Tension-sensitive kinetochore phosphorylation and the chromosome distribution checkpoint in praying mantid spermatocytes

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Aristarkhov, A., Eytan, E., Moghe, A., Admon, A., Hershko, A. and Ruderman, J. V (1996). E2-C, a cyclin-selective ubiquitin carrier protein required for the destruction of mitotic cyclins. Proc. Nat. Acad. Sci. USA 93, 4294-4299.[Abstract/Free Full Text]

Balczon, R., Bao, L., Zimmer, W. E., Brown, K., Zinkowski, R. P. and Brinkley, B. R (1995). Dissociation of centrosome replication events from cycles of DNA synthesis and mitotic division in hydroxyurea-arrested Chinese hamster ovary cells. J. Cell Biol 130, 105-115.[Abstract/Free Full Text]

Campbell, M. S., Gersch, M. S., Daum, J. and Gorbsky, G. J (1995). Bound and soluble kinases can regenerate the 3F3/2 mitotic checkpoint phosphorylation at kinetochores in lysed cells. Mol. Biol. Cell 6, 6-.

Campbell, M. S. and Gorbsky, G. J (1995). Microinjection of mitotic cells with 3F3/2 anti-phosphoepitope antibody delays the onset of anaphase. J. Cell Biol 129, 1195-1204.[Abstract/Free Full Text]

Chen, R.-H., Waters, J. C., Salmon, E. D. and Murray, A. W (1996). Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores. Science 274, 242-246.[Abstract/Free Full Text]

Connelly, C. and Hieter, P (1996). Budding yeast SKP1 encodes an evolutionarily conserved kinetochore protein required for cell cycle progression. Cell 86, 275-285.[Medline]

Cyert, M. S., Scherson, T. and Kirschner, M. W (1988). Monoclonal antibodies specific for thiophosphorylated proteins recognize Xenopus MPF. Dev. Biol 129, 209-216.[Medline]

Gard, D. L., Hafezi, S., Zhang, T. and Doxsey, S. J (1990). Centrosome duplication continues in cycloheximide-treated Xenopus blastulae in the absence of a detectable cell cycle. J. Cell Biol 110, 2033-2042.[Abstract/Free Full Text]

Glotzer, M (1995). The only way out of mitosis. Curr. Biol 5, 970-972.[Medline]

Gorbsky, G. J. and Ricketts, W. A (1993). Differential expression of a phosphoepitope at the kinetochores of moving chromosomes. J. Cell Biol 122, 1311-1321.[Abstract/Free Full Text]

Hardwick, K. G. and Murray, A. W (1995). Mad1p, a phosphoprotein component of the spindle assembly checkpoint in budding yeast. J. Cell Biol 131, 709-720.[Abstract/Free Full Text]

Hardwick, K. G., Weiss, E., Luca, F. C., Winey, M. and Murray, A. W (1996). Activation of the budding yeast spindle assembly checkpoint without mitotic spindle disruption. Science 273, 953-956.[Abstract]

Hartwell, L. H. and Weinert, T. A (1989). Checkpoints: controls that ensure the order of cell cycle events. Science 246, 629-634.[Abstract/Free Full Text]

Hayden, J. H., Bowser, S. S. and Rieder, C. L (1990). Kinetochores capture astral microtubules during chromosome attachment to the mitotic spindle: direct visualization in live newt lung cells. J. Cell Biol 111, 1039-1045.[Abstract/Free Full Text]

Hoyt, M. A., Totis, L. and Roberts, B. T (1991). S. cerevisiae genes required for cell cycle arrest in response to loss of microtubule function. Cell 66, 507-517.[Medline]

Jacobs, P. A. and Hassold, T. J (1995). The origin of numerical chromosome abnormalities. Advan. Genet 33, 101-133.[Medline]

King, R. W., Jackson, P. K. and Kirschner, M. W (1994). Mitosis in transition. Cell 79, 563-571.[Medline]

Li, R. and Murray, A. W (1991). Feedback control of mitosis in budding yeast. Cell 66, 519-531.[Medline]

Li, X. and Nicklas, R. B (1995). Mitotic forces control a cell-cycle checkpoint. Nature 373, 630-632.[Medline]

McIntosh, J. R (1991). Structural and mechanical control of mitotic progression. Cold Spring Harbor Symp. Quant. Biol 56, 613-619.[Medline]

Minshull, J., Sun, H., Tonks, N. K. and Murray, A. W (1994). A MAP kinase-dependent spindle assembly checkpoint in Xenopus egg extracts. Cell 79, 475-486.[Medline]

Murray, A (1994). Cell cycle checkpoints. Curr. Opin.Cell Biol 6, 872-876.[Medline]

Murray, A. W (1995). Cyclin ubiquitination: the destructive end of mitosis. Cell 81, 149-152.[Medline]

Neff, M. W. and Burke, D. J (1992). A delay in the Saccharomyces cerevisiae cell cycle that is induced by a dicentric chromosome and dependent upon mitotic checkpoints. Mol. Cell Biol 12, 3857-3864.[Abstract/Free Full Text]

Nicklas, R. B. and Kubai, D. F (1985). Microtubules, chromosome movement, and reorientation after chromosomes are detached from the spindle by micromanipulation. Chromosoma 92, 313-324.[Medline]

Nicklas, R. B (1988). Chance encounters and precision in mitosis. J. Cell Sci 89, 283-285.[Free Full Text]

Nicklas, R. B. and Arana, P (1992). Evolution and the meaning of metaphase. J. Cell Sci 102, 681-690.[Abstract/Free Full Text]

Nicklas, R. B. and Ward, S. C (1994). Elements of error correction in mitosis: microtubule capture, release and tension. J. Cell Biol 126, 1241-1253.[Abstract/Free Full Text]

Nicklas, R. B., Ward, S. C. and Gorbsky, G. J (1995). Kinetochore chemistry is sensitive to tension and may link mitotic forces to a cell cycle checkpoint. J. Cell Biol 130, 929-939.[Abstract/Free Full Text]

Nicklas, R. B (1997). How cells get the right chromosomes. Science 275, 632-637.[Abstract/Free Full Text]

Nowell, P. C (1993). Chromosomes and cancer: the evolution of an idea. Advan. Cancer Res 62, 1-17.[Medline]

Pangilinan, F. and Spencer, F (1996). Abnormal kinetochore structure activates the spindle assembly checkpoint in budding yeast. Mol. Biol. Cell 7, 1195-1208.[Abstract]

Paweletz, N., Mazia, D. and Finze, E.-M (1984). The centrosome cycle in the mitotic cycle of sea urchin eggs. Exp. Cell Res 152, 47-65.[Medline]

Rieder, C. L. and Alexander, S. P (1990). Kinetochores are transported poleward along a single astral microtubule during chromosome attachment to the spindle in newt lung cells. J. Cell Biol 110, 81-95.[Abstract/Free Full Text]

Rieder, C. L., Schultz, A., Cole, R. and Sluder, G (1994). Anaphase onset in vertebrate somatic cells is controlled by a checkpoint that monitors sister kinetochore attachment to the spindle. J. Cell Biol 127, 1301-1310.[Abstract/Free Full Text]

Rieder, C. L., Cole, R. W., Khodjakov, A. and Sluder, G (1995). The checkpoint delaying anaphase in response to chromosome monoorientation is mediated by an inhibitory signal produced by unattached kinetochores. J. Cell Biol 130, 941-948.[Abstract/Free Full Text]

Sluder, G., Miller, F. J. and Rieder, C. L (1986). The reproduction of centrosomes: nuclear versus cytoplasmic controls. J. Cell Biol 103, 1873-1881.[Abstract/Free Full Text]

Sluder, G., Miller, F. J., Thompson, E. A. and Wolf, D. E (1994). Feedback control of the metaphase-anaphase transition in sea urchin zygotes: role of maloriented chromosomes. J. Cell Biol 126, 189-198.[Abstract/Free Full Text]

Spencer, F. and Hieter, P (1992). Centromere DNA mutations induce a mitotic delay in Saccharomyces cerevisiae. Proc. Nat. Acad. Sci. USA 89, 8908-8912.[Abstract/Free Full Text]

Tugendreich, S., Tomkiel, J., Earnshaw, W. and Hieter, P (1995). CDC27Hs colocalizes with CDC16Hs to the centrosome and mitotic spindle and is essential for the metaphase to anaphase transition. Cell 81, 261-268.[Medline]

Wells, W. A. E. and Murray, A. W (1996). Aberrantly segregating centromeres activate the spindle assembly checkpoint in budding yeast. J. Cell Biol 133, 75-84.[Abstract/Free Full Text]

Zirkle, R. E (1970). Ultraviolet-microbeam irradiation of newt-cell cytoplasm: spindle destruction, false anaphase, and delay of true anaphase. Radiation Res 41, 516-537.[Medline]

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Articles by Li, X.

Articles by Nicklas, R. B.

				E. Logarinho, H. Bousbaa, J. M. Dias, C. Lopes, I. Amorim, A. Antunes-Martins, and C. E. Sunkel Different spindle checkpoint proteins monitor microtubule attachment and tension at kinetochores in Drosophila cells J. Cell Sci., May 1, 2004; 117(9): 1757 - 1771. [Abstract] [Full Text] [PDF]

				R. M. Douglas and G. G. Haddad Genetic Models in Applied Physiology: Invited Review: Effect of oxygen deprivation on cell cycle activity: a profile of delay and arrest J Appl Physiol, May 1, 2003; 94(5): 2068 - 2083. [Abstract] [Full Text] [PDF]

				P. J. Wilson, A. Forer, and D. Wise Microtubule distribution during meiosis I in flea-beetle [Alagoasa (Oedionychus)] spermatocytes: evidence for direct connections between unpaired sex chromosomes J. Cell Sci., April 1, 2003; 116(7): 1235 - 1247. [Abstract] [Full Text] [PDF]

				S.-T. Liu, G. K.T. Chan, J. C. Hittle, G. Fujii, E. Lees, and T. J. Yen Human MPS1 Kinase Is Required for Mitotic Arrest Induced by the Loss of CENP-E from Kinetochores Mol. Biol. Cell, April 1, 2003; 14(4): 1638 - 1651. [Abstract] [Full Text] [PDF]

				J. Zhou, J. Yao, and H. C. Joshi Attachment and tension in the spindle assembly checkpoint J. Cell Sci., September 15, 2002; 115(18): 3547 - 3555. [Abstract] [Full Text] [PDF]

				P. M. Garber and J. Rine Overlapping Roles of the Spindle Assembly and DNA Damage Checkpoints in the Cell-Cycle Response to Altered Chromosomes in Saccharomyces cerevisiae Genetics, June 1, 2002; 161(2): 521 - 534. [Abstract] [Full Text] [PDF]

				S. Eaker, A. Pyle, J. Cobb, and M. A. Handel Evidence for meiotic spindle checkpoint from analysis of spermatocytes from Robertsonian-chromosome heterozygous mice J. Cell Sci., March 10, 2002; 114(16): 2953 - 2965. [Abstract] [Full Text] [PDF]

				D. Cimini, D. Fioravanti, E. D. Salmon, and F. Degrassi Merotelic kinetochore orientation versus chromosome mono-orientation in the origin of lagging chromosomes in human primary cells J. Cell Sci., January 2, 2002; 115(3): 507 - 515. [Abstract] [Full Text] [PDF]

				R. V. Skibbens Holding Your Own: Establishing Sister Chromatid Cohesion Genome Res., November 1, 2000; 10(11): 1664 - 1671. [Full Text]

				H.-G. Yu and R. K. Dawe Functional Redundancy in the Maize Meiotic Kinetochore J. Cell Biol., October 3, 2000; 151(1): 131 - 142. [Abstract] [Full Text] [PDF]

				H.-G. Yu, M. G. Muszynski, and R. Kelly Dawe The Maize Homologue of the Cell Cycle Checkpoint Protein MAD2 Reveals Kinetochore Substructure and Contrasting Mitotic and Meiotic Localization Patterns J. Cell Biol., May 3, 1999; 145(3): 425 - 435. [Abstract] [Full Text] [PDF]

				J. R. Daum and G. J. Gorbsky Casein Kinase II Catalyzes a Mitotic Phosphorylation on Threonine 1342�of Human DNA Topoisomerase IIalpha , Which Is Recognized by the 3F3/2 Phosphoepitope Antibody J. Biol. Chem., November 13, 1998; 273(46): 30622 - 30629. [Abstract] [Full Text] [PDF]

				G.K.T. Chan, B.T. Schaar, and T.J. Yen Characterization of the Kinetochore Binding Domain of CENP-E Reveals Interactions with the Kinetochore Proteins CENP-F and hBUBR1 J. Cell Biol., October 5, 1998; 143(1): 49 - 63. [Abstract] [Full Text] [PDF]

				T. Maney, A. W. Hunter, M. Wagenbach, and L. Wordeman Mitotic Centromere-associated Kinesin Is Important for Anaphase Chromosome Segregation J. Cell Biol., August 10, 1998; 142(3): 787 - 801. [Abstract] [Full Text] [PDF]

				S. S. Taylor, E. Ha, and F. McKeon The Human Homologue of Bub3 Is Required for Kinetochore Localization of Bub1 and a Mad3/Bub1-related Protein Kinase J. Cell Biol., July 13, 1998; 142(1): 1 - 11. [Abstract] [Full Text] [PDF]

				G. J. Gorbsky, R.-H. Chen, and A. W. Murray Microinjection of Antibody to Mad2 Protein into Mammalian Cells in Mitosis Induces Premature Anaphase J. Cell Biol., June 1, 1998; 141(5): 1193 - 1205. [Abstract] [Full Text] [PDF]

				R. Nicklas, M. Campbell, S. Ward, and G. Gorbsky Tension-sensitive kinetochore phosphorylation in vitro J. Cell Sci., January 11, 1998; 111(21): 3189 - 3196. [Abstract] [PDF]

				X He, M. Jones, M Winey, and S Sazer Mph1, a member of the Mps1-like family of dual specificity protein kinases, is required for the spindle checkpoint in S. pombe J. Cell Sci., January 6, 1998; 111(12): 1635 - 1647. [Abstract] [PDF]

				D. A. Skoufias, P. R. Andreassen, F. B. Lacroix, L. Wilson, and R. L. Margolis Mammalian mad2 and bub1/bubR1 recognize distinct spindle-attachment and kinetochore-tension checkpoints PNAS, April 10, 2001; 98(8): 4492 - 4497. [Abstract] [Full Text] [PDF]