Saccharomyces cerevisiae VIG9 Encodes GDP-mannose Pyrophosphorylase, Which Is Essential for Protein Glycosylation

Hashimoto, Hitoshi; Sakakibara, Akira; Yamasaki, Makari; Yoda, Koji

doi:10.1074/jbc.272.26.16308

Cited by 84 publications

(86 citation statements)

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“…2). The Vig9 protein has been demonstrated to have GTP:␣-D-mannose-1-phosphate guanylyltransferase (MPG; EC 2.7.7.13) activity in vitro (19). CYT1 also shows similarity to bacterial MPGs and to the sequence of an N-terminal peptide from the small subunit of porcine MPG (data not shown).…”

Section: Resultsmentioning

confidence: 98%

Arabidopsis cyt1 mutants are deficient in a mannose-1-phosphate guanylyltransferase and point to a requirement of N-linked glycosylation for cellulose biosynthesis

Lukowitz

Nickle

Meinke

et al. 2001

Proc. Natl. Acad. Sci. U.S.A.

245

200

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Arabidopsis cyt1 mutants have a complex phenotype indicative of a severe defect in cell wall biogenesis. Mutant embryos arrest as wide, heart-shaped structures characterized by ectopic accumulation of callose and the occurrence of incomplete cell walls. Texture and thickness of the cell walls are irregular, and unesterified pectins show an abnormally diffuse distribution. To determine the molecular basis of these defects, we have cloned the CYT1 gene by a map-based approach and found that it encodes mannose-1-phosphate guanylyltransferase. A weak mutation in the same gene, called vtc1, has previously been identified on the basis of ozone sensitivity due to reduced levels of ascorbic acid. Mutant cyt1 embryos are deficient in N-glycosylation and have an altered composition of cell wall polysaccharides. Most notably, they show a 5-fold decrease in cellulose content. Characteristic aspects of the cyt1 phenotype, including radial swelling and accumulation of callose, can be mimicked with the inhibitor of N-glycosylation, tunicamycin. Our results suggest that N-glycosylation is required for cellulose biosynthesis and that a deficiency in this process can account for most phenotypic features of cyt1 embryos.

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Section: Resultsmentioning

confidence: 98%

Arabidopsis cyt1 mutants are deficient in a mannose-1-phosphate guanylyltransferase and point to a requirement of N-linked glycosylation for cellulose biosynthesis

Lukowitz

Nickle

Meinke

et al. 2001

Proc. Natl. Acad. Sci. U.S.A.

245

200

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“…Mutations that block early steps in the assembly of core glycans (e.g. alg1, alg2, alg4, and vig9) are lethal (40,41) as is the knock-out mutation of the yeast PMM gene SEC53 (6). Furthermore, glycosylation mutants with defects in the oligosaccharyltransferase protein complex were reported to undergo programmed cell death (42,43).…”

Section: Map-based Cloning Of the Pmm-12mentioning

confidence: 99%

A Temperature-sensitive Mutation in the Arabidopsis thaliana Phosphomannomutase Gene Disrupts Protein Glycosylation and Triggers Cell Death

Hoeberichts

Vaeck

Kiddle

et al. 2008

Journal of Biological Chemistry

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Eukaryotic phosphomannomutases (PMMs) catalyze the interconversion of mannose 6-phosphate to mannose 1-phosphate and are essential to the biosynthesis of GDP-mannose. As such, plant PMMs are involved in ascorbic acid (AsA) biosynthesis and N-glycosylation. We report on the conditional phenotype of the temperature-sensitive Arabidopsis thaliana pmm-12 mutant. Mutant seedlings were phenotypically similar to wild type seedlings when grown at 16 -18°C but died within several days after transfer to 28°C. This phenotype was observed throughout both vegetative and reproductive development. Protein extracts derived from pmm-12 plants had lower PMM protein and enzyme activity levels. In vitro biochemical analysis of recombinant proteins showed that the mutant PMM protein was compromised in its catalytic efficiency (K cat /K m ). Despite significantly decreased AsA levels in pmm-12 plants, AsA deficiency could not account for the observed phenotype. Since, at restrictive temperature, total glycoprotein patterns were altered and glycosylation of protein-disulfide isomerase was perturbed, we propose that a deficiency in protein glycosylation is responsible for the observed cell death phenotype.

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“…Since then, the enzyme has been purified from a number of organisms and tissues such as Pseudomonas aeruginosa [19], Mycobacterium smegmatis [20], mammary gland [21] and pig liver [22]. The gene for this enzyme was cloned from Saccaromyces cerevisiae and expressed in Escherichia coli cells [23]. Interestingly, GMPP from P. aeruginosa is a bifunctional enzyme that has both GMPP and phosphomannose isomerase activities [19].…”

mentioning

confidence: 99%

Cloning, expression and characterization of the pig liver GDP-mannose pyrophosphorylase. Evidence that GDP-mannose and GDP-Glc pyrophosphorylases are different proteins

Elbein¹

2000

Eur J Biochem

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GDP-Man, the mannosyl donor for most Man-containing polymers is formed by the transfer of Man-1-P to GTP to form GDP-Man and PP i . This reaction is catalyzed by the widespread and essential enzyme, GDP-Man pyrophosphorylase (GMPP). The pig liver GMPP consists of an a subunit (43 kDa) and a b subunit (37 kDa). Purified pig GMPP catalyzes the synthesis of GDP-Glc (from Glc-1-P and GTP) and GDP-Man (from Man-1-P and GTP), but has higher activity for the formation of GDP-Glc than for synthesis of GDP-Man. In the present study, we report the cloning of the cDNA for the b subunit of GMPP, and its expression in a bacterial system resulting in the formation of active enzyme. The full length cDNA encoding the b subunit was isolated from a porcine cDNA library, and its predicted gene product showed high amino-acid sequence homology to GMPPs from other species. The gene was expressed in Escherichia coli cells, and a 37-kDa protein was over-produced in these cells. This gene product reacted strongly with antibody reactive to the native b subunit of pig GMPP. Most interestingly, this recombinant protein had high activity for synthesizing GDP-Man (from Man-1-P and GTP), but very low activity for the formation of GDP-Glc (from Glc-1-P and GTP). Other properties of the recombinant protein were also analyzed. This study suggests that the b subunit is the GMPP, whereas the a subunit, or a combination of both subunits, may have the GDP-Glc pyrophosphorylase activity.Keywords: GDP-Man; GDP-Glc; N-linked; pyrophosphorylase; cloning.At least 48 different sugar nucleotides (i.e. nucleoside diphosphate sugars) have been isolated, and many of these have been shown to be intermediates in the biosynthesis of various types of complex carbohydrates [1±3]. One such nucleotide, GDP-dMan, was first isolated from yeast in 1954 [4]. This activated form of Man is the major mannosyl donor for the synthesis of glycoproteins [5,6], glycosylphosphatidylinositol (GPI) membrane anchors [7], and various bacterial and lower eukaryotic cell wall polymers [8,9].GDP-d-Man plays a key role in the biosynthetic pathway that produces the N-linked oligosaccharides of many membrane and secretory glycoproteins of eukaryotic cells [10]. This biosynthetic pathway is initiated in the ER with the formation of a lipid-linked oligosaccharide, i.e Man 9 GlcNAc 2 -PP-Dol, which ultimately donates its oligosaccharide to specific asparagine residues on the newly synthesized polypeptide chain. The first five Man residues are derived directly from GDP-Man to give Man 5 GlcNAc 2 -PP-Dol, while the next four Man residues are contributed by Dol-P-Man to form Man 9 GlcNAc 2-PP-Dol [11±14]. The Man component of Dol-P-Man is also derived from GDP-Man. Man residues also occur in GPI anchors which have a common`core' glycan structure. Those Man residues are also derived from Dol-P-Man [15,16]. In addition, GDP-lfucose can be derived from GDP-d-Man through a series of oxidation, reduction and epimerization reactions [17].Thus, the enzyme, GDP-Man pyrophosphorylase or GTP:a-dMan-1-P g...

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Saccharomyces cerevisiae VIG9 Encodes GDP-mannose Pyrophosphorylase, Which Is Essential for Protein Glycosylation

Cited by 84 publications

References 40 publications

Arabidopsis cyt1 mutants are deficient in a mannose-1-phosphate guanylyltransferase and point to a requirement of N-linked glycosylation for cellulose biosynthesis

Arabidopsis cyt1 mutants are deficient in a mannose-1-phosphate guanylyltransferase and point to a requirement of N-linked glycosylation for cellulose biosynthesis

A Temperature-sensitive Mutation in the Arabidopsis thaliana Phosphomannomutase Gene Disrupts Protein Glycosylation and Triggers Cell Death

Cloning, expression and characterization of the pig liver GDP-mannose pyrophosphorylase. Evidence that GDP-mannose and GDP-Glc pyrophosphorylases are different proteins

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