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: EC:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Blood platelets play a critical role in the onset of myocardial infarction, which has been shown to have a circadian rhythmicity with a peak incidence in the morning. In an attempt to correlate platelet parameters with the outcome of cardiovascular diseases, we studied the daily (24-h) variation of the following platelet parameters: distribution pattern of functional heterogeneous platelet subpopulations; serotonin uptake; ketanserin binding; aggregation upon thrombin, serotonin, and ADP stimulation; and platelet count. Furthermore, we analyzed the tryptophan and serotonin concentrations in the blood samples. The percentage of less dense platelets, which represent the subpopulation with the highest preactivation, showed a rhythmicity period of 24 h and an acrophase at 21:18 h. The time course of intermediate and high density platelets was inverse to that of low density platelets. The serotonin uptake exhibited also a rhythmicity with a 24-h period. The acrophase was at 13:50 h. The aggregation curves were inverse to the ketanserin binding curves. The serotonin concentration exhibited a 12-h rhythmicity. The results obtained suggest that (a) changes in platelet activity are reflected by several parameters of platelet function that underlie daily variations; (b) the aggregation curves show a peak in the morning, with an additional peak in the afternoon; and (c) changes in the distribution pattern occur independently from variations in platelet functions like aggregation and serotonin binding.
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PMID:Daily variations of functional parameters and density distribution in human blood platelets. 782 14

The cDNA encoding the C-terminal nucleotide-binding domain (NBD2) from mouse P-glycoprotein involved in multidrug resistance was obtained from adrenal cell mRNA and amplified by reverse transcriptase polymerase chain reaction. NBD2 was highly overexpressed in Escherichia coli in fusion with glutathione S-transferase and could be purified after efficient thrombin cleavage. Both fused and purified NBD2 bound TNP (2',3'-O-(2,4,6-trinitrophenyl))- derivatives of nucleotides with high affinity. TNP-ATP or TNP-ADP binding at micromolar concentrations produced a characteristic blue-shifted enhancement of extrinsic fluorescence and was specifically prevented or chased by ATP or ADP at millimolar concentrations. A similar affinity binding was monitored by quenching of intrinsic fluorescence. The spectrum of fusion protein, containing 5 tryptophan residues, was maximally quenched at 328 nm upon interaction with TNP-nucleotides. TNP-GTP exhibited a lower affinity than TNP-ATP but produced a higher maximal quenching (44% instead of 28%). The intrinsic fluorescence of purified NBD2, containing a single tryptophan residue, exhibited a narrow spectrum with a maximum at 328 nm characteristic of a hydrophobic tryptophan environment. A high quenching was observed upon nucleotide interaction with similar affinity. The results put forward a functional role for the tryptophan-containing sequence of P-glycoprotein NBD2 that was not detected up to now.
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PMID:Overexpression and purification of the carboxyl-terminal nucleotide-binding domain from mouse P-glycoprotein. Strategic location of a tryptophan residue. 791 13

Anthranilate synthase is involved in tryptophan (Trp) biosynthesis. Functional expression of subunit I from Arabidopsis (ASA1) was achieved in bacteria as a protein fused with glutathione S-transferase (GST). The active product was purified in a single step on a glutathione-Sepharose column. The Vmax (45 nmol min-1mg-1), the apparent K(M) for chorismate (180 microM), and the feedback inhibition by Trp (complete inhibition by 10 microM Trp) of the purified fusion product (GST-ASA1) were comparable to anthranilate synthase purified from plants. Polyclonal antibodies raised against the fusion project and purified by affinity chromatography on a GST-ASA1-Sepharose column cross-reacted with a 61.5-kD protein in a partially purified anthranilate synthase preparation from corn seedlings. GST-ASA1 cleavage by thrombin, as well as site-directed mutagenesis modifications of the Trp allosteric site, inactivated the recombinant protein.
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PMID:Functional expression of Arabidopsis thaliana anthranilate synthase subunit I in Escherichia coli. 797 19

3',3",5',5"-Tetraiodophenolsulfonephthalein (I4PSP) stimulated both Ca2+ transient levels and aggregation in response to thrombin in platelets. Ca2+ uptake into skeletal sarcoplasmic reticulum (SR) was inhibited by I4PSP (IC50, 1.8 microM) whereas that of red blood cell ghosts was not affected by it. Furthermore, I4PSP inhibited the SR Ca(2+)-ATPase activity (IC50, 1.1 microM). Kinetic analysis of the inhibitory effects of I4PSP reveals that I4PSP shows an inhibition of noncompetitive and competitive type with respect to low and high concentrations of ATP, respectively. The mode of inhibition by I4PSP is an uncompetitive type with respect to Ca2+. I4PSP decreased the decomposition rate of the phosphorylated enzyme intermediate (EP). The change in the tryptophan fluorescence of SR Ca(2+)-ATPase induced by ATP was reduced by I4PSP indicating inhibition of the EP transition from Ca2E1P to E2P. The concentration-inhibitory response curves for I4PSP in Ca(2+)-ATPase activities and fluorescence changes were closely correlated. These results suggest that I4PSP slows down the structure transition from Ca2E1P to E2P, resulting in inhibition of the Ca(2+)-ATPase activity. On the basis of these results, it is suggested that the stimulation of Ca2+ transient levels in platelets and their aggregation in response to thrombin are due to the inhibition of Ca2+ pump in intracellular Ca2+ stores by I4PSP.
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PMID:3',3",5',5"-Tetraiodophenolsulfonephthalein is a selective inhibitor of Ca(2+)-pumping ATPase in intracellular Ca2+ store. 802 Dec 63

A working structural model of penicillin-binding protein 1B (PBP 1B) from Escherichia coli derived from previous data consists of a highly charged aminoterminal cytoplasmic tail, a 23-amino-acid hydrophobic transmembrane anchor, and a 758-amino-acid periplasmic domain. Using an engineered thrombin cleavage site, we have investigated the solubility properties of the periplasmic domain of PBP 1B. Twelve amino acids, comprised of the consensus thrombin cleavage site (LVPR decreases GS) and flanking glycine residues, were inserted into PBP 1B just past its putative transmembrane segment. To aid in purification, a hexa-histidine tag was also inserted at its amino terminus, and the engineered protein (PBP 1B-GT/H6) was purified and characterized. Inclusion of the thrombin cleavage site had no effect on the protein's intrinsic tryptophan fluorescence and affinity for [14C]penicillin G, indicating that the protein structure was not significantly perturbed. PBP 1B-GT/H6 was readily cleaved by thrombin at low thrombin/protein ratios to a protein with properties consistent with the removal of its cytoplasmic tail and transmembrane regions. Cleavage of the protein was dependent upon the presence of the thrombin cleavage site, and the thrombin-cleaved protein (PBP 1Bper) displayed an identical affinity for [14C] penicillin G binding as wild-type PBP 1B and uncleaved PBP 1B-GT/H6. [14C]Penicillin G-labeled PBP 1Bper eluted from a gel filtration column in the presence but not in the absence of 0.7% 3-[(3-cholamidopropyl)dimethylammonio]-1- propanesulfonic acid, and PBP 1Bper was found entirely in the membrane fraction of a thrombin digest of membranes containing overproduced PBP 1B-GT/H6. To further characterize this unusual solubility behavior, purified PBP 1Bper was reconstituted into lipid vesicles, which were then floated on a sucrose gradient. Floated vesicles contained > 95% of total 125I-penicillin V binding, indicating that PBP 1Bper directly associates with lipid membranes. These results strongly suggest that the periplasmic domain of PBP 1B associates with membranes independent of its amino terminal transmembrane region.
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PMID:Penicillin-binding protein 1B from Escherichia coli contains a membrane association site in addition to its transmembrane anchor. 844 26

Increases in intrinsic fluorescence (delta I), reflecting changes in tryptophan environments, occur upon bond cleavages necessary for prothrombin (II) activation to thrombin (IIa) by prothrombinase. Cleavage at Arg274-Thr275 (numbering based on bovine prothrombin sequence, with chymotrypsinogen numbering in braces) between the amino-terminal fragment 1.2 and protease (Pre2) domains of prothrombin yields delta I = 5%, and cleavage within the Pre2 domain at Arg323-Ile324 to form IIa yields delta I = 35%, while cleavage at both yields delta I = 25%. Since the change in fluorescence upon activation of prothrombin can be largely attributed to a change within the Pre2 domain, the susceptibilities of each of the 9 Trp residues of IIa and its immediate precursor Pre2 to oxidation by N-bromosuccinimide (NBS) were compared. Pre2 and IIa were titrated with increasing amounts of NBS (0.5-5 equiv of NBS/TRP), aliquots were removed and fully digested with trypsin, and tryptophan-containing peptides were separated and quantitated by RP-HPLC with fluorescence detection. Tryptic digests yielded 9 tryptophan-containing peptides, which were identified by amino acid composition. Tryptophan residues in IIa and Pre2 displayed a 10-fold range of sensitivity to modification. Tryptophans 337 and 360 (W29, W51) were modified less readily in IIa than in Pre2, while residues 373, 542, and 550 (W60D, W207, W215) were modified more readily, and other residues were equally susceptible. Residues 360 and 373 (W29, W60D) flank the active site histidine. From the crystal structure, residues 373 and 550 (W60D, W215) are implicated in substrate binding.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Structural changes in the protease domain of prothrombin upon activation as assessed by N-bromosuccinimide modification of tryptophan residues in prethrombin-2 and thrombin. 845 46

Subunit IV of Rhodobacter sphaeroides cytochrome b-c1 complex was over-expressed in Escherichia coli JM109 cells as a glutathione S-transferase fusion protein (GST-RSIV) using the expression vector, pGEX/RSIV. Maximum yield of soluble active recombinant fusion protein was obtained from cells harvested 3 h after induction of growth at 37 degrees C in LB medium. Subunit IV was released from the fusion protein by proteolytic cleavage with thrombin. When subjected to SDS-polyacrylamide gel electrophoresis, isolated recombinant subunit IV of R. sphaeroides cytochrome b-c1 complex. Although the isolated recombinant subunit IV is soluble in aqueous solution, it is in a highly aggregated form, with an apparent molecular mass of over 1000 kDa. The addition of detergent deaggregates the isolated protein, suggesting that the recombinant protein exists as a hydrophobic aggregation in aqueous solution. When the three-subunit core cytochrome b-c1 complex, purified from RS delta IV-adapted chromatophores containing a fraction of the wild type cytochrome b-c1 complex activity, was reacted with varying amounts of recombinant subunit IV, the activity increased as the subunit IV concentration increased. Maximum activity restoration was reached when 1 mol of subunit IV/mol of three-subunit core complex was used. The reconstituted cytochrome b-c1 complex is similar to the wild-type complex in molecular size, apparent Km for Q2H2, and inhibitor sensitivity, indicating that recombinant subunit IV is properly assembled into the active cytochrome b-c1 complex. A tryptophan residue in subunit IV was found to be involved in the interaction with the three-subunit core complex.
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PMID:Functional expression of subunit IV of Rhodobacter sphaeroides cytochrome b-c1 complex and reconstitution of recombinant protein with three-subunit core complex. 856 59

Utilizing the Escherichia coli/pGex vector expression system incorporating a thrombin cleavage site, full-length (residues -6-243) and truncated forms of proapolipoprotein AI (proapoAI), terminating at amino acid residues 222, 210, 150, and 135, were purified to levels of at least 5 mg/L, after thrombin cleavage. Assessed by circular dichroism, the helical contents of L-alpha-dimyristoylphosphatidylcholine-associated forms of human plasma-derived apolipoprotein AI (apoAI) and recombinant proapoAI were comparable, being 69% and 65%, respectively. Circular dichroism measurements of the lipid-associated complexes of the truncated forms showed that between the sequence of residues 150-222 no additional helicity was gained until the carboxyl-terminal sequence was present in the molecule, indicating that the carboxyl terminus of the protein is required for the formation of helix within this central region. While tryptophan residues were more than 86% accessible, as assessed by iodide quenching, in the two truncated forms, proapoAI-6-135 and proapoAI-6-150, for both free and complexed protein, this figure fell to about 50% for full-length recombinant proapoAI, further indicating the influence of the carboxyl terminus on the structure of the whole protein. While cross-linking human plasma apoAI in solution with dithiobis-(succinimidyl propionate) revealed high molecular weight oligomers by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, recombinant proapoAI did not strongly form complexes larger than trimers. None of the truncated proapoAI molecules formed oligomers larger than trimers. The shortest form, proapoAI-6-135, only dimerized. Initial results from lecithin:cholesterol acyltransferase activation (apoAI peptide concentration 0.2 microM) indicated that truncation of the 21 carboxy-terminal amino acids resulted in a drop of approximately 53% in activation and 33 residues a drop of 67% relative to the full-length protein. Overall these results indicate the important influence of the carboxyl terminus on the structure of apoAI.
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PMID:Structural and functional properties of full-length and truncated human proapolipoprotein AI expressed in escherichia coli. 881 Sep 9

An inhibitor of alpha-thrombin was designed on the basis of the X-ray crystal structures of thrombin and trypsin. The design strategy employed the geometric and electrostatic differences between the specificity pockets of the two enzymes. These differences arise due to the replacement of Ser 190 in trypsin by Ala 190 in thrombin. The new inhibitor contained a tryptophan side chain instead of the arginine side chain that is present in the prototypical thrombin inhibitors. This inhibitor had a Ki value of 0.25 microM, displayed more than 400-fold specificity for thrombin over trypsin, and doubled the rat plasma APTT at a concentration of 44.9 microM. The X-ray crystal structure of the inhibitor/alpha-thrombin complex was determined. This represents the first reported three-dimensional structure of a thrombin/ inhibitor complex where the specificity pocket of the enzyme is occupied by a chemical moiety other than a guanidino or an amidino group. As was predicted by the molecular model, the tryptophan side chain docks into the specificity pocket of the enzyme. This finding is in contrast with the indole binding region of thrombin reported earlier [Berliner, L. J., & Shen, Y. Y. L. (1977) Biochemistry 16, 4622-4626]. The lower binding affinity of the new inhibitor for trypsin, compared to that for thrombin, appears to be due to (i) the extra energy required to deform the smaller specificity pocket of trypsin to accommodate the bulky indole group and (ii) the favorable electrostatic interactions of the indole group with the more hydrophobic specificity pocket of thrombin. The neutral indole group may be of pharmacological significance because the severe hypotension and respiratory distress observed following the administration of some thrombin inhibitors have been linked to the positively charged guanidino or amidino functionalities.
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PMID:Molecular design and characterization of an alpha-thrombin inhibitor containing a novel P1 moiety. 903 93

Hypoprothrombinemia is an uncommon hereditary coagulation defect characterized by low levels of biologically active prothrombin. Automated fluorescence-based DNA sequence analysis of amplified genomic DNA was used to define prothrombin gene regions from a patient with severe functional hypoprothrombinemia and little detectable prothrombin antigen. Two changes that alter amino acid sequence were observed: a deletion of one nucleotide (-G, 7248/7249) in exon 8 of one allele, causing a frameshift at codon 249/250 that results in premature termination of translation; and a C --> T change resulting in the substitution of tryptophan (TGG) for arginine (CGG) at amino acid 340 in exon 10 of the prothrombin gene. Computer modeling of the thrombin molecule confirmed that arginine 340 is located at the surface of the thrombin molecule, which points to the aqueous solvent. As tryptophan is a highly hydrophobic amino acid, the Arg --> Trp change may be associated with instability of the thrombin molecule.
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PMID:Molecular analysis of a compound heterozygote for hypoprothrombinemia and dysprothrombinemia (-G 7248/7249 and ARG 340 TRP). 935 23


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