Lectins from Helix pomatia, Canavalia ensiformis, Agaricus bisporus and Triticum vulgaris agglutinated cultures of Staphylococcus aureus, Escherichia coli, Listeria and Salmonella spp. This agglutination was specific as it was inhibited (except with A. bisporus lectin) by the competing sugar substrates. The ability of three of these lectins, immobilized on a variety of supports, to separate these micro-organisms from pure cultures was investigated. Immobilization of the lectins on magnetic microspheres was the most effective method. Immobilized T. vulgaris lectin bound 87-100% of cells from cultures of L. monocytogenes, 80-100% of Staph. aureus, 33-45% of Salmonella spp. and 42-77% of E. coli. The A. bisporus lectin bound 31-63% of cells in cultures of L. monocytogenes, 83% of Staph. aureus but only 3-5% of the salmonella cells. Similarly H. pomatia lectin bound greater than 92% of Staph. aureus and 64% of L. monocytogenes cells but was poor at binding the Gram-negative organisms. This preference for binding Gram-positive organisms was confirmed when mixed cultures were studied. The T. vulgaris lectin was effective in removing L. monocytogenes (43%) and Staph. aureus (26%) from diluted milk and Salmonella (31-54%) from raw egg. Agaricus bisporus lectin removed L. monocytogenes from undiluted milk (10-47%) or ground beef (32-50%).
Oligonucleotide primers were designed against rRNA sequences to give a DNA-based PCR assay for the rapid identification/detection of Brochothrix spp. The PCR products could be confirmed by hybridization to an internal oligonucleotide probe. The method successfully and sensitively detected/identified these organisms in pure cultures but was of limited value as a detection method because the detection sensitivity, in relation to conventional plate counts, varied and the assay sensitivity was reduced in the presence of staphylococci. Furthermore, sensitivity was also lost when the assay was applied directly to meat samples. However, a separation step using a lectin (from Agaricus bisporus) immobilized on magnetic beads prior to the PCR assay, allowed the direct detection of low numbers (> 10(2) cfu g-1) of Brochothrix in meat samples within a working day.
The agglutination of a selection of Gram-positive and Gram-negative bacteria by the haemolymph and coelomic fluid from several invertebrates was studied. The haemolymph from Lumbricus terrestris and Limulus polyphemus caused the strongest agglutination of most of the bacteria studied. When the agglutinating fraction of Lim. Polyphemus was liganded to magnetic microspheres 53% of the cells in pure cultures of Listeria monocytogenes C200, 15% of Salmonella enteritidis 37782, 92% of Staphylococcus aureus NCDO 949, 19% of Escherichia coli E4936/76 and 65% of E. coli W2-2 were adsorbed to the beads. The immobilized haemolymph from Lumb. terrestris adsorbed 42% of Salm. enteritidis 37782, 64% of E. coli 4936/76 and 27% of Staph. aureus NCDO 1499 cells and the coelomic fluid from Haemopsis sanguisuga adsorbed 42, 48 and 50% of these cultures respectively. With immobilized Haem. sanguisuga agglutinins, 21-27% of Staph. aureus NCDO 2044 cells were recovered from full-fat pasteurized milk and 20-51% from braising steak. Immobilized Lim. polyphemus agglutinins recovered 17-34% of Staph. aureus cells from raw egg. The potential of agglutinins isolated from invertebrates for enhancing rapid microbiological assays of foods is discussed.
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