Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The total kinetic thermal stability of a protein molecule, expressed as the total free energy of activation in thermal denaturation reactions, can be separated into an intrinsic contribution of the polypeptide chain and a contribution due to the binding of calcium ions. The theory for this procedure is applied to thermal denaturation data, obtained at the pH of optimum stability, for the serine proteases, thermomycolase and subtilisin types Carlsberg and BPN', and for the zinc metalloendopeptidases, thermolysin and neutral protease A. The results, obtained from Arrhenius plots at high and low free calcium ion concentrations, reveal a considerable variation in the calcium ion contribution to the total kinetic thermal stability of the various enzymes. In the serine protease group, at 70 degrees C, the stability is largest for thermomycolase, mainly due to a relatively high intrinsic contribution. For the metalloendopeptidases the total kinetic thermal stability is largest for thermolysin, the difference between thermolysin and neutral protease A being dominated by bound calcium ion contributions. The intrinsic kinetic thermal stability of the polypeptide chain of thermolysin is considerably smaller than that of any of the serine proteases and is probably of the same order of magnitude as that of neutral protease A. Thus, the well known total kinetic thermal stability of thermolysin is due mainly to a single calcium ion (Voordouw, G., and Roche, R. S. (1975), Biochemistry 14, 4667) that binds with high affinity even at very high temperatures (K congruent to 6 X 10(7) M-1 at 80 degrees C).
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PMID:Role of bound calcium ions in thermostable, proteolytic enzymes. Separation of intrinsic and calcium ion contributions to the kinetic thermal stability. 0 92

The coagulant protein from the venom of Russell's viper was purified by means of successive chromatography on Sephadex G-50, DEAE-cellulose and Sephadex G-200. The purified coagulant protein was homogeneous by polyacrylamide gel electrophoresis and ultracentrifugation. The molecular weight was estimated to be about 100 000 by ultracentrifuge analysis and 130 000 by gel filtration. The coagulant protein contains 11.1% carbohydrate which includes 5.1% hexose (galactose: mannose = 1:1), 5% hexosamine (glucosamine), and 1% neuraminic acid (N-acetylneuraminic acid and N-glycolyneuraminic acid). The isoelectric point is pH 6.3. The results of both sodium dodecyl sulfate electrophoresis and gel filtration in 6 M guanidium chloride suggest that it consists of four polypeptide chains. The coagulant protein functions as an enzyme in activating blood coagulation factor X in the presence of Ca2+. N-a-p-Toluenesulfonyl-L-arginine methyl ester hydrolyzing activity in the preparation definitely decreased during purification and it suggests that the clotting activity is not associated with the esterase activity. The clotting activity is inhibited by diisopropyl phosphorofluoridate and by phenylmethylsulfonyl fluoride, suggesting that the coagulant protein is a serine protease. The optimum pH is between pH 7.0 and pH 8.0. At neutral pH the coagulant protein is stable below 50 degrees C, but is rapidly inactivated above 55 degrees C.
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PMID:Purification and characterization of a coagulant protein from the venom of Russell's viper. 1 25

In this paper, we present the amino-terminal sequence of rat tonin, an endopeptidase responsible for the conversion of angiotensinogen, the tetradecapeptide renin substrate, or angiotensin I to angiotensin II. It is shown that isoleucine and proline occupy the amino- and carboxy-terminal residues respectively. The N-terminal sequence analysis permitted the identification of 34 out of the first 40 residues of the single polypeptide chain composed of 272 amino acids. These results showed an extensive homology with the sequence of many serine proteases of the trypsin-chymotrypsin family. This information, coupled with the slow inhibition of tonin by diisopropylfluorophosphate, classified this enzyme as a selective endopeptidase of the active serine protease family.
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PMID:N-Terminal amino acid sequence of rat tonin: homology with serine proteases. 21 93

"Group-specific" protease (GSP) is a serine protease, obtained from rat small intestine, which preferentially inactivates the apo forms of certain pyridoxal phosphate requiring enzymes. The enzyme contains 224 amino acid residues in a single polypeptide chain and three disulfide bonds. In the present work the covalent structure has been determined and its homologous relationship to those of chymotrypsin, trypsin, and elastase has been established (approximately 33% identity with each). The residues forming the "charge-relay" system of the active site of chymotrypsin (His-57, Asp-102, and Ser-195) are found in corresponding regions in GSP, whereas an alanyl residue at position 176 of GSP corresponds to a residue which participates in the primary substrate binding site in serine proteases (Asp-177 in trypsin; Ser-189 in chymotrypsin). Three disulfide bonds in GSP occur in similar positions in chymotrypsin, trypsin, and elastase. However, GSP lacks a disulfide bond which is present in all known serine proteases (linking Cys-191 to Cys-220 in chymotrypsin). In view of the close proximity of this bond to both the primary and the antiparallel binding sites of various serine proteases, it is likely that its absence in GSP is related to the substrate specificity of this enzyme. It is concluded that GSP diverged from a common ancestor preceding chymotrypsin but following trypsin.
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PMID:Covalent structure of a group-specific protease from rat small intestine. Appendix: crystallographic data for a group specific protease from rat intestine. 62 33

Bovine factor VII (proconvertin) is a plasma glycoprotein that participates in the extrinsic pathway of blood coagulation. It has a molecular weight of 45 500 and is composed of a single polypeptide chain with an amino-terminal alanine residue. Factor VII is readily converted to factor VIIa by factor XIIa (activated Hageman factor) employing an enzyme to substrate weight ratio of 1:50. Factor VIIa is composed of a light and a heavy chain held together by a disulfide bond(s). The heavy chain, which is formed from the carboxyl-terminal region of the precursor, contains an amino-terminal sequence of Ile-Val-Gly-Gly-. The heavy chain also contains the active-site sequence of -Phe-Cys-Ala-Gly-Tyr-Thr-Asp-Gly-Thr-Lys-Asp-Ala-Cys-Lys-Gly-Asp-Ser-Gly-Gly-Pro-His-. This sequence is homologous with the active-site region of a number of plasma serine proteases. These data indicate that factor VII is a typical precursor of a serine protease which is converted to an enzyme by factor XIIa by the cleavage of a single, internal peptide bond.
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PMID:Activation of bovine factor VII (proconvertin) by factor XIIa (activated Hageman factor). 90 69

The crystal structure of a serine protease from the alkalophilic strain Bacillus alcalophilus PB92 has been determined by X-ray diffraction at 1.75 A resolution. The structure has been solved by molecular replacement using the atomic model of subtilisin Carlsberg. The model of the PB92 protease has been refined to an R-factor of 14.0% and contains 1882 protein atoms, two calcium ions and 188 water molecules. The overall folding of the polypeptide chain closely resembles that of the subtilisins. Furthermore, almost all of the secondary structure elements found in subtilisin Carlsberg are also present in the PB92 protease. The major differences between the two structures are located around the deletion regions (residues 37 and 158-161 in subtilisin Carlsberg) and in two loops which are known to be the most variable parts of subtilisin structures. Flexibility of one of these loops (residues 126-130 in the PB92 protease) is believed to account for the induced-fit mechanism of substrate binding.
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PMID:Crystal structure of the high-alkaline serine protease PB92 from Bacillus alcalophilus. 151 88

Chinese hamster ovary (CHO) cells were examined for production of an enzyme that nicked the polypeptide chain of the heat-labile enterotoxin from enterotoxigenic Escherichia coli between the A1 and A2 fragments of its A subunit. Serum-free culture medium prepared each day after CHO cell inoculation was concentrated 100 times and its proteolytic activity for formation of the A1 fragment was examined by Western blotting with anti-LT A antibody. The A subunit was detected in culture medium on day 6 after cell inoculation, although not in media on day 1 or 3, indicating that CHO cells produced a nicking enzyme. This nicking enzyme had an optimal pH of about 7.5 and an apparent Mr. of 120,000, as seen by Superose 12 TM gel filtration with an FPLC system. The activity of this enzyme was strongly inhibited by diisopropyl fluorophosphate and phenylmethylsulfonyl fluoride, but not by p-chloromercuribenzoic acid, EDTA or ethyleneglycol bis (beta-aminoethylether)-N,N-N',N'-tetraacetic acid, suggesting that this enzyme was a serine protease. The activity was not stimulated by plasminogen or fibrin. These findings suggest that the nicking enzyme was different from proteases such as elastase, collagenase and plasminogen activator, which are probably also secreted by fibroblast-like CHO cells.
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PMID:Chinese hamster ovary cells produce an enzyme that nicks heat-labile enterotoxin from enterotoxigenic Escherichia coli. 157 34

Human blood coagulation factor XI is a dimer composed of two identical subunits. Each subunit contains four apple domains as tandem repeats followed by a serine protease region. A disulfide bridge between Cys321 of each fourth apple domain links the subunits together. The role of Cys321 in the dimerization of factor XI was examined by mutagenesis followed by expression of its cDNA in baby hamster kidney cells. The recombinant proteins were then purified from the tissue culture medium and shown to have full biological activity. Normal recombinant factor XI was secreted as a dimer as determined by SDS-PAGE, while recombinant factor XI-Cys321 Ser migrated as a monomer under these conditions. Gel filtration studies, however, revealed that each protein existed as a dimer under native conditions, indicating that the disulfide bond between Cys321 of each factor XI monomer was not necessary for dimer formation. The fourth apple domain (apple4) of factor XI was then introduced into tissue plasminogen activator (tPA) to investigate its role in the dimerization of other polypeptide chains. The fusion protein, containing apple4 (apple4-tPA), formed dimers as detected by SDS-PAGE and gel filtration. Furthermore, dimerization was specific to apple4, while apple3 had no effect on dimerization. These data further indicated that the apple4 domain of factor XI mediates dimerization of the two subunits and the interchain disulfide bond involving Cys321 was not essential for dimer formation.
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PMID:Apple four in human blood coagulation factor XI mediates dimer formation. 158 18

Guanidinobenzoatases are cell surface-associated proteinases supposed to be involved in cancer metastasis, cell migration, and tissue remodeling. The main features of the guanidinobenzoatase associated with human renal carcinoma plasma membrane are weak membrane association, continuous cleavage of p-nitrophenyl-p'-guanidinobenzoate conversely to the site titration effect of this compound when used with trypsin, and a peculiar sensitivity to serine protease inhibitors, compatible with a poorly active form. Plasma membrane preparation followed by agmatine-trisacryl affinity chromatography allows the purification of guanidinobenzoatase to homogeneity with an apparent enrichment factor of 450. Purified guanidinobenzoatase appears as a single polypeptide chain of M(r) 80,000, likely stabilized by intrachain disulfides bonds. The properties of purified guanidinobenzoatase indicate that it is an original enzyme in spite of some similarities with plasminogen activators. Indeed, in addition to differences in substrate and inhibitor specificity, guanidinobenzoatase is not recognized by specific monoclonal antibodies directed against plasminogen activators or their single-chain precursors. Thus, human renal carcinoma guanidinobenzoatase appears to be an original enzyme whose activity is undetectable in the nontumoral tissue of origin. In this respect, use of purified guanidinobenzoatase would allow us to obtain specific tools to give new insights in cancer cell metastasis.
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PMID:Characterization and purification of a guanidinobenzoatase: a possible marker of human renal carcinoma. 161 34

Protein C (PC) is a vitamin K-dependent serine protease, a deficiency of which results in thrombus. There is no spontaneously occurring mouse model of the disease. Attempts to create such a model in mice by using anti-sense gene technology requires isolation of a normal mouse PC cDNA. When a mouse liver (BALB/c) cDNA library was screened using a human PC cDNA as a probe, nine overlapping cDNA clones were isolated and sequenced. The cloned mouse PC cDNA comprised 1,512 nucleotides and the open reading frame of the cDNA encoded a polypeptide of 461 amino acids residues including a leader peptide composed of 41 amino acids. Mouse PC exhibited high homology to both human and bovine PCs. Mouse PC also had several structural features common in other PCs; locations of 23 Cys residues, location of putative beta-hydroxy Asp71, possible carbohydrate attachment sites involving Asp residues at amino acid positions 249, 314, and 330, and location of active sites such as His212, Asp258, and Ser361. Northern blot hybridization analysis identified a single species of mouse PC mRNA (2.0 kb in length) in mouse liver.
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PMID:Isolation and characterization of a mouse protein C cDNA. 161 39


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