Nathalie Morin CRBM, CNRS UMR5237, Universités Montpellier 1 et 2, France
1 protocol

Julien Cau IGH, CNRS UPR1142, France
1 protocol
David Paul MRC Laboratory of Molecular Biology
41 protocols

Elizabeth Clarke Center for Health Research-Kaiser Permanente
6 protocols

Esteban Paredes-Osses Institute of Public Health
7 protocols

HongLok Lung University of Hong Kong
61 protocols

Reviewer
Guillaume Bompard
  • Research associate, Centre de Recherche en Biologie cellulaire de Montpellier
Research focus
  • Cell biology
  • 1 Author merit

Education

PhD, University of Montpellier 2, 2002

Lab information

http://www.crbm.cnrs.fr/

Publications

1. Bompard, G., J. van Dijk, J. Cau, Y. Lannay, G. Marcellin, A. Lawera, S. van der Laan and K. Rogowski. 2018. CSAP acts as a regulator of TTLL-mediated microtubule glutamylation. Cell Rep. 25:2866-2877.
2. van Dijk, J., G. Bompard, J. Cau, S. Kunishima, G. Rabeharivelo, J. Mateos-Langerak, C. Cazevieille, P. Cavelier, B. Boizet-Bonhoure, C. Delsert and N. Morin. 2018. Microtubule polyglutamylation and acetylation drive microtubule dynamics critical for platelet formation. BMC Biol. 16:116.
3. Cau, J., N. Morin and G. Bompard. 2013. Spindle Angle Measurements. Bio-protocol 3(19):e925.
4. Bompard, G., G. Rabeharivelo, J. Cau, A. Abrieu, C. Delsert, and N. Morin. 2013. P21-activated kinase 4 (PAK4) is required for metaphase spindle positioning and anchoring. Oncogene 32:910-9.
5. Bompard, G. and N. Morin. 2012. p21-activated kinase 4 regulates mitotic spindle positioning and orientation. BioArchitecture 2:130-3.
6. Bompard, G., G. Rabeharivelo, M. Frank, J. Cau, C. Delsert, and N. Morin. 2010. Subgroup II PAK-mediated phosphorylation regulates Ran activity during mitosis. J Cell Biol. 190:807-22.
7. Bompard, G., G. Rabeharivelo, and N. Morin. 2008. Inhibition of cytokinesis by wiskostatin does not rely on N-WASP/ Arp2/3 complex pathway. BMC Cell Biol. 9:42.
8. Dromard, M., G. Bompard, M. Glondu-Lassis, C. Puech, D. Chalbos, and G. Freiss. 2007. The Putative Tumor Suppressor Gene PTPN13/PTPL1 Induces Apoptosis through Insulin Receptor Substrate-1 Dephosphorylation. Cancer Res. 67:6806-13.
9. Legg, J.A., G. Bompard, J. Dawson, H.L. Morris, N. Andrew, L. Cooper, S.A. Johnston, G. Tramountanis, and L.M. Machesky. 2007. N-WASP involvement in dorsal ruffle formation in mouse embryonic fibroblasts. Mol Biol Cell 18:678-87.
10. Bompard, G., S.J. Sharp, G. Freiss, and L.M. Machesky. 2005. Involvement of Rac in actin cytoskeleton rearrangements induced by MIM-B. J Cell Sci. 118:5393-403.
11. Millard, T.H., G. Bompard, M.Y. Heung, T.R. Dafforn, D.J. Scott, L.M. Machesky, and K. Futterer. 2005. Structural basis of filopodia formation induced by the IRSp53/MIM homology domain of human IRSp53. Embo J. 24:240-50. http://f1000.com/prime/1023364
12. Bompard, G., and E. Caron. 2004. Regulation of WASP/WAVE proteins: making a long story short.
J Cell Biol. 166:957-62.
13. Freiss, G., G. Bompard, and F. Vignon. 2004. [PTPL1, a proapoptotic protein tyrosine phosphatase in breast cancers]. Bull Cancer 91:325-32.
14. Bompard, G., M. Martin, C. Roy, F. Vignon, and G. Freiss. 2003. Membrane targeting of protein tyrosine phosphatase PTPL1 through its FERM domain via binding to phosphatidylinositol 4,5-biphosphate. J Cell Sci. 116:2519-30.
15. Bompard, G., C. Puech, C. Prebois, F. Vignon, and G. Freiss. 2002. Protein-tyrosine phosphatase PTPL1/FAP-1 triggers apoptosis in human breast cancer cells. J Biol Chem. 277:47861-9.
1 Protocol published
Spindle Angle Measurements
Authors:  Julien Cau, Nathalie Morin and Guillaume Bompard, date: 10/05/2013, view: 10070, Q&A: 0
Spindle angles measures derive from the measures of spindle poles positions that were taken from fixed and immunostained adherent cells. To determine spindle angles (α), z-stack images of metaphasic cells immunostained with anti γ-tubulin (spindle ...
4 Protocols reviewed
Real-time Three-dimensional Tracking of Endocytic Vesicles
Authors:  Stephanie Duhamel and Kossay Zaoui, date: 10/20/2020, view: 1458, Q&A: 0
Endocytic trafficking and recycling are fundamental cellular processes that control essential functions such as signaling protein complexes transport and membrane identity. The small GTPase Rabs are indispensable component of the endosomal recycling ...
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F-actin Bundle Sedimentation Assay
Authors:  Shan-Shan Lin, Mei-Chun Chuang and Ya-Wen Liu, date: 11/05/2019, view: 3008, Q&A: 0
Understanding the molecular mechanism governing the higher-order regulation of actin dynamics requires chemically-defined and quantitative assays. Recently, the membrane remodeling large GTPase, dynamin, has been identified as a new actin ...
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