Judith A. Kelly scite author profile

Homology searches and amino acid alignments, using the Streptomyces R61 DD-peptidase/penicillin-binding protein as reference, have been applied to the beta-lactamases of classes A and C, the Oxa-2 beta-lactamase (considered as the first known member of an additional class D), the low-Mr DD-peptidases/penicillin-binding proteins (protein no. 5 of Escherichia coli and Bacillus subtilis) and penicillin-binding domains of the high-Mr penicillin-binding proteins (PBP1A, PBP1B, PBP2 and PBP3 of E. coli). Though the evolutionary distance may vary considerably, all these penicillin-interactive proteins and domains appear to be members of a single superfamily of active-site-serine enzymes distinct from the classical trypsin or subtilisin families. The amino acid alignments reveal several conserved boxes that consist of strict identities or homologous amino acids. The significance of these boxes is highlighted by the known results of X-ray crystallography, chemical derivatization and site-directed-mutagenesis experiments.

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On the Origin of Bacterial Resistance to Penicillin: Comparison of a β-Lactamase and a Penicillin Target

Kelly

Dideberg

Charlier

et al. 1986

Science

218

143

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Structural data are now available for comparing a penicillin target enzyme, the D-alanyl-D-alanine-peptidase from Streptomyces R61, with a penicillin-hydrolyzing enzyme, the beta-lactamase from Bacillus licheniformis 749/C. Although the two enzymes have distinct catalytic properties and lack relatedness in their overall amino acid sequences except near the active-site serine, the significant similarity found by x-ray crystallography in the spatial arrangement of the elements of secondary structure provides strong support for earlier hypotheses that beta-lactamases arose from penicillin-sensitive D-alanyl-D-alanine-peptidases involved in bacterial wall peptidoglycan metabolism.

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Structures of Two Kinetic Intermediates Reveal Species Specificity of Penicillin-binding Proteins

McDonough

Anderson

Silvaggi

et al. 2002

Journal of Molecular Biology

141

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Comparison of the sequences of class A beta-lactamases and of the secondary structure elements of penicillin-recognizing proteins

Joris

Ledent

Dideberg

et al. 1991

Antimicrob Agents Chemother

155

136

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The sequences of class A ,I-lactamases were compared. Four main groups of enzymes were distinguished: those from the gram-negative organisms and bacilli and two distinct groups of Streptomyces spp. The Staphylococcus aureus PC1 enzyme, although somewhat closer to the enzyme from the Bacillus group, did not belong to any of the groups of I-lactamases. The similarities between the secondary structure elements of these enzymes and those of the class C P-lactamases and of the Streptomyces sp. strain R61 DD-peptidase were also analyzed and tentatively extended to the class D ,I-lactamases. A unified nomenclature of secondary structure elements is proposed for all the penicillin-recognizing enzymes.In the last few years, many different 13-lactamase (ii) Class C ,B-lactamases. Class C r-lactamase sequences were those from Escherichia coli K-12 (26); Citrobacter freundii 0S60 (34); Enterobacter cloacae P99, Q908R, and MHN1 (16); Serratia marcescens SR50 (38); and Pseudomonas aeruginosa (35).(iii) Class D ,3-lactamases. The aligned sequences of class D ,3-lactamases were those from OXA-1 (41), OXA-2 (9), and PSE-2 (23) (2), but the C-and N-terminal portions were deleted so that all compared sequences extended from residues 30 to 285 (ABL consensus numbering scheme). The final score represents the number of matches divided by the length of the shorter sequence, excluding the gaps. In the

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Binding of cephalothin and cefotaxime to D-Ala-D-Ala-peptidase reveals a functional basis of a natural mutation in a low-affinity penicillin-binding protein and in extended-spectrum .beta.-lactamases

Kuzin

Liu²,

Kelly³

et al. 1995

Biochemistry

101

116

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Two clinically-important beta-lactam antibiotics, cephalothin and cefotaxime, have been observed by X-ray crystallography bound to the reactive Ser62 of the D-alanyl-D-alanine carboxypeptidase/transpeptidase of Streptomyces sp. R61. Refinement of the two crystal structures produced R factors for 3 sigma (F) data of 0.166 (to 1.8 A) and 0.170 (to 2.0 A) for the cephalothin and cefotaxime complexes, respectively. In each complex, a water molecule is within 3.1 and 3.6 A of the acylated beta-lactam carbonyl carbon atom, but is poorly activated by active site residues for nucleophilic attack and deacylation. This apparent lack of good stereochemistry for facile hydrolysis is in accord with the long half-lives of cephalosporin intermediates in solution (20-40 h) and the efficacy of these beta-lactams as inhibitors of bacterial cell wall synthesis. Different hydrogen binding patterns of the two cephalosporins to Thr301 are consistent with the low cefotaxime affinity of an altered penicillin-binding protein, PBP-2x, reported in cefotaxime-resistant strains of Streptococcus pneumoniae, and with the ability of mutant class A beta-lactamases to hydrolyze third-generation cephalosporins.

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Judith A. Kelly

The active-site-serine penicillin-recognizing enzymes as members of the Streptomyces R61 dd-peptidase family

On the Origin of Bacterial Resistance to Penicillin: Comparison of a β-Lactamase and a Penicillin Target

Structures of Two Kinetic Intermediates Reveal Species Specificity of Penicillin-binding Proteins

Comparison of the sequences of class A beta-lactamases and of the secondary structure elements of penicillin-recognizing proteins

Binding of cephalothin and cefotaxime to D-Ala-D-Ala-peptidase reveals a functional basis of a natural mutation in a low-affinity penicillin-binding protein and in extended-spectrum .beta.-lactamases

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