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Items: 1 to 20 of 82

1.

Comparative autoregressive moving average analysis of kinetochore microtubule dynamics in yeast.

Jaqaman K, Dorn JF, Jelson GS, Tytell JD, Sorger PK, Danuser G.

Biophys J. 2006 Sep 15;91(6):2312-25.

2.

Phenotypic clustering of yeast mutants based on kinetochore microtubule dynamics.

Jaqaman K, Dorn JF, Marco E, Sorger PK, Danuser G.

Bioinformatics. 2007 Jul 1;23(13):1666-73.

3.

Mechanisms of microtubule-based kinetochore positioning in the yeast metaphase spindle.

Sprague BL, Pearson CG, Maddox PS, Bloom KS, Salmon ED, Odde DJ.

Biophys J. 2003 Jun;84(6):3529-46.

4.

Budding yeast kinetochore proteins, Chl4 and Ctf19, are required to maintain SPB-centromere proximity during G1 and late anaphase.

Sau S, Sutradhar S, Paul R, Sinha P.

PLoS One. 2014 Jul 8;9(7):e101294. doi: 10.1371/journal.pone.0101294.

5.

Tension-dependent regulation of microtubule dynamics at kinetochores can explain metaphase congression in yeast.

Gardner MK, Pearson CG, Sprague BL, Zarzar TR, Bloom K, Salmon ED, Odde DJ.

Mol Biol Cell. 2005 Aug;16(8):3764-75.

6.

Yeast kinetochores do not stabilize Stu2p-dependent spindle microtubule dynamics.

Pearson CG, Maddox PS, Zarzar TR, Salmon ED, Bloom K.

Mol Biol Cell. 2003 Oct;14(10):4181-95.

7.

Kinetochore protein interactions and their regulation by the Aurora kinase Ipl1p.

Shang C, Hazbun TR, Cheeseman IM, Aranda J, Fields S, Drubin DG, Barnes G.

Mol Biol Cell. 2003 Aug;14(8):3342-55.

8.

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.

9.

Live cell imaging of kinetochore capture by microtubules in budding yeast.

Tanaka K, Tanaka TU.

Methods Mol Biol. 2009;545:233-42. doi: 10.1007/978-1-60327-993-2_14.

PMID:
19475392
10.

Yeast Dam1p has a role at the kinetochore in assembly of the mitotic spindle.

Jones MH, He X, Giddings TH, Winey M.

Proc Natl Acad Sci U S A. 2001 Nov 20;98(24):13675-80.

11.

Phospho-regulation of kinetochore-microtubule attachments by the Aurora kinase Ipl1p.

Cheeseman IM, Anderson S, Jwa M, Green EM, Kang Js, Yates JR 3rd, Chan CS, Drubin DG, Barnes G.

Cell. 2002 Oct 18;111(2):163-72.

12.

Measuring nanometer scale gradients in spindle microtubule dynamics using model convolution microscopy.

Pearson CG, Gardner MK, Paliulis LV, Salmon ED, Odde DJ, Bloom K.

Mol Biol Cell. 2006 Sep;17(9):4069-79.

13.

Kinetochore fiber maturation in PtK1 cells and its implications for the mechanisms of chromosome congression and anaphase onset.

McEwen BF, Heagle AB, Cassels GO, Buttle KF, Rieder CL.

J Cell Biol. 1997 Jun 30;137(7):1567-80.

14.

Mps1 phosphorylation of Dam1 couples kinetochores to microtubule plus ends at metaphase.

Shimogawa MM, Graczyk B, Gardner MK, Francis SE, White EA, Ess M, Molk JN, Ruse C, Niessen S, Yates JR 3rd, Muller EG, Bloom K, Odde DJ, Davis TN.

Curr Biol. 2006 Aug 8;16(15):1489-501.

15.

Nsl1p is essential for the establishment of bipolarity and the localization of the Dam-Duo complex.

Scharfenberger M, Ortiz J, Grau N, Janke C, Schiebel E, Lechner J.

EMBO J. 2003 Dec 15;22(24):6584-97.

16.

Implication of a novel multiprotein Dam1p complex in outer kinetochore function.

Cheeseman IM, Brew C, Wolyniak M, Desai A, Anderson S, Muster N, Yates JR, Huffaker TC, Drubin DG, Barnes G.

J Cell Biol. 2001 Dec 24;155(7):1137-45.

17.
18.

Stu1 inversely regulates kinetochore capture and spindle stability.

Ortiz J, Funk C, Schäfer A, Lechner J.

Genes Dev. 2009 Dec 1;23(23):2778-91. doi: 10.1101/gad.541309.

19.

Subunit organization in the Dam1 kinetochore complex and its ring around microtubules.

Ramey VH, Wong A, Fang J, Howes S, Barnes G, Nogales E.

Mol Biol Cell. 2011 Nov;22(22):4335-42. doi: 10.1091/mbc.E11-07-0659.

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