Growth inhibition of Listeria monocytogenes by a nonbacteriocinogenic Carnobacterium piscicola |
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Authors: | Nilsson L Hansen T B Garrido P Buchrieser C Glaser P Knøchel S Gram L Gravesen A |
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Institution: | Department of Seafood Research, Danish Institute for Fisheries Research, S?ltofts Plads, c/o Technical University of Denmark, Lyngby, Denmark. |
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Abstract: | AIMS: This study elucidates the mechanisms by which a nonbacteriocinogenic Carnobacterium piscicola inhibits growth of Listeria monocytogenes. METHODS AND RESULTS: Listeria monocytogenes was exposed to live cultures of a bacteriocin-negative variant of C. piscicola A9b in co-culture, in a diffusion chamber system, and to a cell-free supernatant. Suppression of maximum cell density (0-3.5 log units) of L. monocytogenes was proportional to initial levels of C. pisciola (10(3)-10(7) CFU ml(-1)). Cell-to-cell contact was not required to cause inhibition. The cell-free C. piscicola supernatant caused a decrease in L. monocytogenes maximum cell density, which was abolished by glucose addition but not by amino acid, vitamin or mineral addition. The fermentate also gave rise to a longer lag phase and a reduction in growth rate. These effects were independent of glucose and may have been caused by acetate production by C. piscicola. 2D gel-electrophoretic patterns of L. monocytogenes exposed to C. piscicola or to L. monocytogenes fermentate did not differ. Treatment with C. piscicola fermentate resulted in down-regulation (twofold) of genes involved in purine- or pyrimidine metabolism, and up-regulation (twofold) of genes from the regulon for vitamin B12 biosynthesis and propanediol and ethanolamine utilization. CONCLUSIONS: A nonbacteriocinogenic C. piscicola reduced growth of L. monocytogenes partly by glucose depletion. SIGNIFICANCE AND IMPACT OF THE STUDY: Understanding the mechanism of microbial interaction enhances prediction of growth in mixed communities as well as use of bioprotective principles for food preservation. |
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Keywords: | 2-chamber system 2D PAGE carnobacteriocin B2 Carnobacterium piscicola DNA micro-arrays glucose competition Listeria monocytogenes microbial interaction |
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