E. P. Abraham scite author profile

1. Pseudomonas pyocyanea N.C.T.C. 8203 produces a beta-lactamase that is inducible by high concentrations of benzylpenicillin or cephalosporin C. Methicillin appeared to be a relatively poor inducer, but this could be attributed in part to its ability to mask the enzyme produced. Much of the enzyme is normally cell-bound. 2. No evidence was obtained that the crude enzyme preparation consisted of more than one beta-lactamase and the preparation appeared to contain no significant amount of benzylpenicillin amidase or of an acetyl esterase. 3. The maximum rate of hydrolysis of cephalosporin C and several other derivatives of 7-aminocephalosporanic acid by the crude enzyme was more than five times that of benzylpenicillin. Methicillin, cloxacillin, 6-aminopenicillanic acid and 7-aminocephalosporanic acid were resistant to hydrolysis, and methicillin and cloxacillin were powerful competitive inhibitors of the action of the enzyme on easily hydrolysable substrates. 4. Cephalosporin C, cephalothin and cephaloridine yielded 2 equiv. of acid/mole on enzymic hydrolysis, and deacetylcephalorsporin C yielded 1 equiv./mole. Evidence was obtained that the opening of the beta-lactam ring of cephalosporin C and cephalothin is accompanied by the spontaneous expulsion of an acetoxy group and that of cephaloridine by the expulsion of pyridine. 5. A marked decrease in the minimum inhibitory concentration of benzylpenicillin and several hydrolysable derivatives of 7-aminocephalosporanic acid was observed when the size of the inoculum was decreased. This suggested that the production of a beta-lactamase contributed to the factors responsible for the very high resistance of Ps. pyocyanea to these substances. It was therefore concluded that the latter might show synergism with the enzyme inhibitors, methicillin and cloxacillin, against this organism.

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Separation, purification and properties of β-lactamase I and β-lactamase II from Bacillus cereus 569/H/9

Davies

1974

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1. A procedure was devised which is suitable for the isolation of beta-lactamase I and beta-lactamase II from Bacillus cereus 569/H/9 on a large scale. After adsorption on to Celite both enzymes were eluted in good yield and separated by chromatography on Sephadex CM-50. 2. beta-Lactamase I was separated into three main components by isoelectric focusing and into two components by chromatography. 3. The Zn(2+)-requiring beta-lactamase II obtained by this procedure had a lower molecular weight (22000) than beta-lactamase I (28000) and also differed from the latter in containing one cysteine residue. 4. The beta-lactamase II contained no carbohydrate, but showed the thermostability of the enzyme isolated earlier as a protein-carbohydrate complex. 5. Amino acid analyses and tryptic-digest ;maps' indicate that some degree of homology between beta-lactamase I and beta-lactamase II is possible, but that beta-lactamase I is not composed of the entire sequence of beta-lactamase II together with an additional peptide fragment. 6. A 6-methylpenicillin and a 7-methylcephalosporin showed much lower affinities for both enzymes than did penicillins and cephalosporins themselves.

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Metal cofactor requirement of β-lactamase II

1974

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1. The apoenzyme obtained on removal of Zn(2+) from beta-lactamase II from Bacillus cereus 569/H/9 showed less than 0.001% of the activity of the Zn(2+)-containing enzyme. 2. Removal of Zn(2+) led to a conformational change in the enzyme and partial unmasking of a thiol group. 3. Replacement of Zn(2+) by Co(2+), Cd(2+), Mn(2+) or Hg(2+) gave enzymes with significant, but lower, beta-lactamase activity. No activity was detected in the presence of Cu(2+), Ni(2+), Mg(2+) or Ca(2+). 4. Equilibrium dialysis indicated that the enzyme had at least two Zn(2+) binding sites. With benzylpenicillin as substrate the variation in activity with concentration of Zn(2+) indicated that activity paralleled binding of Zn(2+) to the site of highest affinity. 5. Replacement of Zn(2+) by Co(2+) and Cd(2+) gave enzymes with absorption bands at 340 and 245nm respectively, and raised the question of whether the thiol group in the enzyme is a metal-ion ligand. 6. Reduction of the product obtained by reaction of denatured beta-lactamase II with Ellman's reagent [5,5'-dithiobis-(2-nitrobenzoic acid)] gave a protein which could refold to produce beta-lactamase II activity in high yield.

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Zinc as a Cofactor for Cephalosporinase from Bacillus cereus 569

Sabath¹,

Abraham²

1966

159

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Antimicrobial Activities and Antagonists of Bacilysin and Anticapsin

Kenig

Abraham

1976

Journal of General Microbiology

105

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SUMMARYThe dipeptide antibiotic bacilysin is active against a wide range of bacteria and against Candida albicans. Its C-terminal amino acid, anticapsin, is a very poor antibacterial agent. The activities of both substances are strongly dependent on the nature of the culture medium. In a minimal medium the minimum inhibitory concentration for bacilysin with E. coli B is I O -~ pg ml-l. The action of bacilysin is antagonized by a variety of dipeptides and that of anticapsin by a number of amino acids. With several bacteria, bacilysin-resistant mutants are found in unusually large numbers. It is suggested that peptide and amino acid transport systems play a role in these phenomena. The antimicrobial action of bacilysin is also inhibited by glucosamine and N-acetylglucosamine. This antibiotic may therefore interfere with glucosamine synthesis and thus with the synthesis of microbial cell walls.

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E. P. Abraham

An Enzyme from Bacteria able to Destroy Penicillin

Further Observations on Penicillin

The biosynthesis of penicillins and cephalosporins

Cephalosporinase and penicillinase activities of a β-lactamase from Pseudomonas pyocyanea

Separation, purification and properties of β-lactamase I and β-lactamase II from Bacillus cereus 569/H/9

Metal cofactor requirement of β-lactamase II

Zinc as a Cofactor for Cephalosporinase from Bacillus cereus 569

Antimicrobial Activities and Antagonists of Bacilysin and Anticapsin

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