The ryh1 gene in the fission yeast Schizosaccharomyces pombe encoding a GTP-binding protein related to ras, rho and ypt: structure, expression and identification of its human homologue.

A genetic screen for mutations synthetically lethal with fission yeast calcineurin deletion led to the identification of Ypt3, a homolog of mammalian Rab11 GTP-binding protein. A mutant with the temperature-sensitive ypt3-i5 allele showed pleiotropic phenotypes such as defects in cytokinesis, cell wall integrity, and vacuole fusion, and these were exacerbated by FK506-treatment, a specific inhibitor of calcineurin. Green fluorescent protein (GFP)-tagged Ypt3 showed cytoplasmic staining that was concentrated at growth sites, and this polarized localization required the actin cytoskeleton. It was also detected as a punctate staining in an actin-independent manner. Electron microscopy revealed thatypt3-i5 mutants accumulated aberrant Golgi-like structures and putative post-Golgi vesicles, which increased remarkably at the restrictive temperature. Consistently, the secretion of GFP fused with the pho1+ leader peptide (SPL-GFP) was abolished at the restrictive temperature in ypt3-i5 mutants. FK506-treatment accentuated the accumulation of aberrant Golgi-like structures and caused a significant decrease of SPL-GFP secretion at a permissive temperature. These results suggest that Ypt3 is required at multiple steps of the exocytic pathway and its mutation affects diverse cellular processes and that calcineurin is functionally connected to these cellular processes.

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A small nuclear GTP-binding protein from tomato suppresses a Schizosaccharomyces pombe cell-cycle mutant.

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.91.13.5863 ◽

1994 ◽

Vol 91 (13) ◽

pp. 5863-5867 ◽

Cited By ~ 49

Author(s):

R. A. Ach ◽

W. Gruissem

Keyword(s):

Cell Cycle ◽

Schizosaccharomyces Pombe ◽

Binding Protein ◽

Gtp Binding Protein ◽

Gtp Binding

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A human homologue of the yeast GST1 gene codes for a GTP-binding protein and is expressed in a proliferation-dependent manner in mammalian cells.

The EMBO Journal ◽

10.1002/j.1460-2075.1989.tb08558.x ◽

1989 ◽

Vol 8 (12) ◽

pp. 3807-3814 ◽

Cited By ~ 70

Author(s):

S. Hoshino ◽

H. Miyazawa ◽

T. Enomoto ◽

F. Hanaoka ◽

Y. Kikuchi ◽

...

Keyword(s):

Mammalian Cells ◽

Binding Protein ◽

Dependent Manner ◽

Human Homologue ◽

Gtp Binding Protein ◽

Gtp Binding

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Phenotype of the fission yeast cell cycle regulatory mutant pim1-46 is suppressed by a tobacco cDNA encoding a small, Ran-like GTP-binding protein

The Plant Journal ◽

10.1046/j.1365-313x.1994.6040555.x ◽

1994 ◽

Vol 6 (4) ◽

pp. 555-565 ◽

Cited By ~ 36

Author(s):

Thomas Merkle ◽

Thomas Haizel ◽

Tomohiro Matsumoto ◽

Klaus Harter ◽

Geza Dallmann ◽

...

Keyword(s):

Cell Cycle ◽

Yeast Cell ◽

Fission Yeast ◽

Binding Protein ◽

Yeast Cell Cycle ◽

Gtp Binding Protein ◽

Regulatory Mutant ◽

Fission Yeast Cell ◽

Gtp Binding

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A conserved small GTP-binding protein Alp41 is essential for the cofactor-dependent biogenesis of microtubules in fission yeast

FEBS Letters ◽

10.1016/s0014-5793(00)01202-3 ◽

2000 ◽

Vol 468 (1) ◽

pp. 84-88 ◽

Cited By ~ 41

Author(s):

Pippa A. Radcliffe ◽

Leah Vardy ◽

Takashi Toda

Keyword(s):

Fission Yeast ◽

Binding Protein ◽

Gtp Binding Protein ◽

Gtp Binding

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Small GTP-binding Protein RalA Associates with Weibel-Palade Bodies in Endothelial Cells

Thrombosis and Haemostasis ◽

10.1055/s-0037-1614349 ◽

1999 ◽

Vol 82 (09) ◽

pp. 1177-1181 ◽

Cited By ~ 27

Author(s):

Hubert de Leeuw ◽

Pauline Wijers-Koster ◽

Jan van Mourik ◽

Jan Voorberg

Keyword(s):

Endothelial Cells ◽

Binding Proteins ◽

Binding Protein ◽

Control Release ◽

Small Gtpase ◽

Gtp Binding Protein ◽

Two Dimensional Gel Electrophoresis ◽

Gtp Binding Proteins ◽

Dense Granules ◽

Gtp Binding

SummaryIn endothelial cells von Willebrand factor (vWF) and P-selectin are stored in dense granules, so-called Weibel-Palade bodies. Upon stimulation of endothelial cells with a variety of agents including thrombin, these organelles fuse with the plasma membrane and release their content. Small GTP-binding proteins have been shown to control release from intracellular storage pools in a number of cells. In this study we have investigated whether small GTP-binding proteins are associated with Weibel-Palade bodies. We isolated Weibel-Palade bodies by centrifugation on two consecutive density gradients of Percoll. The dense fraction in which these subcellular organelles were highly enriched, was analysed by SDS-PAGE followed by GTP overlay. A distinct band with an apparent molecular weight of 28,000 was observed. Two-dimensional gel electrophoresis followed by GTP overlay revealed the presence of a single small GTP-binding protein with an isoelectric point of 7.1. A monoclonal antibody directed against RalA showed reactivity with the small GTP-binding protein present in subcellular fractions that contain Weibel-Palade bodies. The small GTPase RalA was previously identified on dense granules of platelets and on synaptic vesicles in nerve terminals. Our observations suggest that RalA serves a role in regulated exocytosis of Weibel-Palade bodies in endothelial cells.

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Rap1b Association with the Platelet Cytoskeleton Occurs in the Absence of Glycoproteins IIb/IIIa

Thrombosis and Haemostasis ◽

10.1055/s-0037-1615073 ◽

1998 ◽

Vol 79 (04) ◽

pp. 832-836 ◽

Cited By ~ 3

Author(s):

Thomas Fischer ◽

Christina Duffy ◽

Gilbert White

Keyword(s):

Molecular Weight ◽

Divalent Cation ◽

Binding Proteins ◽

Binding Protein ◽

Platelet Membrane ◽

Low Molecular Weight ◽

Membrane Glycoproteins ◽

Gtp Binding Protein ◽

Gtp Binding Proteins ◽

Gtp Binding

SummaryPlatelet membrane glycoproteins (GP) IIb/IIIa and rap1b, a 21 kDa GTP binding protein, associate with the triton-insoluble, activation-dependent platelet cytoskeleton with similar rates and divalent cation requirement. To examine the possibility that GPIIb/IIIa was required for rap1b association with the cytoskeleton, experiments were performed to determine if the two proteins were linked under various conditions. Chromatography of lysates from resting platelets on Sephacryl S-300 showed that GPIIb/IIIa and rap1b were well separated and distinct proteins. Immunoprecipitation of GPIIb/IIIa from lysates of resting platelets did not produce rap1b or other low molecular weight GTP binding proteins and immunoprecipitation of rap1b from lysates of resting platelets did not produce GPIIb/IIIa. Finally, rap1b was associated with the activation-dependent cytoskeleton of platelets from a patient with Glanzmann’s thrombasthenia who lacks surface expressed glycoproteins IIb and IIIa. Based on these findings, we conclude that no association between GPIIb/IIIa and rap1b is found in resting platelets and that rap1b association with the activation-dependent cytoskeleton is at least partly independent of GPIIb/IIIa.

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