High pressure homogenization with a cooling circulating system: The effect on physiochemical and rheological properties, enzymes, and carotenoid profile of carrot juice.

The influence of high pressure homogenization (HPH) at 100-150 MPa performed by multiple passes below 35 °C on carrot juice quality and stability was studied. The highest reduction in microorganisms (by 2.47 log) was noted at 150 MPa with 5 passes of the juice through the homogenizer. The PPO and POD's residual activity increased after HPH; PG was at the same level, while PME activity increased or decreased depending on the process parameters used. HPH treatment resulted in a decrease in the apparent dynamic viscosity, turbidity and colour parameters. Five passes at 150 MPa caused an increase in the carotenoid content, especially 9-Z-ß-carotene (by 154%) while the TPC did not change significantly. Carrot juice treatment at 150 MPa with 5 passes may extend its shelf-life by 3 days when stored at 4 °C.

Isolation and identification of guaiacol producing Alicyclobacillus fastidiosus strains from orchards in Poland.

The genus Alicyclobacillus comprises a group of Gram-positive, thermo-acidophilic bacteria that are capable of producing highly resistant endospores during unfavorable environmental conditions. The members of this genus inhabit natural environments, including hot springs and soils. The main reason behind the spoilage of final commercial fruit products by Alicyclobacillus is the contamination of fruits with soil at the time of harvesting. Some of the Alicyclobacillus species, including Alicyclobacillus acidoterrestris, are categorized as spoilage bacteria due to their ability to produce off-flavor compounds (e.g., guaiacol and halophenols) that adversely affect the taste and aroma of beverages. In our study, Alicyclobacillus species were isolated from Polish orchard soils and fruits and were subjected to 16S rDNA sequencing. The results of the analysis showed that the isolated strains belonged to A. acidoterrestris and Alicyclobacillus fastidiosus species. All the three isolated strains of A. fastidiosus (f1, f2, f3) exhibited similar morphological and biochemical properties as the strain described in the literature. However, these isolated strains were able to produce guaiacol at temperatures of 20°C, 25°C, and 45°C. Thus, the strains of A. fastidiosus discovered in the present study can be included in the group of spoilage species as they possessed the gene responsible for the production of guaiacol.

Photosensitizing Furocoumarins: Content in Plant Matrices and Kinetics of Supercritical Carbon Dioxide Extraction.

Furocoumarins are a group of plant phytoalexins exhibiting various bioactive properties; the most important of which are photosensitization and alteration of P450 cytochrome activity. Supercritical fluid extraction with carbon dioxide has been proposed as a green alternative for an organic solvent extraction of the furocoumarins. Four plant matrices rich in furocoumarins were extracted with CO2 at a temperature of 80 °C and pressure of 40 MPa, as these conditions were characterized by the highest solubility of furocoumarins. The extracts collected were analyzed using the HPLC method and the results obtained were used for the mathematical modeling of the observed phenomena. The total content of the furocoumarins in the matrices was 4.03-26.45 mg g-1 of dry weight. The impact of the process parameters on the solubility was consistent with the Chrastil equation. The broken plus intact cell model proved to be suitable to describe extraction curves obtained. The research proved the possibility of supercritical carbon dioxide utilization for the extraction of the furocoumarins from plant material and provided valuable data for prospective industrial-scale experiments.

Bacteriophages-a new hope or a huge problem in the food industry.

Bacteriophages are viruses that are ubiquitous in nature and infect only bacterial cells. These organisms are characterized by high specificity, an important feature that enables their use in the food industry. Phages are applied in three sectors in the food industry: primary production, biosanitization, and biopreservation. In biosanitization, phages or the enzymes that they produce are mainly used to prevent the formation of biofilms on the surface of equipment used in the production facilities. In the case of biopreservation, phages are used to extend the shelf life of products by combating pathogenic bacteria that spoil the food. Although phages are beneficial in controlling the food quality, they also have negative effects. For instance, the natural ability of phages that are specific to lactic acid bacteria to destroy the starter cultures in dairy production incurs huge financial losses to the dairy industry. In this paper, we discuss how bacteriophages can be either an effective weapon in the fight against bacteria or a bane negatively affecting the quality of food products depending on the type of industry they are used.