Milks KJ , Moree B , Straight AF .

R01GM074728 NIGMS NIH HHS , T32GM007276 NIGMS NIH HHS , R01 GM074728 NIGMS NIH HHS , T32 GM007276 NIGMS NIH HHS

Abrieu, CENP-E as an essential component of the mitotic checkpoint in vitro. 2000, Pubmed, Xenbase

Abrieu, CENP-E as an essential component of the mitotic checkpoint in vitro. 2000, Pubmed , Xenbase
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Ando, CENP-A, -B, and -C chromatin complex that contains the I-type alpha-satellite array constitutes the prekinetochore in HeLa cells. 2002, Pubmed
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Carroll, Centromere formation: from epigenetics to self-assembly. 2006, Pubmed
Cheeseman, The conserved KMN network constitutes the core microtubule-binding site of the kinetochore. 2006, Pubmed
Cheeseman, KNL1 and the CENP-H/I/K complex coordinately direct kinetochore assembly in vertebrates. 2008, Pubmed
Cheeseman, Molecular architecture of the kinetochore-microtubule interface. 2008, Pubmed
Cleveland, Centromeres and kinetochores: from epigenetics to mitotic checkpoint signaling. 2003, Pubmed
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Dawe, A maize homolog of mammalian CENPC is a constitutive component of the inner kinetochore. 1999, Pubmed
Desai, The use of Xenopus egg extracts to study mitotic spindle assembly and function in vitro. 1999, Pubmed , Xenbase
Desai, A method that allows the assembly of kinetochore components onto chromosomes condensed in clarified Xenopus egg extracts. 1997, Pubmed , Xenbase
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Fukagawa, CENP-C is necessary but not sufficient to induce formation of a functional centromere. 1999, Pubmed
Fukagawa, CENP-H, a constitutive centromere component, is required for centromere targeting of CENP-C in vertebrate cells. 2001, Pubmed
Fukagawa, Creation and characterization of temperature-sensitive CENP-C mutants in vertebrate cells. 2001, Pubmed
Gassmann, A new mechanism controlling kinetochore-microtubule interactions revealed by comparison of two dynein-targeting components: SPDL-1 and the Rod/Zwilch/Zw10 complex. 2008, Pubmed
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Heeger, Genetic interactions of separase regulatory subunits reveal the diverged Drosophila Cenp-C homolog. 2005, Pubmed
Hori, CCAN makes multiple contacts with centromeric DNA to provide distinct pathways to the outer kinetochore. 2008, Pubmed
Howell, Cytoplasmic dynein/dynactin drives kinetochore protein transport to the spindle poles and has a role in mitotic spindle checkpoint inactivation. 2001, Pubmed
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Kalitsis, Targeted disruption of mouse centromere protein C gene leads to mitotic disarray and early embryo death. 1998, Pubmed
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Kline, The human Mis12 complex is required for kinetochore assembly and proper chromosome segregation. 2006, Pubmed
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Kops, ZW10 links mitotic checkpoint signaling to the structural kinetochore. 2005, Pubmed , Xenbase
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Liu, Human CENP-I specifies localization of CENP-F, MAD1 and MAD2 to kinetochores and is essential for mitosis. 2003, Pubmed
Liu, Mapping the assembly pathways that specify formation of the trilaminar kinetochore plates in human cells. 2006, Pubmed
Maddox, Direct observation of microtubule dynamics at kinetochores in Xenopus extract spindles: implications for spindle mechanics. 2003, Pubmed , Xenbase
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Meluh, Evidence that the MIF2 gene of Saccharomyces cerevisiae encodes a centromere protein with homology to the mammalian centromere protein CENP-C. 1995, Pubmed
Moore, HCP-4, a CENP-C-like protein in Caenorhabditis elegans, is required for resolution of sister centromeres. 2001, Pubmed
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Ogura, Characterization of a CENP-C homolog in Arabidopsis thaliana. 2004, Pubmed
Okada, The CENP-H-I complex is required for the efficient incorporation of newly synthesized CENP-A into centromeres. 2006, Pubmed
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Palmer, Purification of the centromere-specific protein CENP-A and demonstration that it is a distinctive histone. 1991, Pubmed
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Rieder, The vertebrate cell kinetochore and its roles during mitosis. 1998, Pubmed
Saitoh, CENP-C, an autoantigen in scleroderma, is a component of the human inner kinetochore plate. 1992, Pubmed
Saitoh, Spindle checkpoint signaling requires the mis6 kinetochore subcomplex, which interacts with mad2 and mitotic spindles. 2005, Pubmed
Shintomi, Nucleosome assembly protein-1 is a linker histone chaperone in Xenopus eggs. 2005, Pubmed , Xenbase
Song, Mutational analysis of the central centromere targeting domain of human centromere protein C, (CENP-C). 2002, Pubmed
Starr, ZW10 helps recruit dynactin and dynein to the kinetochore. 1998, Pubmed
Sugimoto, Characterization of internal DNA-binding and C-terminal dimerization domains of human centromere/kinetochore autoantigen CENP-C in vitro: role of DNA-binding and self-associating activities in kinetochore organization. 1997, Pubmed
Talbert, Adaptive evolution of centromere proteins in plants and animals. 2004, Pubmed
Tomkiel, CENP-C is required for maintaining proper kinetochore size and for a timely transition to anaphase. 1994, Pubmed
Trazzi, In vivo functional dissection of human inner kinetochore protein CENP-C. 2002, Pubmed
Wojcik, Kinetochore dynein: its dynamics and role in the transport of the Rough deal checkpoint protein. 2001, Pubmed
Wood, CENP-E is a plus end-directed kinetochore motor required for metaphase chromosome alignment. 1997, Pubmed , Xenbase
Yang, Identification of overlapping DNA-binding and centromere-targeting domains in the human kinetochore protein CENP-C. 1996, Pubmed
Zeitlin, Xenopus CENP-A assembly into chromatin requires base excision repair proteins. 2005, Pubmed , Xenbase