Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Mammalian DHOase (S-dihydroorotate amidohydrolase, EC 3.5.2.3) is part of a large multifunctional protein called CAD, which also has a carbamoyl-phosphate synthetase [carbon-dioxide: L-glutamine amido-ligase (ADP-forming, carbamate-phosphorylating), EC 6.3.5.5] and aspartate transcarbamoylase (carbamoyl-phosphate: L-aspartate carbamoyltransferase, EC 2.1.3.2) activities. We sequenced selected restriction fragments of a Syrian hamster CAD cDNA. The deduced amino acid sequence agreed with the sequence of tryptic peptides and the amino acid composition of the DHOase domain isolated by controlled proteolysis of CAD. Escherichia coli transformed with a recombinant plasmid containing the cDNA segment 5' to the aspartate transcarbamoylase coding region expressed a polypeptide recognized by DHOase domain-specific antibodies. Thus, the order of domains within the polypeptide is NH2-carbamoyl-phosphate synthetase-DHO-aspartate transcarbamoylase-COOH. The 334-residue DHOase domain has a molecular weight of 36,733 and a pI of 6.1. A fragment of CAD having DHOase activity that was isolated after trypsin digestion has extensions on both the NH2 (18 residues) and COOH (47-65 residues) termini of this core domain. Three of five conserved histidines are within short, highly conserved regions that may participate in zinc binding. Phylogenetic analysis clustered the monofunctional and fused DHOases separately. Although these families may have arisen by convergent evolution, we favor a model involving DHOase gene duplication and insertion into an ancestral bifunctional locus.
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PMID:Mammalian dihydroorotase: nucleotide sequence, peptide sequences, and evolution of the dihydroorotase domain of the multifunctional protein CAD. 196 94

The sodium- and potassium-dependent adenosine triphosphatase (Na+,K(+)-ATPase) maintains the transmembrane Na+ gradient to which is coupled all active cellular transport systems. The R and S alleles of the gene encoding the Na+,K(+)-ATPase alpha 1 subunit isoform were identified in Dahl salt-resistant (DR) and Dahl salt-sensitive (DS) rats, respectively. Characterization of the S allele-specific Na+,K(+)-ATPase alpha 1 complementary DNA identified a leucine substitution of glutamine at position 276. This mutation alters the hydropathy profile of a region in proximity to T3(Na), the trypsin-sensitive site that is only detected in the presence of Na+. This mutation causes a decrease in the rubidium-86 influx of S allele-specific sodium pumps, thus marking a domain in the Na+,K(+)-ATPase alpha subunit important for K+ transport, and supporting the hypothesis of a putative role of these pumps in hypertension.
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PMID:Alteration of alpha 1 Na+,K(+)-ATPase 86Rb+ influx by a single amino acid substitution. 197 5

A protease-activation mutant of Sendai virus, TCs, was isolated from a trypsin-resistant mutant, TR-5. TCs was activated in vitro by both trypsin and chymotrypsin. TCs was, however, less sensitive to trypsin and chymotrypsin than were the wild-type virus and TR-5, respectively. F protein of TCs had a single amino acid substitution at residue 114 from glutamine to arginine, resulting in the appearance of the new cleavage site for trypsin and the shift of the cleavage site for chymotrypsin. Activation of TCs in the lungs of mice occurred less efficiently than that of the wild type, and TCs caused a less severe pneumopathogenicity than did the wild-type virus, which supports our previous view that the in vitro trypsin sensitivity of Sendai virus can be a good indication of pneumopathogenicity in mice.
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PMID:Pneumopathogenicity of a Sendai virus protease-activation mutant, TCs, which is sensitive to trypsin and chymotrypsin. 217 Jun 92

Human prorenin is an inactive zymogen comprising 43 amino acid residues at the amino terminus of human renin. The aim of this work was to determine why prorenin is inactive at neutral pH. Eighteen different mutant prorenins, in which positively charged residues in the propeptide were substituted with either glutamine (Gln) or lysine (Lys) residues by site-directed mutagenesis, were expressed in COS-7 cells and characterized. By replacing each of the three arginine (Arg) residues (Arg10P, Arg15P, and Arg20P) with Gln residues, partially active prorenins were produced, which exhibited significant but not full renin activity without trypsin activation. The effect of double or triple amino acid substitutions on the appearance of active prorenin was cumulative, the activity reaching about 80% in a mutant in which all the three Arg residues were replaced by Gln residues. In contrast, mutant prorenins with Lys residues substituted for the Arg residues were inactive. These results clearly indicate that the positive charges of the three Arg residues are essential for maintenance of the human prorenin in an inactive form.
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PMID:Site-directed mutagenesis of human prorenin. Substitution of three arginine residues in the propeptide with glutamine residues yields active prorenin. 218 37

The cholinesterases are serine hydrolases that show no global similarities in sequence with either the trypsin or the subtilisin family of serine proteases. The cholinesterase superfamily includes several esterases with distinct functions and other proteins devoid of the catalytic serine and known esterase activity. To identify the residues involved in catalysis and conferring specificity on the enzyme, we have expressed wild-type Torpedo acetylcholinesterase (EC 3.1.1.7) and several site-directed mutants in a heterologous system. Mutation of serine-200 to cysteine results in diminished activity, while its mutation to valine abolishes detectable activity. Two conserved histidines can be identified at positions 425 and 440 in the cholinesterase family; glutamine replacement at position 440 eliminates activity whereas the mutation at 425 reduces activity only slightly. The assignment of the catalytic histidine to position 440 defines a rank ordering of catalytic residues in cholinesterases distinct from trypsin and subtilisin and suggests a convergence of a catalytic triad to form a third, distinct family of serine hydrolases. Mutation of glutamate-199 to glutamine yields an enzyme with a higher Km and without the substrate-inhibition behavior characteristic of acetylcholinesterase. Hence, modification of the acidic amino acid adjacent to the serine influences substrate association and the capacity of a second substrate molecule to affect catalysis.
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PMID:Mutagenesis of essential functional residues in acetylcholinesterase. 221 85

The replication of Moloney murine leukemia virus (MMuLV) in chronically infected mouse cells arrested at the G0/G1 phase of the cell cycle by different procedures was investigated. MMuLV production was inhibited in glutamine- and isoleucine (Gln-Ile)-deprived G0/G1 cells. In contrast, butyric acid treatment, which efficiently arrested the cells at the G0/G1 phase of the cell cycle, did not inhibit MMuLV production. Furthermore, the inhibition of MMuLV production caused by either Gln-Ile deprivation or by interferon (IFN) treatment was overcome by butyric acid treatment. Thus, the replication of MMuLV could be dissociated from cell proliferation. The inhibition of MMuLV production in Gln-Ile-deprived cell cultures was compared to the inhibitory effect of IFN, which is known to affect budding and release of the virus. Rates of MMuLV protein synthesis were not affected in both the IFN-treated and Gln-Ile-deprived cells. However, processing of the viral polyprotein Pre65gag into p30 was blocked in the Gln-Ile-deprived cells. Furthermore, whereas in IFN-treated cells, MMuLV accumulated on the cell surface and could be released upon treatment with trypsin, in Gln-Ile-deprived cells, no virions were released by such treatment. These results indicate that in cells arrested by Gln-Ile deprivation, MMuLV is inhibited at a posttranslation step. This step appears to precede the anti-MMuLV block induced by IFN.
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PMID:Regulation of Moloney murine leukemia virus replication in chronically infected cells arrested at the G0/G1 phase. 258 48

The sequence of 1015 nucleotides from the 3' poly(A) tract of the potyvirus bean yellow mosaic virus (BYMV) RNA has been determined from two cDNA clones. This sequence contained a single long open reading frame (ORF) starting upstream of the cloned region. The ORF was expressed as a fusion protein in Escherichia coli, and the product was detected by antibodies specific for the coat protein of BYMV. The predicted length of the coat protein gene was 822 nucleotides, corresponding to a 273 amino acid coat protein of Mr 30910. The deduced amino acid sequence of the BYMV coat protein was compared to the chemically determined amino acid composition of purified virion protein, and of protein prepared from trypsin-treated virions. The nucleotide and deduced amino acid sequences were compared to the sequences of the coat protein genes of other potyviruses. The BYMV coat protein gene was found to be 50 to 61% homologous to those of other potyviruses at both the nucleotide and amino acid levels; the greatest variation was between the 5'-proximal one-fifth of the genes. Amino acid sequences and hydrophilicity plots of the different potyvirus coat proteins showed similarities which indicated that the structure of the coat protein is highly conserved; a non-terminal region of variability was predicted to be exposed on the exterior of the virion. A putative cleavage site at a glutamine-serine dipeptide was identified by similarity in context to the cleavage sites of tobacco etch virus and tobacco vein mottling virus coat proteins from the viral polyproteins. The BYMV 3'-terminal non-coding region of 166 nucleotides is followed by a poly(A) tract.
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PMID:Molecular cloning, sequencing and expression in Escherichia coli of the bean yellow mosaic virus coat protein gene. 267 Dec 58

Neutral endopeptidase 24.11 contains an active-site arginine residue involved in binding the free carboxylate of substrate peptides and inhibitors. This arginine reacts rapidly with [14C]phenylglyoxal, and its reaction is selectively blocked by the presence of either the substrate Met5-enkephalin, the competitive inhibitor phenylalanylalanine, or the transition state analog phosphoramidon. The phenylglyoxal-modified peptide was isolated by a procedure involving limited digestion by trypsin, separation of the tryptic peptides by high pressure liquid chromatography (HPLC), further digestion of the modified peptide by pepsin, and a final purification by HPLC. By this procedure arginine 102 was identified as the active-site arginine. Verification of this finding came from the use of site-directed mutagenesis in which this arginine was replaced by glutamine. Both the mutant and wild-type enzyme reacted equally well with an amide containing substrate, glutaryl-Ala-Ala-Phe-4-methoxy-2-naphthylamide. However, reaction of the mutant enzyme with a substrate containing a free COOH-terminal carboxylate, 5-dimethylaminonaphthalene-1-sulfonyl-D-Ala-Gly-(NO2)Phe-Gly, was barely detectable with the mutant enzyme. Similarly the mutant enzyme showed a loss of selectivity in inhibition by D-Ala2-Met5-enkephalin compared to the corresponding amide but exhibited no difference in the maximal velocity for hydrolysis of D-Ala2-Met5-enkephalin and its amide.
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PMID:Identification of the active-site arginine in rat neutral endopeptidase 24.11 (enkephalinase) as arginine 102 and analysis of a glutamine 102 mutant. 270 83

Treatment of the multifunctional alpha 2 beta 2 anthranilate synthase complex of Neurospora crassa with elastase produced two fragments of the complex, one possessing anthranilate synthase activity and the other having both indole-3-glycerol phosphate (InGP) synthase and N-(5'-phosphoribosyl)anthranilate (PRA) isomerase activities. Sequencing the NH2 terminus of the InGP synthase-PRA isomerase fragment revealed that cleavage was between positions 237 and 238 of the beta-subunit within a segment of the polypeptide chain which links the glutamine-binding (G) domain with the InGP synthase-PRA isomerase domains. The fragment containing anthranilate synthase activity has a molecular weight of 98,000, as estimated by gel filtration, and is composed of an apparently intact alpha-subunit (70 kDa) associated with the G-domain fragment (29 kDa) derived from the beta-subunit. The alpha X G-domain complex was resistant to further degradation by elastase. When either the alpha 2 beta 2 complex or the alpha X G-domain complex was incubated with trypsin, the alpha-subunit was degraded to a 66-kDa alpha-fragment with reduced enzymatic activity, which was resistant to further cleavage. In contrast, incubation of alpha-subunit alone with either elastase or trypsin resulted in its complete degradation, indicating that association of the alpha-subunit with either G-domain or beta-subunit protected the alpha-subunit from this extensive degradation. A model for the anthranilate synthase complex is proposed in which the trifunctional beta-subunit forms a dimer by the self-association of the InGP synthase-PRA isomerase domains; the G-domain is connected to the InGP synthase-PRA isomerase domain by a relatively disordered region of the peptide chain which, in the alpha 2 beta 2 complex, remains susceptible to proteases; and neither alpha-subunit nor G-domain significantly self-associates.
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PMID:Organization of the functional domains of anthranilate synthase from Neurospora crassa. Limited proteolysis studies. 294 79

The low-molecular-weight peptide protease inhibitors, tosyl-lysine-chloromethyl ketone, antipain and leupeptin, inhibited poly(ADP-ribose) [poly(ADP-Rib)] polymerase in permeable cells. The concentrations required for 50% inhibition were 3.6, 5 and 29 mM, respectively. Two peptides without protease inhibitor activity, fibrinopeptide A and phenylalanine-leucine-(glutamine)2-leucine, also inhibited poly (ADP-Rib) synthesis; doses required for 50% inhibition were 0.37 and 11.2 mM, respectively. These concentrations lie within a range bracketed by the 50% inhibition concentrations of the strong and weak poly(ADP-Rib) synthesis inhibitors, 3-amino-benzamide (0.15 mM) and caffeine (greater than 100 mM), respectively. N-Ethylmaleimide also inhibited poly(ADP-Rib) synthesis, at a 50% inhibitory dose of 0.3 mM, in the absence of exogenous thiol reagents. High-molecular-weight protease inhibitors, such as soybean (including Bowman-Birk reagent) and lima bean trypsin inhibitors and human alpha 1-protease inhibitor, had no effect on poly(ADP-Rib) synthesis up to 2 mg/ml. Interference with transformation and other cellular effects that have been reported in carcinogen-damaged cells treated with low-molecular-weight peptide protease inhibitors may therefore involve common mechanisms with poly(ADP-Rib) inhibitors. Similar effects of high-molecular-weight protease inhibitors presumably involve different mechanisms.
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PMID:Some protease inhibitors are also inhibitors of poly(ADP-ribose) polymerase. 308 Dec 73


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