The remote bactericidal effect of TiO2 photocatalyst, i.e., the bactericidal effect away from the photocatalyst, was successfully achieved using a humidified airflow. The TiO2 photocatalyst used was anatase-type TiO2 nanoparticles (NPs) annealed with a low-temperature O2 plasma. For comparison, anatase-type TiO2 NPs annealed in the air were used. The bacteria, Bacillus subtilis, were placed away from the TiO2 NPs. The plasma-assisted-annealed TiO2 NPs significantly inactivated 99% of the bacterial cells in 5 h, whereas the pristine and air-annealed TiO2 NPs inactivated 88-90% of the bacterial cells. The remote bactericidal effect of plasmaassisted-annealed TiO2 NPs would be attributed to a larger amount of H2O2 molecules traveled by the airflow from the TiO2 NPs. The molecules were generated by chemically reacting more photoexcited carriers on the TiO2 surface with H2O and O2 in the airflow. These photoexcited carriers originated from more oxygen-based species adsorbed and more oxygen vacancies introduced on the TiO2 surface by the plasma-assisted-annealing.

The genus Fusarium causes a wide range of infections in human, animals and herbs. The purpose of this research was to investigate and identify the native strains of Bacillus subtilis playing an inhibitory role against Fusarium oxysporum by producing surfactin. B. subtilis was isolated from the soil of various parks in Tehran-Iran, and identified by biochemical tests. Growth inhibition zone, minimum inhibitory concentration (MIC) and minimum fungicidal concentration (MFC) of B. subtilis were determined. After purification of surfactin, quantitative and qualitative analysis of surfactin conducted using high performance liquid chromatography (HPLC) . Finally, two selected native strains with the highest production rate of surfactin identified using PCR for 16S rRNA and phylogenetic tree was drawn. Sixty strains of B. subtilis were isolated from soil, after identification through phenotypical and biochemical tests, the antagonistic activity of 27 different strains against F. oxysporum by Agar well diffusion assay determined and the highest inhibition zone was 13.66 mm. Six strains showing the best inhibitory effect, were isolated and their metabolite were purified by methanol. MIC and MFC values of different strains were in the range of 0.5-1.6 and 1.6-2.6 mg/mL. Using HPLC, the purified surfactin content in B. subtilis was about 56.7 - 131.9 μg/mL. Based on the curves of the chromatogram, the preferred strains with the highest production of surfactin, by molecular identification, displayed high similarity to B. subtilis. We got a maximum amount of yellow and transparent surfactin from native strains. Furthermore, the selected bacteria can be good candidates for biological control of fungal pathogens.

SARS-CoV-2, an acute respiratory syndrome-causing virus, suddenly emerged at the end of 2019 in China, and rapidly spread all over the world. In this study, we examined whether a calcinated calcium solution (ShellCoat) , which has been approved as a food additive in Japan can inactivate SARS-CoV-2. Furthermore, antiviral activity of ShellCoat against SARS-CoV-2 was also evaluated in the presence of organic matter, namely, fetal bovine serum (FBS) . When concentrated SARS-CoV-2 were treated with ShellCoat for 10 sec in presence or absence of FBS as organic matters, the viral titer was decreased more than 4 logs 50% tissue culture infective dose per mL (TCID50/mL) but use of ShellCoat for 20 sec or more under similar experimental conditions the viral titer was below the detection limit (≦2.1 logs TCID50/mL) . These results clearly indicate that the ShellCoat is a powerful antiviral agent against SARS-CoV-2 even in the presence of organic matters.

The recent emergence of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is a major burden for health care systems worldwide, and is a threat to our daily lives. Various effective ingredients against SARS-CoV-2 were already reported, however, since products contain various ingredients, it is also important to evaluate the effectiveness of commercially available disinfectants per se. In this study, the virucidal efficacy of forty-eight commercially available products were evaluated according to the standardized suspension method EN 14476 and the following results were obtained: Alcohol-based disinfectants, hand soaps, wet wipes, alkaline cleaners, quaternary ammonium compound sanitizers and oxygen bleach had great virucidal efficacy against SARS-CoV-2. Enveloped viruses such as SARS-CoV-2 are among the most susceptible of pathogens to formulated microbicidal actives and detergents, but as the results of this study showed, it is also necessary to pay attention to the concentration at the time of use and the required contact time.

A kind of citrus fruit with special flavor, Citrus sudachi harvested in Japan, are exported to various countries. However, the Citrus sudachi needs to be sterilized using aqueous solution of sodium hypochlorite because there is a possibility of the adhesion of citrus bacterial canker (CBC) which is not found in Europe. Due to the sterilization with time-consuming work, a more effective decontamination technique is required. A decontamination method using ultraviolet (UV) light irradiation is thus anticipated. Especially, the use of light emitting diodes (LEDs) wi UV light has many advantages in terms of energy consumption, lifetime, and compactness； although an appropriate method is yet to be established. In this study, we evaluate the fundamental effectiveness of UV-LED decontamination on the basis of the bactericidal ability on CBC in petri dishes, using six kinds of UV-LEDs (265, 280, 285, 300, 310, and 365 nm) . For each irradiation, the resultant bactericidal abilities (BAs) were evaluated precisely taking into account the differences in their optical absorptions. In addition, BAs per unit photon number were also estimated, as a fundamental wavelength-dependence of BA. As a result, the effectiveness of UV-LED irradiation with relatively short wavelengths was demonstrated clearly.

A specific DMPO-OH adduct signal (1:2:2:1)related to hydroxyl radical generation in a longterm stored improved iodide formulation, tentatively designated as the distilled KMT reagent which prepared from a pH 0.3 solution containing FeCl3, EDTA, KI and ethanol termed the KMT reagent, was detected by electron spin resonance (ESR) spectroscopy.Although the color intensities of N,N,N,N-tetramethyl-p-phenylenediamine (TMPD) and N,N-diethyl-p-phenylenediamine (DPD) differ, the mixture of the long-term stored distilled KMT reagent and TMPD exhibited a purple color similar to Wurster's blue, and the mixture of the long-term stored distilled KMT reagent and DPD exhibited a pink color similar to Wurster's red. There is a possibility that the long-term stored distilled KMT reagent may possess with the ability to generate a hydroxyl radical.

The mechanism of thermal death of mold conidia has not been understood in detail. The purpose of this study is to analyze the death kinetics of heated conidia of Cladosporium sphaerospermum and to ascertain the expectant cell injury responsible for the death. The death of the dormant (resting) conidia of Cladosporium sphaerospermum was examined at temperatures of between 43 and 54℃ with the conventional colony count method. The death reaction apparently followed the first order kinetics, but the Arrhenius plot of the death rate constant demonstrated seemingly a break. The linearity at temperatures higher than that at the break was lost at lower temperatures, suggesting the involvement of an unusual mechanism in the latter temperatures. In the cell morphology, we observed with quinacrine staining the vacuole rupture at a lower temperature but not at a high temperature. Interestingly, the vacuole rupture by low-temperature heating was found to correlate with the viability loss. Furthermore, active protease originally locating in vacuoles was detected in the cytoplasm of the conidia after heated at a low temperature. The results obtained suggest the involvement of potent autophagic cell death induced by low temperature heating of C. sphaerospermum conidia.

Legionella pneumophila (L. pneumophila) is responsible for most Legionnaire's disease cases diagnosed worldwide. The species includes 16 serogroups, but most Legionnaire's disease cases (85.7% in Europe, 87.0% in Japan) are caused by L. pneumophila serogroup 1. Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) can be used to identify the L. pneumophila serogroup. In this study, we compared three sample preparation methods that are compatible with MALDI-TOF MS: the direct colony transfer method (DCTM), on-target extraction method (OTEM), and in-tube extraction method (ITEM). The aim was to improve the low identification rates for L. pneumophila, and establish and validate a simple, rapid and robust MALDI-TOF MS-based method for routine use in microbiological laboratories for assignment of L. pneumophila isolates to serogroups and identification of reliable peak biomarkers. Using ITEM, 100.0% (29/29) of hot spring water samples and clinical isolates were correctly identified at the species level. Augmented reference spectra correctly identified all 29 strains at the species level and 29 isolates at the serogroup level, displaying sensitivity, specificity and accuracy of 100.0% for serogroup assignment. MALDI-TOF MS is a relatively inexpensive method for assignment of L. pneumophila serogroups that can serve as a first-line tool for rapid prospective typing.

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.

Eighty-seven strains of Aspergillus section Restricti were isolated from five storage rooms (50 strains) and 21 houses (37 strains) between 2014 and 2020. Eleven species were identified based on their morphological characteristics and molecular phylogeny using the rRNA internal transcribed spacer (ITS) region, calmodulin (CaM), β-tubulin (benA), and RNA polymerase II second largest subunit (RPB2) sequences. A. penicillioides, which was known to cause the deterioration of cultural assets, was isolated at high frequency (73%) from the surfaces of 11 cultural assets in the storage rooms; A. clavatophorus and A. magnivesiculatus, which are closely related to A. penicillioides, were also isolated frequently (45 and 64%, respectively). Five species [A. clavatophorus (42.8%), A. penicillioides (42.8%), A. magnivesiculatus (14.3%), A. reticulatus (28.6%), and A. vitricola (28.6%)] were isolated from dust on the carpets in seven houses. Five species [A. clavatophorus (33.3%), A. penicillioides (55.5%), A. magnivesiculatus (44.4%), A. restrictus (44.4%), and A. gracilis (11.1%)] were isolated from dust on the bedding in nine houses. Using the taxonomic system described by Sklenář et al. (2017), five species (A. clavatophorus, A. magnivesiculatus, A. hordei, A. reticulatus, and A. glabripes) previously identified as A. penicillioides were confirmed as new to Japan.