UNIPROT:Q07644 - FACTA Search

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Query: UNIPROT:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two forms of plasminogen activators inhibitor 2 (PAI-2) are synthesized by human and murine monocytes/macrophages: one accumulates in the cytosol, while the other is translocated into the endoplasmic reticulum, glycosylated and secreted. We show here that a single mRNA encodes both forms of PAI-2. Firstly, a single PIA-2 mRNA was detected by Northern blot hybridization and by RNase protection. Secondly, transfection of a PAI-2 cDNA led to the synthesis of both forms of PAI-2. Finally, in vitro translation of an mRNA transcript of the PAI-2 cDNA in the presence of microsomal membranes generated two topologically distinct forms of PAI-2. The cytosolic and secreted forms of PAI-2 do not result from the use of two translation start sites, since their synthesis initiates at the same AUG, in a sequence context that is conserved between the human and murine genes. Thus, the accumulation of one polypeptide into two topologically distinct cellular compartments can be achieved by facultative translocation.
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PMID:Facultative polypeptide translocation allows a single mRNA to encode the secreted and cytosolic forms of plasminogen activators inhibitor 2. 258 99

In most tissues, ribonucleases (RNases) are found in a latent form complexed with ribonuclease inhibitor (RI). To examine whether these so-called cytoplasmic RNases belong to the same superfamily as pancreatic RNases, we have purified from porcine liver two such RNases (PL1 and PL3) and examined their primary structures. It was found that RNase PL1 belonged to the same family as human RNase Us [Beintema et al. (1988) Biochemistry 27, 4530-4538] and bovine RNase K2 [Irie et al. (1988) J. Biochem. (Tokyo) 104, 289-296]. RNase PL3 was found to be a hitherto structurally uncharacterized type of RNase. Its polypeptide chain of 119 amino acid residues was N-terminally blocked with pyroglutamic acid, and its sequence differed at 63 positions with that of the pancreatic enzyme. All residues important for catalysis and substrate binding have been conserved. Comparison of the primary structure of RNase PL3 with that of its bovine counterpart (RNase BL4; M. Irie, personal communication) revealed an unusual conservation for this class of enzymes; the 2 enzymes were identical at 112 positions. Moreover, comparison of the amino acid compositions of these RNases with that of a human colon carcinoma-derived RNase, RNase HT-29 [Shapiro et al. (1986) Biochemistry 25, 7255-7264], suggested that these three proteins are orthologous gene products. The structural characteristics of RNases PL1 and PL3 were typical of secreted RNases, and this observation questions the proposed cytoplasmic origin of these RI-associated enzymes.
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PMID:Primary structure of a ribonuclease from porcine liver, a new member of the ribonuclease superfamily. 261 Dec 66

A highly selective affinity labeling procedure has been applied to map the active center of DNA primase from the yeast Saccharomyces cerevisiae. Enzyme molecules that have been modified by covalent attachment of benzaldehyde derivatives of adenine nucleotides are autocatalytically labeled by incubation with a radioactive ribonucleoside triphosphate. The affinity labeling of primase requires a template DNA, is not affected by DNase and RNase treatments, but is sensitive to proteinase K. Both the p58 and p48 subunits of yeast DNA primase appear to participate in the formation of the catalytic site of the enzyme, although UV-photocross-linking with [alpha-32P]ATP locates the ribonucleoside triphosphate binding site exclusively on the p48 polypeptide. The fixation of the radioactive product has been carried out also after the enzymatic reaction. Under this condition the RNA primers synthesized by the DNA polymerase-primase complex under uncoupled DNA synthesis conditions are linked to both DNA primase and DNA polymerase. When DNA synthesis is allowed to proceed first, the labeled RNA chains are fixed exclusively to the DNA polymerase polypeptide. These results, in accord with previous data, have been used to propose a model illustrating the interactions and the putative roles of the polypeptides of the DNA polymerase-primase complex.
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PMID:Affinity labeling of the active center and ribonucleoside triphosphate binding site of yeast DNA primase. 264 56

Phenylalanine ammonia-lyase (PAL) catalyzes the first reaction in the biosynthesis from phenylalanine of a wide variety of phenylpropanoid natural products including lignin, flavonoid pigments, and phytoalexins. In bean (Phaseolus vulgaris L.), PAL is encoded by a family of three genes. We show here by RNase protection with gene-specific probes that these genes are expressed differentially during development and in response to different environmental cues. While all three genes are expressed at high levels in roots, only PAL1 and PAL2 are expressed in shoots and only PAL1 is expressed in leaves. Strikingly, PAL2 is expressed at very high levels in petals, where PAL1 is only very weakly expressed and PAL3 is not expressed. All three genes are induced by mechanical wounding of hypocotyls, but fungal infection only activates PAL1 and PAL3. Illumination of etiolated hypocotyls activates PAL1 and PAL2 but not PAL3. Corresponding differential patterns of synthesis of specific PAL polypeptide isoforms were observed by two-dimensional gel electrophoretic analysis of in vitro translation products encoded by RNA isolated from hypocotyls stimulated by light, wounding, or infection. The specific isoforms encoded by transcripts of the three PAL genes were identified by inhibition of synthesis in vitro with gene-specific anti-sense transcripts followed by comparative two-dimensional gel electrophoretic analysis of the pattern of translation products. These data indicate that selective expression of PAL genes encoding functional variants is governed by a complex set of regulatory networks for developmental and environmental control of phenylpropanoid biosynthesis.
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PMID:Differential regulation of phenylalanine ammonia-lyase genes during plant development and by environmental cues. 276 71

Arylsulfatases are a group of enzymes that remove sulfate moieties from a diverse set of substrates including glycoproteins, steroids, and cerebrosides. We have isolated recombinant cDNA clones corresponding to an arylsulfatase (SpARS) message that encodes an abundant protein of pluteus larvae of the sea urchin Strongylocentrotus purpuratus. Although vertebrate arylsulfatases have broad tissue distributions, in situ hybridization with a probe for SpARS shows that the sea urchin message accumulates in the embryo only in the single cell type of aboral ectoderm and its precursors. The message is first detectable by RNase protection assays around hatching blastula stage and accumulates through pluteus larva stage. The open reading frame of cDNA clones is 1701 nt long and encodes a deduced protein with a predicted molecular mass of 61 kDa. Analysis of corresponding genomic DNA clones reveals that the pre-mRNA contains six exons. Consistent with the fact that arylsulfatase enzyme activity is extracellular, this polypeptide has a hydrophobic leader sequence and three potential glycosylation sites. Furthermore, hybridization in situ shows that in blastulae arylsulfatase message is preferentially concentrated around nuclei at the basal sides of cells. The S. purpuratus sequence is very similar to that recently reported for the same enzyme from Hemicentrotus pulcherrimus and 30% of the amino acid residues are also identical to those of both human arylsulfatase C (steroid sulfatase) and arylsulfatase A. Sequence relationships among these four mRNAs suggest that, assuming equal rates of evolution, the duplication separating the human genes occurred at about the time of separation of the echinoderm and vertebrate lineages.
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PMID:Structure and tissue-specific developmental expression of a sea urchin arylsulfatase gene. 276 35

Two overlapping c-ets-1 cDNA clones were isolated which contained the alpha and beta genomic sequences homologous to the 5' end of v-ets not detected in the previously described c-ets RNA species or proteins. Nucleotide sequencing demonstrated that these cDNAs corresponded to the splicing of alpha and beta to a common set of 3' exons (a through F) already found in the p54c-ets-1 mRNA. They contained an open reading frame of 1,455 nucleotides which could encode a polypeptide of 485 amino acids with a predicted molecular mass of 53 kilodaltons. However, when expressed in COS-1 cells, the cDNAs directed the synthesis of a protein with an apparent molecular mass in sodium dodecyl sulfate-polyacrylamide gel electrophoresis of 68 kilodaltons, p68c-ets-1, comigrating with a protein expressed at low levels in normal chicken spleen cells. These two proteins were shown to be identical by partial digestion with protease V8. Northern (RNA) blot hybridization analysis with the p68c-ets-1 -specific sequence and RNase protection experiments showed that the corresponding mRNA was expressed in normal chicken spleen and not in normal chicken thymus or in various T lymphoid cell lines. Thus, two closely related proteins, having distinct amino-terminal parts, are generated within the same locus by alternative addition of different 5' exons, alpha and beta or I54, respectively, onto a common set of 3' exons (a to F). Finally, we demonstrate that an aberrant splicing event between a cryptic splice donor site in c-myb exon E6 and the normal splice acceptor site of c-ets-1 exon alpha involved in the genesis of the E26 myb-ets sequence.
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PMID:Alternative splicing within the chicken c-ets-1 locus: implications for transduction within the E26 retrovirus of the c-ets proto-oncogene. 284 75

A nearly full-length cDNA clone for catalase (pCAS01) was obtained through immunological screening of cDNA expression library constructed from size-fractionated poly(A)-rich RNA of wounded sweet potato tuberous roots by Escherichia coli expression vector-primed cDNA synthesis. Two additional catalase cDNA clones (pCAS10 and pCAS13), which contained cDNA inserts slightly longer than that of pCAS01 at their 5'-termini, were identified by colony hybridization of another cDNA library. Those three catalase cDNAs contained primary structures not identical, but closely related, to one another based on their restriction enzyme and RNase cleavage mapping analyses, suggesting that microheterogeneity exists in catalase mRNAs. The cDNA insert of pCAS13 carried the entire catalase coding capacity, since the RNA transcribed in vitro from the cDNA under the SP6 phage promoter directed the synthesis of a catalase polypeptide in the wheat germ in vitro translation assay. The nucleotide sequencing of these catalase cDNAs indicated that 1900-base catalase mRNA contained a coding region of 1476 bases. The amino acid sequence of sweet potato catalase deduced from the nucleotide sequence was 35 amino acids shorter than rat liver catalase [Furuta, S., Hayashi, H., Hijikata, M., Miyazawa, S., Osumi, T. & Hashimoto, T. (1986) Proc. Natl Acad. Sci. USA 83, 313-317]. Although these two sequences showed only 38% homology, the sequences around the amino acid residues implicated in catalytic function, heme ligand or heme contact had been well conserved during evolution.
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PMID:Molecular cloning and nucleotide sequence of full-length cDNA for sweet potato catalase mRNA. 288 93

We identified eight patients whose sera contained autoantibodies to the U2 small nuclear ribonucleoprotein (snRNP), an RNA protein particle involved in the splicing of newly transcribed messenger RNA. Each of these patients had an overlap syndrome that included features of either systemic lupus erythematosus (SLE), scleroderma, and/or polymyositis. We then used these sera to characterize the autoantigenic polypeptides of the U1 and U2 snRNP particles. In immunoblots, all sera contained antibodies to the B" polypeptide of the U2 snRNP. A subset of these sera that more effectively immunoprecipitated the native U2 particle contained an additional antibody system that recognized the A' polypeptide of this snRNP. Antibodies eluted from the B" protein bound the A polypeptide of the U1 snRNP and vice versa. Moreover, antibodies to the B" polypeptide were accompanied by antibodies to the 68K and C polypeptides of the U1 snRNP. Finally, the A' and B" polypeptides remained physically associated after the U2 particle was cleaved with RNase. Thus these sera contain multiple autoantibody systems that, at one level, target two physically associated antigenic polypeptides of the U2 particle and, at another, target two snRNP particles which are associated during the splicing of premessenger RNA. These linked autoantibody sets provide further evidence that intact macromolecular structures are targeted by the immune response in SLE and related diseases.
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PMID:The U2 small nuclear ribonucleoprotein particle as an autoantigen. Analysis with sera from patients with overlap syndromes. 296 64

The possibility of obtaining interresidue NOEs from short linear peptides in aqueous solution has been investigated from an experimental point of view using peptides of various lengths (namely GGRA, LHRH and RNase S-peptide). It is shown that, provided that long (approximately 800 ms) NOESY mixing times are used, complete sets of sequential alpha N NOEs are obtainable. From the intensities and signs of the observed NOEs, the relative mobilities of different parts of the polypeptide chain can be determined.
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PMID:Nuclear Overhauser effects in aqueous solution as dynamic probes in short linear peptides. 305 46

A DNA fragment from Bacillus natto IFO3936 has been cloned which enhances the production of both extracellular alkaline and neutral proteases in Bacillus subtilis. The DNA sequence analysis around the gene responsible for the hyperproduction, prtR, revealed one open reading frame (comprising 60 amino acid residues) which was bounded by potential transcriptional and translational regulatory signals in its preceding and following regions. This open reading frame was not homologous to the published sequences of the structural genes of the two proteases. The calculated molecular weight (7,109) of the polypeptide predicted from the DNA sequence is much smaller than those of the two proteases, indicating that the gene product is distinct from those enzymes. In-frame fusion between the N-terminal region of the coding sequence and the lacZ gene of Escherichia coli demonstrated that the coding region was indeed translated in vivo. By deletion analysis it was suggested that prtR was the structural gene for the 60-amino-acid polypeptide. Cells carrying a prtR plasmid secreted both proteases 40 to 400 times more than the cells carrying the vector alone. Furthermore, it was found that prtR also enhanced the production of levansucrase by 1 or 2 orders of magnitude. There was no difference, however, in the amount of the other extracellular enzymes such as alpha-amylase, RNase, and alkaline phosphatase. These results indicate that prtR is specific for the hyperproduction of the proteases and levansucrase.
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PMID:Molecular cloning and nucleotide sequence of a DNA fragment from Bacillus natto that enhances production of extracellular proteases and levansucrase in Bacillus subtilis. 308 53

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