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)

The major outer membrane proteins from 10 gonococcal strains were examined after 125I-labeling of the proteins as single bands resolved by polyacrylamide gel electrophoresis in sodium dodecyl sulfate. These 125I-proteins were then treated with either trypsin or alpha-chymotrypsin, and the resultant 125I-peptides were visualized by autoradiography after two-dimensional electrophoretic and chromatographic separation on thin-layer cellulose sheets. Several 125I-peptides were present in all the major outer membrane proteins examined. The presence and absence of additional 125I-peptides segregated the major proteins into two pattern groups. One group consisted of major outer membranes with molecular weights of 34,000 or 33,000; major proteins with molecular weights of 32,000 constituted the other group. Two beta-lactamase-producing gonococcal isolates were examined. Their major outer membrane proteins were identical in apparent molecular weights and alpha-chymotryptic 125I-peptide fingerprints; these proteins contained 125I-peptides not found in other gonococcal major proteins. No 125I-peptide differences were found among the major outer membrane proteins of strain F62 gonococci that exhibited differences in piliation and/or colony opacity characteristics.
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PMID:Studies on gonococcus infection. XVIII. 125I-labeled peptide mapping of the major protein of the gonococcal cell wall outer membrane. 11 Jun 81

Protoplasis of Bacillus licheniformis 749/C (a mutant constitutive for penicillinase production) continued to synthesize and release penicillinase in hypertonic growth medium in the presence of trypsin and chymotrypsin at 25 mug each per ml. When the protoplasts were stripped of about half of their membrane-bound penicillinase by pretreatment at pH 9.5 or with a higher level of trypsin, penicillinase activity no longer increased in the presence of the proteases. This effect was immediately eliminated after addition of soybean trypsin inhibitor. These proteases do not significantly inhibit general protein synthesis. Stripped protoplasts of strain 749/C and of uninduced strain 749 (unable to synthesize penicillinase) were incubated with 50 mug of chymotrypsin per ml, and the supernatent fluids were examined immunochemically for peptides derived from the penicillinase chain. Such fargments were found only with the protoplasts capable of synthesizing penicillinase (strain 749/C). The direct detection of the products of protease degradation of a susceptible form of penicillinase provides strong evidence that, in stripped protoplasts of B. licheniformis 749/C, penicillinase synthesis continues in the presence of trypsin or chymotrypsin and that, in these modified membranes, the protease is able to act on an early form of the enzyme that has not yet attained the protease-resistant conformation characteristic of the membrane-bound and exopenicillinases. This finding is discussed in terms of the current models of penicillinase secretion.
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PMID:Further evidence for a partially folded intermediate in penicillinase secretion by Bacillus licheniformis. 23 42

A substantial fraction of the total membrane penicillinase of Bacillus licheniformis 749/C is attached to the vesicles released during conversion of the cells to protoplasts. This enzyme was purified since there was indirect evidence that it differed from the enzyme that remained with the protoplast. The purified vesicle penicillinase has the same molecular weight and general properties as the plasma membrane (protoplast) enzyme and, similarly, contains a covalently linked phosphatidylserine residue. Treatment of the two enzymes with trypsin produced phosphatidylserine-containing peptides which could not be distinguished by gel or paper electrophoresis. The two membrane penicillinases are very similar, if not identical.
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PMID:Vesicle penicillinase of Bacillus licheniformis 749/C. Apparent identity with the plasma membrane enzyme. 86 Dec 24

The membrane penicillinase of Bacillus licheniformis 749/C is a phospholipoprotein carrying extra residues of asparagine or aspartate, serine, glutamine or glutamate and glycine not present in the exoenzyme (Yamamoto, S., and Lampen, J.O. (1976) J. Biol. Chem. 251, 4095-4101). Cleavage of the membrane enzyme with trypsin yielded a phospholipipopeptide and a hydrophilic penicillinase differing from exopenicillinase only by the absence of the NH2-terminal lysine residue. Phosphatidylserine was isolated from a pronase digest of the phospholipopeptide. The partial sequence of the phospholipopeptide is: phosphatidylserine-(Ser3, Glx5, Asx7, Gly5)-Asp-Gin-Ser-Lys-COOH with the lysine being the NH2-terminal residue of the usual exoenzyme. The fatty acids present in the membrane enzyme and in the phospholipopeptide had essentially the same composition (predominantly n-16:0, ante iso-17:0, n-18:0, and n-18:1). These acids were also found in the total membrane lipids, although in very different proportions; thus, the phosphatidic acid residue of the phosphatidylserine is probably formed by the usual synthetic pathway for membrane phospholipids, but some special feature of the process affects the nature of the component fatty acids.
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PMID:The hydrophobic membrane penicillinase of Bacillus licheniformis 749/C. Characterization of the hydrophilic enzyme and phospholipopeptide produced by trypsin cleavage. 93 23

The membrane-bound penicillinase of Bacillus licheniformis 749/C is a phospholipoprotein that differs from the hydrophilic exoenzyme in that its polypeptide chain carries an additional 25 residues (mostly hydrophilic) with phosphatidylserine as the NH2-terminus. To determine if other phospholipoproteins are present in the plasma membrane, the penicillinase-inducible strain 749 was grown without inducer in the presence of [2-(3)H] glycerol. Electrophoretic separation of the membrane proteins (after removal of free lipids) showed an association of 3H-activity with certain of the proteins which could not be broken by lipid solvents and strongly denaturing conditions. Pronase digestion of the membrane proteins (after solvent extraction) released phosphatidylserine, thus indicating the covalent linkage of protein and phospholipid. Treatment of the isolated membranes with trypsin solubilized the protein portion of some of the phospholipoproteins (as with penicillinase), but not the 3H-labelled fragment. Penicillinase should be considered as the first observed example of a group of phosphatidylserine-containing proteins present in the plasma membrane of B. licheniformis 749 and 749/C.
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PMID:Membrane associated phospholipoproteins of Bacillus lichenformis 749. 97 40

A device, the enzyme thermistor, is described which is capable of measuring changes in heat due to enzymic reactions. The sensor, a thermistor, is in direct contact with the site of reaction through its placement in a microcolumn filled with an immobilised enzyme preparation. The substrate solution flows past the thermistor tip, and as much as approx. one half of the total heat evolved can be registered as temperature change, deltat. Glass-bound glucose oxidase (EC 1.1.3.4), penicillinase (EC 3.5.2.6), trypsin (EC 3.4.21.4) and urease (EC 3.5.1.5) were used for the determination of glucose, penicillin G, benzoyl-L-arginine ethyl ester and urea respectively. Linear relationships between the deltat recorded and the concentration of substrate were obtained in all cases.
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PMID:Determination of heat changes in the proximity of immobilised enzymes with an enzyme thermistor and its use for the assay of metabolites. 117 49

Cholera enterotoxin (CT) is produced by Vibrio cholerae and excreted into the culture medium as an extracellular protein. CT consists of one A polypeptide and five B polypeptides associated by noncovalent bonds, and CT-B interacts with CT-A primarily via the A2 domain. Treatment of CT with trypsin cleaves CT-A into A1 and A2 fragments that are linked by a disulfide bond. CT-B binds to ganglioside GM1, which functions as the plasma membrane receptor for CT, and the enzymatic activity of A1 causes the toxic effects of CT on target cells. We constructed translational fusions that joined foreign proteins via their carboxyl termini to the A2 domain of CT-A, and we studied the interactions of the fusion proteins with CT-B. The A2 domain was necessary and sufficient to enable bacterial alkaline phosphatase (BAP), maltose-binding protein (MBP) or beta-lactamase (BLA) to associate with CT-B to form stable, immunoreactive, holotoxin-like chimeras. Each holotoxin-like chimera was able to bind to ganglioside GM1. Holotoxin-like chimeras containing the BAP-A2 and BLA-A2 fusion proteins had BAP activity and BLA activity, respectively. We constructed BAP-A2 mutants with altered carboxyl-terminal sequences and tested their ability to assemble into holotoxin-like chimeras. Although the carboxyl-terminal QDEL sequence of the BAP-A2 fusion protein was not required for interaction with CT-B, most BAP-A2 mutants with altered carboxyl termini did not form holotoxin-like chimeras. When holotoxin-like chimeras containing BAP-A2, MBP-A2, or BLA-A2 were synthesized in V. cholerae, they were found predominantly in the periplasm. The toxin secretory apparatus of V. cholerae was not able, therefore, to translocate these holotoxin-like chimeras across the outer membrane.
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PMID:Fusion proteins containing the A2 domain of cholera toxin assemble with B polypeptides of cholera toxin to form immunoreactive and functional holotoxin-like chimeras. 809 81

The outer membrane of Gram-negative bacteria presents an effective barrier that restricts the release of proteins from the cell. Virtually all extracellular proteins of Gram-negative bacteria are exported by specialized systems requiring the action of several gene products. We have constructed a tripartite fusion consisting of (i) the signal sequence and first nine N-terminal amino acids of the mature major Escherichia coli lipoprotein, (ii) amino acids 46-159 of the outer membrane protein OmpA, and (iii) the complete mature beta-lactamase (EC 3.5.2.6) sequence. This protein had an enzymatically active beta-lactamase and was found predominantly in the outer membrane. Immunofluorescence microscopy, the accessibility of the fusion protein to externally added proteases, and the rates of hydrolysis of nitrocefin and penicillin G by whole cells demonstrated that a substantial fraction (20-30%) of the beta-lactamase domain of the fusion protein was exposed on the external surface of E. coli. In cells grown at 24 degrees C the localization of beta-lactamase on the cell surface was almost quantitative (greater than 80% of the enzymatically active protein was exposed to the extracellular fluid) as determined by nitrocefin and penicillin G hydrolysis and trypsin accessibility. These results demonstrated that a soluble protein, beta-lactamase, can be transported through--and become anchored on--the outer membrane by fusion to the proper targeting and localization signals.
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PMID:Transport and anchoring of beta-lactamase to the external surface of Escherichia coli. 155 77

Isolated from an Escherichia coli strain MEN-1 is a plasmid-mediated beta-lactamase that confers resistance to methoxy imino third-generation cephalosporins. The protein purified to homogeneity was digested by trypsin, chymotrypsin and endoproteinase Asp-N. Amino acid sequence determinations of the resulting peptides gave rise to the alignment of the 263 residues of the beta-lactamase. From amino acid sequence comparison MEN-1 was found to share more than 72% identity with the chromosomally mediated beta-lactamases of Klebsiella oxytoca. Therefore, MEN-1 is the first transferable extended-spectrum beta-lactamase which is not directly derived from the widespread TEMs or SHV-1 penicillinases with which it presents less than 39% identity.
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PMID:Close amino acid sequence relationship between the new plasmid-mediated extended-spectrum beta-lactamase MEN-1 and chromosomally encoded enzymes of Klebsiella oxytoca. 163 93

SecY is an integral plasma-membrane protein of Escherichia coli which is essential for the export of periplasmic and outer-membrane proteins containing cleavable signal sequences. We have synthesized SecY in vitro using an E. coli transcription/translation system. In the absence of membranes, SecY remained largely soluble but cosedimented on sucrose gradients with the membrane fraction when inside-out plasma-membrane vesicles (INV) had been added cotranslationally. Membrane association of SecY was unaffected if the endogenous SecY of the INV had been inactivated by either antibodies, a mutation or trypsin treatment. In contrast, inactivation of the INV SecY interfered with membrane targeting and, consequently, the processing of precursors to beta-lactamase and lambda receptor. When SecY-deprived INV were, however, first functionally reconstituted with in-vitro-synthesized SecY, targeting and translocation of the lambda receptor were partially restored. Thus, the assembly of SecY into INV in vitro leads to an active enzyme. In addition, we show that the prlA4 allele of the secY gene suppresses signal-sequence mutations of the lambda receptor in vitro. Collectively, our results demonstrate that SecY, while functioning as a membrane-located receptor for precursors of exported proteins, appears to be virtually independent of pre-existing SecY for its own membrane integration.
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PMID:Biochemical analysis of the biogenesis and function of the Escherichia coli export factor SecY. 163 29

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