Gene/Protein
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Enzyme
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Target Concepts:
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Query: EC:3.2.1.26 (
invertase
)
4,927
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Members of the ADP-ribosylation factor (Arf) family of small GTPases are implicated in vesicle traffic in the secretory pathway, although their precise function remains unclear. We generated a series of 23 clustered charge-to-alanine mutations in the Arf1 protein of Saccharomyces cerevisiae to determine the portions of this protein important for its function in cells. These mutants display a number of phenotypes, including conditional lethality at high or low temperature, defects in glycosylation of
invertase
, dominant lethality, fluoride sensitivity, and synthetic lethality with the arf2 null mutation. All mutations were mapped onto the available crystal structures for Arf1p: Arf1p bound to
GDP
, to GTP, and complexed with the regulatory proteins ArfGEF and ArfGAP. From this systematic structure-function analysis we demonstrate that all essential mutations studied map to one hemisphere of the protein and provide strong evidence in support of the proposed ArfGEF contact site on Arf1p but minimal evidence in support of the proposed ArfGAP-binding site. In addition, we describe the isolation of a spatially distant intragenic suppressor of a dominant lethal mutation in the guanine nucleotide-binding region of Arf1p.
...
PMID:Systematic structure-function analysis of the small GTPase Arf1 in yeast. 1200 60
Sec13p has been thought to be an essential component of the COPII coat, required for exit of proteins from the yeast endoplasmic reticulum (ER). We show herein that normal function of Sec13p was not required for ER exit of the Hsp150 glycoprotein. Hsp150 was secreted to the medium under restrictive conditions in a sec13-1 mutant. The COPII components Sec23p and Sec31p and the GTP/
GDP
exchange factor Sec12p were required in functional form for secretion of Hsp150. Hsp150 leaves the ER in the absence of retrograde COPI traffic, and the responsible determinant is a peptide repeated 11 times in the middle of the Hsp150 sequence. Herein, we localized the sorting determinant for Sec13p-independent ER exit to the C-terminal domain. Sec13p-dependent
invertase
left the ER in the absence of normal Sec13p function, when fused to the C-terminal domain of Hsp150, demonstrating that this domain contained an active mediator of Sec13p-independent secretion. Thus, Hsp150 harbors two different signatures that regulate its ER exit. Our data show that transport vesicles lacking functional Sec13p can carry out ER-to-Golgi transport, but select only specific cargo protein(s) for ER exit.
...
PMID:Selective protein exit from yeast endoplasmic reticulum in absence of functional COPII coat component Sec13p. 1247 40
Thermosensitive mutants of Saccharomyces cerevisiae, affected in the endoplasmic reticulum (ER) located glycosylation, i.e. in Dol-P-Man synthase (dpm1), in beta-1,4 mannosyl transferase (alg1) and in alpha-1,3 mannosyltransferase (alg2), were used to assess the role of
GDP
-Man availability for the synthesis of dolichol-linked saccharides. The mutants were transformed with the yeast gene MPG1 (PSA1/VIG9) encoding
GDP
-Man pyrophosphorylase catalyzing the final step of
GDP
-Man formation. We found that overexpression of MPG1 allows growth at non-permissive temperature and leads to an increase in the cellular content of
GDP
-Man. In the alg1 and alg2 mutants, complemented with MPG1 gene, N-glycosylation of
invertase
was in part restored, to a degree comparable to that of the wild-type control. In the dpm1 mutant, the glycosylation reactions that depend on the formation of Dol-P-Man, i.e. elongation of Man(5)GlcNAc(2)-PP-Dol, O-mannosylation of chitinase and synthesis of GPI anchor were normal when MPG1 was overexpressed. Our data indicate that an increased level of
GDP
-Man is able to correct defects in mannosylation reactions ascribed to the ER and to the Golgi.
...
PMID:Overexpression of GDP-mannose pyrophosphorylase in Saccharomyces cerevisiae corrects defects in dolichol-linked saccharide formation and protein glycosylation. 1266 7
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