Gerald R. Busch scite author profile

Many of the vacuolar protein sorting (vps) mutants of Saccharomyces cerevisiae exhibit severe defects in the sorting of vacuolar proteins but still retain near‐normal vacuole morphology. The gene affected in one such mutant, vps21, has been cloned and found to encode a member of the ras‐like GTP binding protein family. Sequence comparisons with other known GTP binding proteins indicate that Vps21p is unique but shares striking similarity with mammalian rab5 proteins (> 50% identity and > 70% similarity). Regions with highest similarity are clustered within the putative GTP binding motifs and the proposed effector domains of the Vps21/rab5 proteins. Point mutations constructed within these conserved regions inactivate Vps21p function; the mutant cells missort and secrete the soluble vacuolar hydrolase carboxypeptidase Y (CPY). Cells carrying a complete deletion of the VPS21 coding sequence (i) are viable but exhibit a growth defect at 38 degrees C, (ii) missort multiple vacuolar proteins, (iii) accumulate 40‐50 nm vesicles and (iv) contain a large vacuole. VPS21 encodes a 22 kDa protein that binds GTP and fractionates with subcellular membranes. Mutant analysis indicates that the association with a membrane(s) is dependent on geranylgeranylation of the C‐terminal cysteine residue(s) of Vps21p. We propose that Vps21p functions in the targeting and/or fusion of transport vesicles that mediate the delivery of proteins to the vacuole.

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Aspects of signal transduction in stimulus exocytosis‐coupling in Paramecium

Satir

Busch

Vuoso

et al. 1988

J of Cellular Biochemistry

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This paper deals with the detailed mechanisms of signal transduction that lead to exocytosis during regulative secretion induced by specific secretagogues in a eukaryotic cell, Paramecium tetraurelia. There are at least three cellular compartments involved in the process: I) the plasma membrane, which contains secretagogue receptors and other transmembrane proteins, II) the cytoplasms, particularly in the region between the cell and secretory vesicle membranes, where molecules may influence interactions of the membranes, and III) the secretory vesicle itself. The ciliated protozoan Paramecium tetraurelia is very well suited for the study of signal transduction events associated with exocytosis because this eukaryotic cell contains thousands of docked secretory vesicles (trichocysts) below the cell membrane which can be induced to release synchronously when triggered with secretagogue. This ensures a high signal-to-noise ratio for events associated with this process. Upon release the trichocyst membrane fuses with the cell membrane and the trichocyst content undergoes a Ca2+-dependent irreversible expansion. Secretory mutants are available which are blocked at different points in the signal transduction pathway. Aspects of the three components mentioned above that will be discussed here include a) the properties of the vesicle content, its pH, and its membrane; b) the role of phosphorylation/dephosphorylation of a cytosolic 63-kilodalton (kDa)Mr protein in membrane fusion; and c) how influx of extracellular Ca2+ required for exocytosis may take place via exocytic Ca2+ channels which may be associated with specific membrane microdomains (fusion rosettes).

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The secretory vesicle in living Paramecium is acidic

Busch

Satir²

1989

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In Paramecium, secretory proteins are packaged within membrane-bounded vesicles in a condensed form. This form expands when the proteins are released. We have now determined that a proton gradient is present in the secretory vesicles of living Paramecium. Acridine Orange, used as an in vivo indicator of acidic compartments, stained the secretory vesicles in both wild-type and mutant cells. Addition of the two agents that dissipate proton gradients (protonophores), namely, 2,4-dinitrophenol (DNP) and carbonylcyanide m-chlorophenylhydrazone (CCCP), eliminated this staining. Washed cells re-established their intravesicular acidity. Effects of sodium azide on vesicular acidity suggest that proton transport in these vesicles involves an ATP-dependent mechanism.

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Gerald R. Busch

VPS21 encodes a rab5-like GTP binding protein that is required for the sorting of yeast vacuolar proteins.

Aspects of signal transduction in stimulus exocytosis‐coupling in Paramecium

The secretory vesicle in living Paramecium is acidic

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