Zoocin A is a streptococcolytic peptidoglycan hydrolase with an unknown site of action that is produced by Streptococcus equi subsp. zooepidemicus 4881. Zoocin A has now been determined to be a D-alanyl-L-alanine endopeptidase by digesting susceptible peptidoglycan with a combination of mutanolysin and zoocin A, separating the resulting muropeptides by reverse-phase high-pressure liquid chromatography, and analyzing them by mass spectrometry (MS) in both the positive-and negative-ion modes to determine their compositions. In order to distinguish among possible structures for these muropeptides, they were N-terminally labeled with 4-sulfophenyl isothiocyanate (SPITC) and analyzed by tandem MS in the negative-ion mode. This novel application of SPITC labeling and MS/MS analysis can be used to analyze the structure of peptidoglycans and to determine the sites of action of other peptidoglycan hydrolases.Streptococcal peptidoglycans (16) have a repeating backbone of the amino sugars N-acetylglucosamine (GlcNAc) and N-acetylmuramic acid (MurNAc). Connected to the lactyl group of MurNAc is a tetrapeptide (stem peptide) composed of L-alanine, D-isoglutamine (or D-isoglutamate), L-lysine, and D-alanine. The stem peptides are connected by peptide cross bridges that typically contain two or three L-alanine residues ( Fig. 1). During peptidoglycan synthesis, the stem peptides contain an additional C-terminal D-alanine ( Fig. 1) that is removed during cross-bridge formation by a transpeptidase (11). In some cases, the cross bridges are not formed and the terminal D-alanine may or may not be removed by a carboxypeptidase (11).Zoocin A is a streptococcolytic enzyme produced by Streptococcus equi subsp. zooepidemicus 4881. The genes for zoocin A and for the zoocin A immunity factor (zif) are adjacent on the chromosome and are divergently transcribed (1). Zoocin A hydrolyzes the cell walls of some closely related streptococci, including S. pyogenes and S. mutans, the main causative agents of group A streptococcal sore throat and dental caries, respectively (20). Zoocin A is presumed to target peptidoglycan cross bridges based on three lines of evidence. First, the catalytic domain of zoocin A has a high degree of similarity to the catalytic domains of several bacteriolytic endopeptidases (lysostaphin [21], ALE-1 [22], LytM [23], and millericin B [3]). Second, the introduction of the gene for lysostaphin resistance into a zoocin A-sensitive streptococcus resulted in the insertion of serines into its peptidoglycan cross bridges and a decrease in sensitivity to zoocin A (6). Third, zoocin A covalently binds penicillin and slowly hydrolyzes a chromogenic cephalosporin, both of which are D-alanyl-D-alanine analogs. These three lines of evidence suggest that zoocin A hydrolyzes the bond between the terminal D-alanine of the stem peptide and the first Lalanine of the cross bridge (8).If zoocin A is an endopeptidase, determination of its site of action on streptococcal peptidoglycans only by the mass of the products is not possible beca...
Resistance to lysostaphin, a staphylolytic glycylglycine endopeptidase, is due to a FemABX-like immunity protein that inserts serines in place of some glycines in peptidoglycan cross bridges. These modifications inhibit both binding of the recombinant cell wall targeting domain and catalysis by the recombinant catalytic domain of lysostaphin.
Producer cell immunity to the streptococcolytic enzyme zoocin A, which is a D-alanyl-L-alanine endopeptidase, is due to Zif, the zoocin A immunity factor. Zif has high degrees of similarity to MurM and MurN (members of the FemABX family of proteins), which are responsible for the addition of amino acids to cross bridges during peptidoglycan synthesis in streptococci. In this study, purified peptidoglycans from strains with and without zif were compared to determine how Zif modifies the peptidoglycan layer to cause resistance to zoocin A. The peptidoglycan from each strain was hydrolyzed using the streptococcolytic phage lysin B30, and the resulting muropeptides were separated by reverse-phase high-pressure liquid chromatography, labeled with 4-sulfophenyl isothiocyanate, and analyzed by tandem mass spectrometry in the negative-ion mode. It was determined that Zif alters the peptidoglycan by increasing the proportion of cross bridges containing three L-alanines instead of two. This modification decreased binding of the recombinant target recognition domain of zoocin A to peptidoglycan. Zif-modified peptidoglycan also was less susceptible to hydrolysis by the recombinant catalytic domain of zoocin A. Thus, Zif is a novel FemABX-like immunity factor because it provides resistance to a bacteriolytic endopeptidase by lengthening the peptidoglycan cross bridge rather than by causing an amino acid substitution.
Abrin is a heterodimeric toxin present in the seeds of the Abrus precatorius plant. The easily obtainable seeds can yield a highly toxic product that can be used in various types of biocrimes and terrorism-related activities, including "white-powder" letters. Although the vast majority of these threats are hoaxes, the lack of rapid and reliable detection assays for abrin, such as lateral flow assays (LFAs), can be an impediment to accurate and rapid hazard assessment. One of the complicating factors associated with LFAs is the use of antibodies of poor affinity and specificity that cross-react with near neighbors or that bind to plant lectins, which are capable of nonspecifically cross-linking the capture and detector antibodies. Because of the critical need to promote public safety and public health, we conducted a comprehensive laboratory evaluation of a commercial LFA for the rapid detection of abrin. This study was conducted using comprehensive inclusivity and exclusivity panels of abrin and near-neighbor plant materials, along with panels of lectins, related proteins, white powders, and environmental background material, to determine the sensitivity, specificity, limit of detection, dynamic range, and repeatability of the assay for the specific intended use of evaluating suspicious white powders and environmental samples for the presumptive presence of abrin.
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