EC:3.4.21.4 - FACTA Search

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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human renin is synthesized as a 406-amino acid preprorenin protein that is processed by a signal peptidase during secretion, to release prorenin as a 386-amino acid zymogen. The 46-amino acid "pro" domain is removed by a renin-processing enzyme, to produce enzymatically active renin, by cleavage at an Arg-Leu bond. The effects of the renin-processing enzyme can be mimicked by trypsin activation, where high concentrations of trypsin are incubated with prorenin for brief periods of time, followed by excess trypsin inhibitor to minimize secondary proteolytic processing by trypsin. In order to study the role of the pro segment in the secretion, folding, and activity of human renin, we engineered a construct where the pro domain from the preprorenin cDNA was deleted. This construct was introduced into mammalian cells and its expression was assayed in transient and stable systems. In COS-1 cells transfected with the prerenin expression vector pREN3, active renin was secreted with a specific activity of 1360 micrograms of angiotensin l/min/mg, compared with trypsin-activated prorenin, which has a specific activity of 818 micrograms of angiotensin l/min/mg. The active renin secreted in this system had a significantly reduced potency for the renin inhibitor SQ 32,970. These results demonstrate that the pro segment is dispensable for the folding and secretion of renin. A permanent cell line expressing the active form of renin was obtained by co-transfection of NRP cells with pREN3 and pHyg. A colony designated B/1 was identified, subcloned, and shown to secrete active renin (110 pg of renin/10(6) cells) optimally when maintained in both G418 and hygromycin.
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PMID:Stable expression, secretion, and characterization of active human renin in mammalian cells. 173 22

In contrast to the Gram-negative bacteria, Gram-positive bacteria such as Streptomyces lack a mucopolysaccharide cell wall which allows them to produce and secrete a variety of proteins directly into their environment. In an effort to understand and eventually exploit the synthesis and secretion of proteins by Streptomyces, we identified and characterized two naturally occurring abundantly produced proteins in culture supernatants of Streptomyces lividans and Streptomyces longisporus. We purified these 10-kDa proteins and obtained partial amino acid sequence information which was then used to design oligonucleotide probes in order to clone their genes. Analysis of the sequence data indicated that these proteins were related to each other and to several other previously characterized Streptomyces protein protease inhibitors. We demonstrate that both proteins are protein protease inhibitors with specificity for trypsin-like enzymes. The presumptive signal peptidase cleavage sites and subsequent aminopeptidase products of each protein are characterized. Finally, we show that the cloned genes contain all of the information necessary to direct synthesis and secretion of the proteins by Streptomyces spp. or Escherichia coli.
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PMID:Two novel Streptomyces protein protease inhibitors. Purification, activity, cloning, and expression. 173 80

Hen oviduct signal peptidase requires only two proteins for proteolysis of fully synthesized secretory precursor proteins in vitro: one with a molecular mass of 19 kilodaltons (kDa) and one which is a glycoprotein whose mass varies from 22 to 24 kDa depending on the extent of glycosylation. Purified signal peptidase has been analyzed both as part of an active catalytic unit and after electroelution of the individual proteins out of a preparative polyacrylamide gel. The multiple forms of the glycoprotein component of signal peptidase bind to concanavalin A and are shown to be derived from the same polypeptide backbone. Removal of their oligosaccharides by digestion with N-glycanase converts these proteins to a single 19.5-kDa polypeptide. The glycoproteins all exhibit very similar profiles following individual digestion with trypsin and separation of the resulting peptides by reverse-phase high-performance liquid chromatography. In addition, sequence analysis of selected peptides from corresponding regions in chromatograms representing each form of the glycoprotein reveals the same amino acid sequences. The 19-kDa signal peptidase protein does not bind concanavalin A, has a distinct tryptic peptide map from that of the glycoprotein, and appears to share no amino acid sequences in common with the glycoprotein. Its copurification on a concanavalin A-Sepharose column indicates that it must interact directly with the glycoprotein subunit.
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PMID:Purification and characterization of hen oviduct microsomal signal peptidase. 283 45

A cDNA clone encoding the entire E1 envelope protein (410 amino acid residues) and a portion of the C-terminal end of the E2 envelope protein of the rubella virus has been isolated and characterized. DNA sequence analysis has revealed a region 20 nucleotides in length at the 3' end of the cloned cDNA which may be a replicase recognition site or a recognition site for encapsidation. The proteolytic cleavage site between the E1 and E2 proteins was localized based on the known amino-terminal sequence of the isolated E1 protein (Kalkkinen, N., Oker-Blom, C., and Pettersson, R. F. (1984) J. Gen. Virol. 65, 1549-1557) and the deduced amino acid sequence. The mature E1 protein is preceded by a set of 20 highly hydrophobic amino acid residues possessing characteristics of a signal peptide. This "signal peptide" is flanked on both sides by typical protease cleavage sites for trypsin-like enzyme and signal peptidase. The presence of a leader sequence in the E1 protein precursor may facilitate its translocation through the host cell membrane. The E1 protein of rubella virus shows no significant homology with alphavirus E1 envelope proteins. However, a stretch of 39 amino acids in the E1 protein of rubella virus (residues 262-300) was found to share a significant homology with the first 39 residues of bovine sperm histone. The position of 4 half-cystines and 8 arginines overlaps. The E1 protein of rubella virus has been successfully expressed in COS cells after transfecting them with rubella virus cDNA in simian virus 40-derived expression vector. This protein is antigenically similar to the one expressed by cells infected with rubella virus.
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PMID:Rubella virus cDNA. Sequence and expression of E1 envelope protein. 302 58

The mouse anterior pituitary tumor cell line, AtT-20, targets secretory proteins into two distinct intracellular pathways. When the DNA that encodes trypsinogen is introduced into AtT-20 cells, the protein is sorted into the regulated secretory pathway as efficiently as the endogenous peptide hormone ACTH. In this study we have used double-label immunoelectron microscopy to demonstrate that trypsinogen colocalizes in the same secretory granules as ACTH. In vitro mutagenesis was used to test whether the information for targeting trypsinogen to the secretory granules resides at the amino (NH2) terminus of the protein. Mutations were made in the DNA that encodes trypsinogen, and the mutant proteins were expressed in AtT-20 cells to determine whether intracellular targeting could be altered. Replacing the trypsinogen signal peptide with that of the kappa-immunoglobulin light chain, a constitutively secreted protein, does not alter targeting to the regulated secretory pathway. In addition, deletion of the NH2-terminal "pro" sequence of trypsinogen has virtually no effect on protein targeting. However, this deletion does affect the signal peptidase cleavage site, and as a result the enzymatic activity of the truncated trypsin protein is abolished. We conclude that neither the signal peptide nor the 12 NH2-terminal amino acids of trypsinogen are essential for sorting to the regulated secretory pathway of AtT-20 cells.
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PMID:In vitro mutagenesis of trypsinogen: role of the amino terminus in intracellular protein targeting to secretory granules. 304 Jul 70

We have previously reported that pS2 mRNA expressed in cultured epithelial cells derived from a hormone-dependent breast carcinoma (MCF-7 cells) is also expressed in mucosa cells of normal human stomach. This mRNA encodes a putative 84 amino-acid-long protein, which is secreted by both cell types after elimination of a signal peptide. We report here the purification of the pS2 protein, its trypsin digestion and amino-acid sequencing. The MCF-7 cell-secreted protein is 60 amino-acid-long and its sequence is in complete agreement with that deduced from the mRNA sequence. The presence of an N-terminal glutamic acid indicates that the signal peptidase releases a 24 amino-acid-long signal peptide. Analysis of tryptic peptides derived from the secreted gastric pS2 protein indicates that the signal peptide and the sequence of the first 48 amino-acids are identical to those of secreted MCF-7 pS2 protein, although the N-terminal amino-acid of the gastric protein may be cyclized as a pyroglumatic acid.
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PMID:[Primary structure of human protein pS2]. 314 13

cDNA encoding human preproPTH (hpreproPTH) was expressed in Escherichia coli to study the processing of the precursor to hPTH and its secretion by the bacterial secretory apparatus. We first constructed hybrid genes that differed randomly in the distance between the E. coli lac promoter's ribosomal binding site and DNA encoding a fusion protein with beta-galactosidase activity and the prepro sequence of hpreproPTH on the aminoterminus. Starting with clones identified as efficient producers of beta-galactosidase on indicator agar plates, the coding sequence for hpreproPTH was reconstituted intact. In a different construction we placed the hpreproPTH coding sequence downstream from the lac promoter at a distance of 12 base pairs from the ribosomal binding site. PTH immunoreactive proteins from multiple clones were identified by protein gel electrophoresis and by protein microsequencing. PTH-related proteins encoded by different plasmids were shown to be hpreproPTH with amino-terminal extensions of either two or four amino acids and as authentic hpreproPTH. Two hPTH fragments, hPTH(3-84) and hPTH(8-84), were also observed. The trypsin accessibility of hpreproPTH and of the two hPTH fragments in pulse-chase, cell-fractionation experiments using intact and lysed spheroplasts lets us conclude that the mammalian signal sequence directs hpreproPTH to the surface of the spheroplast membrane but is not appropriately cleaved by the signal peptidase.
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PMID:Human preproparathyroid hormone synthesized in Escherichia coli is transported to the surface of the bacterial inner membrane but not processed to the mature hormone. 333 11

Escherichia coli Shiga-like toxin I, a close relative of Shiga toxin and a distant relative of the ricin family of plant toxins, inhibits eukaryotic protein synthesis by catalyzing the depurination of adenosine 4324 in 28S rRNA. By comparing the crystallographic structure of ricin with amino acids conserved between the Shiga and ricin toxin families, we identified seven potential active-site residues of Shiga-like toxin I. The structural gene encoding Shiga-like toxin I A chain (Slt-IA), the enzymatically active subunit, was engineered for high expression in E. coli. Oligonucleotide-directed mutagenesis of the gene for Slt-IA was used to change glutamic acid 167 to aspartic acid. As measured by an in vitro assay for inhibition of protein synthesis, the specific activity of mutant Slt-IA was decreased by a factor of 1000 compared to wild-type Slt-IA. Immunoblots showed that mutant and wild-type Slt-IA were synthesized as full-length proteins and were processed correctly by signal peptidase. Both proteins were equally susceptible to trypsin digestion, suggesting that the amino acid substitution did not produce a major alteration in Slt-IA conformation. We conclude that glutamic acid 167 is critical for activity of the Shiga-like toxin I A chain and may be located at the active site.
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PMID:Evidence that glutamic acid 167 is an active-site residue of Shiga-like toxin I. 335 83

A DNA sequence consisting of 24 base pairs was inserted into the structural gene (lpp) coding for the major lipoprotein of the Escherichia coli outer membrane which was carried on a high-copy-number plasmid in which expression was regulated through a lac promoter-operator region. This modification resulted in the insertion of eight amino acid residues, Glu-Glu-Phe-Leu-Glu-Glu-Phe-Leu, between the glutamine residue at position 9 and the leucine residue at position 10 of the wild-type lipoprotein sequence. When production of the mutant lipoprotein was induced by a lac inducer, the cells became swollen, showed unusual morphology, and eventually lysed. When the membrane fraction was analyzed after the induction, the mutant lipoprotein was found to have been normally secreted across the cytoplasmic membrane and assembled in the outer membrane. This lipoprotein was modified with glycerol and palmitic acid and even formed the bound form, which was linked covalently to peptidoglycan. The major difference between the membrane-associated mutant lipoprotein and the wild-type lipoprotein was that the mutant lipoprotein became sensitive to trypsin treatment. These results indicate that the substantial alteration in mutant lipoprotein structure near the amino-terminal end does not interfere with modification of the amino-terminal cysteine residue or cleavage of the signal peptide by the prolipoprotein-specific signal peptidase. However, this mutant lipoprotein assembled in the outer membrane appears to have deleterious effects with respect to envelope structure and cellular morphology and viability.
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PMID:Effects of inserting eight amino acid residues into the major lipoprotein on its assembly in the outer membrane of Escherichia coli. 634 4

Translation of poly(A)-containing RNA from the female fat body of Drosophila melanogaster in a rabbit reticulocyte cell-free system results in the synthesis of previtellogenin polypeptides (PVs) having higher apparent molecular weights (46,000 and 45,000) than the forms seen after an in vivo pulse labeling. However, when this RNA is translated in the presence of EDTA-stripped microsomal membranes from the dog pancreas, vitellogenin precursors are produced that, upon SDS-polyacrylamide gel electrophoresis, comigrate with the in vivo forms (apparent molecular weights, 45,000 and 44,000). These processed forms are sequestered within the microsomal lumen, as evidenced by their insensitivity to trypsin digestion. Neither processing nor sequestration occur posttranslationally. In addition, a microsomal membrane fraction derived from Drosophila embryos is able to cotranslationally process the PVs as well as a murine pre-light chain IgG. These observations support a signal-mediated mode of secretion in Drosophila, and suggest that signal sequence recognition and signal peptidase activities are conserved even between mammalian and insect systems.
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PMID:Signal peptides and signal peptidase in Drosophila melanogaster. 677 30

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