Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.14.11.2 (prolyl hydroxylase)
 1,814 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has recently been demonstrated that the beta-subunit of prolyl 4-hydroxylase (E.C. 1.14.11.2) is the same gene product as protein disulfide isomerase (PDI) and cellular thyroid hormone binding protein (THP). Therefore, it is very likely that the beta-subunit of the prolyl 4-hydroxylase gene serves as a house keeping gene in most cell types. In the present study, we examined the distribution of the chicken beta-subunit of prolyl 4-hydroxylase/protein disulfide isomerase (CPH beta/PDI) in erythrocytes, corneas and tendons of 13-, 17-, and 19-day-old chick embryos by immunohistochemistry using antibodies against CPH beta/PDI. Our data indicate that erythrocytes do not express the CPH beta/PDI gene whereas tendon cells express CPH beta/PDI at all developmental stages examined. The basal cells of corneal epithelium express CPH beta/PDI, but the superficial cell layers of stratified corneas of 19-day-old chick embryos do not. The expression of the CPH beta/PDI gene is also confirmed by in situ hybridization with cDNA encoding CPH beta/PDI. The results indicate that the expression of CPH beta/PDI in cornea is probably developmentally regulated. It has been suggested that methylation of genomic DNA is one of many possible regulatory mechanisms for gene expression. In order to examine whether methylation of genomic DNA may play any role in the expression of the beta-subunit gene, genomic DNA was isolated from corneas, tendons, and erythrocytes of individual 13-, 17-, and 19-day-old chick embryos. DNA samples were digested with Sma I and Eco RI, or Pst I and Sma I and followed by either Msp I, Hpa II, or Hha I and were then subjected to Southern hybridization with 32P-labeled genomic DNA fragments of CPH beta/PDI. Our results indicate that the CPH beta/PDI gene is methylated at the Hha I site in the 4th exon in erythrocytes whereas the same sites in tendon and cornea are hypomethylated. Examination of 5'-end flanking sequences of exon 1 of the CPH beta/PDI gene with the methylation sensitive endonucleases, Hha I and Hpa II did not reveal any difference in erythrocyte, cornea and tendon cells. Thus, our results indicated that DNA methylation may not play an important role in the expression of CPH beta/PDI.
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PMID:Expression and methylation of the beta-subunit gene of prolyl 4-hydroxylase: in erythrocytes, tendon and cornea of chick embryos. 133 15

Protein disulfide isomerase (PDI, EC 5.3.4.1) is a highly unusual multifunctional polypeptide, being identical to the beta subunit of prolyl 4-hydroxylase, a cellular thyroid hormone binding protein and a component of the microsomal triglyceride transfer protein complex, and highly similar to a polypeptide acting in vitro as a glycosylation site binding protein. It has two -Cys-Gly-His-Cys- sequences which, it has been proposed, act as catalytic sites for the isomerase activity, but few data have been available to indicate whether one or both of them do indeed act as catalytic sites and whether the two presumed catalytic sites act independently or cooperatively. We report here on the expression of human PDI in Escherichia coli with three different signal sequences. All three polypeptide variants were secreted into the periplasmic space as fully active enzymes. Oligonucleotide-directed mutagenesis was used to convert either one or both of the -Cys-Gly-His-Cys- sequences to -Ser-Gly-His-Cys-. The PDI activity of both polypeptides containing a single modified sequence was about 50% of that of the wild-type polypeptide, whereas the polypeptide with two modified sequences had no isomerase activity. It is thus concluded that both -Cys-Gly-His-Cys- sequences act as catalytic sites for the isomerase activity, and the two catalytic sites appear to operate independently of one another.
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PMID:Expression and site-directed mutagenesis of human protein disulfide isomerase in Escherichia coli. This multifunctional polypeptide has two independently acting catalytic sites for the isomerase activity. 155 65

A cDNA clone encoding 55-kDa multifunctional, thyroid hormone binding protein of rabbit skeletal muscle sarcoplasmic reticulum was isolated and sequenced. The cDNA encoded a protein of 509 amino acids, and a comparison of the deduced amino acid sequence with the NH2-terminal amino acid sequence of the purified protein indicates that an 18-residue NH2-terminal signal sequence was removed during synthesis. The deduced amino acid sequence of the rabbit muscle clone suggested that this protein is related to human liver thyroid hormone binding protein, rat liver protein disulfide isomerase, human hepatoma beta-subunit of prolyl 4-hydroxylase and hen oviduct glycosylation site binding protein. The protein contains two repeated sequences Trp-Cys-Gly-His-Cys-Lys proposed to be in the active sites of protein disulfide isomerase. Northern blot analysis showed that the mRNA encoding rabbit skeletal muscle form of the protein is present in liver, kidney, brain, fast- and slow-twitch skeletal muscle, and in the myocardium. In all tissues the cDNA reacts with mRNA of 2.7 kilobases in length. The 55-kDa multifunctional thyroid hormone binding protein was identified in isolated sarcoplasmic reticulum vesicles using a monoclonal antibody specific to the 55-kDa thyroid hormone binding protein from rat liver endoplasmic reticulum. The mature protein of Mr 56,681 contains 95 acidic and 61 basic amino acids. The COOH-terminal amino acid sequence of the protein is highly enriched in acidic residues with 17 of the last 29 amino acids being negatively charged. Analysis of hydropathy of the mature protein suggests that there are no potential transmembrane segments. The COOH-terminal sequence of the protein, Arg-Asp-Glu-Leu (RDEL), is similar to but different from that proposed to be an endoplasmic reticulum retention signal; Lys-Asp-Glu-Leu (KDEL) (Munro, S., and Pelham, H.R.B. (1987) Cell 48, 899-907). This variant of the retention signal may function in a similar manner to the KDEL sequence, to localize the protein to the sarcoplasmic or endoplasmic reticulum. The positively charged amino acids Lys and Arg may thus interchange in this retention signal.
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PMID:Molecular cloning of cDNA encoding a 55-kDa multifunctional thyroid hormone binding protein of skeletal muscle sarcoplasmic reticulum. 169 92

Plasma membrane proteins from human corneal stromal fibroblasts were isolated and separated by two-dimensional polyacrylamide gel electrophoresis. Separated polypeptides were electroeluted onto polyvinylidene difluoride (PVDF) membranes and individual polypeptides were subjected to NH2-terminal amino acid sequence analysis. Of a total of 33 polypeptides sequenced, 26 were found to be blocked at their NH2-terminus. Seven major membrane polypeptides were sequenced and further analyzed. One polypeptide, designated #18, was determined to be homologous to the beta subunit of prolyl hydroxylase/protein disulfide isomerase/thyroid hormone-binding protein. The other six polypeptides were found to have no significant sequence homology with any known polypeptides, as revealed by a protein data base homology search. Polypeptide Bands #90, #102, and #103 were found to have the same NH2-terminal amino acid sequence and the same overall molecular weight, yet separated from one another according to pI. These three polypeptides probably arose from differential posttranslational modification of the same original protein. Synthetic peptides were prepared from the #18 and #19 sequence and antibodies were produced. Immunostaining of cultured human corneal stromal cells and frozen sections of corneas demonstrated that these membrane polypeptides were present in corneal keratocytes, both in vitro and in vivo. Antibody against #18 stained fixed cultured corneal fibroblasts in a very fibrous pattern, with more intense staining in the perinuclear region of the cell, while antibody against #19 stained the cell surface in a much more uniform pattern. In sections of human cornea, both antibodies stained only the keratocytes in the stroma, but they also appeared to stain epithelial cells.
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PMID:Amino acid sequence analysis of proteins in the human corneal stromal cell membrane. 170

Previously we had demonstrated by photoaffinity labeling that a 57-kDa protein of the endoplasmic reticulum can bind and become covalently linked to glycosylatable photoreactive peptides containing the sequence-Asn-Xaa-Ser/Thr-. Subsequently, it was found that this protein, called glycosylation site-binding protein, was a multifunctional protein, i.e. it was identical to protein disulfide isomerase (PDI), the beta-subunit of prolyl hydroxylase and thyroid hormone-binding protein. In this study, the peptide specificity for binding to this 57-kDa protein, hereafter called PDI, has been investigated in more detail using photoaffinity probes. The results reveal that although N-glycosylation by oligosaccharyl transferase in the endoplasmic reticulum has an absolute requirement for an hydroxyamino acid in the third amino acid residue of the glycosylation site sequence, no such specificity is observed in the binding of such peptides to PDI. In addition to the lack of specificity for an hydroxyamino acid in the third residue position, no specificity was observed for the asparagine residue in the first position. Thus, binding is not restricted to peptides containing N-glycosylation sites. We have investigated the discrepancy between this apparent lack of sequence specificity and earlier results indicating that binding of peptides to PDI was specific for N-glycosylation site sequences. We now demonstrate that PDI in the lumen of microsomes is more efficiently labeled by peptides containing photoreactive-Asn-Xaa-Ser/Thr- sequences than by nonacceptor site sequences because the former become glycosylated. This increased labeling does not occur because the glycosylated form of the probes are preferentially recognized by PDI. Rather, it appears that increased polarity of the affinity probe after attachment of the oligosaccharide chain prevents its exit from the sealed microsomes, in effect concentrating it within the lumen of the microsome. These results, coupled with other studies on the multifunctional nature of PDI, suggest that the observed peptide binding may be a manifestation of the ability of PDI to recognize the backbone of polypeptides in the lumen of the endoplasmic reticulum.
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PMID:Peptide binding by protein disulfide isomerase, a resident protein of the endoplasmic reticulum lumen. 191 71

Several lines of evidence provided by other workers indicate that within the same species thyroid hormone binding protein, the beta-subunit of prolyl hydroxylase, and protein disulfide isomerase are the same protein. We sought to determine if glycosylation site binding protein, a lumenal protein of the endoplasmic reticulum, also has the same primary structure. To accomplish this the level of glycosylation site binding protein (GSBP) activity, measured by photolabeling with a glycosylation site peptide probe, was carried out in preparations of 3T3 cells and in E. coli transformed with human thyroid hormone binding protein cDNA. The results strongly support the idea that GSBP is identical to these other lumenal proteins of the endoplasmic reticulum.
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PMID:Thyroid hormone binding protein contains glycosylation site binding protein activity. 220

A 57 kd component of oligosaccharyl transferase, termed glycosylation site binding protein, specifically recognizes a photoaffinity probe containing the N-glycosylation site sequence Asn-Lys-Thr. It is present in the lumen of the ER (endoplasmic reticulum) and its release from this compartment results in a loss of N-glycosylation. Antibodies against this protein were used to identify cDNA clones from a lambda gt11 expression library. Analysis of its cDNA sequence reveals high sequence similarity to three other 57 kd luminal endoplasmic reticulum proteins: protein disulfide isomerase, the beta-subunit of prolyl hydroxylase, and thyroid hormone binding protein. This finding suggests that the capacity to recognize multiple polypeptide domains may reside in a single luminal protein that participates in co- and/or posttranslational modifications of newly synthesized proteins.
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PMID:Glycosylation site binding protein, a component of oligosaccharyl transferase, is highly similar to three other 57 kd luminal proteins of the ER. 245 90

Deoxycytidine kinase (dC kinase) is the rate-limiting enzyme in the anabolism of important anticancer and retroviral nucleoside derivatives. Its activity is often decreased in resistance to these drugs. To analyze the structure, function, and control of this clinically important enzyme we isolated 15 cDNA clones for human deoxycytidine kinase from lambda gt11 thymus and Molt 4 libraries. Four clones were sequenced. The largest clone is 2.9 kilobases and codes for a 626-amino acid open reading frame. The DNA and deduced amino acid sequence of the human dC kinase clones are homologous with a previously unidentified murine cDNA clone p3.4J (EMBL:MM34j) reported to be related to granulocyte-macrophage colony-stimulating factor. Deoxycytidine kinase also has cysteine-rich regions that are homologous with thioredoxin, the beta subunit of prolyl 4-hydroxylase, phosphoinositide-specific phospholipase C, thyroid hormone-binding protein, and protein disulfide isomerase. No differences were seen in the amount and size of deoxycytidine kinase protein and mRNA between CCRF/CEM and L1210 leukemic cell lines that express and do not express enzyme activity. Genomic restriction fragments were similar between the active and inactive CCRF/CEM cell lines. These data suggest that the cells deficient in dC kinase activity have a small defect in the structural gene.
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PMID:Human deoxycytidine kinase. Sequence of cDNA clones and analysis of expression in cell lines with and without enzyme activity. 200 68

A cDNA for the gene that encodes for a human cellular thyroid hormone-binding protein (p55) has recently been isolated and sequenced. The sequence of p55 indicates that it is identical to the protein disulfide isomerase and the beta-subunit of prolyl 4-hydroxylase. By in situ hybridization, the gene for p55 was localized on chromosome 17 at band q25. This localization shows that the p55 gene is not linked to either erbA1 or erbA2; two other thyroid hormone-binding protein genes are located at 17q 11-21 and 3p21-pter, respectively. The localization of p55 gene will permit the evaluation of the possible effects of chromosome changes on the structure and activity of the p55 gene in chromosome syndromes or neoplasms.
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PMID:Chromosomal localization of the gene for a human thyroid hormone-binding protein. 283 13

A single polypeptide acts as the beta subunit of prolyl 4-hydroxylase and the enzyme protein disulfide isomerase and may also function as a cellular thyroid hormone binding protein. We report here that the human gene for this polypeptide is about 18 kilobase pairs and consists of 11 exons. The two thioredoxin-like regions are coded by exons 1-2 and 8-9, respectively. The codons for the two presumed active sites of protein disulfide isomerase, each a Cys-Gly-His-Cys sequence, are located 12 base pairs from the beginning of exons 2 and 9. The last 3 amino acids coded by exons 1 and 8 and the first 9 amino acids coded by exons 2 and 9, including a broken codon for Tyr, are identical in the respective exon-intron junctions. These regions are also highly homologous to the active sites of bacterial thioredoxins. The data suggest that evolution of this gene has involved exon shuffling and duplication of a two-exon unit, in which the internal exon-intron junctions have been entirely conserved. The region between exons 1-2 and 8-9 appears to contain other duplications. The 5' flanking sequences contain a TATA box, six CCAAT boxes, and other elements which may be involved in regulation of the cellular amounts of this polypeptide.
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PMID:Characterization of the human gene for a polypeptide that acts both as the beta subunit of prolyl 4-hydroxylase and as protein disulfide isomerase. 284 39


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