EC:3.2.1.26 - FACTA Search

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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)

The yeast SUC2 gene codes for the secreted enzyme invertase. A series of 16 different-sized gene fusions have been constructed between this yeast gene and the Escherichia coli lacZ gene, which codes for the cytoplasmic enzyme beta-galactosidase. Various amounts of SUC2 NH2-terminal coding sequence have been fused in frame to a constant COOH-terminal coding segment of the lacZ gene, resulting in the synthesis of hybrid invertase-beta-galactosidase proteins in Saccharomyces cerevisiae. The hybrid proteins exhibit beta-galactosidase activity, and they are recognized specifically by antisera directed against either invertase or beta-galactosidase. Expression of beta-galactosidase activity is regulated in a manner similar to that observed for invertase activity expressed from a wild-type SUC2 gene: repressed in high-glucose medium and derepressed in low-glucose medium. Unlike wild-type invertase, however, the invertase-beta-galactosidase hybrid proteins are not secreted. Rather, they appear to remain trapped at a very early stage of secretory protein transit: insertion into the endoplasmic reticulum (ER). The hybrid proteins appear only to have undergone core glycosylation, an ER process, and do not receive the additional glycosyl modifications that take place in the Golgi complex. Even those hybrid proteins containing only a short segment of invertase sequences at the NH2 terminus are glycosylated, suggesting that no extensive folding of the invertase polypeptide is required before initiation of transmembrane transfer. beta-Galactosidase activity expressed by the SUC2-lacZ gene fusions cofractionates on Percoll density gradients with ER marker enzymes and not with other organelles. In addition, the hybrid proteins are not accessible to cell-surface labeling by 125I. Accumulation of the invertase-beta-galactosidase hybrid proteins within the ER does not appear to confer a growth-defective phenotype to yeast cells. In this location, however, the hybrid proteins and the beta-galactosidase activity they exhibit could provide a useful biochemical tag for yeast ER membranes.
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PMID:Invertase beta-galactosidase hybrid proteins fail to be transported from the endoplasmic reticulum in Saccharomyces cerevisiae. 644 5

A DNA segment encoding a signal peptide from yeast invertase was fused in frame to bglH gene encoding 87-kD-beta-1,3-glucanase from Bacillus circulans IAM1165 and was expressed in the yeast Saccharomyces cerevisiae under the control of the GAL1 gene promoter. Yeast cells containing this fused gene produced active beta-1,3-glucanase in the medium after a long period of incubation at low temperature. The enzyme produced by yeast was heterogeneous in size, and larger than the enzyme produced by Escherichia coli.
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PMID:Expression of an 87-kD-beta-1,3-glucanase of Bacillus circulans IAM1165 in Saccharomyces cerevisiae by low-temperature incubation. 776 62

To investigate the function of the membrane anchor region of a mammalian glycosyltransferase in yeast we constructed a fusion gene that encodes the 34 amino-terminal residues of rat liver beta-galactoside alpha-2,6-sialyl-transferase (EC 2.4.99.1) (ST) fused to the mature form of yeast invertase. Transformants of Saccharomyces cerevisiae expressing the fusion gene produced an intracellular heterogeneously N-glycosylated fusion protein of intermediate molecular weight between the core and fully extended N-glycosylated form of invertase, suggesting a post-endoplasmic reticulum (ER) localization. In two types of cell fractionation using sucrose density gradients the ST-invertase fusion protein cofractionated with Golgi marker proteins, whereas a minor fraction (about 30%) comigrated with a vacuolar marker; ST-invertase was not detected in other cell fractions including the ER and the plasma membrane. Consistent with Golgi localization, about 70% of the total amount of the ST-invertase fusion was immunoprecipitated with an antibody directed against alpha-1,6-mannose linkages. The results demonstrate that the membrane anchor region of a mammalian type II glycosyltransferase is able to target a protein to the secretory pathway and to a Golgi compartment of the yeast S. cerevisiae, indicating conservation of targeting mechanisms between higher and lower eukaryotes. Since typical yeast Golgi localization signals are missing in the ST-membrane anchor region the results also suggest that yeast as mammalian cells utilize diverse mechanisms to direct proteins to the Golgi.
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PMID:Golgi localization in yeast is mediated by the membrane anchor region of rat liver sialyltransferase. 789 Jun 65

The Saccharomyces cerevisiae Wbp1 protein is an endoplasmic reticulum (ER), type I transmembrane protein which contains a cytoplasmic dilysine (KKXX) motif. This motif has previously been shown to direct Golgi-to-ER retrieval of type I membrane proteins in mammalian cells (Jackson, M. R., T. Nilsson, and P. A. Peterson. 1993. J. Cell Biol. 121: 317-333). To analyze the role of this motif in yeast, we constructed a SUC2-WBP1 chimera consisting of the coding sequence for the normally secreted glycoprotein invertase fused to the coding sequence of the COOH terminus (including the transmembrane domain and 16-amino acid cytoplasmic tail) of Wbplp. Carbohydrate analysis of the invertase-Wbp1 fusion protein using mannose linkage-specific antiserum demonstrated that the fusion protein was efficiently modified by the early Golgi initial alpha 1,6 mannosyltransferase (Och1p). Subcellular fractionation revealed that > 90% of the alpha 1,6 mannose-modified fusion protein colocalized with the ER (Wbp1p) and not with the Golgi Och1p-containing compartment or other membrane fractions. Amino acid changes within the dily sine motif (KK-->QK, KQ, or QQ) did not change the kinetics of initial alpha 1,6 mannose modification of the fusion protein but did dramatically increase the rate of modification by more distal Golgi (elongating alpha 1,6 and alpha 1,3) mannosyltransferases. These mutant fusion proteins were then delivered directly from a late Golgi compartment to the vacuole, where they were proteolytically cleaved in a PEP4-dependent manner. While amino acids surrounding the dilysine motif played only a minor role in retention ability, mutations that altered the position of the lysines relative to the COOH terminus of the fusion protein also yielded a dramatic defect in ER retention. Collectively, our results indicate that the KKXX motif does not simply retain proteins in the ER but rather directs their rapid retrieval from a novel, Och1p-containing early Golgi compartment. Similar to observations in mammalian cells, it is the presence of two lysine residues at the appropriate COOH-terminal position which represents the most important features of this sorting determinant.
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PMID:Signal-mediated retrieval of a membrane protein from the Golgi to the ER in yeast. 796 50

Hyperlipidemia arises from a disturbance in the balance between production and degradation of lipoprotein particles. Variation in the secretion of human apolipoprotein B (apoB), the major protein component of triglyceride-rich lipoproteins, directly affects this homeostasis. Naturally occurring apoB signal peptide variants (associated with hypertriglyceridemia, altered postprandial lipid metabolism, or atherosclerosis) were investigated for their ability to direct transit through the secretion pathway. Three apoB signal peptide isoforms were fused to the secretory protein, invertase, and expressed in yeast. A deletion or insertion in the hydrophobic core of the signal peptide mediated inefficient translocation into the endoplasmic reticulum and was secretion-defective, relative to the common 27-residue isoform. Additionally, the insertion apoB isoform was observed in yeast to confer a defect in export from the endoplasmic reticulum. Secretion of the apoB signal peptide-invertase fusions responded positively to an inhibitor of calpain type I proteases. These observations suggest that the apoB signal peptide plays a role in determining the levels of apoB degradation and secretion and, thus, hyperlipidemia.
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PMID:Human apolipoprotein B signal sequence variants confer a secretion-defective phenotype when expressed in yeast. 806 10

The Ste6 protein of Saccharomyces cerevisiae is a member of the ABC-transporter family containing 12 putative membrane spanning segments. To test whether Ste6 is inserted into the endoplasmic reticulum (ER) membrane by a sequential insertion mechanism we constructed a Ste6-invertase fusion containing the first hydrophobic segment of Ste6 fused to invertase lacking its own signal sequence. The resulting protein became glycosylated demonstrating that it was translocated across the ER-membrane. The finding that the N-terminal hydrophobic segment of Ste6 is recognized by the ER-translocation machinery suggests that Ste6 is inserted sequentially into the ER-membrane. Furthermore, our experiments support the Nin orientation of Ste6 predicted from the Ste6 sequence. Several findings suggest that invertase is cleaved from the Ste6 membrane anchor: (i) the gel mobility of deglycosylated wild-type invertase and fusion protein derived invertase is the same; (ii) the periplasmic invertase activity is found in the cell wall fraction, i.e. it is not associated with the cell body; (iii) a signal peptide cleavage site is predicted in the Ste6 sequence. Although the membrane anchor appeared to be cleaved, most of the invertase was retained in the ER, probably due to aggregate formation.
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PMID:The first hydrophobic segment of the ABC-transporter, Ste6, functions as a signal sequence. 808 55

The S. cerevisiae VPS10 (vacuolar protein sorting) gene encodes a type I transmembrane protein of 1577 amino acids required for the sorting of the soluble vacuolar protein carboxypeptidase Y (CPY). Mutations in VPS10 result in the selective missorting and secretion of CPY; all other vacuolar proteins tested are delivered to the vacuole in vps10 mutants. Chemical cross-linking studies demonstrate that Vps10p and the Golgi-modified precursor form of CPY directly interact. A single amino acid change in the CPY vacuolar sorting signal prevents this interaction. Vps10p also interacts with a hybrid protein containing the CPY sorting signal fused to the normally secreted enzyme invertase. Subcellular fractionation indicates that the majority of Vps10p is localized to a late Golgi compartment where vacuolar proteins are sorted. We propose that VPS10 encodes a CPY sorting receptor that executes multiple rounds of sorting by cycling between the late Golgi and a prevacuolar endosome-like compartment.
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PMID:The sorting receptor for yeast vacuolar carboxypeptidase Y is encoded by the VPS10 gene. 818 77

Sequences coding for the cytoplasmic and transmembrane domains were removed from the cDNA of the human Golgi resident membrane protein beta 1,4 galactosyltransferase (gal-T). The remaining sequences coding for the stem and catalytical domains of this glycosyltransferase were fused to sequences coding for the yeast invertase signal sequence. The hybrid was inserted together with a constitutive yeast promoter and a terminator into a E. coli/yeast shuttle vector. Saccharomyces cerevisiae strain BT150 transformed with this new expression vector expressed enzymically active soluble enzyme, whereas no activity was detectable in mock-transformed yeasts. The enzyme product was identified by HPLC analysis and shown to correspond to the expected product N-acetyllactosamine.
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PMID:Expression of soluble active human beta 1,4 galactosyltransferase in Saccharomyces cerevisiae. 819 70

Carrot cell wall beta-fructosidase, previously purified and cloned, is encoded by a single, wound- and pathogen-inducible gene. The developmental regulation of the gene was studied by determining the steady-state mRNA levels in different organs during carrot development: cell wall beta-fructosidase mRNA was detected in roots and leaves of young plants but not during tap root development. A genomic clone was isolated and characterized. The transcription start site was determined by primer extension analysis. Inspection of the promoter sequence (1488 bp) revealed the presence of sequences with high homology to cis-acting elements for the regulation of plant genes by wounding and infection. The 5'-regulatory sequence was fused to the reporter gene beta-glucuronidase (GUS) and tested in a transient expression assay with carrot suspension cells and wounded carrot root tissue (aged disks of carrot roots). The expression of the GUS gene in the transfected cells proved that the isolated promoter was functional. In transgenic tobacco plants containing the cell wall beta-fructosidase promoter fused to GUS, the reporter gene was predominantly expressed in the shoot and root meristems of young seedlings. No GUS expression was detected in mature tobacco plants, showing that the development-specific regulation of the cell wall beta-fructosidase promoter seen in carrot was maintained in tobacco plants. In contrast, expression of the GUS reporter gene in transgenic tobacco was not wound inducible. To analyze the functional organization of the cell wall beta-fructosidase promoter, a 5'-deletion series was generated and tested in a transient expression assay in protoplasts of Nicotiana plumbaginifolia. Two regions containing putative silencer elements were identified. A comparison of these regions with known silencer elements identified in both regions one copy of the negative dominant cis-acting element found in a chalcone synthase promoter of petunia.
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PMID:Molecular characterization of the gene for carrot cell wall beta-fructosidase. 822 Apr 95

The membrane topology of two alkane-inducible cytochromes P450 from the yeast Candida tropicalis, alk1 and alk2, was tested by construction of fusion proteins with part of invertase and histidinol dehydrogenase (invHIS4C) and expression in a Saccharomyces cerevisiae his4 mutant. Depending on the localization of invHIS4C on the endoplasmic reticulum (ER) cytoplasmic or luminal side, the enzyme converts histidinol to histidine and allows the his4 yeast strain to grow on histidinol-supplemented medium. The N-terminal segments of alk1 and alk2 were fused to invHIS4C at three different locations that follow the first alk1 and alk2 transmembrane domains or a second putative transmembrane domain of alk1. The combination of this in vivo assay with subcellular immunoprecipitations of the expressed fusion proteins allowed us to establish that both P450s contain only one transmembrane domain with their N-terminus located in the ER lumen. Deletions performed in these fusion proteins removing the first transmembrane domain of alk1 (delta TM) resulted in a less efficient targeting to the ER membrane but did not prevent their insertion in these membranes. Furthermore deletion of a negatively charged peptide preceding the first alk1 transmembrane domain (delta L) in an invHIS4C protein fused after this domain caused the N-terminal to have a positive net charge and to be oriented in the cytoplasm thus translocating the remaining protein into the ER lumen. The presence of the second hydrophobic segment, however, prevented the complete translocation of this fusion protein into the ER lumen. This study describes the first assessment of P450 membrane topology using an in vivo technique.
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PMID:Probing the membrane topology of Candida tropicalis cytochrome P450. 837 86

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