Evidence for specific interaction between the RhoGAP domain from the yeast Rgd1 protein and phosphoinositides

Biochemical and Biophysical Research Communications

Volumn 405, Issue 1, 2011, Pages 74-78

  Odaert, Benoît ^a   Prouzet Mauleon, Valérie ^a   Dupuy, Jean William ^a   Crouzet, Marc ^a   Bonneu, Marc ^a   Santarelli, Xavier ^b   Vieillemard, Aurélie ^a   Thoraval, Didier ^a   Doignon, François ^a   Hugues, Michel ^a  

^a UNIVERSITÉ DE BORDEAUX   (France)

^b UNIVERSITÉ DE BORDEAUX   (France)

Author keywords

Circular dichro sm; NMR; Phosphoinositides; Rgd1; RhoGAP; Saccharomyces cerevisiae

Indexed keywords

ENZYME ACTIVATOR; FUNGAL PROTEIN; GUANOSINE TRIPHOSPHATASE; PHOSPHATIDYLINOSITIDE; RGD1 PROTEIN; RHO GUANINE NUCLEOTIDE BINDING PROTEIN; RHO3P PROTEIN; RHO4P PROTEIN; UNCLASSIFIED DRUG;

AMINO TERMINAL SEQUENCE; ARTICLE; CARBOXY TERMINAL SEQUENCE; CIRCULAR DICHROISM; ENZYME ACTIVITY; GEL FILTRATION CHROMATOGRAPHY; NONHUMAN; PRIORITY JOURNAL; PROTEIN BINDING; PROTEIN EXPRESSION; PROTEIN PROTEIN INTERACTION; PROTEIN SECONDARY STRUCTURE; PROTEIN STRUCTURE; SACCHAROMYCES CEREVISIAE;

EUKARYOTA; SACCHAROMYCES CEREVISIAE; SACCHAROMYCETALES;

EID: 79551501325     PISSN: 0006291X     EISSN: 10902104     Source Type: Journal    
DOI: 10.1016/j.bbrc.2010.12.130     Document Type: Article

References (17)

1. Perez P., Rincon S.A. Rho GTPases: regulation of cell polarity and growth in yeasts. Biochem. J. 2010, 426:243-253.
2. Bishop A.L., Hall A. Rho GTPases and their effector proteins. Biochem. J. 2000, 348(Pt 2):241-255.
3. Hall A. Rho GTPases and the actin cytoskeleton. Science 1998, 279:509-514.
4. Van Aelst L., D'Souza-Schorey C. Rho GTPases and signaling networks. Genes Dev. 1997, 11:2295-2322.
5. Tcherkezian J., Lamarche-Vane N. Current knowledge of the large RhoGAP family of proteins. Biol. Cell 2007, 99:67-86.
6. Doignon F., Weinachter C., Roumanie O., Crouzet M. The yeast Rgd1p is a GTPase activating protein of the Rho3 and rho4 proteins. FEBS Lett. 1999, 459:458-462.
7. Adamo J.E., Rossi G., Brennwald P. The Rho GTPase Rho3 has a direct role in exocytosis that is distinct from its role in actin polarity. Mol. Biol. Cell 1999, 10:4121-4133.
8. Fernandes H., Roumanie O., Claret S., Gatti X., Thoraval D., Doignon F., Crouzet M. The Rho3 and Rho4 small GTPases interact functionally with Wsc1p, a cell surface sensor of the protein kinase C cell-integrity pathway in Saccharomyces cerevisiae. Microbiology 2006, 152:695-708.
9. Matsui Y., Toh E.A. Yeast RHO3 and RHO4 ras superfamily genes are necessary for bud growth, and their defect is suppressed by a high dose of bud formation genes CDC42 and BEM1. Mol. Cell Biol. 1992, 12:5690-5699.
10. Matsui Y., Toh-e A. Isolation and characterization of two novel ras superfamily genes in Saccharomyces cerevisiae. Gene 1992, 114:43-49.
11. Prouzet-Mauleon V., Lefebvre F., Thoraval D., Crouzet M., Doignon F. Phosphoinositides affect both the cellular distribution and activity of the F-BAR-containing RhoGAP Rgd1p in yeast. J. Biol. Chem. 2008, 283:33249-33257.
12. Bodenhausen G., Ruben D. Natural abundance Nitrogen-15 NMR by enhanced heteronuclear spectroscopy. Chem. Phys. Lett. 1980, 60:185-189.
13. Scholtz Q.H.J.M., York E.J., Stewart J.M., Baldwin R.L. Parameters of helix-coil transition theory for alanine-based peptides for varying chain lengths in water. Biochemistry 1999, 31:1463-1470.
14. Saarikangas J., Zhao H., Lappalainen P. Regulation of the actin cytoskeleton-plasma membrane interplay by phosphoinositides. Physiol. Rev. 2010, 90:259-289.
15. Lemmon M.A. Membrane recognition by phospholipid-binding domains. Nat. Rev. Mol. Cell Biol. 2008, 9:99-111.
16. Erlmann P., Schmid S., Horenkamp F.A., Geyer M., Pomorski T.G., Olayioye M.A. DLC1 activation requires lipid interaction through a polybasic region preceding the RhoGAP domain. Mol. Biol. Cell 2009, 20:4400-4411.
17. Klymkowsky M.W., Savagner P. Epithelial-mesenchymal transition: a cancer researcher's conceptual friend and foe. Am. J. Pathol. 2009, 174:1588-1593.