EC:2.7.7.6 - FACTA Search

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Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cellular isoform of the prion protein (PrPC) is a sialoglycoprotein bound almost exclusively on the external surface of the plasma membrane by a glycosyl phosphatidylinositol anchor. The deduced amino acid sequence of Syrian hamster PrPC identifies two potential sites for the addition of Asn-linked carbohydrates at amino acids 181-183 (Asn-Ile-Thr) and 197-199 (Asn-Phe-Thr). We have altered these sites by replacing the threonine residues with alanine and expressed the mutant proteins transiently in CV1 cells utilizing a mutagenesis vector with the T7 promoter located upstream from the PrP gene. The T7 RNA polymerase was supplied by infection with a recombinant vaccinia virus. The 3 mutant proteins (PrPAla183, PrPAla199 and PrPAla183/199) have a reduced relative molecular weight compared to wild-type (wt) PrP. Deglycosylation as well as synthesis in the presence of tunicamycin reduced the relative molecular weight of all the PrP species to that of the double mutant PrPAla183/199. Our results indicate that both single-site mutant prion proteins are glycosylated at non-mutated sites and they suggest that both potential sites for Asn-linked glycosylation are utilized in wt PrPC. Immunofluorescence studies demonstrate that while wt PrPC localizes to the cell surface, all the mutant PrP molecules accumulate intracellularly. The site of accumulation of PrPAla183 is probably prior to the mid-Golgi stack since this protein does not acquire resistance to endoglycosidase H. Whether the intracellular locations of the mutant PrPC species are the same as those identified for the scrapie isoform of the prion protein (PrPSc) remains to be established.
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PMID:Intracellular accumulation of the cellular prion protein after mutagenesis of its Asn-linked glycosylation sites. 198 82

Members of the Bunyaviridae family acquire their envelopes by budding into the Golgi complex (GC). The accumulation of the membrane glycoproteins G1 and G2 in the GC probably determines the site of maturation. Here we have studied the intracellular transport and targeting to the GC of G1 and G2 of Uukuniemi virus, a member of the Phlebovirus genus, and report on their expression from cloned cDNAs either together or separately by using a T7 RNA polymerase-driven vaccinia virus expression system. When G1 and G2 were expressed together from a full-length cDNA as the p110 precursor, both proteins were localized to the Golgi complex, as evidenced by colocalization with the Golgi marker enzyme mannosidase II. Immunofluorescent staining indicated that G1 expressed alone also localized to the GC. However, pulse-chase experiments showed that G1 remained endoglycosidase H sensitive. G2 expressed alone remained associated with the endoplasmic reticulum (ER). G2 could be rescued from the ER and transported to the GC by coexpression with G1 from separate mRNAs. Coexpression also increased the efficiency of G1 transport to the GC. With none of the constructs could the glycoproteins be observed on the cell surface. These results show that efficient export of G1 and G2 from the ER requires coexpression of both proteins, in conformity with our previous results showing that G1 and G2 form heterodimeric complexes in the ER. Since G1 expressed alone is retained in the GC, we conclude that G1 contains a retention signal for localization to the GC. G2 might thus become associated with the GC indirectly via its interaction with G1.
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PMID:The membrane glycoprotein G1 of Uukuniemi virus contains a signal for localization to the Golgi complex. 762 26

The Bunyamwera bunyavirus (BUN) M RNA genome segment encodes three proteins, two glycoproteins termed G1 and G2 and a non-structural protein called NSm, in the form of a polyprotein precursor that is co-translationally cleaved to give the mature proteins. Indirect immunofluorescence experiments have shown that these proteins localize to the Golgi complex in BUN-infected cells. We have used a recombinant vaccinia virus (vTF7-3), which expresses bacteriophage T7 RNA polymerase, to drive the expression of plasmids containing either the entire BUN M segment cDNA or fragments that encode the G1, G2 and NSm proteins separately under control of the T7 promoter. After transfection of these plasmids into vTF7-3-infected cells, correctly sized and processed proteins were detected by immunoprecipitation with BUN-specific antibodies. Immunofluorescence experiments showed that G1, G2 and NSm localized to the Golgi when transiently expressed from the full-length cDNA. When G2 or NSm were expressed separately they also localized to the Golgi, but when G1 was expressed alone a staining pattern typical for the endoplasmic reticulum was obtained. However coexpression of G2 and G1 from independent plasmids resulted in G1 localizing to the Golgi. In contrast translocation of G1 to the Golgi was not observed when G1 was coexpressed with NSm, although NSm itself was still detected in the Golgi. Similar results were obtained when the proteins were expressed from transfected plasmids containing the G2-, NSm- or G1-coding sequences under control of the cytomegalovirus immediate-early promoter. The localization of G1 to the Golgi when coexpressed with G2 was confirmed by the loss of endoglycosidase H (endo H) sensitivity of G1 after approximately 60 min in a pulse-chase experiment; G1 remained sensitive to endo H when expressed either alone or in combination with NSm. These results suggest that G2 contains the Golgi targeting and/or retention signals and that G1 has to interact with this protein to localize to this cellular compartment.
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PMID:Localization of Bunyamwera bunyavirus G1 glycoprotein to the Golgi requires association with G2 but not with NSm. 799 37

Gaucher disease results from impaired activity of the lysosomal enzyme glucocerebrosidase. Aiming at overexpressing the human glucocerebrosidase and testing the efficiency of the two in-frame ATGs of its gene in directing synthesis of an active enzyme, it was coupled to the T7 RNA polymerase promoter in a vaccinia virus-derived expression vector (pTM-1). cDNAs containing either one or both ATGs of the glucocerebrosidase mRNA were linked to the T7 polymerase promoter. Recombinant viruses were produced and used for infecting human cells in tissue culture. The results demonstrated that both ATGs directed translation of active glucocerebrosidase, resulting in a 10-fold increase in enzymic activity. Most of the protein remained sensitive to endoglycosidase H. The active enzyme represented a small fraction of the expressed glucocerebrosidase. The recombinant enzyme had the same Km and optimal pH towards the artificial substrate 4-methylumbelliferyl glucopyranoside as the authentic endogenous human enzyme. Measurements of intracellular enzymic activity directed by the cDNAs with either one or both ATGs in cells loaded with a fluorescent glucosylceramide demonstrated a 30% increase in activity directed by the cDNAs containing the first ATG over that containing the second ATG. This indicates that the protein synthesized from the first ATG, with a 38 amino acid leader, is translocated through the endoplasmic reticulum more readily than its counterpart directed by the second ATG, with a 19 amino acid leader. The elevation in glucocerebrosidase activity and the reproducibility of the data leads us to propose the use of the vaccinia virus-derived expression system as a tool for studying glucocerebrosidase mutants in Gaucher disease.
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PMID:Overexpression of human glucocerebrosidase containing different-sized leaders. 869 90

To investigate the cellular functions of sulfated glycosphingolipids, we introduced the cerebroside sulfotransferase (CST) gene into J5 cells, a subclone of 3LL Lewis lung carcinoma cells. The J5 cells lack acidic glycosphingolipids but accumulate their common biosynthetic precursor, lactosylceramide. We established the stable CST transfectants, J5/CST-1 and J5/CST-2 clones, highly expressing sulfated lactosylceramide (SM3). Both clones exhibited more spherical morphology in comparison to mock transfectant, and their adhesiveness to fibronectin and laminin was significantly lower. The loss of cell-substratum interactions in these SM3-expressing cells could be attributed to decreased expression of integrins (alpha(5), alpha(6), and beta(1)) on the cell surface and their whole cellular levels. However, the levels of H-2K(b) and H-2D(b) antigens remained unchanged. Reverse transcriptase-polymerase chain reaction and Northern blot analyses for these integrins exhibited significant decrease of beta(1) gene expression in J5/CST-1 and 2, but there was no change in the levels of alpha(5) and alpha(6) transcripts. Deglycosylation by endoglycosidase H treatment clearly demonstrated that the precursor form of beta(1) integrin, possessing high mannose oligosaccharide chains, was preferentially decreased in the CST transfectants. These results demonstrate that endogenous SM3 negatively regulates beta(1) integrin expression at the transcriptional level, and the decrease of alpha integrin proteins in the CST transfectants was due to the post-transcriptional modification. We suggest the putative importance of the intracellular pre-beta(1) integrin pool for normal integrin maturation and subsequent function. Although the rates of cell proliferation in vitro for mock and CST transfectants were similar, tumorigenicity of J5/CST-1 and -2 cells inoculated into syngeneic C57/BL6 mice was greatly decreased or even absent. This was probably due to global loss of the efficient cell-matrix interactions, which are essential for the development of malignant tumors in vivo. Thus, we showed the evidence that cellular SM3 negatively regulates the cell-substratum interaction, resulting in the loss of tumorigenicity.
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PMID:Suppression of integrin expression and tumorigenicity by sulfation of lactosylceramide in 3LL Lewis lung carcinoma cells. 1135 5

Using a recombinant vaccinia virus containing the T7 RNA polymerase, we have established a system for the transient expression of human polymeric immunoglobulin receptor (pIgR) in baby hamster kidney cells, a baby hamster-derived fibroblastic cell line. This transfection system resulted in the successful expression of pIgR in these cells, and Western blot analysis showed that human pIgR was expressed as two different molecular weight forms of 92 and 107 kDa. Treatment with endoglycosidase H showed that the difference between these two forms was due to the glycosylation status of the protein. In order to examine the functional role of glycosylation, we treated the transfected cells with tunicamycin, which prevents a core glycosylation step in the endoplasmic reticulum. Non-glycosylated pIgR was released into the culture medium of the transfected cells, albeit with extremely low efficiency. Taking these results together, we conclude that the glycosylation of pIgR may play a positive role in the efficient transport or release of free pIgR.
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PMID:Release of non-glycosylated polymeric immunoglobulin receptor protein. 1450 12

A cell-free translation/glycosylation system derived from lepidopteran (Sf21) cells, which are widely used to express high yields of foreign active proteins that have post-translational modifications, was constructed. The insect cell extract was prepared using a Mini-Bomb cell disruption chamber by nitrogen pressure treatment, which stably retains translational and post-translational components. The gp120 mRNA was transcribed from the human immunodeficiency virus type-1 envelope glycoprotein gp120 gene with T7 RNA polymerase. When the gp120 mRNA was translated in the insect cell-free system, gp120 having a molecular mass of 100 kDa was detected by Western blot analysis. Synthesized gp120 and gp120 expressed in the intracellular fraction of recombinant-baculovirus-infected Sf21 cells had the same molecular mass, and they both had reduced mobility compared with gp120 secreted by recombinant baculovirus-infected Sf21 cells. In contrast, the 56-kDa gp120 protein, which corresponds to the polypeptide backbone of gp120, was synthesized in wheat germ and rabbit reticulocyte systems. The molecular mass of synthesized gp120 decreased from 100 kDa to 61 kDa after endoglycosidase H treatment, indicating that synthesized gp120 had been glycosylated with N-linked oligosaccharides. Furthermore, glycosylated gp120 was bound to human CD4 molecules expressed on the surface of quail cells. These results revealed that the insect cell-free system can synthesize gp120 that is folded in the proper conformation to provide a CD4-binding domain.
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PMID:A novel cell-free translation/glycosylation system prepared from insect cells. 1623