Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The rate of inactivation of RTEM-1 beta-lactamase by Pronase is accelerated by class A ('resistant') penicillins. Other substrates (class S penicillin and cephalosporins) protect against the inactivation. Cefoxitin, a semi-synthetic cephamycin, induces a more extensive, hysteretic response. In its presence the enzyme is inactivated by trypsin as well as by Pronase.
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PMID:Interaction of the pBR 322-coded RTEM beta-lactamase with substrates. Evidence for specific conformational transitions. 697 39

Membrane penicillinase (penicillin amido-beta-lactamhydrolase, EC 3.5.2.6) from Bacillus licheniformis bears a striking resemblance to the major outer membrane lipoprotein of Escherichia coli. It can be specifically labeled in vivo with [3H]glycerol, [35S]cysteine, or [3H]palmitate but not by [32P]orthophosphate. The labeled residues are located at or near the NH2 terminus of the membrane penicillinase because they can be completely removed by trypsin which cleaves a hydrophobic peptide(s) from the NH2 terminus, thereby rendering the enzyme hydrophilic. The membrane penicillinase produced by the 749/C gene carried in E. coli on phage lambda is similar to the enzyme formed in strain 749/C itself. The peptide antibiotic globomycin, which prevents processing of the E. coli prolipoprotein, severely inhibited the attachment of [3H]palmitate or [3H]glycerol to the 749/C enzyme (either in B. licheniformis 749/C or in E. coli), blocked the accumulation of penicillinase in the plasma membrane, and enhanced the formation of exoenzyme. Under the same conditions, globomycin does not prevent the attachment of palmitate or glycerol to the E. coli prolipoprotein but inhibits processing of the modified precursor to the mature lipoprotein. These results are in contrast with the lack of effect of globomycin on the RTEM-beta-lactamase of E. coli which has no detectable hydrophobic membrane form and was not labeled with palmitate or glycerol.
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PMID:Lipoprotein nature of Bacillus licheniformis membrane penicillinase. 702 53

Proteus vulgaris RO104 strain produces a chromosomally encoded beta-lactamase that confers resistance to various beta-lactam antibiotics including methoxyimino third-generation cephalosporins. The beta-lactamase hydrolyzes first- and second-generation cephalosporins efficiently and cefotaxime to a lesser extent. Catalytic activity is inhibited by low concentrations of clavulanic acid and sulbactam. By its broad-spectrum substrate profile, beta-lactamase of Proteus vulgaris RO104 belongs to the group 2e defined by Bush. The protein purified to homogeneity by a four-step procedure was characterized by a pI of 8.31 and a specific activity of 1200 U/mg. The beta-lactamase was digested by trypsin, endoproteinase Asp-N and chymotrypsin. Amino-acid sequence determinations of the resulting peptides allowed the alignment of the 271 amino-acid residues of the protein which did not contain any cysteine residue. From amino-acid sequence comparisons, Proteus vulgaris RO104 beta-lactamase was found to share about 68% identity with the chromosomally mediated beta-lactamases of Klebsiella oxytoca D488 and E23004. Therefore, the cephalosporin-hydrolyzing beta-lactamase of Proteus vulgaris RO104 belongs to Ambler's class A.
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PMID:Chromosomally encoded cephalosporin-hydrolyzing beta-lactamase of Proteus vulgaris RO104 belongs to Ambler's class A. 804 7

Various reports have described that amino acid substitutions can alter substrate, positional, inhibitory, and target gene specificities of proteins. By using the method of Chou and Fasman, the present work predicts that critical amino acids for converting these substrate specificities of trypsin, L-lactate dehydrogenase, aspartate aminotransferase, beta-lactamase, and cytochrome P-450 are found to exist within regions predicted as beta-turns. The ratios of hydroxylation and oxygenation positions of substrates by cytochrome P-450 and lipoxygenase, respectively, are varied by changes of the protein structures, probably around turn conformations. Inhibitory specificities of bovine pancreatic trypsin inhibitor and alpha 1-antitrypsin and target gene specificity of glucocorticoid receptor are converted by changing turn structures. Occurrence of beta-turn probabilities can be predicted around the amino acid alteration positions of an evolutionally antecedent protein of a nylon degradation enzyme. These findings will have relevance to work on protein engineering and enzyme evolution.
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PMID:Critical amino acids responsible for converting specificities of proteins and for enhancing enzyme evolution are located around beta-turn potentials: data-based prediction. 813 29

The crystal structure of beta-lactamase from Staphylococcus aureus inactivated by p-nitrophenyl[[N-(benzyloxycarbonyl)amino]methyl]phosphonate, a methylphosphonate monoester monoanion inhibitor, has been determined and refined at 2.3 A resolution. The structure reveals a tetrahedral phosphorus covalently bonded to the O gamma atom of the active site serine, Ser70. One of the oxygen atoms bonded to phosphorus is located in the oxyanion hole formed by the two main-chain nitrogen atoms of Ser70 and Gln237, and the second bonded oxygen is solvated. The (benzyloxycarbonyl)aminomethyl group is oriented towards the active site gully such that the peptide group forms compensating electrostatic interactions with polar groups on the enzyme. The benzyl group forms a hydrophobic interaction with Ile239 and an aromatic-aromatic edge-to-face interaction with Tyr105, which has undergone a conformational transition relative to the native structure. The mode of binding supports the proposal that on reaction with the enzyme, the phosphonate generates a structure analogous to the tetrahedral transition state/intermediate associated with the acylation step of a normal substrate. The disposition of the phosphonyl group in this complex is the same as that of the corresponding phosphoryl group in the complex resulting from the inhibition of trypsin by diisopropylphosphofluoridate. The structure is consistent with a mechanism of inactivation that follows an associative pathway, proceeding via a transition state/intermediate in which phosphorus is penta-co-ordinated, forming a trigonal bipyramidal geometry with the phosphonyl donor (p-nitrophenol) and acceptor (Ser70 O gamma atom) in apical positions. A model of this transition state can be accommodated in the active site of beta-lactamase without any steric hindrance. A model of the tetrahedral transition state associated with the acylation step by benzyl penicillin has been derived. Because of the conformational rigidity of the fused rings of penicillin molecules, the orientation of the substrate is fixed once the tetrahedral carbonyl carbon and its ligands are superimposed on the phosphonate group. The outcome is that the carboxylate substituent on the thiazolidine ring forms a salt bridge with Lys234, and the preferred puckering of the ring is that observed in the crystal structure of ampicillin, the so-called "open" conformer.
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PMID:Structure of a phosphonate-inhibited beta-lactamase. An analog of the tetrahedral transition state/intermediate of beta-lactam hydrolysis. 823 Jan 96

The ExbB protein together with the ExbD and TonB proteins is involved in energy-coupled transport across the outer membrane of Escherichia coli. To understand this unusual process it is required to determine the subcellular location of ExbB and its transmembrane arrangement. Using ExbB-beta-lactamase fusion proteins as reporters for a periplasmic versus a cytoplasmic location of the fusion sites, and accessibility of ExbB in spheroplasts and cell lysates to aminopeptidase K, trypsin, and proteinase K, we arrived at a model of ExbB topology in the cytoplasmic membrane. Starting with the N terminus in the periplasm ExbB contains three transmembrane segments (residues 16-39, 128-155, 162-194) a small periplasmic loop and two large portions in the cytoplasm. Two of the 18 fusion proteins studied, ExbB34-beta-lactamase and ExbB41-beta-lactamase, conferred a high ampicillin resistance. Protease experiments revealed a high respectively low percentage of the molecules in a reverse transmembrane orientation. Both proteins were lacking positive charges at the inner side of the cytoplasmic membrane which determine the orientation of transmembrane segments.
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PMID:Topology of the ExbB protein in the cytoplasmic membrane of Escherichia coli. 844 62

Serratia fonticola CUV produces two isoenzymes (forms I and II) with beta-lactamase activity which were purified by a five-step procedure. The isoenzymes had identical kinetic parameters and isoelectric point (pI = 8.12). They were characterized by a specific activity towards benzylpenicillin of 1650 U/mg. The beta-lactamase hydrolyzed benzylpenicillin, amoxycillin, ureidopenicillins, first- and second-generation cephalosporins. Carboxypenicillins and isoxazolylpenicillins were hydrolyzed to a lesser extent. Towards cefotaxime and ceftriaxone (third-generation cephalosporins), the S. fonticola enzyme exhibited catalytic efficiencies much higher than those of MEN-1 and extended-spectrum TEM derivative beta-lactamases. The beta-lactamase from S. fonticola was markedly inhibited by beta-lactamase inhibitors such as clavulanic acid, sulbactam and tazobactam. The purified isoenzymes were digested by trypsin, endoproteinase Asp-N and chymotrypsin. Amino acid sequence determinations of the resulting peptides allowed the alignment of 267 amino acid residues (Swiss-Prot, accession number P 80545) for form I beta-lactamase. Form II is five residues shorter than form I at its N-terminus. From amino acid sequence comparisons, S. fonticola CUV beta-lactamase was found to share more than 69.3% identity with the chromosomally encoded beta-lactamases of Klebsiella oxytoca, Proteus vulgaris, Citrobacter diversus and the plasmid-mediated enzymes MEN-1 and Toho-1. Therefore, the oxyimino cephalosporin-hydrolyzing beta-lactamase of S. fonticola belongs to Ambler's class A. Contribution of the serine at ABL 237 in the broad-spectrum activity of these beta-lactamases is discussed.
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PMID:Characterization and amino acid sequence analysis of a new oxyimino cephalosporin-hydrolyzing class A beta-lactamase from Serratia fonticola CUV. 930 Aug 9

Polypeptides targeted to the yeast endoplasmic reticulum (ER) posttranslationally are thought to be kept in the cytoplasm in an unfolded state by Hsp70 chaperones before translocation. We show here that Escherichia coli beta-lactamase associated with Hsp70, but adopted a native-like conformation before translocation in living Saccharomyces cerevisiae cells. beta-Lactamase is a globular trypsin-resistant molecule in authentic form. For these studies, it was linked to the C terminus of a yeast polypeptide Hsp150delta, which conferred posttranslational translocation and provided sites for O-glycosylation. We devised conditions to retard translocation of Hsp150delta-beta-lactamase. This enabled us to show by protease protection assays that an unglycosylated precursor was associated with the cytoplasmic surface of isolated microsomes, whereas a glycosylated form resided inside the vesicles. Both proteins were trypsin resistant and had similar beta-lactamase activity and Km values for nitrocefin. The enzymatically active cytoplasmic intermediate could be chased into the ER, followed by secretion of the activity to the medium. Productive folding in the cytoplasm occurred in the absence of disulfide formation, whereas in the ER lumen, proper folding required oxidation of the sulfhydryls. This suggests that the polypeptide was refolded in the ER and consequently, at least partially unfolded for translocation.
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PMID:Folding of active beta-lactamase in the yeast cytoplasm before translocation into the endoplasmic reticulum. 952 80

Escherichia coli beta-lactamase, alone or as a complex with GroEL at 48 degreesC, was partially digested with trypsin, endoproteinase Glu-C, or thermolysin. Peptides were analyzed by matrix-assisted laser desorption and ionization mass spectrometry and aligned with the known sequence. From the protease cleavage sites which become protected upon binding and those which become newly accessible, a model of the complex is proposed in which the carboxy-terminal helix has melted, two loops form the binding interface and the large beta-sheet become partially uncovered by the slight dislocation of other structural elements. This explains how hydrophobic surface on the substrate protein can become accessible while scarcely disrupting the hydrogen bond network of the native structure. An analysis of the GroEL-bound peptides bound after digestion of the beta-lactamase showed no obvious sequence motifs, indicating that binding is provided by hydrophobic patches in the three-dimensional structure.
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PMID:Identification of the binding surface on beta-lactamase for GroEL by limited proteolysis and MALDI-mass spectrometry. 970 4

We found recently that beta-lactamase folds in the yeast cytosol to a native-like, catalytically active, and trypsin-resistant conformation, and is thereafter translocated into the ER and secreted to the medium. Previously, it was thought that pre-folded proteins cannot be translocated. Here we have studied in living yeast cells whether beta-lactamase, a tight globule in authentic form, must be unfolded for ER translocation. A beta-lactamase mutant (E166A) binds irreversibly benzylpenicillin via Ser(70) in the active site. We fused E166A to the C terminus of a yeast-derived polypeptide having a post-translational signal peptide. In the presence of benzylpenicillin, the E166A fusion protein was not translocated into the endoplasmic reticulum, whereas translocation of the unmutated variant was not affected. The benzylpenicillin-bound protein adhered to the endoplasmic reticulum membrane, where it prevented translocation of BiP, carboxypeptidase Y, and secretory proteins. Although the 321-amino acid-long N-terminal fusion partner adopts no regular secondary structure and should have no constraints for pore penetration, the benzylpenicillin-bound protein remained fully exposed to the cytosol, maintaining its signal peptide. Our data suggest that the beta-lactamase portion must unfold for translocation, that the unfolding machinery is cytosolic, and that unfolding of the remote C-terminal beta-lactamase is required for initiation of pore penetration.
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PMID:Inhibition of translocation of beta -lactamase into the yeast endoplasmic reticulum by covalently bound benzylpenicillin. 1144 16


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