Your search keyword '"Jiao, Xiaoyang"' showing total 4 results

1. Exploring antibiotic resistance genes, mobile gene elements, and virulence gene factors in an urban freshwater samples using metagenomic analysis.

Author

Noman, Sohail M., Shafiq, Muhammad, Bibi, Shabana, Mittal, Bharti, Yuan, Yumeng, Zeng, Mi, Li, Xin, Olawale, Oluwaseyi Abraham, Jiao, Xiaoyang, and Irshad, Muhammad

Subjects

METAGENOMICS, DRUG resistance in bacteria, MOBILE genetic elements, POLLUTANTS, FRESH water, BACTERIAL contamination

Abstract

Antibiotic resistance genes (ARGs) and antimicrobial resistance elements (AMR) are novel environmental contaminants that pose a significant risk to human health globally. Freshwater contains a variety of microorganisms that might affect human health; its quality must be assessed before use. However, the dynamics of mobile genetic elements (MGEs) and ARG propagation in freshwater have rarely been studied in Singapore. Therefore, this study used metagenomics to compare diversity, virulence factor composition, and ARG and MGE co-occurrence with bacterial communities in paired (n = 8) environmental freshwater samples. KneadData, FMAP, and Kraken2 were used for bioinformatics analysis and R (v4.1.1) for statistical analysis. Sequence reads with a total of 9043 species were taxonomically classified into 66 phyla, 130 classes, 261 orders, 584 families, and 2477 genera. Proteobacteria, Bacteroidetes, Actinobacteria, and Firmicutes were found the Phyla in all samples. Analysis of QIIME output by PICRUSt and ß-diversity showed unique clusters and functional microbial community structures. A total of 2961 ARGs were found that conferred resistance to multidrug, aminoglycosides, tetracyclines, elfamycins, and more. The classified ARG mechanism revealed significant distribution of virulence factors in bacterial cells. Transposes and transposon were highly correlated to ARG gene transfer. Co-occurrence network analysis showed several MGEs appear to use the same ARGs (intI and rho) and were dominant in all samples. Furthermore, ARGs are also highly correlated with bacteria like Campylobacter and Escherichia. This study enhances the understanding of antibiotic risk assessment and provides a new perspective on bacterial assembly contamination and the functional prevalence of ARGs and MGEs with antibiotic resistance bacteria. Moreover, it raises public awareness because these contaminants put people's lives at risk of acquiring bacterial infections. In addition, it can also help propose hybrid water treatment approaches. [ABSTRACT FROM AUTHOR]

Published

2023

2. Establishing and evaluating an auto-verification system of thalassemia gene detection results.

Author

Lin, Xiaozhe, Cheng, Bizhen, Cai, Yingmu, Jiao, Xiaoyang, Yang, Xinran, Zhang, Qiaoxin, and Wang, Yongni

Subjects

RECEIVER operating characteristic curves, ERROR rates, THALASSEMIA diagnosis, ALGORITHMS, GENE expression, HEMOGLOBINS, GENETIC mutation, QUALITY control, THALASSEMIA, GENETIC testing, GENOTYPES

Abstract

The manual verification of gene tests is time-consuming and error prone. In this study, we try to explore a high-efficiency, clinically useful auto-verification system for gene detection of thalassemia. A series of verification elements were rooted in the auto-verification system. Consistency check was applied initially as one of the essential elements in our study. One hundred twenty-four archived cases were used to choose the consistency-check rules' indices from routine blood examination and hemoglobin electrophoresis by the receiver operating characteristic curves. Rule 1 and rule 2 established by the chosen indices were compared by their passing rate, consistency with manual validation, and error rate. Finally, 748 cases were used for verifying the system's feasibility by evaluating the passing rate, turn-around time (TAT), and error rate. The rule 2 had a higher passing rate (67.7% vs. 50.8%) and consistency (0.623 vs. 0.364) than the rule 1 with an error rate of zero. In a "live" valuation, the auto-verification system can reduce the TAT and error rate of verification by 51.5% and 0.13%, respectively, with a high passing rate of 82.8%. The auto-verification system for gene detection of thalassemia in this study can shorten the validation time, reduce errors, and enhance efficiency. [ABSTRACT FROM AUTHOR]

Published

2019

3. Theoretical research and experimental study for a new measurement method of standing wave levitation force.

Author

Li, Xinbo, Jiang, Hai, Jiao, Xiaoyang, Zhang, Kai, Liu, Guojun, and Liu, Jianfang

Subjects

STANDING waves, ACOUSTIC levitation, PIEZOELECTRIC transducers, TACTILE sensors, EQUILIBRIUM

Abstract

Based on the lever principle, a novel measurement method for the standing wave levitation force is investigated and the measurement device is developed. The relative levitation force was simulated by MATLAB software, from which the relative levitation force distribution and the curves of relative levitation force in vertical and horizontal directions were obtained. To verify the rationale of the measurement method, a series of experiments were carried out with the designed measurement device system. The levitation force distribution and the curves of levitation force in vertical and horizontal directions were also obtained from the experiment. Comparing the experimental results with the simulation, the levitation force distribution situation from the experimental results and the simulation is identical. [ABSTRACT FROM AUTHOR]

Published

2015

4. An improved resonantly driven piezoelectric gas pump.

Author

Wu, Yue, Liu, Yong, Liu, Jianfang, Wang, Long, Jiao, Xiaoyang, and Yang, Zhigang

Subjects

PIEZOELECTRIC motors, BIMORPHS, PUMPING machinery, VIBRATION (Mechanics), SPRINGS (Mechanisms)

Abstract

Piezoelectric pumps have the potential to be used in a variety of applications, such as in air circulation and compression. However, piezoelectric membrane pumps do not have enough driving capacity, and the heat induced during the direct contact between the driving part and the gas medium cannot be dissipated smoothly. When the gas is blocked, the piezoelectric vibrator generates heat quickly, which may eventually lead to damage. Resonantly driven piezoelectric stack pumps have high performance but no price advantage. In this situation, a novel, resonantly driven piezoelectric gas pump with annular bimorph as the driver is presented. In the study, the working principle of the novel pump was analyzed, the vibration mechanics model was determined, and the displacement amplified theory was studied. The outcome indicates that the displacement amplification factor is related with the original displacement provided by the piezoelectric bimorph. In addition, the displacement amplification effect is related to the stiffness of the spring lamination, adjustment spring, and piezoelectric vibrator, as well as to the systematic damping factor and the driving frequency. The experimental prototypes of the proposed pump were designed, and the displacement amplification effect and gas output performance were measured. At 70 V of sinusoidal AC driving voltage, the improved pump amplified the piezoelectric vibrator displacement by 4.2 times, the maximum gas output flow rate reached 1685 ml/min, and the temperature of the bimorph remained normal after 2000 hours of operation when the gas medium was blocked. [ABSTRACT FROM AUTHOR]

Published

2013