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Items: 1 to 20 of 81

1.
2.

GTP hydrolysis is not important for Ypt1 GTPase function in vesicular transport.

Richardson CJ, Jones S, Litt RJ, Segev N.

Mol Cell Biol. 1998 Feb;18(2):827-38.

3.

A novel Rab5 GDP/GTP exchange factor complexed to Rabaptin-5 links nucleotide exchange to effector recruitment and function.

Horiuchi H, Lippé R, McBride HM, Rubino M, Woodman P, Stenmark H, Rybin V, Wilm M, Ashman K, Mann M, Zerial M.

Cell. 1997 Sep 19;90(6):1149-59.

4.

Yeast actin cytoskeleton mutants accumulate a new class of Golgi-derived secretary vesicle.

Mulholland J, Wesp A, Riezman H, Botstein D.

Mol Biol Cell. 1997 Aug;8(8):1481-99.

5.

The diversity of Rab proteins in vesicle transport.

Novick P, Zerial M.

Curr Opin Cell Biol. 1997 Aug;9(4):496-504. Review.

PMID:
9261061
6.

Mss4 does not function as an exchange factor for Rab in endoplasmic reticulum to Golgi transport.

Nuoffer C, Wu SK, Dascher C, Balch WE.

Mol Biol Cell. 1997 Jul;8(7):1305-16.

7.

The Ras-RasGAP complex: structural basis for GTPase activation and its loss in oncogenic Ras mutants.

Scheffzek K, Ahmadian MR, Kabsch W, Wiesmüller L, Lautwein A, Schmitz F, Wittinghofer A.

Science. 1997 Jul 18;277(5324):333-8.

8.

Interactions of nucleotide release factor Dss4p with Sec4p in the post-Golgi secretory pathway of yeast.

Collins RN, Brennwald P, Garrett M, Lauring A, Novick P.

J Biol Chem. 1997 Jul 18;272(29):18281-9.

9.

Sec2p mediates nucleotide exchange on Sec4p and is involved in polarized delivery of post-Golgi vesicles.

Walch-Solimena C, Collins RN, Novick PJ.

J Cell Biol. 1997 Jun 30;137(7):1495-509.

10.

Two new Ypt GTPases are required for exit from the yeast trans-Golgi compartment.

Jedd G, Mulholland J, Segev N.

J Cell Biol. 1997 May 5;137(3):563-80.

11.

The tuberous sclerosis 2 gene product, tuberin, functions as a Rab5 GTPase activating protein (GAP) in modulating endocytosis.

Xiao GH, Shoarinejad F, Jin F, Golemis EA, Yeung RS.

J Biol Chem. 1997 Mar 7;272(10):6097-100.

12.

Identification of a GDI displacement factor that releases endosomal Rab GTPases from Rab-GDI.

Dirac-Svejstrup AB, Sumizawa T, Pfeffer SR.

EMBO J. 1997 Feb 3;16(3):465-72.

13.

Isolation and characterization of a GTPase activating protein specific for the Rab3 subfamily of small G proteins.

Fukui K, Sasaki T, Imazumi K, Matsuura Y, Nakanishi H, Takai Y.

J Biol Chem. 1997 Feb 21;272(8):4655-8.

14.

Isolation and characterization of a GDP/GTP exchange protein specific for the Rab3 subfamily small G proteins.

Wada M, Nakanishi H, Satoh A, Hirano H, Obaishi H, Matsuura Y, Takai Y.

J Biol Chem. 1997 Feb 14;272(7):3875-8.

15.

Endosome dynamics regulated by a Rho protein.

Murphy C, Saffrich R, Grummt M, Gournier H, Rybin V, Rubino M, Auvinen P, Lütcke A, Parton RG, Zerial M.

Nature. 1996 Dec 5;384(6608):427-32.

PMID:
8945468
16.

GTPase activity of Rab5 acts as a timer for endocytic membrane fusion.

Rybin V, Ullrich O, Rubino M, Alexandrov K, Simon I, Seabra MC, Goody R, Zerial M.

Nature. 1996 Sep 19;383(6597):266-9.

PMID:
8805704
17.
18.

Characterization of yeast type-II geranylgeranyltransferase.

Jiang Y, Rossi G, Ferro-Novick S.

Methods Enzymol. 1995;257:21-9. No abstract available.

PMID:
8583924
19.

High expression cloning, purification, and assay of Ypt-GTPase-activating proteins.

Vollmer P, Gallwitz D.

Methods Enzymol. 1995;257:118-28. No abstract available.

PMID:
8583913
20.

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