EC:1.5.1.3 - FACTA Search

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Query: EC:1.5.1.3 (dihydrofolate reductase)
5,819 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The high affinity receptor for immunoglobulin E (IgE) is a tetrameric structure (alpha beta gamma 2) consisting of non-covalently associated subunits: one IgE-binding alpha chain, one 4-fold membrane spanning beta chain, and two disulfide-linked gamma chains. Here, we have engineered alpha cDNA constructs (alpha trunc) encoding exclusively the leader peptide and the extracellular domain of the alpha subunit. Transfection of human alpha trunc into COS-7 cells resulted in the secretion of soluble IgE-binding polypeptides. By contrast, the polypeptides generated from rat and mouse alpha trunc transfections were sequestered in the endoplasmic reticulum and degraded even though they appeared to fold properly as judged by their capacity to bind IgE. Stable transfectants with human alpha trunc were obtained from a dihydrofolate reductase-deficient Chinese hamster ovary cell line. Several clones secreted substantial amounts (0.1 microgram/ml/10(6) cells) of IgE-binding polypeptides. The dissociation rate of bound IgE from this soluble truncated alpha (kappa-1 = 4.9 x 10(-6) s-1 at 25 degrees C) was characteristic of receptors on intact cells. After treatment with tunicamycin, the transfectants secreted unglycosylated 18-kDa polypeptides which could also bind IgE. These unglycosylated products had a tendency to form dimers and higher oligomers which were resistant to treatment by sodium dodecyl sulfate and reducing agents. These data demonstrate unequivocally that the extracellular domain of the alpha subunit is sufficient to mediate high affinity binding of IgE. Furthermore, posttranslational addition of carbohydrates is not required for proper folding and function of the receptor binding site. The truncated human alpha should be a suitable reagent for crystallographic analysis and for detailed analysis of the receptor binding sites.
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PMID:Characterization of truncated alpha chain products from human, rat, and mouse high affinity receptor for immunoglobulin E. 182 44

The product of the yeast CHO 1 gene, phosphatidylserine synthase (PSS), is an integral membrane protein that catalyses a central step in cellular phospholipid biosynthesis. A 1.2 kb fragment containing the regulatory and structural components of the CHO 1 gene was sequenced. Transcription initiation in wild-type cells was found to occur between -1 and -15 relative to the first ATG of a large open reading frame capable of encoding a 30,804 molecular weight protein. This translation initiation site was active in vivo and in vitro in a heterologous system. In both cases it supported production of a protein of approximately 30,000 molecular weight. A second potential translation initiation site was detected 225 or 228 bases downstream from the first ATG. This second site was active in vitro where it supported production of a protein of 22,400 molecular weight. A subclone, lacking the 5' regulatory region and the sequence encoding the first 12 amino acids of the large open reading frame, allowed translation in vivo starting at the second ATG. The resulting protein was 22,000 molecular weight, lacked the 74 N-terminal amino acids and was capable of complementing the choline auxotrophy of a cho 1 null-mutant. In transformants carrying this construct, PSS activity and 22 kDa protein was found to be associated with membrane fractions corresponding to mitochondria and endoplasmic reticulum. However, most of the truncated PSS protein accumulated in the cytosol in an inactive form. A hybrid-protein containing the 63 N-terminal amino acids of PSS fused to mouse dihydrofolate reductase was found exclusively in the cytosol when expressed in wild-type yeast. Thus, the hydrophilic, highly acidic N-terminus of PSS is required for efficient membrane insertion but does not appear to contain sequences required for a targeting to the membrane compartment.
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PMID:The hydrophilic and acidic N-terminus of the integral membrane enzyme phosphatidylserine synthase is required for efficient membrane insertion. 216 11

Translocation of large presecretory proteins into the mammalian endoplasmic reticulum requires the ribonucleoparticles, signal recognition particle, and ribosome and is tightly coupled to ongoing protein synthesis. We have shown previously that small presecretory proteins can translocate post-translationally in a reaction that does not require these ribonucleoparticles. We now report that one large protein, a synthetic hybrid between preprocecropin A and dihydrofolate reductase, translocates both cotranslationally (with the aid of signal recognition particle and ribosome) and post-translationally (without the involvement of these ribonucleoparticles) during its in vitro synthesis in the presence of dog pancreas microsomes. The distinction between these two modes of translocation was made possible by adding methotrexate to the translocation reaction. Methotrexate can only form a tight complex with those preprocecropin A-dihydrofolate reductase hybrid chains that have completed their synthesis and folded, but in forming this tight complex, this drug prevents translocation of the dihydrofolate reductase domain across the membrane.
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PMID:A large presecretory protein translocates both cotranslationally, using signal recognition particle and ribosome, and post-translationally, without these ribonucleoparticles, when synthesized in the presence of mammalian microsomes. 238 Jan 97

Honeybee prepromelittin (70 amino acid residues), the precursor of an eukaryotic secretory protein, and a hybrid protein between prepromelittin and mouse dihydrofolate reductase (257 amino acid residues) were expressed in Escherichia coli and characterized with respect to their requirements for transport across the plasma membrane. Both precursor proteins are posttranslationally processed and exported into the periplasm, and they both depend on the membrane potential for this to occur. With respect to dependence on components of the export machinery, however, the two precursor proteins show striking differences: the small precursor protein prepromelittin does not require the function of proteins secA and secY; the large precursor protein prepromelittin-dihydrofolate reductase, on the other hand, depends on both components. The implications of these observations with respect to the mechanisms of protein export in E. coli and of protein import into the endoplasmic reticulum are discussed.
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PMID:Export of honeybee prepromelittin in Escherichia coli depends on the membrane potential but does not depend on proteins secA and secY. 254 26

The human transferrin receptor (TR) is a protein comprising 760 amino acid residues that spans the membrane once with its N terminus towards the cytoplasm. It is synthesized without a cleavable signal peptide. We have tested whether the signal responsible for its membrane insertion is present within its transmembrane peptide using a combined recombinant DNA/in vitro translation approach. The complete TR coding region was first reconstructed from overlapping TR cDNA clones and then engineered into an SP6-based transcription vector. In vitro transcription and subsequent translation in the presence of rough microsomes yielded TR molecules that were glycosylated and correctly inserted into the membrane. Two kinds of experiments demonstrated that the spanning region of the TR polypeptide contained the signal for translocation across the membrane of the rough endoplasmic reticulum. First, we deleted the spanning region of TR and showed that this deletion mutant could not be inserted. Second, we showed that two cytoplasmic proteins (the mouse dihydrofolate reductase and the chimpanzee alpha-globin) could be inserted into the microsomal membrane in the expected orientation when the TR transmembrane segment was added to their N termini. Thus, the spanning peptide was shown to be both necessary and sufficient for chain translocation. Further analyses demonstrated that the translocation event was dependent on the signal recognition particle.
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PMID:The transmembrane segment of the human transferrin receptor functions as a signal peptide. 301 1

Cultured 3T3 mouse fibroblasts transfected with cloned hepatitis B virus genome and DNA coding for methotrexate-resistant dihydrofolate reductase, produce and secrete significant amounts of hepatitis B surface antigen (HBsAg). Ultrastructural morphometry revealed that fibroblasts transfected with hepatitis B virus DNA contained significantly more lysosomes than did fibroblasts transfected with the gene coding for methotrexate resistance or normal fibroblasts. Although abundant HBsAg was found in the cytoplasm of transfected fibroblasts by immunologic methods, HBsAg particles were not detected by electron microscopy. Immunoelectron microscopy localized HBsAg to the nuclear envelope, rough endoplasmic reticulum, and endoplasmic cisternae. These findings suggest that the transfected cells produce mainly nonparticulate HBsAg or that they have a defect in intracisternal packaging of HBsAg into particles.
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PMID:Ultrastructural studies of fibroblasts transfected with hepatitis B virus DNA. 636 50

SEC13 encodes a 33 kDa protein that participates in vesicle budding from the endoplasmic reticulum (ER). In order to purify a functional form of Sec13p, a SEC13-dihydrofolate reductase (mouse) fusion gene (SEC13:DHFR) was constructed that complements both sec13 temperature sensitive and null mutations. Methotrexate-agarose affinity chromatography facilitated the purification of two forms of the Sec13-dhfrp fusion protein: a monomeric form and a high molecular weight complex. The complex form consists of two subunits: Sec13-dhfrp and a 150 kDa protein (p150). Native immunoprecipitation experiments confirm that Sec13p exists in a complex with p150 in wild type cells. Functional analysis supports a role for both subunits in protein transport. Vesicle budding from the ER in a cell-free reaction is inhibited by Fab antibody fragments directed against either Sec13p or p150. The purified Sec13-dhfrp/p150 complex, but not the Sec13-dhfrp monomer, in combination with two other pure protein fractions (Sar1p and a Sec23/Sec24 protein complex) satisfies the requirement for cytosol in a cell-free vesicle budding reaction. The vesicles formed with the purified protein fractions are competent to fuse with the Golgi and are biochemically distinct from the ER membrane fraction from which they derive.
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PMID:The Sec13p complex and reconstitution of vesicle budding from the ER with purified cytosolic proteins. 822 24

The protooncogene product Bcl-2 is an integral membrane protein that functions as a suppressor of programmed cell death. It contains a single predicted transmembrane segment located at its COOH terminus. Here, we show that the transmembrane domain of human Bcl-2 functions as a mitochondrial signal anchor sequence that targets and inserts the protein into the outer membrane in an Ncyto-C(in) orientation, leaving the bulk of the polypeptide facing the cytosol. Deletion of the COOH-terminal 22 amino acids of Bcl-2 abrogated protein targeting, whereas fusion of this domain to the COOH terminus of dihydrofolate reductase resulted in targeting and insertion of the hybrid protein into the outer membrane in a manner similar to that of Bcl-2. The sequence of the hydrophobic core of the Bcl-2 signal anchor is similar to the corresponding region of the NH2-terminal signal anchor of the mitochondrial outer membrane protein in yeast, Mas70p. A synthetic peptide comprising the Mas70p signal anchor sequence effectively competed for insertion of Bcl-2 into the outer membrane but had no effect on the comparatively low association that Bcl-2 makes with endoplasmic reticulum microsomes. Insertion of Bcl-2 into the mitochondrial outer membrane is mechanistically different than its association with microsomes.
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PMID:Targeting of Bcl-2 to the mitochondrial outer membrane by a COOH-terminal signal anchor sequence. 824 56

Upon insertion of a signal-anchor protein into the endoplasmic reticulum membrane, either the C-terminal or the N-terminal domain is translocated across the membrane. Charged residues flanking the transmembrane domain are important determinants for this decision, but are not necessarily sufficient to generate a unique topology. Using a model protein that is inserted into the membrane to an equal extent in either orientation, we have tested the influence of the size and the folding state of the N-terminal domain on the insertion process. A small zinc finger domain or the full coding sequence of dihydrofolate reductase were fused to the N-terminus. These stably folding domains hindered or even prevented their translocation. Disruption of their structure by destabilizing mutations largely restored transport across the membrane. Translocation efficiency, however, did not depend on the size of the N-terminal domain within a range of 40-237 amino acids. The folding behavior of the N-terminal domain is thus an important factor in the topogenesis of signal-anchor proteins.
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PMID:Transmembrane orientation of signal-anchor proteins is affected by the folding state but not the size of the N-terminal domain. 855 50

An immunological hierarchy among three H-2Db-restricted cytotoxic T lymphocyte (CTL) determinants in simian virus 40 (SV40) large T antigen (Tag) was described previously: determinants I and II/III are immunodominant, whereas determinant V is immunorecessive. To assess the immunogenicity of each determinant individually and define mechanisms that contribute to the immunorecessive nature of determinant V, we constructed a panel of recombinant vaccinia viruses (rVVs) expressing minigenes encoding these determinants in various polypeptide contexts. We found the following. (i) Immunization of mice with an rVV encoding full-length SV40 Tag resulted in priming for CTL responses to determinants I and II/III but not determinant V. (ii) rVVs encoding peptide I or II/III in the cytosol or targeted to the endoplasmic reticulum (ER) were highly antigenic and immunogenic. (iii) rVVs encoding peptide V minigenes were antigenic and immunogenic if the peptide was targeted to the ER, expressed in the cytosol with short flanking sequences, or expressed from within a self-protein, murine dihydrofolate reductase. (iv) Presentation of the nonflanked peptide V (preceded by a Met codon only) could be enhanced by using a potent inhibitor of the proteasome. (v) H-2Db-epitope V peptide complexes decayed more rapidly than complexes containing epitope I or II/III peptides. In brefeldin A blocking experiments, functional epitope V complexes were detected longer on targets expressing ER-targeted epitope V than on targets expressing forms of epitope V dependent on the transporter associated with antigen processing. Therefore, limited formation of relatively unstable cell surface H-2Db complexes most likely contributes to the immunorecessive nature of epitope V within SV40 Tag. Increasing the delivery of epitope V peptide to the major histocompatibility complex class I presentation pathway by ER targeting dramatically enhanced the immunogenicity of epitope V.
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PMID:An endoplasmic reticulum-targeting signal sequence enhances the immunogenicity of an immunorecessive simian virus 40 large T antigen cytotoxic T-lymphocyte epitope. 944 50

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