DrugBank:EXPT00572 - FACTA Search

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Query: DrugBank:EXPT00572 (Asn)
11,732 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The membrane penicillinase of Bacillus licheniformis 749/C has been demonstrated to be a phospholipoprotein. The homogeneous enzyme gives a positive reaction for phosphorous and for unsaturated fatty acids, has a molecular weight of 33,000 in contrast to 29,000 for the exoenzyme, and contains 8 to 9 additional residues of aspartate or asparagine, 4 to 5 of serine, 7 of glutamate or glutamine, and 4 to 5 of glycine per mole. The COOH-terminal sequence of both membrane and exoenzymes is -Met-Asn-Gln-Lys-COOH; hence the extra peptide portion present in the membrane enzyme is not attached to the COOH-terminus of the exoenzyme. Procedures which readily detected the lysine residue at the NH2 terminus of the exoenzyme did not yield a positive test with the membrane form. The NH2 terminus of the membrane enzyme may be blocked by or linked to the phospholipid. A procedure for the preparation of membrane penicillinase on a large scale and an improved method for purification of the exoenzyme have been developed.
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PMID:Purification of plasma membrane penicillinase from Bacillus licheniformis 749/C and comparison with exoenzyme. 0 71

Two side-chain-thionated beta-lactams, a penicillin and a cephalosporin, have been prepared and found to be not significantly poorer as substrates of typical serine (classes A and C) beta-lactamases than are their oxo analogues. This result is interpreted to mean that any hydrogen-bonding site on these enzymes for the beta-lactam side-chain amide carbonyl group must be flexible and is more likely to be a passive rather than active or essential feature of the active site. Previously, data from crystal structures and site-directed mutagenesis had suggested that the side chain of Asn-132 of class-A beta-lactamases, a component of the conserved SDN loop, forms a hydrogen bond with the side-chain carbonyl of the beta-lactam substrate and may provide significant transition-state stabilization during catalysis. The thionocephalosporin was also equally as good as its oxo analogue as a substrate of the class-B beta-lactamase II of Bacillus cereus and not significantly less effective as an inhibitor of the Streptomyces R61 DD-peptidase; a tight hydrogen-bond donor site for the beta-lactam side-chain amide is apparently not present in these enzymes either.
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PMID:Effect of side-chain amide thionation on turnover of beta-lactam substrates by beta-lactamases. Further evidence on the question of side-chain hydrogen-bonding in catalysis. 141 47

On the basis of the biophysical studies on the synthetic mutant (Ile-8----Asn) OmpA signal peptide in the preceding paper (Hoyt, D. C., and Gierasch, L.M. (1991) J. Biol. Chem. 266, 14406-14412), the in vivo effects of the same mutation were examined by fusing the mutant OmpA signal sequence to Staphylococcus aureus nuclease or TEM beta-lactamase. The mutation in which the isoleucine residue at position 8 of the OmpA signal sequence of Escherichia coli was replaced with a neutral polar residue, asparagine, resulted in a defective signal peptide. The mutant signal sequence was unable to be processed, and the precursor molecule accumulated in the cytoplasmic as well as in the membrane fractions, indicating that the Ile-8----Asn OmpA signal sequence is not competent for translocating nuclease A or beta-lactamase across the membrane. This result is consistent with the in vitro studies on the Ile-8----Asn OmpA signal peptide, which indicated that the mutant signal peptide was unable to penetrate into the hydrophobic core of the lipid bilayer. Other asparagine or glutamine substitution mutations in the hydrophobic region of the OmpA signal sequence were also examined. Interestingly, the OmpA signal sequence with either Ile-8----Gln, Val-10----Asn, or Leu-12----Asn mutation was completely defective as the Ile-8----Asn OmpA signal sequence, while the Ile-6----Asn and Ala-9----Asn OmpA nucleases were able to be processed to secrete nuclease, although the processing occurred at a much slower rate than the wild-type OmpA nuclease. These results indicate that the defects depend on the position of the lesion in the hydrophobic core of the OmpA signal sequence.
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PMID:In vivo effect of asparagine in the hydrophobic region of the signal sequence. 186 Aug 48

Class A beta-lactamases are known to hydrolyze substrates through a Ser70-linked acyl-enzyme intermediate, although the detailed mechanism remains unknown. On the basis of the tertiary structure of the active site, the role of Glu166 of class A enzymes was investigated by replacing the residue in RTEM-1 beta-lactamase with Ala, Asp, Gln, or Asn. All the mutants, in contrast to the wild-type, accumulated a covalent complex with benzylpenicillin which corresponds to an acyl-enzyme intermediate. For the Asp mutant, the complex decayed slowly and the hydrolytic activity was slightly retained both in vivo and in vitro. In contrast, the other mutants lost the hydrolytic activity completely and their complexes were stable. These results indicate that the side-chain carboxylate of Glu166 acts as a special catalyst for deacylation. Residues for deacylation have not been identified in other acyl enzymes, such as serine proteases and class C beta-lactamases. Furthermore, the acyl-enzyme intermediates obtained are so stable that they are considered to be ideal materials for crystallographic studies for elucidating the catalytic mechanism in more detail. In addition, the mutants can more easily form inclusion bodies than the wild-type, when they are produced in a large amount, suggesting that the residue also plays an important role in proper folding of the enzyme.
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PMID:Site-directed mutants, at position 166, of RTEM-1 beta-lactamase that form a stable acyl-enzyme intermediate with penicillin. 199 91

While several proteins, including beta-lactamase, cytochrome c and apomyoglobin, are maximally unfolded at pH 2 by HCl in the absence of salt, the addition of anions, either from salt or acid, co-operatively induces the unfolded proteins to refold to a molten globule state, because anions bind preferentially to the compact molten globule state compared to the extended unfolded state. To study the role of the anion-dependent conformational transition at neutral pH, we synthesized a model polypeptide of 51 amino acid residues, consisting of tandem repeats of a Lys-Lys-Leu-Leu sequence and containing a turn sequence, Asn-Pro-Gly, at the center of the molecule. The model polypeptide showed no significant conformation by circular dichroism under conditions of low salt at neutral pH. However, addition of anions, either from salt or acid, induced the folding transition to an alpha-helical conformational state. The order of effectiveness of various anions in inducing the folding transition was consistent with the series of anions in inducing the molten globule of the acid-denatured protein. This suggests that the helical state of the model polypeptide is equivalent to the molten globule state. At pH values above 9, the model polypeptide also took an alpha-helical conformation, which was very similar to that induced by anions. On the basis of the chloride and pH-dependent conformational transitions, a phase diagram for the conformational states was constructed. The phase diagram was explained simply by assuming that the conformational transition is linked to the proton and the anion bindings to a limited number of amino groups and that anions bind only to the protonated groups.
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PMID:Anion and pH-dependent conformational transition of an amphiphilic polypeptide. 201 Sep 16

Ser130, Asp131 and Asn132 ('SDN') are highly conserved residues in class A beta-lactamases forming one wall of the active-site cavity. All three residues of the SDN loop in Streptomyces albus G beta-lactamase were modified by site-directed mutagenesis. The mutant proteins were expressed in Streptomyces lividans, purified from culture supernatants and their kinetic parameters were determined for several substrates. Ser130 was substituted by Asn, Ala and Gly. The first modification yielded an almost totally inactive protein, whereas the smaller-side-chain mutants (A and G) retained some activity, but were less stable than the wild-type enzyme. Ser130 might thus be involved in maintaining the structure of the active-site cavity. Mutations of Asp131 into Glu and Gly proved to be highly detrimental to enzyme stability, reflecting significant structural perturbations. Mutation of Asn132 into Ala resulted in a dramatically decreased enzymic activity (more than 100-fold) especially toward cephalosporin substrates, kcat. being the most affected parameter, which would indicate a role of Asn132 in transition-state stabilization rather than in ground-state binding. Comparison of the N132A and the previously described N132S mutant enzymes underline the importance of an H-bond-forming residue at position 132 for the catalytic process.
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PMID:Role of the conserved amino acids of the 'SDN' loop (Ser130, Asp131 and Asn132) in a class A beta-lactamase studied by site-directed mutagenesis. 217 61

Two crystal forms (A and B) of the 29,500 Da Class A beta-lactamase (penicillinase) from Bacillus licheniformis 749/C have been examined crystallographically. The structure of B-form crystals has been solved to 2 A resolution, the starting model for which was a 3.5 A structure obtained from A-form crystals. The beta-lactamase has an alpha + beta structure with 11 helices and 5 beta-strands seen also in a penicillin target DD-peptidase of Streptomyces R61. Atomic parameters of the two molecules in the asymmetric unit were refined by simulated annealing at 2.0 A resolution. The R factor is 0.208 for the 27,330 data greater than 3 sigma (F), with water molecules excluded from the model. The catalytic Ser-70 is at the N-terminus of a helix and is within hydrogen bonding distance of conserved Lys-73. Also interacting with the Lys-73 are Asn-132 and the conserved Glu-166, which is on a potentially flexible helix-containing loop. The structure suggests the binding of beta-lactam substrates is facilitated by interactions with Lys-234, Thr-235, and Ala-237 in a conserved beta-strand peptide, which is antiparallel to the beta-lactam's acylamido linkage; an exposed cavity near Asn-170 exists for acylamido substituents. The reactive double bond of clavulanate-type inhibitors may interact with Arg-244 on the fourth beta-strand. A very similar binding site architecture is seen in the DD-peptidase.
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PMID:Beta-lactamase of Bacillus licheniformis 749/C at 2 A resolution. 232 52

Site saturation mutagenesis has been carried out at Ala-237 in RTEM-1 beta-lactamase to assess the role of this site in modulating differences in specificity of beta-lactamases for penams vs. cephems as substrates. (An Ala-237 Thr mutation had previously been shown to increase activity on cephems by about 30-80%.) Screening of all 19 possible mutants on penams and cephems revealed the even more active Ala-237 Asn mutant. Detailed kinetic analysis shows that this mutant has about four times the activity toward cephalothin and cephalosporin C as the wild-type enzyme. Both mutations reduce the activity toward penams to about 10% that of RTEM-1 beta-lactamase and lower by about 5 degrees C the temperature at which the enzyme denatures. Functional properties of the other mutants have also been surveyed. The most interesting aspect of these results is that two quite disparate amino acids, threonine and asparagine, when introduced for Ala-237, cause such similar changes in enzyme specificity while more similar residues do not alter the catalytic properties of the enzyme to such a significant degree.
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PMID:Substrate specificities in class A beta-lactamases: preference for penams vs. cephems. The role of residue 237. 262 7

We have previously shown that the penP Ser-27 prepenicillinase is processed into two forms, Ser-35-penicillinase and Asn-29 penicillinase. Two new penicillinase mutants, penP Ser-27 Pro-28 and penP Ser-27,23' (Pro-Asp)24', were derived from the penP Ser-27 mutant by oligonucleotide-directed site-specific mutagenesis. The penP Ser-27 Pro-28 mutant prepenicillinase was also processed into two forms, Ser-35-penicillinase and Gly-26-penicillinase. On the contrary, the penP Ser-27,23' (Pro-Asp)24' mutant prepenicillinase is unprocessed.
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PMID:Processing of Bacillus licheniformis penicillinases lacking a lipoprotein modification site in Escherichia coli. 351 18

Two single amino acid mutant proteins of beta-lactamase PC1 from Staphylococcus aureus, P2 Thr40----Ile and P54 Asp146----Asn, have been investigated using urea-gradient polyacrylamide gel electrophoresis, circular dichroism and sedimentation velocity. Investigation of the folded states of the mutants has shown that compared to wild-type PC1 they are slightly more expanded, and have reduced aromatic circular dichroism, but the same content of secondary structure as PC1. The mutants exhibit fast refolding kinetics to the folded state, in contrast to PC1, which refolds only slowly. We conclude from these results that the folded mutants are in a state close to but distinct from the native state of PC1 and have certain properties in common with the compact intermediate in the folding of beta-lactamase. Therefore, these single amino acid substitutions result in a folding pathway blocked at a point located after collapse of the already folded structural units into a globular shape, and close to the final reshuffling step that leads to the native state of the wild-type enzyme.
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PMID:Single amino acid mutations block a late step in the folding of beta-lactamase from Staphylococcus aureus. 387 72

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