Nédélec GroupPublications

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Spindle pole body-anchored Kar3 drives the nucleus along microtubules from another nucleus in preparation for nuclear fusion during yeast karyogamy.
Gibeaux, R., Politi, A.Z., Nedelec, F., Antony, C. & Knop, M.
Genes Dev. 2013 Feb 1;27(3):335-49. doi: 10.1101/gad.206318.112. PubMed

Patterns of molecular motors that guide and sort filaments.
Rupp, B. & Nedelec, F.
Lab Chip. 2012 Nov 21;12(22):4903-10. doi: 10.1039/c2lc40250e. PubMed

Katanin contributes to interspecies spindle length scaling in Xenopus.
Loughlin, R., Wilbur, J.D., McNally, F.J., Nedelec, F.J. & Heald, R.
Cell. 2011 Dec 9;147(6):1397-407. PubMed

Augmin promotes meiotic spindle formation and bipolarity in Xenopus egg extracts.
Petry, S., Pugieux, C., Nedelec, F.J. & Vale, R.D.
Proc Natl Acad Sci U S A. 2011 Aug 30;108(35):14473-8. Epub 2011 Aug 15. PubMed

A computational model predicts Xenopus meiotic spindle organization.
Loughlin, R., Heald, R. & Nedelec, F.
J Cell Biol. 2010 Dec 27;191(7):1239-49. Epub 2010 Dec 20. PubMed

Condensins promote chromosome recoiling during early anaphase to complete sister chromatid separation.
Renshaw, M.J., Ward, J.J., Kanemaki, M., Natsume, K., Nedelec, F.J. & Tanaka, T.U.
Dev Cell. 2010 Aug 17;19(2):232-44. PubMed

Computational cell biology at the home of the helix.
Ward, J.J. & Nedelec, F.J.
EMBO Rep. 2010 Jun;11(6):413-5. Epub 2010 May 21. PubMed

La chromatine faconne le fuseau mitotique. [This review in French summarises the results of Chromatin shapes the mitotic spindle.]

Pugieux C, Nedelec, F.
Medecine/Sciences 26 (2) 139-142; Feb 2010.

A theory of microtubule catastrophes and their regulation.
Brun, L., Rupp, B., Ward, J.J. & Nedelec, F.
Proc Natl Acad Sci U S A. 2009 Dec 15;106(50):21173-8. Epub 2009 Nov 30. PubMed

Chromatin shapes the mitotic spindle.
Dinarina, A., Pugieux, C., Corral, M.M., Loose, M., Spatz, J., Karsenti, E. & Nedelec, F.
Cell. 2009 Aug 7;138(3):502-13. PubMed

Phospho-regulated interaction between kinesin-6 Klp9p and microtubule bundler Ase1p promotes spindle elongation.
Fu, C., Ward, J.J., Loiodice, I., Velve-Casquillas, G., Nedelec, F.J. & Tran, P.T.
Dev Cell. 2009 Aug;17(2):257-67. PubMed

Effects of confinement on the self-organization of microtubules and motors.
Pinot, M., Chesnel, F., Kubiak, J.Z., Arnal, I., Nedelec, F.J. & Gueroui, Z.
Curr Biol. 2009 Jun 9;19(11):954-60. Epub 2009 May 7. PubMed

Force- and length-dependent catastrophe activities explain interphase microtubule organization in fission yeast.
Foethke, D., Makushok, T., Brunner, D. & Nedelec, F.
Mol Syst Biol. 2009;5:241. Epub 2009 Mar 17. PubMed

Regulation of microtubule dynamics by reaction cascades around chromosomes.
Athale, C.A., Dinarina, A., Mora-Coral, M., Pugieux, C., Nedelec, F. & Karsenti, E.
Science. 2008 Nov 21;322(5905):1243-1247. Epub 2008 Oct 23. PubMed

Mechanism of phototaxis in marine zooplankton.
Jekely, G., Colombelli, J., Hausen, H., Guy, K., Stelzer, E.H.K., Nedelec, F. & Arendt, D.
Nature. 2008 Nov 20;456(7220):395-9. PubMed

Spatial regulation improves antiparallel microtubule overlap during mitotic spindle assembly.
Channels, W.E., Nedelec, F., Zheng, Y. & Iglesias, P.A.
Biophys J. 2008 Apr 1;94(7):2598-609. Epub 2007 Dec 20. PubMed

Cortical microtubule contacts position the spindle in C. elegans embryos.
Kozlowski, C., Srayko, M. & Nedelec, F.
Cell. 2007 May 4;129(3):499-510. PubMed

Crosslinkers and motors organize dynamic microtubules to form stable bipolar arrays in fission yeast.
Janson, M.E., Loughlin, R., Loiodice, I., Fu, C., Brunner, D., Nedelec, F. & Tran, P.T.
Cell. 2007 Jan 26;128(2):357-68. PubMed

Modelling microtubule patterns.
Karsenti, E., Nedelec, F. & Surrey, T.
Nat Cell Biol. 2006 Nov;8(11):1204-11. PubMed

Mechanisms for focusing mitotic spindle poles by minus end-directed motor proteins.
Goshima, G., Nédélec, F. & Vale, R.D.
J Cell Biol 2005 Oct 24;171(2):229-40. PubMed

The mitotic spindle and actin tails.
Karsenti, E. & Nedelec, F.
Biol Cell 2004 Apr;96(3):237-40. PubMed

Self-organisation and forces in the microtubule cytoskeleton.
Nedelec, F., Surrey, T. & Karsenti, E.
Curr Opin Cell Biol. 2003 Feb;15(1):118-24.

Computer simulations reveal motor properties generating stable antiparallel microtubule interactions.
Nedelec, F.
J Cell Biol. 2002 Sep 16;158(6):1005-15. Epub 2002 Sep 16. PubMed

Physical properties determining self-organization of motors and microtubules.
Surrey, T., Nédélec, F., Leibler, S. & Karsenti, E.
Science 2001 May 11;292(5519):1167-71. PubMed

Dynamic concentration of motors in microtubule arrays.
Nedelec, F., Surrey, T. & Maggs, A.C.
Phys Rev Lett 2001 Apr 2;86(14):3192-5. PubMed

Dynamics of microtubule aster formation by motor complexes.
Nédélec, F. & Surrey, T.
C. R. Acad. Sci 2001; 2 (IV); 841-847.

De l'action collective des moteurs à l'ordre cellulaire.
Nédélec, F. & Surrey, T.
Médecine/Science 2000; 16:739 - 744.

Chromophore-assisted light inactivation and self-organization of microtubules and motors.
Surrey, T., Elowitz, M.B., Wolf, P.E., Yang, F., Nédélec, F., Shokat, K. & Leibler, S.
Proc Natl Acad Sci U S A 1998 Apr 14;95(8):4293-8. PubMed

Self-organization of microtubules and motors.
Nedelec, Fr., Surrey, T., Maggs, A.C. & Leibler, S.
Nature 1997 Sep 18;389(6648):305-8. PubMed