Home NDC80
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(Human) GRCh37 - chr18:2571510..2616634 (45.12 kb) View in Genome Browser
(Mouse) NCBIM37 - chr17:71845440..71876197 (30.76 kb) View in Genome Browser
(Rat) RGSC3.4 - chr9:110702935..110734129 (31.19 kb) View in Genome Browser
HaemAtlas Expression Table for NDC80:|
Expression Legend
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Cell Types Showing Expression: Available
Users should be aware that the scale represents a rank within an experiment rather than a normalized expression signal.
| Human | Mouse | Rat | ||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| ductal cells | exocrine pancreas | pancreatic islets | primary beta cells | Pancreatic Islets MPSS | beta cell line | pancreatic islets | whole pancreas | alpha cell | beta cell line | pancreatic islets | primary beta cells | whole pancreas |
| no data | no data | |||||||||||
Expression Legend
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The Beta Cell Gene Atlas is a collection of almost all available public microarray data generated with pancreatic beta cells and related cell lines and types. The expression data comes from 131 array analyses derived from 28 experiments (open details in a new window). The basal (untreated cell) expression signal intensity values in each array were converted to ranks within the experiments; the highest value was used for genes represented by more than one probe. The rank values of genes in a given cell type were averaged with other calculated values from experiments performed with the same cell type. The rank transformation of the expression values enable comparison of gene expression across different organisms and tissues.
A red border around a cell indicates greater certainty in the data; specifically, the gene has >0.95 probability of being expressed in the tissue.
Tissues Showing Expression: Available
| Users should be aware that the scale represents a rank within an experiment rather than a normalized expression signal. | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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| Signal intensity values were converted to ranks within the experiments. For genes represented by more than one probeset, we averaged the intensity signals for each probeset across all tissues and chose the probeset with the highest average value. The rank transformation of the expression values enables comparison of gene expression across different organisms and tissues. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Interactions Table for NDC80:The NDC80 interactions are shown below. Each row lists the two interactors, the sources which document this as an interaction, a classification of the interaction as empirical or predicted, and Pubmed IDs (if any) for the interaction.
The table of interactions is downloadable as a text file. Please note that the text file will not include data from HPRD due to restrictions imposed by the HPRD funding sources.
| Interactor | Interactor | Sources | Classification | Pubmed IDs |
| NDC80 | TOM1L1 | HPRD, MINT, IntAct, BioGRID | empirical | 16169070 |
| NDC80 | TFG | MINT, IntAct | empirical | 11591653 |
| NDC80 | NDC80 | HPRD, IntAct, BioGRID | empirical | 9295362 14602875 20360068 |
| NDC80 | PIBF1 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | CENPB | IntAct | empirical | 11266451 |
| NDC80 | CENPE | IntAct | empirical | 17535814 |
| NDC80 | ZWINT | HPRD, IntAct, BioGRID | empirical | 16732327 15824131 20360068 |
| NDC80 | PMF1 | IntAct | empirical | 20360068 |
| NDC80 | CCDC101 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | IQGAP3 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | SPC24 | IntAct, BioGRID, Reactome | empirical | 15961401 14699129 14681455 20360068 |
| NDC80 | SKA1 | MINT | empirical | 17093495 |
| NDC80 | BICD2 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | SNAPIN | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | ASPM | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | NSL1 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | PLDN | HPRD, MINT, IntAct, BioGRID | empirical | 16189514 |
| NDC80 | HMMR | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | HNRNPU | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | KIFC1 | IntAct | empirical | 20360068 |
| NDC80 | MAD2L1 | HPRD | empirical | 12351790 |
| NDC80 | NEK2 | HPRD, BioGRID | empirical | 12386167 9295362 21900206 |
| NDC80 | NPR1 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | CCDC53 | HPRD, MINT, IntAct, BioGRID | empirical | 16189514 |
| NDC80 | PCM1 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | AMOTL2 | HPRD, IntAct, BioGRID | empirical | 16189514 |
| NDC80 | PHKA2 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | PHKB | BioGRID | empirical | 20360068 |
| NDC80 | PLCG2 | MINT, IntAct | empirical | 15102471 |
| NDC80 | PSMC2 | HPRD | empirical | 9295362 |
| NDC80 | CASC5 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | SPC25 | HPRD, IntAct, BioGRID, Reactome | empirical | 14699129 15961401 14681455 20360068 |
| NDC80 | ODF2L | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | BEGAIN | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | CALCOCO1 | HPRD, MINT, IntAct, BioGRID | empirical | 16189514 20360068 |
| NDC80 | EPS15L1 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | RB1 | HPRD | empirical | 10409732 |
| NDC80 | KLHL12 | HPRD, MINT, IntAct, BioGRID | empirical | 16189514 |
| NDC80 | RCN1 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | RRBP1 | BioGRID | empirical | 20360068 |
| NDC80 | CENPH | IntAct | empirical | 15713649 |
| NDC80 | AURKA | HPRD | empirical | 14602875 |
| NDC80 | BUB1 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | BUB1B | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | UBC | BioGRID | empirical | 21987572 21139048 21890473 21906983 |
| NDC80 | MIS12 | HPRD, IntAct, BioGRID | empirical | 15502821 20360068 15371340 |
| NDC80 | MLF1IP | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | DSN1 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | SMC1A | HPRD | empirical | 9295362 |
| NDC80 | NUF2 | HPRD, IntAct, BioGRID, Reactome | empirical | 14602875 15961401 14699129 17129783 14681455 20360068 |
| NDC80 | MAD1L1 | HPRD | empirical | 12351790 |
| NDC80 | USHBP1 | HPRD, IntAct, BioGRID | empirical | 16189514 |
| NDC80 | ZW10 | IntAct | empirical | 16732327 |
| NDC80 | AURKB | HPRD | empirical | 14602875 |
| NDC80 | SNAP29 | IntAct, BioGRID | empirical | 20360068 |
| NDC80 | THRAP3 | IntAct, BioGRID | empirical | 20360068 |
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Publications: 77
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Ubiquitin ligase substrate identification through quantitative proteomics at both the protein and peptide levels.
Lee KA, Hammerle LP, Andrews PS, Stokes MP, Mustelin T, Silva JC, Black RA, Doedens JR
J Biol Chem. 2011
PubMed ID: 21987572
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Phosphorylation of the Ndc80 complex protein, HEC1, by Nek2 kinase modulates chromosome alignment and signaling of the spindle assembly checkpoint.
Wei R, Ngo B, Wu G, Lee WH
Mol Biol Cell. 2011
PubMed ID: 21832156
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A directed protein interaction network for investigating intracellular signal transduction.
Vinayagam A, Stelzl U, Foulle R, Plassmann S, Zenkner M, Timm J, Assmus HE, Andrade-Navarro MA, Wanker EE
Sci Signal. 2011
PubMed ID: 21900206
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A conditional knockout resource for the genome-wide study of mouse gene function.
Skarnes WC, Rosen B, West AP, Koutsourakis M, Bushell W, Iyer V, Mujica AO, Thomas M, Harrow J, Cox T, Jackson D, Severin J, Biggs P, Fu J, Nefedov M, de Jong PJ, Stewart AF, Bradley A
Nature. 2011
PubMed ID: 21677750
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Ndc80 regulates meiotic spindle organization, chromosome alignment, and cell cycle progression in mouse oocytes.
Sun SC, Zhang DX, Lee SE, Xu YN, Kim NH
Microsc Microanal. 2011
PubMed ID: 21600073
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The Ndc80 complex uses a tripartite attachment point to couple microtubule depolymerization to chromosome movement.
Tooley JG, Miller SA, Stukenberg PT
Mol Biol Cell. 2011
PubMed ID: 21325630
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The NDC80 complex proteins Nuf2 and Hec1 make distinct contributions to kinetochore-microtubule attachment in mitosis.
Sundin LJ, Guimaraes GJ, Deluca JG
Mol Biol Cell. 2011
PubMed ID: 21270439
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Temporal changes in Hec1 phosphorylation control kinetochore-microtubule attachment stability during mitosis.
DeLuca KF, Lens SM, DeLuca JG
J Cell Sci. 2011
PubMed ID: 21266467
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CENP-U cooperates with Hec1 to orchestrate kinetochore-microtubule attachment.
Hua S, Wang Z, Jiang K, Huang Y, Ward T, Zhao L, Dou Z, Yao X
J Biol Chem. 2011
PubMed ID: 21056971
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Expression analysis of mitotic spindle checkpoint genes in breast carcinoma: role of NDC80/HEC1 in early breast tumorigenicity, and a two-gene signature for aneuploidy.
Bièche I, Vacher S, Lallemand F, Tozlu-Kara S, Bennani H, Beuzelin M, Driouch K, Rouleau E, Lerebours F, Ripoche H, Cizeron-Clairac G, Spyratos F, Lidereau R
Mol Cancer. 2011
PubMed ID: 21352579
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Abnormal kinetochore-generated pulling forces from expressing a N-terminally modified Hec1.
Mattiuzzo M, Vargiu G, Totta P, Fiore M, Ciferri C, Musacchio A, Degrassi F
PLoS One. 2011
PubMed ID: 21297979
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Initial characterization of the human central proteome.
Burkard TR, Planyavsky M, Kaupe I, Breitwieser FP, Bürckstümmer T, Bennett KL, Superti-Furga G, Colinge J
BMC Syst Biol. 2011
PubMed ID: 21269460
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Expression of the kinetochore protein Hec1 during the cell cycle in normal and cancer cells and its regulation by the pRb pathway.
Ferretti C, Totta P, Fiore M, Mattiuzzo M, Schillaci T, Ricordy R, Di Leonardo A, Degrassi F
Cell Cycle. 2010
PubMed ID: 20948316
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The Ndc80 kinetochore complex forms oligomeric arrays along microtubules.
Alushin GM, Ramey VH, Pasqualato S, Ball DA, Grigorieff N, Musacchio A, Nogales E
Nature. 2010
PubMed ID: 20944740
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Centrosome-related genes, genetic variation, and risk of breast cancer.
Olson JE, Wang X, Pankratz VS, Fredericksen ZS, Vachon CM, Vierkant RA, Cerhan JR, Couch FJ
Breast Cancer Res Treat. 2010
PubMed ID: 20508983
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Systematic analysis of human protein complexes identifies chromosome segregation proteins.
Hutchins JR, Toyoda Y, Hegemann B, Poser I, Hériché JK, Sykora MM, Augsburg M, Hudecz O, Buschhorn BA, Bulkescher J, Conrad C, Comartin D, Schleiffer A, Sarov M, Pozniakovsky A, Slabicki MM, Schloissnig S, Steinmacher I, Leuschner M, Ssykor A, Lawo S, Pelletier L, Stark H, Nasmyth K, Ellenberg J, Durbin R, Buchholz F, Mechtler K, Hyman AA, Peters JM
Science. 2010
PubMed ID: 20360068
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siRNA-mediated knockdown against CDCA1 and KNTC2, both frequently overexpressed in colorectal and gastric cancers, suppresses cell proliferation and induces apoptosis.
Kaneko N, Miura K, Gu Z, Karasawa H, Ohnuma S, Sasaki H, Tsukamoto N, Yokoyama S, Yamamura A, Nagase H, Shibata C, Sasaki I, Horii A
Biochem Biophys Res Commun. 2009
PubMed ID: 19878654
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A systems approach reveals that the myogenesis genome network is regulated by the transcriptional repressor RP58.
Yokoyama S, Ito Y, Ueno-Kudoh H, Shimizu H, Uchibe K, Albini S, Mitsuoka K, Miyaki S, Kiso M, Nagai A, Hikata T, Osada T, Fukuda N, Yamashita S, Harada D, Mezzano V, Kasai M, Puri PL, Hayashizaki Y, Okado H, Hashimoto M, Asahara H
Dev Cell. 2009
PubMed ID: 20059953
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Hec1 contributes to mitotic centrosomal microtubule growth for proper spindle assembly through interaction with Hice1.
Wu G, Wei R, Cheng E, Ngo B, Lee WH
Mol Biol Cell. 2009
PubMed ID: 19776357
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PinX1 is a novel microtubule-binding protein essential for accurate chromosome segregation.
Yuan K, Li N, Jiang K, Zhu T, Huo Y, Wang C, Lu J, Shaw A, Thomas K, Zhang J, Mann D, Liao J, Jin C, Yao X
J Biol Chem. 2009
PubMed ID: 19553660
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Mitotic control of kinetochore-associated dynein and spindle orientation by human Spindly.
Chan YW, Fava LL, Uldschmid A, Schmitz MH, Gerlich DW, Nigg EA, Santamaria A
J Cell Biol. 2009
PubMed ID: 19468067
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Evaluation of the low-specificity protease elastase for large-scale phosphoproteome analysis.
Wang B, Malik R, Nigg EA, Körner R
Anal Chem. 2008
PubMed ID: 19007248
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Hec1 overexpression hyperactivates the mitotic checkpoint and induces tumor formation in vivo.
Diaz-Rodríguez E, Sotillo R, Schvartzman JM, Benezra R
Proc Natl Acad Sci U S A. 2008
PubMed ID: 18940925
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Large-scale gene trapping in C57BL/6N mouse embryonic stem cells.
Hansen GM, Markesich DC, Burnett MB, Zhu Q, Dionne KM, Richter LJ, Finnell RH, Sands AT, Zambrowicz BP, Abuin A
Genome Res. 2008
PubMed ID: 18799693
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Orientation and structure of the Ndc80 complex on the microtubule lattice.
Wilson-Kubalek EM, Cheeseman IM, Yoshioka C, Desai A, Milligan RA
J Cell Biol. 2008
PubMed ID: 18794333
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[Expression and clinical significance of highly expressed protein in cancer (Hec 1) in human primary gallbladder carcinoma]
Xiao GF, Tang HH
Xi Bao Yu Fen Zi Mian Yi Xue Za Zhi. 2008
PubMed ID: 18782526
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The mitotic checkpoint kinase NEK2A regulates kinetochore microtubule attachment stability.
Du J, Cai X, Yao J, Ding X, Wu Q, Pei S, Jiang K, Zhang Y, Wang W, Shi Y, Lai Y, Shen J, Teng M, Huang H, Fei Q, Reddy ES, Zhu J, Jin C, Yao X
Oncogene. 2008
PubMed ID: 18297113
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Implications for kinetochore-microtubule attachment from the structure of an engineered Ndc80 complex.
Ciferri C, Pasqualato S, Screpanti E, Varetti G, Santaguida S, Dos Reis G, Maiolica A, Polka J, De Luca JG, De Wulf P, Salek M, Rappsilber J, Moores CA, Salmon ED, Musacchio A
Cell. 2008
PubMed ID: 18455984
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Cyclin B1 is localized to unattached kinetochores and contributes to efficient microtubule attachment and proper chromosome alignment during mitosis.
Chen Q, Zhang X, Jiang Q, Clarke PR, Zhang C
Cell Res. 2008
PubMed ID: 18195732
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EUCOMM--the European conditional mouse mutagenesis program.
Friedel RH, Seisenberger C, Kaloff C, Wurst W
Brief Funct Genomic Proteomic. 2007
PubMed ID: 17967808
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Functional characterization of the promoter of human kinetochore protein HEC1: novel link between regulation of the cell cycle protein and CREB family transcription factors.
Cheng L, Li L, Qiao X, Liu J, Yao X
Biochim Biophys Acta. 2007
PubMed ID: 17822787
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The human Nup107-160 nuclear pore subcomplex contributes to proper kinetochore functions.
Zuccolo M, Alves A, Galy V, Bolhy S, Formstecher E, Racine V, Sibarita JB, Fukagawa T, Shiekhattar R, Yen T, Doye V
EMBO J. 2007
PubMed ID: 17363900
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The Ndc80/HEC1 complex is a contact point for kinetochore-microtubule attachment.
Wei RR, Al-Bassam J, Harrison SC
Nat Struct Mol Biol. 2007
PubMed ID: 17195848
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Kinetochore microtubule dynamics and attachment stability are regulated by Hec1.
DeLuca JG, Gall WE, Ciferri C, Cimini D, Musacchio A, Salmon ED
Cell. 2006
PubMed ID: 17129782
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Hec1 sequentially recruits Zwint-1 and ZW10 to kinetochores for faithful chromosome segregation and spindle checkpoint control.
Lin YT, Chen Y, Wu G, Lee WH
Oncogene. 2006
PubMed ID: 16732327
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Phosphoproteome analysis of the human mitotic spindle.
Nousiainen M, Silljé HH, Sauer G, Nigg EA, Körner R
Proc Natl Acad Sci U S A. 2006
PubMed ID: 16565220
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Towards a proteome-scale map of the human protein-protein interaction network.
Rual JF, Venkatesan K, Hao T, Hirozane-Kishikawa T, Dricot A, Li N, Berriz GF, Gibbons FD, Dreze M, Ayivi-Guedehoussou N, Klitgord N, Simon C, Boxem M, Milstein S, Rosenberg J, Goldberg DS, Zhang LV, Wong SL, Franklin G, Li S, Albala JS, Lim J, Fraughton C, Llamosas E, Cevik S, Bex C, Lamesch P, Sikorski RS, Vandenhaute J, Zoghbi HY, Smolyar A, Bosak S, Sequerra R, Doucette-Stamm L, Cusick ME, Hill DE, Roth FP, Vidal M
Nature. 2005
PubMed ID: 16189514
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A human protein-protein interaction network: a resource for annotating the proteome.
Stelzl U, Worm U, Lalowski M, Haenig C, Brembeck FH, Goehler H, Stroedicke M, Zenkner M, Schoenherr A, Koeppen S, Timm J, Mintzlaff S, Abraham C, Bock N, Kietzmann S, Goedde A, Toksöz E, Droege A, Krobitsch S, Korn B, Birchmeier W, Lehrach H, Wanker EE
Cell. 2005
PubMed ID: 16169070
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DNA sequence and analysis of human chromosome 18.
Nusbaum C, Zody MC, Borowsky ML, Kamal M, Kodira CD, Taylor TD, Whittaker CA, Chang JL, Cuomo CA, Dewar K, FitzGerald MG, Yang X, Abouelleil A, Allen NR, Anderson S, Bloom T, Bugalter B, Butler J, Cook A, DeCaprio D, Engels R, Garber M, Gnirke A, Hafez N, Hall JL, Norman CH, Itoh T, Jaffe DB, Kuroki Y, Lehoczky J, Lui A, Macdonald P, Mauceli E, Mikkelsen TS, Naylor JW, Nicol R, Nguyen C, Noguchi H, O'Leary SB, O'Neill K, Piqani B, Smith CL, Talamas JA, Topham K, Totoki Y, Toyoda A, Wain HM, Young SK, Zeng Q, Zimmer AR, Fujiyama A, Hattori M, Birren BW, Sakaki Y, Lander ES
Nature. 2005
PubMed ID: 16177791
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Antisense transcription in the mammalian transcriptome.
Katayama S, Tomaru Y, Kasukawa T, Waki K, Nakanishi M, Nakamura M, Nishida H, Yap CC, Suzuki M, Kawai J, Suzuki H, Carninci P, Hayashizaki Y, Wells C, Frith M, Ravasi T, Pang KC, Hallinan J, Mattick J, Hume DA, Lipovich L, Batalov S, Engström PG, Mizuno Y, Faghihi MA, Sandelin A, Chalk AM, Mottagui-Tabar S, Liang Z, Lenhard B, Wahlestedt C, RIKEN Genome Exploration Research Group, Genome Science Group (Genome Network Project Core Group), FANTOM Consortium
Science. 2005
PubMed ID: 16141073
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The transcriptional landscape of the mammalian genome.
Carninci P, Kasukawa T, Katayama S, Gough J, Frith MC, Maeda N, Oyama R, Ravasi T, Lenhard B, Wells C, Kodzius R, Shimokawa K, Bajic VB, Brenner SE, Batalov S, Forrest AR, Zavolan M, Davis MJ, Wilming LG, Aidinis V, Allen JE, Ambesi-Impiombato A, Apweiler R, Aturaliya RN, Bailey TL, Bansal M, Baxter L, Beisel KW, Bersano T, Bono H, Chalk AM, Chiu KP, Choudhary V, Christoffels A, Clutterbuck DR, Crowe ML, Dalla E, Dalrymple BP, de Bono B, Della Gatta G, di Bernardo D, Down T, Engstrom P, Fagiolini M, Faulkner G, Fletcher CF, Fukushima T, Furuno M, Futaki S, Gariboldi M, Georgii-Hemming P, Gingeras TR, Gojobori T, Green RE, Gustincich S, Harbers M, Hayashi Y, Hensch TK, Hirokawa N, Hill D, Huminiecki L, Iacono M, Ikeo K, Iwama A, Ishikawa T, Jakt M, Kanapin A, Katoh M, Kawasawa Y, Kelso J, Kitamura H, Kitano H, Kollias G, Krishnan SP, Kruger A, Kummerfeld SK, Kurochkin IV, Lareau LF, Lazarevic D, Lipovich L, Liu J, Liuni S, McWilliam S, Madan Babu M, Madera M, Marchionni L, Matsuda H, Matsuzawa S, Miki H, Mignone F, Miyake S, Morris K, Mottagui-Tabar S, Mulder N, Nakano N, Nakauchi H, Ng P, Nilsson R, Nishiguchi S, Nishikawa S, Nori F, Ohara O, Okazaki Y, Orlando V, Pang KC, Pavan WJ, Pavesi G, Pesole G, Petrovsky N, Piazza S, Reed J, Reid JF, Ring BZ, Ringwald M, Rost B, Ruan Y, Salzberg SL, Sandelin A, Schneider C, Schönbach C, Sekiguchi K, Semple CA, Seno S, Sessa L, Sheng Y, Shibata Y, Shimada H, Shimada K, Silva D, Sinclair B, Sperling S, Stupka E, Sugiura K, Sultana R, Takenaka Y, Taki K, Tammoja K, Tan SL, Tang S, Taylor MS, Tegner J, Teichmann SA, Ueda HR, van Nimwegen E, Verardo R, Wei CL, Yagi K, Yamanishi H, Zabarovsky E, Zhu S, Zimmer A, Hide W, Bult C, Grimmond SM, Teasdale RD, Liu ET, Brusic V, Quackenbush J, Wahlestedt C, Mattick JS, Hume DA, Kai C, Sasaki D, Tomaru Y, Fukuda S, Kanamori-Katayama M, Suzuki M, Aoki J, Arakawa T, Iida J, Imamura K, Itoh M, Kato T, Kawaji H, Kawagashira N, Kawashima T, Kojima M, Kondo S, Konno H, Nakano K, Ninomiya N, Nishio T, Okada M, Plessy C, Shibata K, Shiraki T, Suzuki S, Tagami M, Waki K, Watahiki A, Okamura-Oho Y, Suzuki H, Kawai J, Hayashizaki Y, FANTOM Consortium, RIKEN Genome Exploration Research Group and Genome Science Group (Genome Network Project Core Group)
Science. 2005
PubMed ID: 16141072
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Architecture of the human ndc80-hec1 complex, a critical constituent of the outer kinetochore.
Ciferri C, De Luca J, Monzani S, Ferrari KJ, Ristic D, Wyman C, Stark H, Kilmartin J, Salmon ED, Musacchio A
J Biol Chem. 2005
PubMed ID: 15961401
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Polo-like kinase 1 creates the tension-sensing 3F3/2 phosphoepitope and modulates the association of spindle-checkpoint proteins at kinetochores.
Ahonen LJ, Kallio MJ, Daum JR, Bolton M, Manke IA, Yaffe MB, Stukenberg PT, Gorbsky GJ
Curr Biol. 2005
PubMed ID: 15964272
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Microarray analysis identifies a death-from-cancer signature predicting therapy failure in patients with multiple types of cancer.
Glinsky GV, Berezovska O, Glinskii AB
J Clin Invest. 2005
PubMed ID: 15931389
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ZW10 links mitotic checkpoint signaling to the structural kinetochore.
Kops GJ, Kim Y, Weaver BA, Mao Y, McLeod I, Yates JR, Tagaya M, Cleveland DW
J Cell Biol. 2005
PubMed ID: 15824131
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The functional region of CENP-H interacts with the Nuf2 complex that localizes to centromere during mitosis.
Mikami Y, Hori T, Kimura H, Fukagawa T
Mol Cell Biol. 2005
PubMed ID: 15713649
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Hec1 and nuf2 are core components of the kinetochore outer plate essential for organizing microtubule attachment sites.
DeLuca JG, Dong Y, Hergert P, Strauss J, Hickey JM, Salmon ED, McEwen BF
Mol Biol Cell. 2005
PubMed ID: 15548592
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Genes affecting the cell cycle, growth, maintenance, and drug sensitivity are preferentially regulated by anti-HER2 antibody through phosphatidylinositol 3-kinase-AKT signaling.
Le XF, Lammayot A, Gold D, Lu Y, Mao W, Chang T, Patel A, Mills GB, Bast RC
J Biol Chem. 2005
PubMed ID: 15504738
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A conserved Mis12 centromere complex is linked to heterochromatic HP1 and outer kinetochore protein Zwint-1.
Obuse C, Iwasaki O, Kiyomitsu T, Goshima G, Toyoda Y, Yanagida M
Nat Cell Biol. 2004
PubMed ID: 15502821
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The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC).
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A conserved protein network controls assembly of the outer kinetochore and its ability to sustain tension.
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Sgt1 is required for human kinetochore assembly.
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NEK2A interacts with MAD1 and possibly functions as a novel integrator of the spindle checkpoint signaling.
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Genome sequence of the Brown Norway rat yields insights into mammalian evolution.
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Identification of two novel components of the human NDC80 kinetochore complex.
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PubMed ID: 14699129
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Identification of the substrates and interaction proteins of aurora kinases from a protein-protein interaction model.
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Mol Cell Proteomics. 2004
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Nuf2 and Hec1 are required for retention of the checkpoint proteins Mad1 and Mad2 to kinetochores.
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Curr Biol. 2003
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Generation and initial analysis of more than 15,000 full-length human and mouse cDNA sequences.
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Phosphorylation of the mitotic regulator protein Hec1 by Nek2 kinase is essential for faithful chromosome segregation.
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Analysis of the mouse transcriptome based on functional annotation of 60,770 full-length cDNAs.
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PubMed ID: 12466851
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Role of Hec1 in spindle checkpoint signaling and kinetochore recruitment of Mad1/Mad2.
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PubMed ID: 12351790
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Protein-protein interaction panel using mouse full-length cDNAs.
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Functional annotation of a full-length mouse cDNA collection.
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Nature. 2001
PubMed ID: 11217851
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The Ndc80p complex from Saccharomyces cerevisiae contains conserved centromere components and has a function in chromosome segregation.
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RIKEN integrated sequence analysis (RISA) system--384-format sequencing pipeline with 384 multicapillary sequencer.
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PubMed ID: 11076861
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Normalization and subtraction of cap-trapper-selected cDNAs to prepare full-length cDNA libraries for rapid discovery of new genes.
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Mol Cell Biol. 2000
PubMed ID: 10779342
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Hec1p, an evolutionarily conserved coiled-coil protein, modulates chromosome segregation through interaction with SMC proteins.
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Mol Cell Biol. 1999
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Carninci P, Hayashizaki Y
Methods Enzymol. 1999
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HEC, a novel nuclear protein rich in leucine heptad repeats specifically involved in mitosis.
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Mol Cell Biol. 1997
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HEC binds to the seventh regulatory subunit of the 26 S proteasome and modulates the proteolysis of mitotic cyclins.
Chen Y, Sharp ZD, Lee WH
J Biol Chem. 1997
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The retinoblastoma protein associates with the protein phosphatase type 1 catalytic subunit.
Durfee T, Becherer K, Chen PL, Yeh SH, Yang Y, Kilburn AE, Lee WH, Elledge SJ
Genes Dev. 1993
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