Selective chemical crosslinking reveals a Cep57-Cep63-Cep152 centrosomal complex

Current Biology

Volumn 23, Issue 3, 2013, Pages 265-270

  Lukinavičius, Gražvydas ^a   Lavogina, Darja ^a   Orpinell, Meritxell ^a   Umezawa, Keitaro ^a   Reymond, Luc ^a   Garin, Nathalie ^b   Gönczy, Pierre ^a   Johnsson, Kai ^a  

^a EPFL   (Switzerland)

^b Leica Microsystems AG   (Switzerland)

Author keywords

[No Author keywords available]

Indexed keywords

CELL CYCLE PROTEIN; CEP152 PROTEIN, HUMAN; CEP57 PROTEIN, HUMAN; CEP63 PROTEIN, HUMAN; CROSS LINKING REAGENT; MICROTUBULE ASSOCIATED PROTEIN; NUCLEAR PROTEIN; TUMOR PROTEIN;

ARTICLE; CELL STRAIN HEK293; CENTRIOLE; HUMAN; METABOLISM; TUMOR CELL LINE;

CELL CYCLE PROTEINS; CELL LINE, TUMOR; CENTRIOLES; CROSS-LINKING REAGENTS; HEK293 CELLS; HUMANS; MICROTUBULE-ASSOCIATED PROTEINS; NEOPLASM PROTEINS; NUCLEAR PROTEINS;

ANIMALIA;

EID: 84873409469     PISSN: 09609822     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.cub.2012.12.030     Document Type: Article

References (35)

1. P. Gönczy Towards a molecular architecture of centriole assembly Nat. Rev. Mol. Cell Biol. 13 2012 425 435
2. A. Duensing, and S. Duensing Centrosomes, polyploidy and cancer Adv. Exp. Med. Biol. 676 2010 93 103
3. E.A. Nigg Centrosome aberrations: cause or consequence of cancer progression? Nat. Rev. Cancer 2 2002 815 825
4. S. Mahmood, W. Ahmad, and M.J. Hassan Autosomal Recessive Primary Microcephaly (MCPH): clinical manifestations, genetic heterogeneity and mutation continuum Orphanet J. Rare Dis. 6 2011 39
5. M. Bettencourt-Dias, F. Hildebrandt, D. Pellman, G. Woods, and S.A. Godinho Centrosomes and cilia in human disease Trends Genet. 27 2011 307 315
6. K. Snape, S. Hanks, E. Ruark, P. Barros-Núñez, A. Elliott, A. Murray, A.H. Lane, N. Shannon, P. Callier, and D. Chitayat Mutations in CEP57 cause mosaic variegated aneuploidy syndrome Nat. Genet. 43 2011 527 529
7. J.S. Andersen, C.J. Wilkinson, T. Mayor, P. Mortensen, E.A. Nigg, and M. Mann Proteomic characterization of the human centrosome by protein correlation profiling Nature 426 2003 570 574
8. L. Jakobsen, K. Vanselow, M. Skogs, Y. Toyoda, E. Lundberg, I. Poser, L.G. Falkenby, M. Bennetzen, J. Westendorf, and E.A. Nigg Novel asymmetrically localizing components of human centrosomes identified by complementary proteomics methods EMBO J. 30 2011 1520 1535
9. A. Keppler, S. Gendreizig, T. Gronemeyer, H. Pick, H. Vogel, and K. Johnsson A general method for the covalent labeling of fusion proteins with small molecules in vivo Nat. Biotechnol. 21 2003 86 89
10. A. Gautier, A. Juillerat, C. Heinis, I.R. Corrêa Jr., M. Kindermann, F. Beaufils, and K. Johnsson An engineered protein tag for multiprotein labeling in living cells Chem. Biol. 15 2008 128 136
11. M.J. Hinner, and K. Johnsson How to obtain labeled proteins and what to do with them Curr. Opin. Biotechnol. 21 2010 766 776
12. P. Strnad, S. Leidel, T. Vinogradova, U. Euteneuer, A. Khodjakov, and P. Gönczy Regulated HsSAS-6 levels ensure formation of a single procentriole per centriole during the centrosome duplication cycle Dev. Cell 13 2007 203 213
13. A.M. Fry, T. Mayor, P. Meraldi, Y.D. Stierhof, K. Tanaka, and E.A. Nigg C-Nap1, a novel centrosomal coiled-coil protein and candidate substrate of the cell cycle-regulated protein kinase Nek2 J. Cell Biol. 141 1998 1563 1574
14. M. Piel, P. Meyer, A. Khodjakov, C.L. Rieder, and M. Bornens The respective contributions of the mother and daughter centrioles to centrosome activity and behavior in vertebrate cells J. Cell Biol. 149 2000 317 330
15. A. Gautier, E. Nakata, G. Lukinavicius, K.T. Tan, and K. Johnsson Selective cross-linking of interacting proteins using self-labeling tags J. Am. Chem. Soc. 131 2009 17954 17962
16. D. Kitagawa, G. Kohlmaier, D. Keller, P. Strnad, F.R. Balestra, I. Flückiger, and P. Gönczy Spindle positioning in human cells relies on proper centriole formation and on the microcephaly proteins CPAP and STIL J. Cell Sci. 124 2011 3884 3893
17. L. Zhao, C. Jin, Y. Chu, C. Varghese, S. Hua, F. Yan, Y. Miao, J. Liu, D. Mann, and X. Ding Dimerization of CPAP orchestrates centrosome cohesion plasticity J. Biol. Chem. 285 2010 2488 2497
18. G. Guderian, J. Westendorf, A. Uldschmid, and E.A. Nigg Plk4 trans-autophosphorylation regulates centriole number by controlling betaTrCP-mediated degradation J. Cell Sci. 123 2010 2163 2169
19. A. Rose, and I. Meier Scaffolds, levers, rods and springs: diverse cellular functions of long coiled-coil proteins Cell. Mol. Life Sci. 61 2004 1996 2009
20. C.-J.C. Tang, S.-Y. Lin, W.-B. Hsu, Y.-N. Lin, C.-T. Wu, Y.-C. Lin, C.-W. Chang, K.-S. Wu, and T.K. Tang The human microcephaly protein STIL interacts with CPAP and is required for procentriole formation EMBO J. 30 2011 4790 4804
21. E.M. Hatch, A. Kulukian, A.J. Holland, D.W. Cleveland, and T. Stearns Cep152 interacts with Plk4 and is required for centriole duplication J. Cell Biol. 191 2010 721 729
22. N.S. Dzhindzhev, Q.D. Yu, K. Weiskopf, G. Tzolovsky, I. Cunha-Ferreira, M. Riparbelli, A. Rodrigues-Martins, M. Bettencourt-Dias, G. Callaini, and D.M. Glover Asterless is a scaffold for the onset of centriole assembly Nature 467 2010 714 718
23. O. Cizmecioglu, M. Arnold, R. Bahtz, F. Settele, L. Ehret, U. Haselmann-Weiss, C. Antony, and I. Hoffmann Cep152 acts as a scaffold for recruitment of Plk4 and CPAP to the centrosome J. Cell Biol. 191 2010 731 739
24. D. Kitagawa, I. Flückiger, J. Polanowska, D. Keller, J. Reboul, and P. Gönczy PP2A phosphatase acts upon SAS-5 to ensure centriole formation in C. elegans embryos Dev. Cell 20 2011 550 562
25. J.H. Sir, A.R. Barr, A.K. Nicholas, O.P. Carvalho, M. Khurshid, A. Sossick, S. Reichelt, C. D'Santos, C.G. Woods, and F. Gergely A primary microcephaly protein complex forms a ring around parental centrioles Nat. Genet. 43 2011 1147 1153
26. J.E. Sillibourne, F. Tack, N. Vloemans, A. Boeckx, S. Thambirajah, P. Bonnet, F.C. Ramaekers, M. Bornens, and T. Grand-Perret Autophosphorylation of polo-like kinase 4 and its role in centriole duplication Mol. Biol. Cell 21 2010 547 561
27. G. Kohlmaier, J. Loncarek, X. Meng, B.F. McEwen, M.M. Mogensen, A. Spektor, B.D. Dynlacht, A. Khodjakov, and P. Gönczy Overly long centrioles and defective cell division upon excess of the SAS-4-related protein CPAP Curr. Biol. 19 2009 1012 1018
28. S.W. Hell, and J. Wichmann Breaking the diffraction resolution limit by stimulated emission: stimulated-emission-depletion fluorescence microscopy Opt. Lett. 19 1994 780 782
29. V. Westphal, S.O. Rizzoli, M.A. Lauterbach, D. Kamin, R. Jahn, and S.W. Hell Video-rate far-field optical nanoscopy dissects synaptic vesicle movement Science 320 2008 246 249
30. K.F. Sonnen, L. Schermelleh, H. Leonhardt, and E.A. Nigg 3D-structured illumination microscopy provides novel insight into architecture of human centrosomes Biol. Open 1 2012 965 976
31. N.R. Stevens, H. Roque, and J.W. Raff DSas-6 and Ana2 coassemble into tubules to promote centriole duplication and engagement Dev. Cell 19 2010 913 919
32. N.R. Stevens, J. Dobbelaere, K. Brunk, A. Franz, and J.W. Raff Drosophila Ana2 is a conserved centriole duplication factor J. Cell Biol. 188 2010 313 323
33. D. Kitagawa, I. Vakonakis, N. Olieric, M. Hilbert, D. Keller, V. Olieric, M. Bortfeld, M.C. Erat, I. Flückiger, P. Gönczy, and M.O. Steinmetz Structural basis of the 9-fold symmetry of centrioles Cell 144 2011 364 375
34. H. Wallrabe, and A. Periasamy Imaging protein molecules using FRET and FLIM microscopy Curr. Opin. Biotechnol. 16 2005 19 27
35. A. Keppler, and J. Ellenberg Chromophore-assisted laser inactivation of alpha- and gamma-tubulin SNAP-tag fusion proteins inside living cells ACS Chem. Biol. 4 2009 127 138