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)

An immunosorbent method using antiglutaredoxin-Sepharose was developed for purification of glutaredoxin in high yield from a mutant strain of Escherichia coli K 12 lacking thioredoxin reductase (C 10-17). The primary structure of the protein was determined by analyses of [14C]carboxymethylated glutaredoxin and its proteolytic fragments obtained by digestions with trypsin, clostripain, chymotrypsin and staphylococcal Glu-specific extracellular protease. The single active-center disulfide has the structure-Cys-Pro-Tyr-Cys-, with the half-cystine residues located at positions 11 and 14 in the polypeptide chain. In total the protein was deduced to have 85 residues corresponding to a molecular weight of 9674 for the reduced form of glutaredoxin, making it one of the smallest known enzymes (a glutathione-disulfide transhydrogenase). The half-cystines are identically spaced and similarly positioned in the N-terminal part of the protein when compared with a corresponding functionally active disulfide/dithiol in thioredoxins. Glutaredoxin is also distantly homologous with thioredoxins from phage T4 and E. coli, but extensive differences, even around the redox-active disulfide, distinguish glutaredoxin from the thioredoxins. Allowing for deletions in the glutaredoxin sequence (or insertions in the T4 thioredoxin sequence) at four places, there are identical residues at 25 positions of the 77 compared (= 32% identity). The results establish that glutaredoxin belongs to the same superfamily of small redox proteins as the thioredoxins. The structures are, however, subject to large changes, only four positions have residues identical among all presently analyzed forms. The fluorescence of reduced and oxidized glutaredoxin demonstrates an increase in the quantum yield of the tyrosine emission upon reduction with dithiothreitol. Differences in the spectra support the presence of tyrosine adjacent to the redox-active disulfide bridge. They also confirm that glutaredoxin lacks the disulfide-adjacent tryptophan residues of E. coli thioredoxin. There are known to be great differences between the bacterial E. coli and phage T4 forms of thioredoxin. The glutaredoxin structure is most similar to the phage type, both with respect to size of the polypeptide chain and to actual sequence. From the structural results and the previously known functional similarities it appears possible that the phage thioredoxin may have evolved from an early glutaredoxin gene. The mixed properties are compatible with this conclusion, the superfamily assignment, and the differences in biological activity.
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PMID:The primary structure of Escherichia coli glutaredoxin. Distant homology with thioredoxins in a superfamily of small proteins with a redox-active cystine disulfide/cysteine dithiol. 635 62

Alkylation of reduced Escherichia coli thioredoxin by the episulfonium ion derived from S-(2-chloroethyl)glutathione (CEG) at physiologic pH resulted in at least three different alkylation products. These adducts were separated by reverse phase chromatography, digested with trypsin, and peptide-mapped. The peptide containing the active site cysteines was collected and sequenced by tandem mass spectrometry. Results indicate that the site of alkylation was at Cys-32 exclusively with no alkylation at Cys-35. Raising the pH above the pKa of Cys-35 to ionize the thiol before reacting with the episulfonium ion of CEG did not lead to alkylation at Cys-35, suggesting that a steric factor prevents the alkylating moiety of CEG from accessing this cysteine. A tryptic digest of a minor bis-adduct yielded an alkylated peptide which contained tyrosine, an amino acid known to be alkylated at its hydroxyl group by CEG. Sequencing by tandem mass spectrometry, however, was unsuccessful due to fragmentation of the alkylating moiety from the peptide. Results of this study confirm that the episulfonium ion of CEG can adduct thioredoxin at the active site and may have important toxicologic significance regarding the mechanism of 1,2-dichloroethane toxicity.
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PMID:Alkylation of Escherichia coli thioredoxin by S-(2-chloroethyl)glutathione and identification of the adduct on the active site cysteine-32 by mass spectrometry. 855 8

The function of the long propeptides of fungal proteinases is not known. Aspergillus fumigatus produces a 33-kDa serine proteinase of the subtilisin family and a 42-kDa metalloproteinase of the thermolysin family. These extracellular enzymes are synthesized as preproenzymes containing large amino-terminal propeptides. Recombinant propeptides were produced in Escherichia coli as soluble fusion proteins with glutathione S-transferase or thioredoxin and purified by affinity chromatography. A. fumigatus serine proteinase propeptide competitively inhibited serine proteinase, with a Ki of 5.3 x 10(-6) M, whereas a homologous serine proteinase from A. flavus was less strongly inhibited and subtilisin was not inhibited. Binding of metalloproteinase propeptide from A. fumigatus to the mature metalloenzyme was demonstrated. This propeptide strongly inhibited its mature enzyme, with a Ki of 3 x 10(-9) M, whereas thermolysin and a metalloproteinase from A. flavus were not inhibited by this propeptide. Enzymatically inactive metalloproteinase propeptide complex could be completely activated by trypsin treatment. These results demonstrate that the propeptides of the fungal proteinases bind specifically and inhibit the respective mature enzymes, probably reflecting a biological role of keeping these extracellular enzymes inactive until secretion.
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PMID:Specific inhibition of mature fungal serine proteinases and metalloproteinases by their propeptides. 863 20

The thioredoxin (Trx) from Bacillus acidocaldarius (BacTrx) was purified to homogeneity by anion-exchange chromatography and gel-filtration chromatography, based on its ability to catalyse the dithiothreitol-dependent reduction of bovine insulin disulphides. The protein has a molecular mass of 11577 Da, determined by electrospray mass spectrometry, a pI of 4.2, and its primary structure was obtained by automated Edman degradation after cleavage with trypsin and cyanogen bromide. The sequences of known bacterial Trxs were aligned at the active site: BacTrx has an identity ranging from 45 to 53% with all sequences except that of the unusual Anabaena strain 7120 Trx (37% identity). The gene coding for BacTrx was isolated by a strategy based on PCR gene amplification and cloned in a plasmid downstream of a lac-derived promoter sequence; the recombinant clone was used as the expression vector for Escherichia coli. The expression was optimized by varying both the time of cell growth and the time of exposure to the inducer isopropyl beta-d-thiogalactoside; expressed BacTrx represents approx. 5% of the total cytosolic protein. CD spectra and differential scanning calorimetry measurements demonstrated that BacTrx is endowed with a higher conformational heat stability than the Trx from E. coli. Nanogravimetry experiments showed a lower content of bound water in BacTrx than in E. coli Trx, and a transition temperature approx. 10 degrees C higher for BacTrx. The three-dimensional model of the oxidized form of BacTrx was constructed by a comparative molecular modelling technique, using E. coli Trx and Anabaena strain 7120 Trx as reference proteins. Increased networks of ion-pairs and shorter loops emerged as major features of the BacTrx structure compared with those of the template proteins. The findings are discussed in the light of the current knowledge about molecular determinants of protein stability.
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PMID:Thioredoxin from Bacillus acidocaldarius: characterization, high-level expression in Escherichia coli and molecular modelling. 935 65

The purification of a eukaryotic membrane protein has been achieved using a prokaryotic expression system. Bovine cytochrome b5 is an integral membrane protein (Mr approximately 16500). It comprises of a globular haem containing catalytic domain positioned at the N-terminus of the protein and a hydrophobic membrane binding segment at the C-terminus. The membrane binding domain (MBD) is resistant to purification using conventional strategies that have proved successful in isolating the soluble haem containing fragment. We report here a versatile purification method for the isolation of the MBD involving a gene fusion system. The fusion protein incorporates thioredoxin at the amino terminus and six histidines as the metal affinity binding site followed by cytochrome b5 in a pET expression system. This supports high level expression of cytochrome b5 in E. coli C43(DE3) cells. The fusion protein is effectively solubilised from lysed cells with Triton X-100. A step gradient elution with imidazole under non-denaturing conditions on a His-Bind nickel chelate affinity column, saturated with proteins as a crude cell extract, purified the protein in a single step. Proteolytic digestion of pure fusion protein, with trypsin, yielded the MBD. This fragment was further purified by RP-HPLC to a final yield of approximately 10 mg/l.
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PMID:Purification of the membrane binding domain of cytochrome b5 by immobilised nickel chelate chromatography. 1068 Oct 48

Enterokinase (EC 3.4.21.9) is a serine proteinase in the duodenum that exhibits specificity for the sequence (Asp)(4)-Lys. It converts trypsinogen to trypsin. Its high specificity for the recognition site makes enterokinase (EK) a useful tool for in vitro cleavage of fusion proteins. cDNA encoding the catalytic chain of Chinese bovine enterokinase was cloned and its encoding amino acid sequence is identical to the previously reported sequence although there are two one-base mutations which do not change the encoded amino acid. The EK catalytic subunit cDNA was cloned into plasmid pET32a, and fused downstream to the fusion partner thioredoxin (Trx) and the following DDDDK enterokinase recognition sequence. The recombinant bovine enterokinase catalytic subunit was expressed in Escherichia coli BL21(DE3), and most products existed in soluble form. After an in vivo autocatalytic cleavage of the recombinant Trx-EK catalytic domain fusion protein, intact, biologically active EK catalytic subunit was released from the fusion protein. The recombinant intact EK catalytic subunit was purified to homogeneity with a specific activity of 720 AUs/mg protein through ammonium sulfate precipitation, DEAE chromatography, and gel filtration. The purified intact EK catalytic subunit has a K(m) of 0.17 mM, and K(cat) is 20.8s(-1). From 100 ml flask culture, 4.3 mg pure active EK catalytic subunits were obtained.
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PMID:Expression, purification, and characterization of a biologically active bovine enterokinase catalytic subunit in Escherichia coli. 1213 63

Barley thioredoxin h isoforms HvTrxh1 and HvTrxh2 differ in temporal and spatial distribution and in kinetic properties. Target proteins of HvTrxh1 and HvTrxh2 were identified in mature seeds and in seeds after 72 h of germination. Improvement of the established method for identification of thioredoxin-targeted proteins based on two-dimensional electrophoresis and fluorescence labelling of thiol groups was achieved by application of a highly sensitive Cy5 maleimide dye and large-format two-dimensional gels, resulting in a 10-fold increase in the observed number of labelled protein spots. The technique also provided information about accessible thiol groups in the proteins identified in the barley seed proteome. In total, 16 different putative target proteins were identified from 26 spots using tryptic in-gel digestion, matrix-assisted laser-desorption ionization-time-of-flight MS and database search. HvTrxh1 and HvTrxh2 were shown to have similar target specificity. Barley alpha-amylase/subtilisin inhibitor, previously demonstrated to be reduced by both HvTrxh1 and HvTrxh2, was among the identified target proteins, confirming the suitability of the method. Several alpha-amylase/trypsin inhibitors, some of which are already known as target proteins of thioredoxin h, and cyclophilin known as a target protein of m-type thioredoxin were also identified. Lipid transfer protein, embryospecific protein, three chitinase isoenzymes, a single-domain glyoxalase-like protein and superoxide dismutase were novel identifications of putative target proteins, suggesting new physiological roles of thioredoxin h in barley seeds.
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PMID:Cy5 maleimide labelling for sensitive detection of free thiols in native protein extracts: identification of seed proteins targeted by barley thioredoxin h isoforms. 1463 58

With the completion of the genome sequence of Drosophila melanogaster the importance of constructing a proteome map is to be considered. Therefore, with the application of recent advances in proteomic analysis approaches, a protein map of D. melanogaster larvae hemolymph proteins was obtained using 2-DE in the range of pH 3-10. After Coomassie colloidal detection of 289 spots, a total of 105 were excised from the gel and digested with trypsin. Identification was done based on a combination of MALDI-TOF/TOF MS and MS/MS spectra. The 99 proteins identified using this approach include a large number of metabolic enzymes, translational apparatus components, and structural proteins. Among these we emphasize the identification of proteins with molecular chaperone properties (heat shock proteins and PPIases) and protein spots involved in defense responses such as antioxidant and immunological defense mechanisms (thioredoxin, prophenoloxidase, and serine proteases), as well as in signal transduction pathways.
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PMID:Drosophila melanogaster larval hemolymph protein mapping. 1468 Aug

Atlantic cod trypsin I is a cold-adapted proteolytic enzyme exhibiting approximately 20 times higher catalytic efficiency (kcat/KM) than its mesophilic bovine counterpart for the simple amide substrate BAPNA. In general, cold-adapted proteolytic enzymes are sensitive to autolytic degradation, thermal inactivation as well as molecular aggregation, even at temperatures as low as 18-25 degrees C which may explain the problems observed with their expression, activation, and purification. Prior to the data presented here, there have been no reports in the literature on the expression of psychrophilic or cold-adapted proteolytic enzymes from fish. Nevertheless, numerous cold-adapted proteolytic microbial enzymes have been successfully expressed in bacteria and yeast. This report describes successful expression, activation, and purification of the recombinant cod trypsin I in the His-Patch ThioFusion Escherichia coli expression system. The E. coli pThioHis expression vector used in the study enabled the formation of a fusion protein between a highly soluble fraction of HP-thioredoxin contained in the vector and the N-terminal end of the precursor form of cod trypsin I. The HP-thioredoxin part of the fusion protein binds to a metal-chelating ProBond column, which facilitated its purification. The cod trypsin I part of the purified fusion protein was released by proteolytic cleavage, resulting in concomitant activation of the recombinant enzyme. The recombinant cod trypsin I was purified to homogeneity on a trypsin-specific benzamidine affinity column. The identity of the recombinant enzyme was demonstrated by electrophoresis and chromatography.
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PMID:Recombinant cold-adapted trypsin I from Atlantic cod-expression, purification, and identification. 1468 Sep 68

We characterized the biochemical functions of the small nonessential (C101-C104) and the large essential (C173-C209) disulfides in bovine pancreatic (bp) DNase using alanine mutants [brDNase(C101A)] and [brDNase(C173A) and brDNase(C209A)], respectively. We also characterized the effects of an additional third disulfide [brDNase(F192C/A217C)]. Without the Ca(2+) protection, bpDNase and brDNase(C101A) were readily inactivated by trypsin, whereas brDNase(F192C/A217C) remained active. With Ca(2+), all forms of DNase, except for brDNase(C101A), were protected against trypsin. All forms of DNase, after being dissolved in 6 M guanidine-HCl, were fully reactivated by diluting into a Ca(2+)-containing buffer. However, when diluted into a Ca(2+)-free buffer, bpDNase and brDNase(C101A) remained inactive, but 60% of the bpDNase activity was restored with brDNase(F192C/A217C). When heated, bpDNase was inactivated at a transition temperature of 65 degrees C, brDNase(C101A) at 60 degrees C, and brDNase(F192C/A217C) at 73 degrees C, indicating that the small disulfide, albeit not essential for activity, is important for the structural integrity, and that the introduction of a third disulfide can further stabilize the enzyme. When pellets of brDNase(C173A) and brDNase(C209A) in inclusion bodies were dissolved in 6 M guanidine-HCl and then diluted into a Ca(2+)-containing buffer, 10%-18% of the bpDNase activity was restored, suggesting that the "essential" disulfide is not absolutely crucial for enzymatic catalysis. Owing to the structure-based sequence alignment revealing homology between the "nonessential" disulfide of bpDNase and the active-site motif of thioredoxin, we measured 39% of the thioredoxin-like activity for bpDNase based on the rate of insulin precipitation (DeltaA650nm/min). Thus, the disulfides in bpDNase not only play the role of stabilizing the protein molecule but also may engage in biological functions such as the disulfide/dithiol exchange reaction.
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PMID:Biological functions of the disulfides in bovine pancreatic deoxyribonuclease. 1504 24

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