Biocontrol Science Volume 27, Issue 3

Mechanism of Polyhexamethylene Biguanide Resistance in Purpureocillium lilacinum Strains

Purpureocillium lilacinum has been recently found to contaminate a 20% (200,000 μg/mL) aqueous solution of polyhexamethylene biguanide hydrochloride (PHMB) . We aimed to elucidate the mechanism underlying the resistance of P. lilacinum to PHMB. First, we induced the PHMB-resistant (IR) strains IFM 67050 (IR) and IFM 65838 (IR) from the type strain P. lilacinum CBS 284.36^T via cultivation in a medium containing high concentrations of PHMB. We then analyzed the DNA sequences via Illumina sequencing to evaluate the presence of genetic mutations in IFM 65838 (IR) . Further, we established an IFM 65838 (IR) uridine/uracil auxotrophic strain, and using the orotidine-5'-decarboxylase gene, pyrG as a selection marker, we tried to knockout a mutant gene in IFM 65838 (IR) using the CRISPR-Cas9 genome-editing technique. The growth rates of IFM 67050 (IR) and IFM 65838 (IR) in medium containing PHMB increased, and the minimum inhibitory concentrations (MICs) against PHMB also increased. Based on the DNA sequence analysis, we found a nonsynonymous point mutation in the gene PLI-008146 (G779A) in IFM 67050 (IR) and IFM 65838 (IR) . This point mutation leads to site combinations of splicing changes that cause partial sequences deletion (p.Y251_G281del) in the ΔPLI-008146 locus of IFM 65838 (IR) , and deletion sequences include partial adenosine/AMP deaminase motif (PF00962) orthologous to adenosine deaminase (ADA) (GeneBank: OAQ82383.1) . Furthermore, the mutant gene ΔPLI-008146 was successfully knocked out from the resistanceinduced strain using a novel CRISPR-Cas9 gene transformation method. A considerable reduction in growth rate and MIC against PHMB was observed in the absence of the mutant gene. Therefore, ADA may represent an important resistance factor in PHMB-resistant P. lilacinum.

Effect of High Hydrostatic Pressure Treatment Combined with Alkaline Electrolyzed Water on the Injury and Growth Characteristics of Bacterial Spores

The characteristics of growth and injury of Bacillus subtilis spores whose heat resistance was reduced by the treatment of high hydrostatic pressure processing (HPP) combined with/without alkaline electrolyzed water (AlEW) were investigated. The delay in the lag phase of growth curve observed when used in combination with AlEW, especially at 50 MPa or less, and was prolonged by about 4 to 6 hours. However, the effects of temperature and time during treatment on the lag phase were not significantly different between solo-HPP and in combination with AlEW. The injury characteristics of the treated bacterial spores were evaluated by using antibiotics (penicillin G, rifampicin and chloramphenicol) supplemented trypticase soy broth. In the chloramphenicol supplemented TSB, although the lag phase of bacterial spores treated by HPP with AlEW was not prolonged as compared with the normal-TSB, the decrease in growth rate during logarithmic phase and increase in maximum growth amount were observed. This result could suggest due to a damage by combined treatment of HPP with AlEW such as the inhibition of protein synthesis. Furthermore, the combined treatment with AlEW increased the catalase activity by 1.45, 1.63 and 4.25 times at 30, 80 and 100 MPa, respectively, as compared with solo-HPP, therefore the combined treatment could cause high oxidative stress on bacterial spores.

The Study of Diversity in Sporulation among Closely Genetically Related Bacillus cereus Strains

Bacillus cereus is an important foodborne pathogenic bacterium. Although several B. cereus strains have been isolated from the environment, the differences among these strains with respect to spore formation ability and cell morphology need clarification. In this study, a phylogenetic tree was constructed based on the 16S rRNA gene sequences of nine strains of B. cereus. Spore formation and morphology of these nine strains were compared using both phase-contrast and fluorescence microscopy to create an index of the designated sporulation stages. Additionally, to investigate the efficiency of heat-resistant spore formation. Phylogenetic analysis revealed that five strains (ATCC 14579^T, NBRC 3457, NBRC 3514, NBRC 3836, and NBRC 13597) clustered together and the remaining four (ATCC 10987, NBRC 3003, NBRC 13494, and NBRC 13690) were genetically distinct from each other. Phase-contrast microscopy revealed significant differences in the sporulation stages among the nine strains. Furthermore, the efficiency of heat-resistant spore formation also differed, even among genetically related strains. In conclusion, a variety of cell morphologies during sporulation were observed among the nine B. cereus strains. We propose a designation of sporulation stages in B. cereus ATCC 14579^T, which may be used as an index for evaluating the sporulation progress of B. cereus.

Effect of the Cleanliness of Spray Nozzle on the Concentration of Microorganisms in the Spray Water in Warm-Water Bidet Toilet Seats

Bidet-toilets are widely used in households and public spaces in Japan. The effect of nozzle cleanliness on spray water quality of warm-water bidet toilet seats is unknown. We conducted a long-term experimental model-based study (2015–2016) and two survey-based studies (A: 2018–2019 and B: 2020–2021) at a university campus. Survey A measured the effect of nozzle cleansing on total viable count (TVC) and heterotrophic plate counts (HPCs) in spray water. Survey B measured the total organic carbon, residual chlorine concentration, TVC, and HPC of different fractions of sprayed water. We found no upstream migration of microbes from the nozzle to water tanks. While daily cleaning of the nozzle surface could reduce bacterial count in spray water, continuous discharge of water washed away bacterial contamination. Fecal indicator bacteria were in traces in spray water, indicating proper maintenance of these toilet seats.

Effect of Low-temperature Stock on the Growth of Bacteria

It is necessary to know the appropriate bacterial culture temperature and stock temperature to carry out high-precision preservative efficacy tests. In this study, we investigated whether the temperature conditions within the culture or stock affect the survivability or growth activity of Escherichia coli, Staphylococcus aureus, and Pseudomonas aeruginosa. We found that the cold stocking condition affected the survivability of P. aeruginosa, but not that of E. coli and S. aureus. Furthermore, stocking temperature affects the growth activity of E. coli, P. aeruginosa and S. aureus, and the effect on P. aeruginosa was greater than that on the others. However, the attenuating effect on P. aeruginosa was reversed by culturing into fresh medium for up to six weeks after stocking. These results suggest that cold stress during stocking may affect the growth activity of P. aeruginosa. The results of this study should provide knowledge for the precise evaluation of preservative efficacy in cosmetics.

Theoretical Base for the Application of the DiVSaL Method to Bacterial Spores to Evaluate Injured Populations Occurring After Exposure to Lethal Stress

To assess injury in bacterial spore populations exposed to lethal stress, we proposed a theoretical basis for applying the DiVSaL method, which has already been reported for general microorganisms as a double subculture method. We constructed a mathematical model in which both injuries to the germination system and the spore body were taken into the theory. In this theory, we reasonably assumed that the viable and germinable spore count is constant before the subsequent vegetative growth and that the delay of germination and outgrowth can be included in the concept of λ injury previously reported as the growth-independent injury. By introducing these assumptions, the double subculture method can be considered to apply to spores as well. As examples of the application of this theory, the growth delays of Bacillus subtilis spores treated with heat and UV irradiation were analyzed and the numbers of injured spores were evaluated. Based on the results obtained, heat is indicated to have a higher injury generation ability than UV irradiation. The applicability of the DiVSaL method as a tool for food preservation and sanitation designs is presented.

Evaluation of Bactericidal Effects of H₂- and O₃-filled Ultrafine Bubbles Water

Ultrafine bubbles (UFBs) are gaining attention in diverse industries as a new type of material with specific physical properties. Bactericidal activity has been reported as one of the unique properties of UFB water; however, the bactericidal activities of UFBs related to the gas type remain unclear. In particular, the bactericidal effect of hydrogen (H₂) -filled UFB water has not been verified. Therefore, this study aimed to evaluate the bactericidal effects of H₂- or ozone (O₃) -filled UFB water using a bacterial suspension test. The results of this study clearly showed that H₂- or O₃-filled UFB water had strong bactericidal activity. Exposure of Escherichia coli for 6 h and Staphylococcus aureus for 3 h reduced the survival rate of those bacteria by >90%. This finding suggests that both O₃ gas- and H₂-filled UFBs are novel environmentally friendly disinfectants that can be employed to avoid the use of chemicals.

Examination of Conditions for External Quality Control in Identification of Microorganisms using Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometry

Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) was approved for medical use in 2011 and is currently used as a rapid, accurate and lowcost technique for bacterial identification. External quality control for medical analysis is monitored using tests of the Japanese Association of Medical Technologists and Prefectural Association of Clinical Laboratory Technologists and through user surveys of reagent and equipment manufacturers. However, external quality control of bacterial typing using MS is not performed. Therefore, we examined procedures for evaluating quality control of bacterial typing using an identification reliability index at 38 facilities.