JB, Staehelin LA, Galbraith DW.

Proc Natl Acad Sci U S A. 1996 Mar 5;93(5):2219-23.

17.

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