Combined effect of nisin and carvacrol at different pH and temperature levels on the viability of different strains of Bacillus cereus

The influence of pH and temperature on the bactericidal action of nisin and carvacrol on vegetative cells of different Bacillus cereus strains was studied. The five strains tested showed significant differences in sensitivity towards nisin, at pH 7.0 and 30°C. Carvacrol concentrations of 0.3 mmol 1-1 had no effect on viability of B. cereus cells. When the same carvacrol concentration was combined with nisin, however, it resulted in a greater loss of viability of cells than when nisin was applied alone. The concentration of carvacrol played an important role on the bactericidal effect of nisin and, therefore, on the synergistic action of both compounds combined. At lower pH values (6.30 and 5.75), nisin was more active against B. cereus cells than at pH 7.0 at 30°C, with a different sensitivity of the strains tested. The combined effect of nisin and carvacrol was found to be significantly different at pH 7.0 and 5.75. When the temperature was 8°C, nisin was significantly less active against B. cereus IFR-NL 94-25 than at 30°C, both at pH 7.0 and 6.30. At 8°C, there was a significant increased effect of nisin at lower pH values. Also at this low temperature, a synergistic effect between nisin and carvacrol on B. cereus cells was observed at the pHs tested. This study indicates the potential of nisin and carvacrol at lower pHs to be used for preservation of minimally processed foods

Analysis of the heat-adaptive response of psychrotrophic Bacillus weihenstephanensis

The heat-adaptive response of the psychrotrophic spoilage bacterium Bacillus weihenstephanensis DSM11827 is described. It is demonstrated that vegetative cells of B. weihenstephanensis adapts to heat exposure at 47°C by prior exposure to heat at the nonlethal temperature of 38°C. For this adaptive response, protein synthesis is required and maximum adaptation was noted after 15 min to 2 h prior exposure at 38°C. By using two-dimensional gel electrophoresis (2D-E), an overview of the heat-shock proteins (HSPs) of B. weihenstephanensis was obtained and it was shown that the production of 15 proteins increased upon exposure to 38°C. In more detail, the use of specific antibodies revealed induction of the HSPs DnaK, DnaJ, GroEL, ClpC, ClpP and ClpX of B. weihenstephanensis. In addition, also pre-exposure to other stresses than heat, such as exposure to a high salt concentration, low pH, a high ethanol concentration or low temperature, resulted in development of increased heat tolerance of B. weihenstephanensis, and during these conditions, an increased production of some HSPs was noted. This phenomenon of cross-protection might be of substantial importance in relation to the design of safe minimal processing regime

Characterization of Bacillus sporothermodurans IC4 spores; putative indicator microorganism for optimisation of thermal processes in food sterilisation

Spore-forming bacteria with high heat resistance increasingly challenge industrial sterilisation processes in foods. To ensure stability of manufactured foods, generally worst case scenarios are applied often leading to unwanted over processing of foods. This means bigger requirements of energy and larger emissions of CO2 into the atmosphere. A heat-resistant spore-forming bacterium, Bacillus sporothermodurans, was tested for its ability to produce consistently highly heat-resistant spore crops to be used to more precisely determine the minimal thermal process that is compatible with microbial stability, thus avoiding the indicated overprocessing. Isothermal survival curves of B. sporothermodurans IC4 spores were determined in distilled water at temperatures up to 125 °C using the capillary tube technique and a thermoresistometer Mastia. B. sporothermodurans consistently produced crops of heat-resistant spores with kmax values at 121 °C up to 0.46 min−1. After consecutive sporulation cycles, the measured heat resistance of B. sporothermodurans was not reduced. Survival curves showed shoulders that were characterized by means of existing models (Geeraerd, Weibull) that were compared with the classical, log-linear one. Shoulders are a common phenomenon in heat-resistant spore-forming bacteria and may be related to the need of more stringent processing conditions. B. sporothermodurans spores were considered adequate to optimize sterilisation processes of low acid foods under a wide variety of conditions. Establishing precise heat treatments can be a way to guarantee food safety and stability while reducing the use of energy and contaminating emissions

Effectiveness of cell-adsorbed bacteriocin produced by Lactobacillus curvatus CWBI-B28 and selected essential oils to control Listeria monocytogenes in pork meat during cold storage.

Aims: To study the effectiveness of a combination of cell-adsorbed bacteriocin (CAB; a suspension of producer cells on which maximum bacteriocin has been immobilized by pH adjustments) of a Lactobacillus curvatus strain with oregano or savory essential oil to control Listeria monocytogenes in pork meat at 4 C

Effects of the essential oil of Lippia gracilis Schauer on caulinary shoots of heliconia cultivated in vitro Efeito do óleo essencial de Lippia gracilis Schauer sobre ápices caulinares de heliconia cultivadas in vitro

The effects of thymol and carvacrol and the essential oil of Lippia gracilis on caulinary shoots of heliconia were evaluated. After disinfection, the shoots were inoculated into MS medium and subjected to the treatments with 420 µL L-1 of essential oil (EO) of L. gracilis; 420 µL L-1 of thymol; 420 µL L-1 of carvacrol; 210 µL L-1 of thymol and 210 µL L-1 of carvacrol. The control treatment consisted of the MS medium without any phytoregulators. The main components of EO from L. gracilis are carvacrol, &#961;-cimene, and thymol. Seven days after the initiation of the experiments, 36.3% of the control treatment shoots were necrotized, but 90% of the caulinary shoots exposed to EO, thymol, or carvacrol appeared necrotized. Transmission electron microscopy of the shoots revealed that the treatment with EO, thymol, or carvacrol caused the destruction of the plasma cell membranes, and the cell organelles and the nucleus were hardly evident. The EO and its main constituent were toxic to caulinary shoots of heliconia.<br>O efeito do timol, carvacrol e óleo essencial de Lippia gracilis foi observado sobre ápices caulinares de heliconia. Após a desinfestação os ápices foram inoculados em meio MS com os tratamentos de 420 µL L-1 do óleo essencial (OE) de L. gracilis; 420 µL L-1 de timol; 420 µL L-1 de carvacrol; 210 µg L-1 de timol e 210 µL L-1 de carvacrol. O tratamento controle consistiu de meio MS sem fitorreguladores. Os principais componentes do OE foram carvacrol, &#961;-cimeno e timol. Sete dias após o início do experimento 36,3% dos ápices submetidos ao tratamento controle e 90% dos ápices caulinares expostos ao EO, timol ou carvacrol necrosaram. A microscopia eletrônica de transmissão dos ápices caulinares revelou que os tratamentos com OE, timol e carvacrol provocaram desestruturação da membrana plasmática das células. As organelas e o núcleo não estavam evidentes. O OE e seus principais constituintes foram tóxico para os ápices caulinares de helicônias