Rapid screening of the novel bioactive peptides with notable α-glucosidase inhibitory activity by UF-LC-MS/MS combined with three-AI-tool from black beans.

This work aimed to propose a rapid method to screen the bioactive peptides with anti-α-glucosidase activity instead of traditional multiple laborious purification and identification procedures. 242 peptides binding to α-glycosidase were quickly screened and identified by bio-affinity ultrafiltration combined with LC-MS/MS from the double enzymatic hydrolysate of black beans. Top three peptides with notable anti-α-glucosidase activity, NNNPFKF, RADLPGVK and FLKEAFGV were further rapidly screened and ranked by the three artificial intelligence tools (three-AI-tool) BIOPEP database, PeptideRanker and molecular docking from the 242 peptides. Their IC50 values were in order as 4.20 ± 0.11 mg/mL, 2.83 ± 0.03 mg/mL, 1.32 ± 0.09 mg/mL, which was opposite to AI ranking, for the hydrophobicity index of the peptides was not included in the screening criteria. According to the kinetics, FT-IR, CD and ITC analyses, the binding of the three peptides to α-glucosidase is a spontaneous and irreversible endothermic reaction that results from hydrogen bonds and hydrophobic interactions, which mainly changes the α-helix structure of α-glucosidase. The peptide-activity can be evaluated vividly by AFM in vitro. In vivo, the screened FLKEAFGV and RADLPGVK can lower blood sugar levels as effectively as acarbose, they are expected to be an alternative to synthetic drugs for the treatment of Type 2 diabetes.

Teratogenicity of 30 nm Aluminum Oxide Nanoparticles (Al2O3NPs) in Rats by Gavage.

Aluminum oxide nanoparticles (Al2O3NPs) are one class of widely used nanomaterials. However, the teratogenicity toxicity of Al2O3NPs in mammal remains poorly understood. This study was aimed to evaluate the teratogenicity of Al2O3NPs in Sprague Dawley (SD) rats by gavage and to compare the effects of Al2O3NPs to those of equivalent dose of microscale aluminum oxide (bulk Al2O3). Sixty pregnant rats were randomly divided into 5 groups and treated with 100 and 200 mg/kg body weight (bw) Al2O3NPs (30 nm), 200 mg/kg bulk Al2O3, deionized water (as the negative control), and 300 mg/kg aspirin (as the positive control). Rats were exposed daily by oral gavage from the 7th day of gestation for 10 consecutive days and sacrificed on the 20th day of gestation. Results of the study showed that there were no significant effects of Al2O3NPs on pregnant rats (clinical signs, body weight, food consumption, ovary and uterus weight, number of corpora lutea) and fetuses (body weight, sex, body length, tail length, skeletal and visceral development). Under the experimental conditions of the present study, 10 consecutive days of repeated oral administration of Al2O3NPs at doses of up to 200 mg/kg/day did not induce any treatment-related teratogenicity in SD rats. Accordingly, the NOAEL was determined to be 200 mg/kg Al2O3NPs (106 mg Al/kg bw/day) in rats. The teratogenic effects of Al2O3NPs in rats were comparable to those of the bulk Al2O3 of same doses (200 mg/kg).

Biocontrol mechanism of Myxococcus xanthus B25-I-1 against Phytophthora infestans.

Phytophthora infestans is the pathogen causing potato late blight, one of the most serious diseases of potato. Myxobacteria have become a valuable biological control resource due to their preponderant abilities to produce various secondary metabolites with novel structure and remarkable biological activity. In this study, Myxococcus xanthus strain B25-I-1, which exhibited strong antagonistic activity against P. infestans, was isolated from soil sample and identified by 16S rRNA sequence analysis. The strain exhibited antagonistic activity against several species of fungus and bacteria. Analysis of the biocontrol mechanism showed that the active extract produced by strain B25-I-1 had strong inhibitory effects on mycelium and the asexual and sexual reproductive structures of P. infestans. Furthermore, these active extract decreased the content of soluble proteins and activity of the protective enzymes (PPO, POD, PAL, and SOD), increased the oxidative damage and the permeability of the cell membrane in P. infestans. All of these mechanisms might be the biocontrol mechanism of B25-I-1 against P. infestans. The active extract of strain B25-I-1 was separated by TLC and HPLC, and the components with antibiotic activity were detected by HPLC-MS. It was found that the antagonistic components of B25-I-1 contained methyl (2R)-2-azido-3-hydroxyl-2-methylpropanoate and N-(3-Amino-2-hydroxypropyl)-N-methylsulfuric diamide. The active extract significantly inhibited the infection on detached potato leaves by P. infestans, and these substances did not cause damage to the potato leaves. In conclusion, M. xanthus B25-I-1 produced active extract against P. infestans and might potentially be a candidate to develop into biological pesticides for the control of potato late blight. This study adds to the literature on the isolation and identification of active extracts from myxobacteria, and B25-I-1 in particular, for cures or treatments to potato late blight.

Simple and inexpensive long-term preservation methods for Phytophthora infestans.

Phytophthora infestans is one of the most notorious pathogen among Phytophthora species causing potato late blight disease. Stable and long-term preservation of this pathogen is essential for biological research and fungicide screening. The aim of this study was to find a suitable long-term preservation method for P. infestans. We adjusted the storage temperature, made a slight modification to the rye seed method, and compared the influence of four preservation methods (the mineral oil method, the sterile water method, the rye seed method, and the modified rye seed method) on survival, growth and virulence of four isolates of P. infestans. The results showed that all four methods maintained high viability of the tested P. infestans isolates, but the two rye seed methods were the best ways to maintain 100% viability of the P. infestans isolates without contamination. The four preservation methods did not significantly influence growth or morphological characteristics of the P. infestans isolates. The impacts of the four methods on the virulence of the four P. infestans isolates were isolate-specific. For isolates YF3 and 64093, all four methods were suitable for maintaining their virulence. Whilst for isolate HQK8-3, the rye seed and sterile water methods were more suitable to maintain its virulence than the other two methods. For isolate 32835, storage under mineral oil was the best method for maintaining its virulence. In view of these results, it is recommended P. infestans should be stored by several different storage methods to ensure the safety and stability of the isolates.

Establishment of the straightforward electro-transformation system for Phytophthora infestans and its comparison with the improved PEG/CaCl2 transformation.

Phytophthora infestans is the most devastating pathogen of potato. For the biology study of P. infestans at the molecular level, one of the difficulties is the technique for the genetic transformation. In this study, the straightforward electro-transformation system was established for P. infestans with a green fluorescent protein expression vector and compared with the improved PEG/CaCl2 mediated protoplast transformation system. The results showed that the straightforward electro-transformation could work in P. infestans and 32 positive transformants were obtained per about 1.10×10(6) zoospores. The transformants per µg of vector DNA were 1.08. The transformation efficiency of the straightforward electro-transformation was approximately 2 times higher than that of the improved PEG/CaCl2 mediated protoplast transformation (17 positive transformants per about 1.05×10(6) protoplasts, 0.58 transformants per µg of vector DNA) according to the reported procedures. Furthermore, compared with the improved PEG/CaCl2 transformation, the straightforward electroporation is simpler and requires less starting materials and operating time from collecting material to obtaining the resistant transformants. Our work will lay a foundation for the biology study of P. infestans in the future.