Mechanism of fungal inhibition activity of Nα-lauroyl-L-arginine ethyl ester (LAE) and potential in control of Penicillium expansum on postharvest citrus 'Benimadonna' (Citrus reticulata × Citrus sinensis).

BACKGROUND: Citrus 'Benimadonna' (Citrus reticulata × Citrus sinensis) is a high-value perishable fruit; thus there is an urgent need for a preservation technology with high effectiveness and low safety risk from industries. Nα-Lauroyl-l-arginine ethyl ester hydrochloride (LAE) was applied to enhance preservability by compounding with natamycin, and a possible fungal inhibition mechanism based on the hypothesis of an impact on the cell membrane by surfactant was investigated. RESULTS: In vitro testing showed that the minimum inhibitory concentration of LAE against Penicillium expansum (PE), isolated as the predominant spoilage-inducing fungus, was 32 mg L-1 and it was partially synergistic with natamycin. Subsequent in vivo testing proved the inhibition capacity. During 90 days' refrigerated preservation, spoilage rate was significantly decreased by preharvest spraying versus control without extra taste loss, and LAE showed an alleviating benefit on total pectin loss. Subsequently, electron microscopic imaging and intracellular protein levels of PE exposed to LAE indicated that LAE stress led to increased permeability and decreased cell integrity. Moreover, peroxidase, superoxide dismutase and catalase revealed that LAE enhanced oxidative stress, while pectinase was antagonized. CONCLUSION: The present investigation first introduced LAE as a candidate active ingredient for citrus preservative. A theoretical basis was provided for the development of preservation technology for high-value perishable fruit. According to the authors' knowledge this study is the first report on the inhibition mechanism of LAE in terms of oxidative stress. © 2022 Society of Chemical Industry.

Effects of organic nitrogen components from terrestrial input on the phytoplankton community in Jiaozhou Bay.

Dissolved organic nitrogen (DON) from terrestrial input exacerbates eutrophication and induces harmful algal blooms. We investigated the effects of hydrophilic (Hic) and low molecular weight (LMW) DON on the phytoplankton community in Jiaozhou Bay during autumn (October 2017) and spring (May 2018). Our results showed DON additions significantly increased algal growth while decreasing community biodiversity and provide a competitive advantage for Skeletonema costatum. These situations were further intensified by increasing temperature in autumn. Additionally, Hic DON had a higher bioavailability than LMW DON. Based on emission-excitation matrix spectra, we identified protein-like components as the main components of Hic DON whereas humus-like components were the principal components of LMW. Correlation analysis confirmed a positive correlation between DON bioavailability and protein-like components. Therefore, our results indicate DON from terrestrial input disrupts the structural stability of the phytoplankton community and increases the risk of harmful algal blooms, which in turn threaten coastal ecosystems.

Influences of the hydrophilic components of two anthropogenic dissolved organic nitrogen groups on phytoplankton growth in Jiaozhou Bay, China.

Increasing human activities have caused the accumulation of dissolved organic nitrogen (DON) in the ocean, which can alter dominant coastal phytoplankton species. However, insights into DON's effects on marine phytoplankton growth are insufficient compared with those of dissolved inorganic nitrogen (DIN), especially regarding the role of specific DON components. Therefore, in this study, the effects of the hydrophilic (Hic) and low molecular weight (LMW) components of two anthropogenic DON sources on the growth and bioavailable nitrogen uptake of phytoplankton were studied using in situ cultural experiments conducted in Jiaozhou Bay, China. Animal-derived DON from domestic and livestock breeding showed a higher bioavailability compared with that of vegetal DON derived from agricultural sources, with bioavailable component proportions of 76% ± 4% and 66% ± 3%, respectively. Both forms of DON could be absorbed by Skeletonema costatum, stimulating it to become the dominant species in the mesocosm ecosystem; the hydrophilic components of DON contributed approximately 75% of the uptake of DON by S. costatum. The bioavailability of LMW DON was significantly (p < 0.05) lower than that of the Hic DON. The high bioavailability of the Hic DON was mainly associated with its protein-like T1 and T2 components, identified using parallel factor analysis on the excitation-emission-matrix spectra, while the low bioavailability of LMW DON was mainly associated with the humus-like A component. The protein-like T2 components may be directly absorbed by algae, while T1 may be transformed through mineralization and algal absorption. Understanding the impacts of anthropogenic DON and its components on phytoplankton will help improve coastal environmental management. More knowledge of the effect of anthropogenic DON on the phytoplankton community structure in coastal waters should be accumulated in the future.

Impurities preparation of sodium tanshinone IIA sulfonate by high-speed counter-current chromatography and identification by liquid chromatography/multistage tandem mass spectrometry.

Sodium Tanshinone IIA Sulfonate, the chemical modification product of Tanshinon IIA (STIIAS) is widely used in clinical treatment of angiocardiopathy, and the preparation of reference compounds of related substances for quality control is necessary. A method for separating three related substances from the bulk drug of STIIAS with high-speed counter-current chromatography (HSCCC) was developed. A solvent system composed of chloroform-n-butanol-methanol-water (17:0.3:14:9) was used and 0.5% saturated ammonium acetate aqueous solution was added to depress the emulsification in order to enhance sample loading capacity. Twelve related substances were identified in the bulk drug by HPLC-DAD and liquid chromatography/multistage tandem mass spectrometry (LC-MS(n)). Among them, three compounds were prepared and confirmed with (1)H NMR, one was identified without pretreatment, and seven components were identified after HSCCC enrichment since the contents of them were too low to be detected through direct LC-MS(n) injection. This research successfully broadened the application of HSCCC and introduced it to the field of impurities preparation of chemical medicine.