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2. Virtual Impedance Shaping for the Bus Conversion System in the Hybrid AC/DC Grid

Author

Sicong Jin, Huanyue Liao, Xin Zhang, Hao Ma, Changjiang Sun, and Bin Guo

Subjects
Impedance interaction, parallel virtual impedance regulator, redundant design, instability, three-phase converter, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

The bus conversion system in the hybrid AC/DC grid is usually composed of a three-phase interlinking converter and a DC-side input filter. The impedance interaction between the converter and the input filter may cause instability of the DC-link voltage. The previously proposed stabilization methods either require additional hardware or significantly impact the dynamic performance. Therefore, this paper presents a parallel virtual impedance regulator (PVIR), which adds desired virtual impedance in parallel with the input impedance of the converter. The proposed PVIR can precisely modify the impedance within the specific frequency range to minimize the impact on the system dynamics. The concept and detailed design procedure with the redundant design of the PVIR are introduced. The effect of the PVIR injection position is discussed. Finally, the experiment validates the effectiveness of the proposed PVIR.

Published
2024
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3. Rotational Reference Frame Control of DFIG-Based Wind Turbines for Inertial Frequency Response

Author

Changjiang Sun, Kankai Shen, Yaozhong Zhang, Haoheng Li, and Yang Liu

Subjects
Doubly-fed induction generator, inertial frequency response, phase-locked loop, rotational reference frame control, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

The rapid increase of wind power penetration has threatened the frequency stability of regional power grids, and the loss of system inertia is viewed as the key issue to be solved. Catering to this problem, this paper proposes a rotational reference frame (RRF) control method for the doubly-fed induction generator based wind turbines (DFIG-WTs) to improve the inertia frequency response. An anti-frequency-deviation phase delay is introduced into the phase angle measured by the phase-locked loop (PLL). The dq-RRF of the control system of a DFIG-WT is rotated such that the voltage vectors of the stator and the grid-side converter (GSC) moved like the internal voltage vector of a synchronous generator. Frequency domain analysis is carried out to evaluate the stability of the system and the robustness to the variations of control parameters of the DFIG-WT. Both simulation studies and hardware-in-the-loop experiment are carried out for frequency and active power response. Results show that the RRF controller not only inherits stronger robustness and simpler structure, but also is able to provide stronger inertial support against the drop of system frequency than the widely used synthetic inertia control (SIC) method.

Published
2024
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4. Potential of phage EF-N13 as an alternative treatment strategy for mastitis infections caused by multidrug-resistant Enterococcus faecalis

Author

Yalu Ji, Zhen Zhao, Qianming Jiang, Juan J. Loor, Liran Song, Hongda Ou, Ming Liu, Changjiang Sun, Xin Feng, Liancheng Lei, Wenyu Han, Xinwei Li, and Jingmin Gu

Subjects
Enterococcus faecalis, multidrug-resistant, phage, biofilm, mastitis, Dairy processing. Dairy products, SF250.5-275, Dairying, SF221-250
Abstract

ABSTRACT: Bovine mastitis is the most common and costly disease affecting dairy cattle throughout the world. Enterococcus faecalis is one of the environmental origin mastitis-causing pathogens. The treatment of bovine mastitis is primarily based on antibiotics. Due to the negative impact of developing antibiotic resistance and adverse effects on soil and water environments, the trend toward use of nonantibiotic treatments is increasing. Phages may represent a promising alternative treatment strategy. However, it is unknown whether phages have therapeutic effects on E. faecalis-induced mastitis. Thus, the objective of this study was to investigate the degree of protection conferred by a phage during murine mastitis caused by multidrug-resistant E. faecalis. Enterococcus faecalis was isolated from the milk of dairy cows with mastitis, and a phage was isolated using the E. faecalis isolates as hosts. The bactericidal ability of the phage against E. faecalis and the ability to prevent biofilm formation were determined in vitro. The therapeutic potential of the phage on murine mastitis was evaluated in vivo. We isolated 14 strains of E. faecalis from the milk of cows with mastitis, all of which exhibited multidrug resistance, and most (10/14) could form strong biofilms. Subsequently, a new phage (EF-N13) was isolated using the multidrug-resistant E. faecalis N13 (isolated from mastitic milk) as the host. The phage EF-N13 belongs to the family Myoviridae, which has short latent periods (5 min) and high bursts (284 pfu/cell). The genome of EF-N13 lacked bacterial virulence-, antibiotic resistance-, and lysogenesis-related genes. Furthermore, bacterial loading in the raw milk medium was significantly reduced by EF-N13 and was unaffected by potential IgG antibodies. In fact, EF-N13 could effectively prevent the formation of biofilm by multidrug-resistant E. faecalis. All of these characteristics suggest that EF-N13 has potential as mastitis therapy. In vivo, 1 × 105 cfu/gland of multidrug-resistant E. faecalis N13 resulted in mastitis development within 24 h. A single dose of phage EF-N13 (1 × 104, 1 × 105, or 1 × 106 pfu/gland) could significantly decrease bacterial counts in the mammary gland at 24 h postinfection. Histopathological observations demonstrated that treatment with phage EF-N13 effectively alleviated mammary gland inflammation and damage. This effect was confirmed by the lower levels of proinflammatory cytokines IL-6, IL-1β, and tumor necrosis factor-α in the mammary gland treated with phage EF-N13 compared with those treated with phosphate-buffered saline. Overall, the data underscored the potential of phage EF-N13 as an alternative therapy for bovine mastitis caused by multidrug-resistant E. faecalis.

Published
2023
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5. Development and application of an indirect ELISA and nested PCR for the epidemiological analysis of Klebsiella pneumoniae among pigs in China

Author

Zengshuai Wu, Na Li, Ziheng Li, Jianlong Wang, Mengmeng Liu, Mengzhu Qi, Shaopeng Wei, Tong Wu, Yu Guo, Junhui Zhu, Hexiang Jiang, Ruixue Xue, Changjiang Sun, Xin Feng, Jingmin Gu, Wenyu Han, Fengyang Li, and Liancheng Lei

Subjects
Klebsiella pneumoniae, ELISA, nested PCR, khe, pig serum, Microbiology, QR1-502
Abstract

IntroductionKlebsiella pneumoniae (K. pneumoniae) is an important opportunistic and zoonotic pathogen which is associated with many diseases in humans and animals. However, the pathogenicity of K. pneumoniae has been neglected and the prevalence of K. pneumoniae is poorly studied due to the lack of rapid and sensitive diagnosis techniques.MethodsIn this study, we infected mice and pigs with K. pneumoniae strain from a human patient. An indirect ELISA was established using the KHE protein as the coating protein for the detection of K. pneumoniae specific antibody in clinical samples. A nested PCR method to detect nuclei acids of K. pneumoniae was also developed.ResultsWe showed that infection with K. pneumoniae strain from a human patient led to mild lung injury of pigs. For the ELISA, the optimal coating concentration of KHE protein was 10 µg/mL. The optimal dilutions of serum samples and secondary antibody were 1:100 and 1:2500, respectively. The analytical sensitivity was 1:800, with no cross-reaction between the coated antigen and porcine serum positive for antibodies against other bacteria. The intra-assay and inter-assay reproducibility coefficients of variation are less than 10%. Detection of 920 clinical porcine serum samples revealed a high K. pneumoniae infection rate by established indirect ELISA (27.28%) and nested PCR (19.13%). Moreover, correlation analysis demonstrated infection rate is positively correlated with gross population, Gross Domestic Product (GDP), and domestic tourists.DiscussionIn conclusion, K. pneumoniae is highly prevalent among pigs in China. Our study highlights the role of K. pneumoniae in pig health, which provides a reference for the prevention and control of diseases associated with K. pneumoniae.

Published
2024
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6. The Direct Electrochemical Detection of Hepatitis B Virus

Author

Jiawen Xu, Yufei Wang, Zhou Sha, Yanpei Chen, Changjiang Sun, and Prof. Hai‐Ying Gu

Subjects
hepatitis B virus, guanine and adenine, pretreated glassy carbon electrode, microwave irradiation, direct electrochemistry, Industrial electrochemistry, TP250-261, Chemistry, QD1-999
Abstract

Abstract The direct electrochemistry of hepatitis B virus containing the covalently closed circular DNA (HBV cccDNA) is realized at pretreated glassy carbon electrode (PGCE). It is essential that the direct electron transfer of guanine (G) and adenine (A) on HBV cccDNA strand is captured by microwave irradiation to melt cccDNA into ssDNA. The irreversible adsorption and diffusion controlled processes of G and A are revealed by cyclic voltammetry with participating 2 protons and 2 electrons respectively. In addition, we found that there are two oxidation peaks of G and A in whole blood containing HBV. Nevertheless, there is only one oxidation peak of G in whole blood of normal people. According to this difference of oxidation peaks in whole blood sample, it can be used screen quickly HBV infection or carriers in clinic and large area of blood donors.

Published
2023
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7. LAP3 contributes to IFN-γ-induced arginine depletion and malignant transformation of bovine mammary epithelial cells

Author

Li Li, Fengyang Li, Xiuhong Hu, Zengshuai Wu, Wenbo Ren, Tingting Wang, Zhengchao Ji, Na Li, Jingmin Gu, Changjiang Sun, Xin Feng, Wenyu Han, Jing Huang, and Liancheng Lei

Subjects
IFN-γ, Arginine depletion, Malignant transformation, LAP3, ASS1, HDAC2, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background IFN-γ has been traditionally recognized as an inflammatory cytokine that involves in inflammation and autoimmune diseases. Previously we have shown that sustained IFN-γ induced malignant transformation of bovine mammary epithelial cells (BMECs) via arginine depletion. However, the molecular mechanism underlying this is still unknown. Methods In this study, the amino acids contents in BMECs were quantified by a targeted metabolomics method. The acquisition of differentially expressed genes was mined from RNA-seq dataset and analyzed bioinformatically. Quantitative reverse transcription polymerase chain reaction (qRT-PCR), enzyme-linked immunosorbent assay (ELISA), western blotting, and immunohistochemistry (IHC) assay were performed to detect gene mRNA and protein expression levels. CCK-8 and would healing assays were used to detect cell proliferation and migration abilities, respectively. Cell cycle phase alternations were analyzed by flow cytometry. Results The targeted metabolomics analysis specifically discovered IFN-γ induced arginine depletion through accelerating arginine catabolism and inhibiting arginine anabolism in BMECs. Transcriptome analysis identified leucine aminopeptidase 3 (LAP3), which was regulated by p38 and ERK MAPKs, to downregulate arginine level through interfering with argininosuccinate synthetase (ASS1) as IFN-γ stimulated. Moreover, LAP3 also contributed to IFN-γ-induced malignant transformation of BMECs by upregulation of HDAC2 (histone deacetylase 2) expression and promotion of cell cycle proteins cyclin A1 and D1 expressions. Arginine supplementation did not affect LAP3 and HDAC2 expressions, but slowed down cell cycle process of malignant BMECs. In clinical samples of patients with breast cancer, LAP3 was confirmed to be upregulated, while ASS1 was downregulated compared with healthy control. Conclusions These results demonstrated that LAP3 mediated IFN-γ-induced arginine depletion to malignant transformation of BMECs. Our findings provide a potential therapeutic target for breast cancer both in humans and dairy cows.

Published
2022
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8. Simulation of plasma transport in the linear plasma device MPS-LD by SOLPS-ITER

Author

Yanjie Zhang, Chaofeng Sang, Changjiang Sun, Min Wang, Yue Wang, Qi Wang, and Dezhen Wang

Subjects
Linear plasma device, SOLPS-ITER, Plasma detachment, Nuclear engineering. Atomic power, TK9001-9401
Abstract

Linear plasma devices are the ideal devices to simulate the divertor conditions of tokamak experimentally. The Multiple Plasma Simulation Linear Device (MPS-LD) is under construction at Dalian University of Technology with a focus of studying the plasma-material interactions (PMIs) and edge plasma transport. Before the experiment, numerical modeling plays a crucial role in predicting the main plasma parameters and discharge performance. To this end, simulations are carried out by using scrape-off layer plasma simulation code SOLPS-ITER for the designing studies of MPS-LD in the present work. The effects of particle source simulation method, heating power, and device chamber length on the plasma are investigated systemically. The simulation demonstrates that the direct imposing particle source in the source region is suitable for handling the plasma source. The radiation region, recombination front region and recombination region are formed during plasma transport. Enhancing the plasma source strength can promote the achievement of plasma detachment. The helicon source with a 6 kW radio frequency power source can only obtain the maximum electron density of 5 × 1018 m−3 and electron temperature of 2 eV in the vicinity of the target. Raising the heating power and shortening the distance from the plasma source to the target can significantly increase the plasma parameters at the target.

Published
2022
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9. Streptococcus suis serotype 2 enolase interaction with host brain microvascular endothelial cells and RPSA-induced apoptosis lead to loss of BBB integrity

Author

Hongtao Liu, Siyu Lei, Li Jia, Xiaojing Xia, Yingying Sun, Hexiang Jiang, Rining Zhu, Shuguang Li, Guanggang Qu, Jingmin Gu, Changjiang Sun, Xin Feng, Wenyu Han, Paul R. Langford, and Liancheng Lei

Subjects
Streptococcus suis serotype 2, Enolase, Apoptosis, RPSA, Blood brain barrier, Meningitis, Veterinary medicine, SF600-1100
Abstract

Abstract Host proteins interacting with pathogens are receiving more attention as potential therapeutic targets in molecular medicine. Streptococcus suis serotype 2 (SS2) is an important cause of meningitis in both humans and pigs worldwide. SS2 Enolase (Eno) has previously been identified as a virulence factor with a role in altering blood brain barrier (BBB) integrity, but the host cell membrane receptor of Eno and The mechanism(s) involved are unclear. This study identified that SS2 Eno binds to 40S ribosomal protein SA (RPSA) on the surface of porcine brain microvascular endothelial cells leading to activation of intracellular p38/ERK-eIF4E signalling, which promotes intracellular expression of HSPD1 (heat-shock protein family D member 1), and initiation of host-cell apoptosis, and increased BBB permeability facilitating bacterial invasion. This study reveals novel functions for the host-interactional molecules RPSA and HSPD1 in BBB integrity, and provides insight for new therapeutic strategies in meningitis.

Published
2021
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10. iTRAQ-based quantitative proteomic analysis of peripheral blood serum in piglets infected with Actinobacillus pleuropneumoniae

Author

Rining Zhu, Chuntong Bao, Baijun Liu, Jiameng Xiao, Changjiang Sun, Xin Feng, P. R. Langford, Yang Li, and Liancheng Lei

Subjects
A. pleuropneumoniae, iTRAQ, Porcine pleuropneumonia, Comparative proteomics, Serum, Biotechnology, TP248.13-248.65, Microbiology, QR1-502
Abstract

Abstract Porcine pleuropneumonia caused by Actinobacillus pleuropneumoniae (APP) is a swine respiratory disease with an important impact around the world either as a single infection or part of the porcine respiratory disease complex. The data of interaction between hosts and pathogens has becoming more crucial for exploration of the mechanism. However, up to now, comparatively little information is available on the systemic and dynamic changes that occur in pig serum in response to APP infection. This study used iTRAQ to identify differentially expressed proteins (DEPs) in pig serum in response to APP infection. Compared with the APP un-infected group (S0),there were 137 up-regulated and 68 down-regulated proteins at 24 h (S24), and 81 up-regulated and 107 down-regulated proteins at 120 h (S120). At 24 h, the immune response was not significantly enriched, but cell adhesion, cytosol, Golgi apparatus, GTP and ATP binding and regulation of cell cycle were extremely active, implying host preparation of immune response starting. Subsequently, innate immune response, negative regulation of apoptotic process, immunological synapse, adaptive immune response, the regulation of inflammatory response, positive regulation of T cell proliferation were more enhanced at 120 h then that of 24 h, representing innate immunity transferring to the adaptive, while endocytosis, cell adhesion and platelet aggregation showed obvious decline. The pathways of T cell receptor signaling pathway, cytokine–cytokine receptor interaction, complement and coagulation cascades, leukocyte transendothelial migration were active remarkably during all infection period, and more pathways could connect to form innate immune defense networks. Surprisingly, the pathways like amoebiasis, rheumatoid arthritis and malaria had been found up-regulated. As a conclusion, APP could delay host inflammatory response to the infection at early stage, and induced innate immunity to convert from adhesion, interaction into complement activation, proteasome digestion, bacterial invasion at later stage. This would increase our understanding of the porcine distinct response to APP infection.

Published
2020
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11. Recombinant tandem epitope vaccination provides cross protection against Actinobacillus pleuropneumoniae challenge in mice

Author

Jiameng Xiao, Jianfang Liu, Chuntong Bao, Rining Zhu, Jingmin Gu, Changjiang Sun, Xin Feng, Chongtao Du, Wenyu Han, Yang Li, and Liancheng Lei

Subjects
Antibody, Actinobacillus pleuropneumoniae, Cross protection, Epitope-based vaccine, Prokaryotic expression, Biotechnology, TP248.13-248.65, Microbiology, QR1-502
Abstract

Abstract Actinobacillus pleuropneumoniae (A. pleuropneumoniae/APP) is the pathogen that causes porcine contagious pleuropneumonia. Actinobacillus pleuropneumoniae is divided into 18 serovars, and the cross protection efficacy of epitopes is debatable, which has resulted in the slow development of a vaccine. Consequently, epitope-based vaccines conferring Actinobacillus pleuropneumoniae cross protection have rarely been reported. In this study, B cell epitopes in the head domain of trimeric autotransporter adhesin were predicted, and 6 epitopes were selected. Then, the predicted epitopes (Ba1, Bb5, C1, PH1 and PH2) were connected by linkers to construct a recombinant tandem antigen (rta) gene. The RTA protein encoded by the recombinant rta gene was expressed, and finally the ICR mice were immunized with the RTA protein with or without inactivated Actinobacillus pleuropneumoniae (serovars 1 and 5b) and challenged with Actinobacillus pleuropneumoniae to evaluate the protective effect of the epitope-based vaccine and combined vaccine. The mice in the RTA-immunized group and RTA plus inactivated Actinobacillus pleuropneumoniae vaccine group had a significant improvement in clinical symptoms and a higher level of antibody in the serum than those in the control group. The RTA immune group had a 40% survival rate after Actinobacillus pleuropneumoniae infection, whereas the combination of RTA and inactivated Actinobacillus pleuropneumoniae produced very strong cross immune protection in mice, at least 50% (RTA IB1 + C5) and at most 100% (RTA IB5 + C1), whereas no cross immunoprotection was found in the solo Actinobacillus pleuropneumoniae immune group. Overall, the combination of the RTA protein and inactivated bacteria significantly enhanced the cross protection effects. This implies that RTA protein in combination with a suitable inactivated Actinobacillus pleuropneumoniae strain could be a candidate vaccine for porcine contagious pleuropneumonia.

Published
2020
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12. Phylogenetic and Structural Analysis of Porcine Circovirus Type 2 from 2016 to 2021 in Jilin Province, China

Author

Si Chen, Xue Li, Liying Zhang, Jiawei Zheng, Lin Yang, Guyu Niu, Huimin Zhang, Ying Ren, Jing Qian, Changjiang Sun, and Linzhu Ren

Subjects
porcine circovirus type 2 (PCV2), molecular epidemiology, epitope, mutation, Biology (General), QH301-705.5
Abstract

Porcine circovirus disease (PCVD) caused by porcine circovirus type 2 (PCV2) is widely distributed in pig farms. Up until now, nine genotypes of PCV2, PCV2a to 2i, have been identified in diseased pigs worldwide. This study analyzed 302 samples collected in the Jilin Province of China from 2016 to 2021, followed by genetic analysis of the PCV2 isolates. Meanwhile, the antigen epitopes, amino acid mutations, 3D structure of the PCV2 isolates and commercially available vaccine strains were evaluated and compared. The results showed that the predominant genotypes of PCV2 were PCV2b, followed by PCV2e and PCV2d in Jilin Province during 2016–2021. Although mutations were detected in the isolates, no recombination occurred in the PCV2 isolates, indicating a stable genotype of PCV2 in Jilin Province during these years. Moreover, the B cell epitopes in the Cap and Rep proteins of eighteen PCV2 isolates and T cell epitopes in the Cap of the isolates were changed compared to three currently used vaccine strains. The mutations in the Cap and Rep proteins did not affect their spatial conformation. Therefore, bivalent or multivalent vaccines with different genotypes of PCV2 might improve the protective effect of vaccines.

Published
2023
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13. RETRACTED: vB-ApyS-JF1, the First Trueperella pyogenes Phage, Shows Potential as an Alternative Treatment Strategy for Trueperella pyogenes Infections

Author

Yalu Ji, Liran Song, Zuoyong Zhou, Xiao Liu, Fengyang Li, Zhimin Guo, Yuan Guan, Li Yang, Xin Feng, Changjiang Sun, Liancheng Lei, Wenyu Han, and Jingmin Gu

Subjects
phage therapy, Trueperella pyogenes, vB-ApyS-JF1, bacteremia, mice, Microbiology, QR1-502
Abstract

Trueperella pyogenes (T. pyogenes) is an important opportunistic animal pathogen that causes huge economic losses to the animal husbandry industry. The emergence of bacterial resistance and the unsatisfactory effect of the vaccine have prompted investigators to explore alternative strategies for controlling T. pyogenes infection. Due to the ability of phages to kill multidrug-resistant bacteria, the use of phage therapy to combat multidrug-resistant bacterial infections has attracted attention. In this study, a T. pyogenes phage, vB-ApyS-JF1 (JF1), was isolated from sewage samples, and its whole genome and biological characteristics were elucidated. Moreover, the protective effect of phage JF1 on a mouse bacteremic model caused by T. pyogenes was studied. JF1 harbors a double-stranded DNA genome with a length of 90,130 bp (30.57% G + C). The genome of JF1 lacked bacterial virulence–, antibiotic resistance– and lysogenesis-related genes. Moreover, the genome sequence of JF1 exhibited low coverage (

Published
2021
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14. Combination Therapy of Phage vB_KpnM_P-KP2 and Gentamicin Combats Acute Pneumonia Caused by K47 Serotype Klebsiella pneumoniae

Author

Zijing Wang, Ruopeng Cai, Gang Wang, Zhimin Guo, Xiao Liu, Yuan Guan, Yalu Ji, Hao Zhang, Hengyu Xi, Rihong Zhao, Lanting Bi, Shanshan Liu, Li Yang, Xin Feng, Changjiang Sun, Liancheng Lei, Wenyu Han, and Jingmin Gu

Subjects
bacteriophage, Klebsiella pneumoniae, genome sequencing, bioinformatics analysis, phage therapy, Microbiology, QR1-502
Abstract

Klebsiella pneumoniae (K. pneumoniae) is an important nosocomial and community acquired opportunistic pathogen which causes various infections. The emergence of multi-drug resistant (MDR) K. pneumoniae and carbapenem-resistant hypervirulent K. pneumoniae (CR-hvKP) has brought more severe challenge to the treatment of K. pneumoniae infection. In this study, a novel bacteriophage that specifically infects K. pneumoniae was isolated and named as vB_KpnM_P-KP2 (abbreviated as P-KP2). The biological characteristics of P-KP2 and the bioinformatics of its genome were analyzed, and then the therapeutic effect of P-KP2 was tested by animal experiments. P-KP2 presents high lysis efficiency in vitro. The genome of P-KP2 shows homology with nine phages which belong to “KP15 virus” family and its genome comprises 172,138 bp and 264 ORFs. Besides, P-KP2 was comparable to gentamicin in the treatment of lethal pneumonia caused by K. pneumoniae W-KP2 (K47 serotype). Furthermore, the combined treatment of P-KP2 and gentamicin completely rescued the infected mice. Therefore, this study not only introduces a new member to the phage therapeutic library, but also serves as a reference for other phage-antibiotic combinations to combat MDR pathogens.

Published
2021
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15. Suppression of Reactive Power in Isolated Modular Multilevel DC–DC Converter Under Quasi Square-Wave Modulation

Author

Changjiang Sun, Xu Cai, Jianwen Zhang, and Gang Shi

Subjects
DC-DC power conversion, modular multilevel converter, reactive power suppression, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

An isolated modular multilevel dc-dc converter (IMMDCC) consisting of two modular multilevel converters (MMCs) coupled via a medium-frequency transformer is competitive for medium- and high-voltage applications because of its high modularity and high-voltage handling capability. Employing the quasi square-wave modulation (QSM) scheme for MMCs of the converter can increase the dc-link voltage utilization ratio and realize soft-switching operation, compared with sinusoidal wave modulation methods. However, the accurate reactive power control at the ac side of the IMMDCC can hardly be achieved under the QSM mode. The ac-side reactive power and current stress increase considerably when the conversion ratio deviates from the transformer turn ratio. In order to address this issue, this paper presents an arm voltage decoupling control scheme for the IMMDCC by introducing a virtual buck/boost conversion stage between the dc-side voltage and the transformer voltage. The transformer primary and secondary voltages are kept matched to suppress the reactive power when the dc-side voltage varies. The theoretical analysis shows that the proposed control enhances the power transfer capability and reduces the ac-side current stress of the IMMDCC. In addition, submodule voltages are maintained even when the dc voltages exceed the designed value under the conventional control scheme, which implies that the voltage range of the converter is expanded. The simulation and experimental results confirm the effectiveness of the proposed modulation and control strategy.

Published
2019
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16. Overexpression of AmpC Promotes Bacteriophage Lysis of Ampicillin-Resistant Escherichia coli

Author

Shuang Wang, Bo Yin, Ling Yu, Mei Dang, Zhimin Guo, Guangmou Yan, Dongliang Hu, Jingmin Gu, Chongtao Du, Xin Feng, Wenyu Han, Yuren Yuan Adam, Changjiang Sun, Janine T. Bossé, and Liancheng Lei

Subjects
bacteriophage, antibiotic resistance, ampicillin, E. coli, AmpC, Microbiology, QR1-502
Abstract

Infections caused by antibiotic-resistant Escherichia coli are a threat to human and animal health globally. Phage therapy has made great progress for the treatment of drug-resistant infections, but it is still unclear whether E. coli resistance to antibiotics could change the lysis ability of phages. In this study, we demonstrate that over expression of AmpC, an important β-lactamase for ampicillin resistance, promotes lysis of E. coli by phage utilizing OmpA as a receptor. E. coli strains expressing more AmpC showed higher levels of OmpA, an E. coli outer membrane protein known to serve as a receptor for T-even phages, which resulted in increased adsorption and lysis by the phage tested in this study. These data demonstrate that increased ampicillin resistance can increase the sensitivity of E. coli to some lytic phage, which provides evidence for the feasibility of synergistic application of phage and antibiotics.

Published
2020
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17. Three Capsular Polysaccharide Synthesis-Related Glucosyltransferases, GT-1, GT-2 and WcaJ, Are Associated With Virulence and Phage Sensitivity of Klebsiella pneumoniae

Author

Ruopeng Cai, Gang Wang, Shuai Le, Mei Wu, Mengjun Cheng, Zhimin Guo, Yalu Ji, Hengyu Xi, Caijun Zhao, Xinwu Wang, Yibing Xue, Zijing Wang, Hao Zhang, Yunhe Fu, Changjiang Sun, Xin Feng, Liancheng Lei, Yongjun Yang, Sadeeq ur Rahman, Xiaoyun Liu, Wenyu Han, and Jingmin Gu

Subjects
Klebsiella pneumoniae, phage resistance, virulence, glucosyltransferase (GT), WcaJ, Microbiology, QR1-502
Abstract

Klebsiella pneumoniae (K. pneumoniae) spp. are important nosocomial and community-acquired opportunistic pathogens, which cause various infections. We observed that K. pneumoniae strain K7 abruptly mutates to rough-type phage-resistant phenotype upon treatment with phage GH-K3. In the present study, the rough-type phage-resistant mutant named K7RR showed much lower virulence than K7. Liquid chromatography-tandem mass spectrometry (LC-MS-MS) analysis indicated that WcaJ and two undefined glycosyltransferases (GTs)- named GT-1, GT-2- were found to be down-regulated drastically in K7RR as compared to K7 strain. GT-1, GT-2, and wcaJ are all located in the gene cluster of capsular polysaccharide (CPS). Upon deletion, even of single component, of GT-1, GT-2, and wcaJ resulted clearly in significant decline of CPS synthesis with concomitant development of GH-K3 resistance and decline of virulence of K. pneumoniae, indicating that all these three GTs are more likely involved in maintenance of phage sensitivity and bacterial virulence. Additionally, K7RR and GT-deficient strains were found sensitive to endocytosis of macrophages. Mitogen-activated protein kinase (MAPK) signaling pathway of macrophages was significantly activated by K7RR and GT-deficient strains comparing with that of K7. Interestingly, in the presence of macromolecular CPS residues (>250 KD), K7(ΔGT-1) and K7(ΔwcaJ) could still be bounded by GH-K3, though with a modest adsorption efficiency, and showed minor virulence, suggesting that the CPS residues accumulated upon deletion of GT-1 or wcaJ did retain phage binding sites as well maintain mild virulence. In brief, our study defines, for the first time, the potential roles of GT-1, GT-2, and WcaJ in K. pneumoniae in bacterial virulence and generation of rough-type mutation under the pressure of bacteriophage.

Published
2019
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19. Differential Protein Profiling of Cerebrospinal Fluid in Piglets with Severe Meningoencephalitis Caused by Streptococcus suis Type 2 Compared to Controls

Author

Hongtao Liu, Li Jia, Wenfei Guo, Yingying Sun, Rining Zhu, Shuguang Li, Guanggang Qu, Hexiang Jiang, Junjie Wang, Jingmin Gu, Changjiang Sun, Xin Feng, Wenyu Han, and Liancheng Lei

Subjects
Streptococcus suis, meningoencephalitis, blood-CSF barrier, cerebrospinal fluid, proteomics, Microbiology, QR1-502
Abstract

Streptococcus suis serotype 2 (SS2) is a zoonotic pathogen that can cause meningitis both in pigs and in human beings. However, the pathogenesis of central nervous system (CNS) infection caused by SS2 have not yet been elucidated. To find the key molecules in cerebrospinal fluid (CSF) needed for the pathogenesis, a SS2 meningoencephalitic pig model and a SS2 non-meningoencephalitic pig model were established in this study. CSF was collected from infected piglets, and protein profiling was performed with label-free proteomics technology. A total of 813 differential proteins, including 52 up-regulated proteins and 761 down-regulated proteins, were found in the CSF of meningoencephalitic pigs compared with both non-meningoencephalitic pigs and healthy pigs. These 813 differential proteins were clustered into three main categories, namely, cellular component, biological process, and molecular function by gene ontology (GO) analysis. The most enriched subclasses of differential proteins in each category were exosome (44.3%), energy pathway (25.0%) and catalytic activity (11.3%), respectively. The most enriched subclasses of upregulated proteins were extracellular (62.1%), protein metabolism (34.5%) and cysteine-type peptidase activity (6.9%), and of downregulated proteins were exosomes (45.0%), energy pathway (24.0%) and catalytic activity (9.4%). Then, the differential proteins were further investigated by using the KEGG database and were found to participate in 16 KEGGs. The most enriched KEGG was citrate cycle (56.6%), and some of these differential proteins are associated with brain diseases such as Huntington's disease (18.6%), Parkinson's disease (23.8%) and Alzheimer's disease (17.6%). Sixteen of the 813 differential proteins, chosen randomly as examples, were further confirmed by enzyme-linked immunosorbent assay (ELISA) to support the proteomic data. To our knowledge, this is the first study to analyze the differential protein profiling of CSF between SS2 meningoencephalitic piglets and non-meningoencephalitic piglets by employing proteomic technology. The discovery and bioinformatics analysis of these differential proteins provides reference data not only for research on pathogenesis of SS2 CNS infection but also for diagnosis and drug therapy research.

Published
2018
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20. The Bacteriophage EF-P29 Efficiently Protects against Lethal Vancomycin-Resistant Enterococcus faecalis and Alleviates Gut Microbiota Imbalance in a Murine Bacteremia Model

Author

Mengjun Cheng, Jiaming Liang, Yufeng Zhang, Liyuan Hu, Pengjuan Gong, Ruopeng Cai, Lei Zhang, Hao Zhang, Jinli Ge, Yalu Ji, Zhimin Guo, Xin Feng, Changjiang Sun, Yongjun Yang, Liancheng Lei, Wenyu Han, and Jingmin Gu

Subjects
vancomycin-resistant Enterococcus faecalis, phage therapy, bacteremia, gut microbiota, opportunistic pathogens, Microbiology, QR1-502
Abstract

Enterococcus faecalis is becoming an increasingly important opportunistic pathogen worldwide, especially because it can cause life-threatening nosocomial infections. Treating E. faecalis infections has become increasingly difficult because of the prevalence of multidrug-resistant E. faecalis strains. Because bacteriophages show specificity for their bacterial hosts, there has been a growth in interest in using phage therapies to combat the rising incidence of multidrug-resistant bacterial infections. In this study, we isolated a new lytic phage, EF-P29, which showed high efficiency and a broad host range against E. faecalis strains, including vancomycin-resistant strains. The EF-P29 genome contains 58,984 bp (39.97% G+C), including 101 open reading frames, and lacks known putative virulence factors, integration-related proteins or antibiotic resistance determinants. In murine experiments, the administration of a single intraperitoneal injection of EF-P29 (4 × 105 PFU) at 1 h after challenge was sufficient to protect all mice against bacteremia caused by infection with a vancomycin-resistant E. faecalis strain (2 × 109 CFU/mouse). E. faecalis colony counts were more quickly eliminated in the blood of EF-P29-protected mice than in unprotected mice. We also found that exogenous E. faecalis challenge resulted in enrichment of members of the genus Enterococcus (family Enterococcaceae) in the guts of the mice, suggesting that it can enter the gut and colonize there. The phage EF-P29 reduced the number of colonies of genus Enterococcus and alleviated the gut microbiota imbalance that was caused by E. faecalis challenge. These data indicate that the phage EF-P29 shows great potential as a therapeutic treatment for systemic VREF infection. Thus, phage therapies that are aimed at treating opportunistic pathogens are also feasible. The dose of phage should be controlled and used at the appropriate level to avoid causing imbalance in the gut microbiota.

Published
2017
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21. miRNA-148a serves as a prognostic factor and suppresses migration and invasion through Wnt1 in non-small cell lung cancer.

Author

Yong Chen, Lingfeng Min, Chuanli Ren, Xingxiang Xu, Jianqi Yang, Xinchen Sun, Tao Wang, Fang Wang, Changjiang Sun, and Xizhi Zhang

Subjects
Medicine, Science
Abstract

Lung cancer is the leading cause of cancer death in the world, and aberrant expression of miRNA is a common feature during the cancer initiation and development. Our previous study showed that levels of miRNA-148a assessed by quantitative real-time polymerase chain reaction (qRT-PCR) were a good prognosis factor for non-small cell lung cancer (NSCLC) patients. In this study, we used high-throughput formalin-fixed and paraffin-embedded (FFPE) lung cancer tissue arrays and in situ hybridization (ISH) to determine the clinical significances of miRNA-148a and aimed to find novel target of miRNA-148a in lung cancer. Our results showed that there were 86 of 159 patients with low miRNA-148a expression and miRNA-148a was significantly down-regulated in primary cancer tissues when compared with their adjacent normal lung tissues. Low expression of miRNA-148a was strongly associated with high tumor grade, lymph node (LN) metastasis and a higher risk of tumor-related death in NSCLC. Lentivirus mediated overexpression of miRNA-148a inhibited migration and invasion of A549 and H1299 lung cancer cells. Furthermore, we validated Wnt1 as a direct target of miRNA-148a. Our data showed that the Wnt1 expression was negatively correlated with the expression of miRNA-148a in both primary cancer tissues and their corresponding adjacent normal lung tissues. In addition, overexpression of miRNA-148a inhibited Wnt1 protein expression in cancer cells. And knocking down of Wnt-1 by siRNA had the similar effect of miRNA-148a overexpression on cell migration and invasion in lung cancer cells. In conclusion, our results suggest that miRNA-148a inhibited cell migration and invasion through targeting Wnt1 and this might provide a new insight into the molecular mechanisms of lung cancer metastasis.

Published
2017
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22. The Characteristics and Genome Analysis of vB_AviM_AVP, the First Phage Infecting Aerococcus viridans

Author

Hengyu Xi, Jiaxin Dai, Yigang Tong, Mengjun Cheng, Feiyang Zhao, Hang Fan, Xinwei Li, Ruopeng Cai, Yalu Ji, Changjiang Sun, Xin Feng, Liancheng Lei, Sadeeq ur Rahman, Wenyu Han, and Jingmin Gu

Subjects
Aerococcus viridans, opportunistic pathogen, phage, genome analysis, Microbiology, QR1-502
Abstract

Aerococcus viridans is an opportunistic pathogen that is clinically associated with various human and animal diseases. In this study, the first identified A. viridans phage, vB_AviM_AVP (abbreviated as AVP), was isolated and studied. AVP belongs to the family Myoviridae. AVP harbors a double-stranded DNA genome with a length of 133,806 bp and a G + C content of 34.51%. The genome sequence of AVP showed low similarity (

Published
2019
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23. Structural and biochemical characterization reveals LysGH15 as an unprecedented 'EF-hand-like' calcium-binding phage lysin.

Author

Jingmin Gu, Yingang Feng, Xin Feng, Changjiang Sun, Liancheng Lei, Wei Ding, Fengfeng Niu, Lianying Jiao, Mei Yang, Yue Li, Xiaohe Liu, Jun Song, Ziyin Cui, Dong Han, Chongtao Du, Yongjun Yang, Songying Ouyang, Zhi-Jie Liu, and Wenyu Han

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

The lysin LysGH15, which is derived from the staphylococcal phage GH15, demonstrates a wide lytic spectrum and strong lytic activity against methicillin-resistant Staphylococcus aureus (MRSA). Here, we find that the lytic activity of the full-length LysGH15 and its CHAP domain is dependent on calcium ions. To elucidate the molecular mechanism, the structures of three individual domains of LysGH15 were determined. Unexpectedly, the crystal structure of the LysGH15 CHAP domain reveals an "EF-hand-like" calcium-binding site near the Cys-His-Glu-Asn quartet active site groove. To date, the calcium-binding site in the LysGH15 CHAP domain is unique among homologous proteins, and it represents the first reported calcium-binding site in the CHAP family. More importantly, the calcium ion plays an important role as a switch that modulates the CHAP domain between the active and inactive states. Structure-guided mutagenesis of the amidase-2 domain reveals that both the zinc ion and E282 are required in catalysis and enable us to propose a catalytic mechanism. Nuclear magnetic resonance (NMR) spectroscopy and titration-guided mutagenesis identify residues (e.g., N404, Y406, G407, and T408) in the SH3b domain that are involved in the interactions with the substrate. To the best of our knowledge, our results constitute the first structural information on the biochemical features of a staphylococcal phage lysin and represent a pivotal step forward in understanding this type of lysin.

Published
2014
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24. Comparative analysis of duckweed cultivation with sewage water and SH media for production of fuel ethanol.

Author

Changjiang Yu, Changjiang Sun, Li Yu, Ming Zhu, Hua Xu, Jinshan Zhao, Yubin Ma, and Gongke Zhou

Subjects
Medicine, Science
Abstract

Energy crises and environmental pollution have caused considerable concerns; duckweed is considered to be a promising new energy plant that may relieve such problems. Lemna aequinoctialis strain 6000, which has a fast growth rate and the ability to accumulate high levels of starch was grown in both Schenk & Hildebrandt medium (SH) and in sewage water (SW). The maximum growth rates reached 10.0 g DW m(-2) day(-1) and 4.3 g DW m(-2) day(-1), respectively, for the SH and SW cultures, while the starch content reached 39% (w/w) and 34% (w/w). The nitrogen and phosphorus removal rate reached 80% (SH) and 90% (SW) during cultivation, and heavy metal ions assimilation was observed. About 95% (w/w) of glucose was released from duckweed biomass hydrolysates, and then fermented by Angel yeast with ethanol yield of 0.19 g g(-1) (SH) and 0.17 g g(-1) (SW). The amylose/amylopectin ratios of the cultures changed as starch content increased, from 0.252 to 0.155 (SH) and from 0.252 to 0.174 (SW). Lemna aequinoctialis strain 6000 could be considered as valuable feedstock for bioethanol production and water resources purification.

Published
2014
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25. A method for generation phage cocktail with great therapeutic potential.

Author

Jingmin Gu, Xiaohe Liu, Yue Li, Wenyu Han, Liancheng Lei, Yongjun Yang, Honglei Zhao, Yu Gao, Jun Song, Rong Lu, Changjiang Sun, and Xin Feng

Subjects
Medicine, Science
Abstract

BACKGROUND: Bacteriophage could be an alternative to conventional antibiotic therapy against multidrug-resistant bacteria. However, the emergence of resistant variants after phage treatment limited its therapeutic application. METHODOLOGY/PRINCIPAL FINDINGS: In this study, an approach, named "Step-by-Step" (SBS), has been established. This method takes advantage of the occurrence of phage-resistant bacteria variants and ensures that phages lytic for wild-type strain and its phage-resistant variants are selected. A phage cocktail lytic for Klebsiella pneumoniae was established by the SBS method. This phage cocktail consisted of three phages (GH-K1, GH-K2 and GH-K3) which have different but overlapping host strains. Several phage-resistant variants of Klebsiella pneumoniae were isolated after different phages treatments. The virulence of these variants was much weaker [minimal lethal doses (MLD)>1.3×10(9) cfu/mouse] than that of wild-type K7 countpart (MLD = 2.5×10(3) cfu/mouse). Compared with any single phage, the phage cocktail significantly reduced the mutation frequency of Klebsiella pneumoniae and effectively rescued Klebsiella pneumoniae bacteremia in a murine K7 strain challenge model. The minimal protective dose (MPD) of the phage cocktail which was sufficient to protect bacteremic mice from lethal K7 infection was only 3.0×10(4) pfu, significantly smaller (p

Published
2012
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26. Different transcriptional profiles of RAW264.7 infected with Mycobacterium tuberculosis H37Rv and BCG identified via deep sequencing.

Author

Fengguang Pan, Yaya Zhao, Seng Zhu, Changjiang Sun, Liancheng Lei, Xin Feng, and Wen Yu Han

Subjects
Medicine, Science
Abstract

BACKGROUND: The Mycobacterium tuberculosis H37Rv and BCG effects on the host cell transcriptional profile consider a main research point. In the present study the transcriptome profiling analysis of RAW264.7 either infected with Mycobacterium tuberculosis H37Rv or BCG have been reported using Solexa/Illumina digital gene expression (DGE). RESULTS: The DGE analysis showed 1,917 different expressed genes between the BCG and H37Rv group. In addition, approximately 5% of the transcripts appeared to be predicted genes that have never been described before. KEGG Orthology (KO) annotations showed more than 71% of these transcripts are possibly involved in approximately 210 known metabolic or signaling pathways. The gene of the 28 pathways about pathogen recognition receptors and Mycobacterium tuberculosis interaction with macrophages were analyzed using the CLUSTER 3.0 available, the Tree View tool and Gene Orthology (GO). Some genes were randomly selected to confirm their altered expression levels by quantitative real-time PCR (qRT-PCR). CONCLUSION: The present study used DGE from pathogen recognition receptors and Mycobacterium tuberculosis interaction with macrophages to understand the interplay between Mycobacterium tuberculosis and RAW264.7. Meanwhile find some important host protein which was affected by Mycobacterium tuberculosis to provide evidence for the further improvement of the present efficacy of existing Mycobacterium tuberculosis therapy and vaccine.

Published
2012
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37. Automatic Triple Phase-Shift Modulation for DAB Converter With Minimized Power Loss

Author

Fanfan Lin, Xin Zhang, Xinze Li, Changjiang Sun, Wenjian Cai, and Zhe Zhang

Subjects
Control and Systems Engineering, Particle swarm optimization, Fuzzy inference system, Dual active bridge, Triple Phase Shift, Electrical and Electronic Engineering, Power loss, Neural network, Industrial and Manufacturing Engineering
Abstract

Currently, triple phase shift (TPS) modulation has attracted more and more attention of researchers as an advanced modulation strategy for dual active bridge converter (DAB). Since it has three degrees of freedom, it can realize better performance both in soft switching ranges and power efficiency. However, how to choose these three degrees of freedom to realize optimal power efficiency of DAB converter becomes a concern for researchers. Generally, there exist two difficulties to apply efficiency-oriented TPS modulation. The first difficulty lies in the analysis process in which the main task is to figure out the relationships between modulation parameters and power loss. The three modulation parameters in TPS bring difficulties in analysis and deduction process, which suffers from high computational burden and low accuracy. Additionally, the second difficulty lies in the real-time realization of TPS modulation. If a look-up table is applied to store the optimized modulation parameters, it is highly likely that its discrete nature will result in unsatisfactory modulation performance. Therefore, this paper proposes an efficiency-oriented automatic TPS (ATPS) modulation approach which utilizes neural network, particle swarm optimization and fuzzy inference system respectively in its three stages. The proposed ATPS is able to mitigate labor in computational burden with a highly automatic fashion. Finally, this proposed ATPS has been validated with 1kW hardware experiments

Published
2022
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38. Hybrid Input-Series–Output-Series Modular DC–DC Converter Constituted by Resonant and Nonresonant Dual Active Bridge Modules

Author

Miao Zhu, Jingjing Huang, Xin Zhang, Jianwen Zhang, and Changjiang Sun

Subjects
business.industry, Computer science, Electrical engineering, Topology (electrical circuits), High voltage, Modular design, Converters, law.invention, Control and Systems Engineering, law, Control system, Electrical and Electronic Engineering, business, Transformer, Voltage, Electronic circuit
Abstract

Possessing the capability to handle high voltage, the bidirectional input-series–output-series (ISOS) modular dc–dc converter is suitable for use in dc grids. Regarding topology selection of the constituent modules, the open-loop controlled series-resonant dual active bridge (SR-DAB) converter exhibits superior efficiency performance and the advantage of simple control. However, it has no regulation capability. Aimed to reap the advantages of SR-DAB and achieve flexible control, this article presents a hybrid ISOS converter composed of SR-DAB and nonresonant phase-shift controlled dual active bridge (PS-DAB) modules. The SR-DAB modules process most of the power to ensure high-efficiency conversion, whereas the PS-DAB is responsible for flexible control. At the output stage of the ISOS system, embedded nonisolated resonant dual active half-bridge (NR-DAHB) converters are integrated between every two adjacent modules without adding any switches. The transformer property of the open-loop controlled SR-DAB and NR-DAHB circuits facilitates natural voltage sharing at both the input and output sides. The hardware experiment has been conducted to verify the operating principles and performance of the proposed ISOS system.

Published
2022
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39. Metagenomics analysis reveals potential pathways and drivers of piglet gut phage-mediated transfer of ARGs

Author

Yalu Ji, Hengyu Xi, Zhen Zhao, Qiujie Jiang, Chong Chen, Xinwu Wang, Fengyang Li, Na Li, Changjiang Sun, Xin Feng, Liancheng Lei, Wenyu Han, and Jingmin Gu

Subjects
Environmental Engineering, Environmental Chemistry, Pollution, Waste Management and Disposal
Abstract

The growing prevalence of antibiotic-resistant pathogens has led to a better understanding of the underlying processes that lead to this expansion. Intensive pig farms are considered one of the hotspots for antibiotic resistance gene (ARG) transmission. Phages, as important mobile carriers of ARGs, are widespread in the animal intestine. However, our understanding of phage-associated ARGs in the pig intestine and their underlying drivers is limited. Here, metagenomic sequencing and analysis of viral DNA and total DNA of different intestinal (ileum, cecum and feces) contents in healthy piglets and piglets with diarrhea were separately conducted. We found that phages in piglet ceca are the main repository for ARGs and mobile genetic element (MGE) genes. Phage-associated MGEs are important factors affecting the maintenance and transfer of ARGs. Interestingly, the colocalization of ARGs and MGE genes in piglet gut phages does not appear to be randomly selected but rather related to a specific phage host (Streptococcus). In addition, in the feces of piglets with diarrhea, the abundance of phages carrying ARGs and MGE genes was significantly increased, as was the diversity of polyvalent phages (phages with broad host ranges), which would facilitate the transfection and wider distribution of ARGs in the bacterial community. Moreover, the predicted host spectrum of polyvalent phages in diarrheal feces tended to be potential enteropathogenic genera, which greatly increased the risk of enteropathogens acquiring ARGs. Notably, we also found ARG-homologous genes in the sequences of piglet intestinal mimiviruses, suggesting that the piglet intestinal mimiviruses are a potential repository of ARGs. In conclusion, this study greatly expands our knowledge of the piglet gut microbiome, revealing the underlying mechanisms of maintenance and dissemination of piglet gut ARGs and providing a reference for the prevention and control of ARG pollution in animal husbandry.

Published
2022

40. Molecular characterization of Toll-like receptor type-3 in mallard duck and its response to Newcastle disease virus infection

Author

Wael K. Elfeil, Mohamed S. Diab, Saad Alkahtani, Shaimaa Talat, Mahmoud E. Sedeik, Hesham A. Sultan, Reham R. Abouelmaatti, Changjiang Sun, Liancheng Lei, Wenyu Han, Mohamed M. Abdel-Daim, Mohamed Rady, and Mohamed Fawzy

Subjects
Toll-like receptor, animal structures, biology, animal diseases, Health, Toxicology and Mutagenesis, General Medicine, 010501 environmental sciences, biology.organism_classification, 01 natural sciences, Pollution, Newcastle disease, Virology, Housekeeping gene, Complementary DNA, Genetic variation, Environmental Chemistry, Gene, Peptide sequence, Zebra finch, 0105 earth and related environmental sciences
Abstract

Toll-like receptors (TLRs), type I transmembrane pattern recognition receptors (PRRs), are composed of the extracellular domain that is implicated in the recognition of microbial products and initiates the innate and adaptive immune response. Previous reports on TLRs in birds showed significant levels of inter- and intraspecific genetic variation. Little is known about the structure and function of the avian immune system, especially waterfowl species. This work aimed to identify and clone Anas platyrhynchos (mallard duck) TLR-3 (dTLR-3) and its expression level following challenge with velogenic Newcastle disease virus (NDV) as a model for waterfowl species. The mallard duck TLR-3 full-length cDNA sequence had been cloned, which consisted of 2457 nucleotides. The translated amino acid sequence showed identity degree as 97% with Muscovy duck, 95% with geese, 89% with helmeted guineafowls, 88% with the chickens TLR-3 gene, 82% with turkey TLR-3, and 79% with zebra finch, while it showed 54% with human one; the analysis data suggested that the new sequence is probably homologous to vertebrates' TLR-3. The predicted protein encoded by the duck dTLR-3 mRNA sequence is composed of 819 amino acids. Analysis of the deduced amino acid sequence indicated that dTLR-3 has typical structural features and contains the main components of proteins in the TLR family. The dTLR-3 expressed in almost all examined tissues of mallard duck following quantitative real-time polymerase chain reaction (qPCR) analysis and using B-actin as a housekeeping gene. To check the functionality of the receptor and its role in viral infection, we evaluate the expression level in different tissues and its changes following NDV infection. The results showed significant (P < 0.05) upregulated in the brain at 24 h (1.84-fold), reached a peak at 48 h (4.82-fold), and recovered to normal levels at 72 h post-infection. These results indicate a complete and functional dTLR-3 that is orthologous to other vertebrate receptors with its potential role in early response against viral infection in mallard duck species.

Published
2021
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41. A Step-Up Nonisolated Modular Multilevel DC–DC Converter With Self-Voltage Balancing and Soft Switching

Author

Xin Zhang, Xu Cai, Changjiang Sun, and School of Electrical and Electronic Engineering

Subjects
business.industry, Computer science, 020208 electrical & electronic engineering, Topology (electrical circuits), 02 engineering and technology, Modular design, Topology, Inductor, law.invention, Power (physics), Capacitor, Capacitor voltage, law, Filter (video), Electrical and electronic engineering [Engineering], 0202 electrical engineering, electronic engineering, information engineering, Inductors, Maximum power transfer theorem, Electrical and Electronic Engineering, business, Voltage
Abstract

Evolving from the popular modular multilevel ac-dc converter, the single-stage nonisolated modular multilevel dc-dc converter (MMDC) is advantageous for medium- and high-voltage applications. However, exploiting ac circulating power to balance the submodule energy, when utilized for high step ratio applications, existing MMDC topologies suffer from circulating current through the arms and large filter inductor at the low-voltage side. To overcome these issues, this article presents a new power transfer mechanism to balance the submodule energy automatically by reconstructing the half-bridge submodule into a quasi-resonant circuit. Based on this submodule structure, a new MMDC topology for step-up applications is proposed. Compared to the existing MMDCs, the proposed one offers the following advantages. First, the common-mode circulating current through the lower and upper arms is avoided. Second, the self-balancing of the capacitor voltages is guaranteed by the proposed modulation method to insert and bypass adjacent submodules in a complementary manner. Third, the soft-switching operation is achieved for the majority of the switches to alleviate switching losses. Fourth, the voltage stress across the input side inductor is limited to the submodule voltage, thereby reducing the size of the inductor. Simulation analysis and experimental results verify the performance of the proposed MMDC. Ministry of Education (MOE) Nanyang Technological University This work was supported in part by the National Natural Science Foundation of China under Grant 51677117 and in part by the Singapore ACRF Tier 1 Grant RG 85/18. The work of Xin Zhang was supported by the NTU Start-up Grant (SCOPES).

Published
2020
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42. Streptococcus suis serotype 2 enolase interaction with host brain microvascular endothelial cells and RPSA-induced apoptosis lead to loss of BBB integrity

Author

Guanggang Qu, Hongtao Liu, Li Jia, Paul R. Langford, Hexiang Jiang, Yingying Sun, Changjiang Sun, Xin Feng, Shuguang Li, Rining Zhu, Xiaojing Xia, Wenyu Han, Liancheng Lei, Jingmin Gu, Lei Siyu, and Biotechnology and Biological Sciences Research Council (BBSRC)

Subjects
Ribosomal Proteins, 0301 basic medicine, Streptococcus suis, Swine, [SDV]Life Sciences [q-bio], 030106 microbiology, Enolase, Apoptosis, Biology, Serogroup, Blood–brain barrier, p38 Mitogen-Activated Protein Kinases, Virulence factor, 40S Ribosomal Protein SA, Mice, 03 medical and health sciences, Blood brain barrier, Streptococcal Infections, medicine, Animals, Meningitis, Veterinary Sciences, Extracellular Signal-Regulated MAP Kinases, Heat-Shock Proteins, Swine Diseases, Host cell membrane, Streptococcus suis serotype 2, lcsh:Veterinary medicine, General Veterinary, 0707 Veterinary Sciences, Endothelial Cells, RPSA, Coculture Techniques, 3. Good health, Cell biology, Eukaryotic Initiation Factor-4E, 030104 developmental biology, medicine.anatomical_structure, Gene Expression Regulation, Blood-Brain Barrier, Interaction with host, Phosphopyruvate Hydratase, lcsh:SF600-1100, Intracellular, 0605 Microbiology, Research Article, Protein Binding
Abstract

Host proteins interacting with pathogens are receiving more attention as potential therapeutic targets in molecular medicine. Streptococcus suis serotype 2 (SS2) is an important cause of meningitis in both humans and pigs worldwide. SS2 Enolase (Eno) has previously been identified as a virulence factor with a role in altering blood brain barrier (BBB) integrity, but the host cell membrane receptor of Eno and The mechanism(s) involved are unclear. This study identified that SS2 Eno binds to 40S ribosomal protein SA (RPSA) on the surface of porcine brain microvascular endothelial cells leading to activation of intracellular p38/ERK-eIF4E signalling, which promotes intracellular expression of HSPD1 (heat-shock protein family D member 1), and initiation of host-cell apoptosis, and increased BBB permeability facilitating bacterial invasion. This study reveals novel functions for the host-interactional molecules RPSA and HSPD1 in BBB integrity, and provides insight for new therapeutic strategies in meningitis.

Published
2021
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43. Simulation of ion cyclotron resonance heating by using particle-in-cell method in MPS-LD linear plasma device

Author

Changjiang Sun, Chaofeng Sang, Hongyu Wang, Yanjie Zhang, Yue Wang, Yu Bian, Jintao Wu, and Dezhen Wang

Subjects
Nuclear Energy and Engineering, Condensed Matter Physics
Abstract

The auxiliary heating of electrons and ions in linear plasma devices (LPDs) is necessary to achieve the boundary plasma relevant environment of tokamaks, to investigate the boundary physics and plasma—material interactions. In this work, the simulation of ion cyclotron resonance heating (ICRH) in the LPD multiple plasma simulation linear device (MPS-LD) is carried out by using a 3D particle-in-cell method, and the wave—ion interaction mechanism based on a ‘beach-heating’ technique in the ion heating region is investigated. A left-handed, circularly polarized wave along the magnetic field lines is used to represent the electromagnetic wave in the model, after the analysis of the cold plasma dispersion relation. The mechanism of ion heating by collisionless damping absorption is demonstrated and explained by using the plasma current as the plasma response. The dependencies of the heating efficiency on the plasma density, magnetic field strength and magnetic field configuration are studied. The correlation between plasma density and magnetic field strength, which satisfies the heating efficiency, is found and it is in perfect agreement with the theoretical derivation. Finally, by using the designed parameters of MPS-LD provided by SOLPS-ITER, the prediction of ICRH is performed. The simulation result shows that the ion temperature can be heated higher than 40 eV and it satisfies the requirement for scrape-off layer/divertor simulation experimentally in MPS-LD.

Published
2023
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45. Deep Reinforcement Learning Based Input Voltage Sharing Method for Input-Series Output-Parallel Dual Active Bridge Converter in DC Microgrids

Author

Zhan Li, Suvajit Mukherjee, Changjiang Sun, Xin Zhang, Josep Pou, Ali I. Maswood, Yu Zeng, Amit Kumar Gupta, and Jiaxin Dong

Subjects
Control algorithm, Series (mathematics), Computer science, Electronic engineering, Reinforcement learning, Low voltage, Bridge (nautical), Dual (category theory), Voltage
Abstract

The input-series output-parallel connected dual active bridge (ISOP-DAB) converter is an attractive solution to connect medium-voltage dc (MVdc) and low-voltage dc (LVdc) grids. This paper proposes an input voltage sharing (IVS) control algorithm for a multi-agent (MA) ISOP-DAB converter based on the deep reinforcement learning (DRL) method. Compared with other methods, the proposed control algorithm can regulate the output voltage and ensure the IVS of the ISOPDAB converter adaptively in real-time. Real-time simulations in OP5600 validate that the proposed algorithm has good dynamic performance.

Published
2021
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46. vB-ApyS-JF1, the First Trueperella pyogenes Phage, Shows Potential as an Alternative Treatment Strategy for Trueperella pyogenes Infections

Author

Jingmin Gu, Zhou Zuoyong, Liancheng Lei, Fengyang Li, Zhimin Guo, Changjiang Sun, Yuan Guan, Xiao Liu, Liran Song, Yalu Ji, Li Yang, Wenyu Han, and Xin Feng

Subjects
Microbiology (medical), phage therapy, mice, Phage therapy, ved/biology, medicine.medical_treatment, ved/biology.organism_classification_rank.species, Biology, biology.organism_classification, Microbiology, QR1-502, Trueperella pyogenes, Antibiotic resistance, Lytic cycle, Interferon, vB-ApyS-JF1, medicine, bacteremia, Gene, Pathogen, Bacteria, medicine.drug, Original Research
Abstract

Trueperella pyogenes (T. pyogenes) is an important opportunistic animal pathogen that causes huge economic losses to the animal husbandry industry. The emergence of bacterial resistance and the unsatisfactory effect of the vaccine have prompted investigators to explore alternative strategies for controlling T. pyogenes infection. Due to the ability of phages to kill multidrug-resistant bacteria, the use of phage therapy to combat multidrug-resistant bacterial infections has attracted attention. In this study, a T. pyogenes phage, vB-ApyS-JF1 (JF1), was isolated from sewage samples, and its whole genome and biological characteristics were elucidated. Moreover, the protective effect of phage JF1 on a mouse bacteremic model caused by T. pyogenes was studied. JF1 harbors a double-stranded DNA genome with a length of 90,130 bp (30.57% G + C). The genome of JF1 lacked bacterial virulence–, antibiotic resistance– and lysogenesis-related genes. Moreover, the genome sequence of JF1 exhibited low coverage (T. pyogenes in vitro. In murine experiments, a single intraperitoneal administration of JF1 30 min post-inoculation provided 100% protection for mice against T. pyogenes infection. Compared to the phosphate-buffered saline (PBS) treatment group, JF1 significantly (P < 0.01) reduced the bacterial load in the blood and tissues of infected mice. Meanwhile, treatment with phage JF1 relieved the pathological symptoms observed in each tissue. Furthermore, the levels of the inflammatory cytokines tumour necrosis factor-α (TNF-α), interferon-γ (IFN-γ), and interleukin-6 (IL-6) in the blood of infected mice were significantly (P < 0.01) decreased in the phage-treated group. Taken together, these results indicate that phage JF1 demonstrated great potential as an alternative therapeutic treatment against T. pyogenes infection.

Published
2021
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47. Rapid and sensitive detection of Staphylococcus aureus using biolayer interferometry technology combined with phage lysin LysGH15

Author

Changjiang Sun, Cao Qiu, Mengjun Cheng, Xiao Liu, Chunzheng Huang, Zijing Wang, Liancheng Lei, Fengyang Li, Yan Zhang, Wenyu Han, Yuan Guan, Xiaoguang Zhang, Xin Feng, Yinghan Qiao, Na Li, and Jingmin Gu

Subjects
Novel technique, Staphylococcus aureus, Technology, Food poisoning, Chemistry, Mutant, Biomedical Engineering, Biophysics, Lysin, General Medicine, Biosensing Techniques, medicine.disease_cause, medicine.disease, Microbiology, Interferometry, Lytic cycle, Binding time, Electrochemistry, medicine, Staphylococcus Phages, Pathogenic microorganism, Biotechnology
Abstract

Staphylococcus aureus (S. aureus), considered as a common foodborne pathogenic microorganism, usually causes food poisoning and various infectious diseases. Therefore, development of rapid and accurate bacterial detection method is the key to preventing food poisoning and achieving early diagnosis and treatment of various infectious diseases caused by S. aureus. Biolayer interferometry (BLI) technology is a novel technique of label-free optical analysis for real-time monitoring of biomolecular interactions. The C54A mutation induced the lytic activity loss of phage lysin LysGH15 but retained the capacity for specific recognizing and binding S. aureus. In this study, a novel method for the detection of S. aureus was established using the C54A mutant LysGH15 as the receptor in combination with BLI. Using this BLI-based method, S. aureus whole cells could be directly assayed and the limit of detection was 13 CFU/mL with a binding time of 12 min. Because the C54A mutant LysGH15 recognizes S. aureus with very high specificity, the method can exclude potential interference from other bacterial species. In addition, this method could also distinguish between viable and dead S. aureus. Moreover, S. aureus was successfully detected in ice cubes and light soy sauce by using this method. Collectively, these results indicate that the LysGH15-based BLI method can be used as an efficient and reliable diagnostic tool in the field of food safety and other related fields for the rapid, sensitive, label-free, and real-time detection of S. aureus.

Published
2021

48. Biological properties and genomics analysis of vB_KpnS_GH-K3, a Klebsiella phage with a putative depolymerase-like protein

Author

Mengjun Cheng, Zhimin Guo, Jingmin Gu, Yibing Xue, Zijing Wang, Changjiang Sun, Sadeeq ur Rahman, Hao Zhang, Gang Wang, Xinwu Wang, Xin Feng, Hengyu Xi, Liancheng Lei, Yigang Tong, Yalu Ji, Ruopeng Cai, and Wenyu Han

Subjects
Klebsiella, Klebsiella pneumoniae, Protein Data Bank (RCSB PDB), Sequence Homology, Genome, Viral, Synteny, DNA sequencing, Bacteriophage, Siphoviridae, Open Reading Frames, Viral Proteins, 03 medical and health sciences, Virology, Genetics, Bacteriophages, ORFS, Molecular Biology, 030304 developmental biology, 0303 health sciences, Microbial Viability, biology, 030306 microbiology, Temperature, General Medicine, Hydrogen-Ion Concentration, Viral Load, biology.organism_classification, Open reading frame
Abstract

Bacteriophages have been recently revisited as an alternative biocontrol tool due to the limitations of antibiotic treatment. In this study, we reported on the biological characteristics and genomic information of vB_KpnS_GH-K3 (abbreviated as GH-K3), a Klebsiella phage of the Siphoviridae family, which was previously isolated from a hospital sewage system. One-step growth curve analysis indicated that the burst size of GH-K3 was 291 PFU/cell. GH-K3 maintained a stable titer in a broad range of pH values (6-10) and temperature (up to 50 °C). Based on bioinformatics analysis, GH-K3 comprises of 49,427 bp containing a total of 77 open reading frames (ORFs), which share high degree of nucleotide similarity and close evolutionary relationships with at least 12 other Klebsiella phages. Of note, GH-K3 gp32 was identified as a unique ORF. The major segment of gp32 sequence at the C-terminus (residues 351-907) was found highly variable as determined by its mismatch with the nucleotide and protein sequences available at NCBI database. Furthermore, HHpred analysis indicated that GH-K3 gp32 contains three domains (PDB ID: 5W6S_A, 3GQ8_A and 1BHE_A) similar to depolymerase (depoKP36) of Klebsiella phage KP36 suggestive of a potential depolymerase activity during host receptor-binding in the processes of phage infection. Altogether, the current data revealed a novel putative depolymerase-like protein which is most likely to play an important role in phage-host interaction.

Published
2019
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50. Simulation of plasma transport in MPS-LD linear plasma device by using BOUT++

Author

Yue Wang, Chaofeng Sang, Nami Li, Yao Huang, Yanjie Zhang, Changjiang Sun, Yu Bian, Aimin Zhu, and Dezhen Wang

Subjects
Nuclear Energy and Engineering, Condensed Matter Physics
Abstract

A linear plasma device (LPD) module based on the 2D transport module under the BOUT++ framework is developed in this paper to simulate plasma transport in the LPD. The LPD module includes three parts, i.e. magnetic field calculation, simulation mesh generation and plasma transport setup. The magnetic field is calculated with the circular current loop using the location and current information of each coil. The mesh generation code can produce a simulation mesh for LPD by employing the magnetic field. The plasma transport model is based on the reduced Braginskii equations, which consist of the continuity equation, momentum equation, and energy equation. The fluid neutral model is applied for neutral particle simulation. Deuterium (D) and helium (He) ions and atoms can be simulated by the model. The first attempt to simulate plasma transport in the new LPD, called multiple plasma simulation linear plasma device (MPS-LD), is presented using the developed model. TheDplasma transport in the MPS-LD is simulated and benchmarked against the two-point model, showing the validation of the BOUT++ simulation. The effects of radial transport on the heat load to the target are studied, which illustrates the significant impact of the radial diffusivitiesD⊥andχ⊥i,eon the plasma. Moreover, the He impurity injection process during the discharge is studied with emphasis on plasma–impurity interactions. The simulation results show that He injection can reduce the plasma energy load to the target significantly, and the efficiency depends on the He source density and injection velocity. The present work provides an alternative and flexible simulation tool for plasma transport in LPDs.

Published
2022
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