Your search keyword '"Qiu, Zhengying"' showing total 2 results

1. Antibacterial Activity of Cinnamomum camphora Essential Oil on Escherichia coli During Planktonic Growth and Biofilm Formation

Author

Li Jianxi, Jie Li, Wang Guibo, Jingyan Zhang, Lei Wang, Qiu Zhengying, Kai Zhang, Fu Jingjing, Wang Xuezhi, and Zhang Kang

Subjects

Microbiology (medical), lcsh:QR1-502, Cinnamomum camphora, Virulence, planktonic growth, medicine.disease_cause, Microbiology, biofilm, lcsh:Microbiology, law.invention, 03 medical and health sciences, Minimum inhibitory concentration, law, Escherichia coli, medicine, Cinnamomum camphora essential oil, Essential oil, 030304 developmental biology, 0303 health sciences, Minimum bactericidal concentration, biology, 030306 microbiology, Chemistry, Biofilm, biochemical phenomena, metabolism, and nutrition, bactericidal effect, biology.organism_classification, Antibacterial activity

Abstract

Bacterial biofilms are believed to be principal virulence factors for many localized chronic infectious diseases. Escherichia coli is one of the most common microbial pathogens and frequently causes biofilm-associated opportunistic infections, such as diarrhea, endometritis and mastitis. Cinnamomum camphora essential oil (CCEO) has shown potential in treating intractable chronic endometritis in dairy cows. There is little scientific evidence regarding the effect of CCEO on bacterial biofilms. The objective of this study was to investigate the effect of CCEO on E. coli biofilm formation and how CCEO affects E. coli in suspension and in a biofilm. CCEO killed all clinical E. coli strains in either planktonic or biofilm state isolated from dairy cows with clinical endometritis. The minimum inhibitory concentration (MIC) for 90% of the organisms was 4.297 μL/mL, the minimum bactericidal concentration for 90% of the organisms was 6.378 μL/mL, the minimum biofilm inhibitory concentration for 90% of the organisms was 6.850 μL/mL, and the minimum biofilm eradication concentration (MBEC) for 90% of the organisms was 8.467 μL/mL. The MBECs were generally two times higher than the MICs. Flow cytometry analysis confirmed that significant bacterial killing occurred during the first 1 h after exposure to subinhibitory concentrations of CCEO. In addition, CCEO exerted a significant inhibitory effect on E. coli biofilm formation, and bacterial killing occurred during the first 30 min of exposure to subinhibitory biofilm concentrations of CCEO. The biofilm yield of E. coli was significantly reduced after CCEO treatment, along with an increased dead/live microbial ratio in biofilms compared with that in the non-treated control, as confirmed by scanning electron microscopy images and confocal laser scanning microscopy images. These data revealed that CCEO efficiently kills E. coli during planktonic growth and biofilm formation.

Published

2020

2. The safety and potential probiotic properties analysis of Streptococcus alactolyticus strain FGM isolated from the chicken cecum

Author

Cong Yue, Yong Zhang, Li Jianxi, Jingyan Zhang, Xingxu Zhao, Zhang Kai, Zhang Kang, Lei Wang, Zhang Hong, and Qiu Zhengying

Subjects

Lactobacillus casei, biology, Strain (chemistry), Biological adhesion, biology.organism_classification, medicine.disease_cause, Applied Microbiology and Biotechnology, Lactobacillus reuteri, Microbiology, law.invention, Probiotic, Lactobacillus acidophilus, Streptococcus alactolyticus, law, medicine, Escherichia coli

Abstract

Purpose Streptococcus alactolyticus strain FGM is used to ferment Astragalus membranaceus to develop a novel feed additive for animals in China. This study aimed at characterizing the safety and potential probiotic features of the strain FGM in vitro. Methods The genome of S. alactolyticus strain FGM was sequenced and used for genomic in silico studies. It was evaluated for morphology, antibiotic susceptibility, hemolytic activity, acid tolerance, bile salt tolerance, adherence ability to Caco-2, and inhibitory pathogens activity. Result The GC content of the strain FGM was 40.38% and composed of 29 contigs. The annotation of coding genes revealed important characteristics of the germs, especially 151 genes annotated to biological adhesion. The strain FGM forecasted 43 amino acid sequences to be VF, but did not have a hemolytic gene, and neither did it show hemolytic activity in phenotypic analysis. Although 30 amino acid sequences were predicted to aid in resisting some antibiotics, the strain FGM just showed the resistance to trimoxazole and oxytetracycline, and intermediate resistance to kanamycin. FGM cells were showed the tolerance to pH 2 broth within 4 h, and 0.15~0.30% bile salt medium with the latter being attributed to the presence of bile-salt hydrolase. The strain FGM was shown to have the ability to adhere to Caco-2 cells and the adherence rate of 1.0 × 109 CFU/mL bacterial suspensions was 37.51%. Compared with Lactobacillus acidophilus, Lactobacillus reuteri, and Lactobacillus casei, the strain FGM showed a high capability to inhibit the diffusion of Escherichia coli O78 and reduce its adhesion on Caco-2 cells. Conclusion The results demonstrated the presence of probiotic potential and absence of adverse effects for the Streptococcus alactolyticus strain FGM in vitro, thus contributing to develop a safety and effective fermentation feed for animals.