Your search keyword '"Liwei Li"' showing total 911 results

1. Compound effects of biochar application and irrigation on soil water and temperature transport

Author

Fuchang Jiang, Yi Li, Yonglin Jia, Liwei Li, Ronghao Guan, and Asim Biswas

Subjects

biochar, irrigation, saline-alkali soil, soil evaporation, soil temperature, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

The issue of soil salinization poses a significant barrier to sustainable agricultural development, particularly in arid and semi-arid regions. Finding methods to enhance the quality of salinized soils while conserving water resources has become a pressing challenge. In arid and semi-arid environments, conserving water resources while maintaining soil health is a critical challenge. This study, conducted from 2021 to 2023, aimed to explore the combined effects of irrigation and biochar application on soil physicochemical properties, such as bulk density, porosity, and pH, as well as on Weighted Plane Soil Water Storage (WPSWS), soil temperature, and soil water evaporation. The experimental design included four irrigation levels, based on actual crop evapotranspiration (ETc): I1 (0.6 ETc), I2 (0.8 ETc), I3 (1.0 ETc), and I4 (1.2 ETc), coupled with four amounts of biochar application (AOBA) of 0, 10, 20, and 30 t ha−1, designated as C0, C10, C20, and C30, respectively. Through binary quadratic regression analysis, we sought to identify the optimal combination of irrigation amount and AOBA for enhancing soil quality. The results revealed that as AOBA increased from 10 to 30 t ha−1, soil bulk density decreased by 1.31–8.58% and soil pH by 0.23–1.31%. However, higher levels of AOBA adversely affected WPSWS, with the C10 treatment showing the maximum improvement in WPSWS, registering an average increase of 6.77, 7.49, and 11.16% compared to the C0, C20, and C30 treatments, respectively. We observed that an increase in irrigation amount significantly elevated accumulated soil evaporation (ASE) and WPSWS but led to a reduction in accumulated soil temperature (AST). The most notable soil quality improvements were recorded when irrigation levels were between 340 and 380 mm and AOBA ranged from 10 to 25 t ha−1. This study provides insights into the effective combination of biochar application and irrigation for optimizing soil resilience, thereby offering a sustainable approach to soil management in water-limited environments.

Published

2024

2. Decompression sickness-induced skeletal muscle injury: an animal model and pathological analysis

Author

Guanghua Chen, Yongbin Huang, Chunman Huang, Liwei Li, Jingqun Pang, Hongqiang Li, and Wenxi Zhang

Subjects

decompression sickness, skeletal muscle injury, decompression-induced osteonecrosis, pathological analysis, animal model, Veterinary medicine, SF600-1100

Abstract

AimsThe primary objective of this investigation is to establish an animal model that accurately represents skeletal muscle injury as a consequence of decompression sickness. Additionally, this study aims to delineate the potential mechanisms underlying the development and progression of skeletal muscle damage associated with decompression sickness.Materials and methods(1) In this research, rats were utilized as experimental models and subjected to 600 kPa pressure in an air medium for a duration of 60 min, followed by decompression at a consistent rate of 1.5 min to reach atmospheric pressure in order to establish an animal model for decompression injury. Assessment of decompression injury involved the observation of general symptoms and signs, as well as histopathological examination of lung tissue to determine the extent of damage in the pulmonary system of rats. (2) Building on the rat decompression injury model, we conducted pathological and serological examinations to assess the status of rat skeletal muscle. Additionally, we investigated the signaling mechanism of the TLR9-MyD88 pathway in mediating alterations in rat skeletal muscle resulting from decompression injury, and evaluated the effects of decompression injury on apoptosis in rat skeletal muscle.ResultsRepeated decompression induces significant damage to skeletal muscle tissue, characterized by edema, fiber rupture, and atrophy. This process also leads to a transient elevation in creatine kinase (CK-MM) levels in rat serum, as well as an upregulation of proteins such as TLR9, MyD88, p38, and ERK in rat skeletal muscle tissue. Furthermore, repeated decompression results in a temporary increase in the transcription levels of Atrogen-1mRNA and MuRF-1mRNA in rat skeletal muscle tissue.DiscussionThe decompression protocol applied in this study successfully induced decompression sickness in a rat model, leading to skeletal muscle damage that was consistent with the expected pathology of decompression injury. Despite the initial injury, the rats showed evidence of adaptation following prolonged exposure to decompression conditions.

Published

2024

3. Low ankle–brachial index is associated with higher cardiovascular mortality in individuals with nonalcoholic fatty liver disease

Author

Guang Xiong, Liuqing Guo, Liwei Li, and Min Liang

Subjects

Nonalcoholic fatty liver disease, Ankle–brachial index, Mortality, Medicine

Abstract

Abstract Background and aims Ankle brachial index (ABI) is a risk factor for cardiovascular mortality, but it is unclear whether ABI is associated with cardiovascular mortality in patients with nonalcoholic fatty liver disease (NAFLD). The current study aimed to evaluate the association between ABI with cardiovascular and all-cause mortality in patients with NAFLD. Methods We performed a cohort study using the data of the1999–2004 National Health and Nutrition Examination Survey data of adults. Mortality data were followed up to December 2015. NAFLD was defined by the hepatic steatosis index or the US fatty liver index. ABI was classified into three groups: ABI ≤ 0.9 (low value); 0.9

Published

2024

4. Dataset of the complete mitogenomes of Galaxea (Scleractinia: Euphyllidae)GenBankGenBankGenBankGenBankGenBankGenBankGenBankGenBankGenBankGenBankGenBank

Author

Zhangwang Lu, Liwei Li, Zhiying Lu, Chengchong Fu, Jun Wang, and Yan Wang

Subjects

Mitogenome, Galaxea (scleractinia: euphyllidae), Species complex, Phylogeny, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

Galaxea is a genus of colonial stony corals that are widely distributed in the Indian and Pacific Oceans. According to the differences of microbasic p-mastigophore (MpM) nematocysts and mitochondrial haplotype, four types (type S, type H, type M and type S+) were identified in this genus. There is significant genetic differentiation among those types and they belong to distinct branches in the Maximum likelihood tree, therefore they conform to the primary species hypotheses (PSHs) and the whole Galaxea might be a species complex. Here we present the assembly and annotation of eleven mitogenomes of the four types and used the dataset to explore their phylogeny. The eleven Galaxea mitogenomes all contained the same 13 PCGs (protein-coding genes) and two rRNA genes as the published mitogenome of G. fascicularis (GenBank No NC_029696). However, the length of mitogenomes of distinct types varies because there are two characteristic indels in the mitogenomes, one is located at the intergenic region (IGR) of CYTB-ND2 and the other is located at the IGR of COX1-trnM. The phylogenetic analysis based on 13 PCGs showed that type S/M, type H and type S+ clustered into three separate clades. These mitogenomes will be valuable for better understanding the phylogeny, speciation, and differentiation of the Galaxea species complex.

Published

2024

5. Integrated Microwave Photonic Sensors Based on Microresonators

Author

Xiaoyi Tian, Liwei Li, Linh Nguyen, and Xiaoke Yi

Subjects

integrated photonics, microresonators, microwave photonics, sensors, Technology (General), T1-995, Science

Abstract

Abstract Sensors stand as pivotal cornerstones of technology, driving progress across a spectrum of industries through their ability to precisely capture and interpret an extensive array of physical phenomena. Among these advancements, microwave photonic (MWP) sensing has emerged as a new sensing technique, elevating sensing speed and resolution for practical applications. Integrated MWP sensors exhibit unparalleled capabilities in ultra‐sensitive, label‐free nanoscale detection, offering the potential to synergize with advanced integration techniques for a compact footprint and versatile designs. This paper reviews and summarizes the development and recent advances in integrated MWP sensing, focusing on the schemes based on microresonators. The diverse array of existing schemes is systematically categorized, elucidating their operational principles and performance demonstration. Furthermore, the assistance of machine learning and deep learning in integrated MWP sensors is explored, highlighting the potential of intelligent sensing paradigms. Finally, current challenges and opportunities aimed at further advancing MWP sensors are discussed.

Published

2024

6. Design and Testing of Electric Drive System for Maize Precision Seeder

Author

Lin Ling, Yuejin Xiao, Xinguang Huang, Guangwei Wu, Liwei Li, Bingxin Yan, and Duanyang Geng

Subjects

CAN bus, field-orientated control, electric drive system, seeding quality, maize, Agriculture (General), S1-972

Abstract

To improve the expandability, seeding accuracy, and operating speed range of the electric drive system (EDS) of precision seeders, this study constructed an EDS based on a controller area network (CAN) bus and designed a motor controller based on a field-orientated control (FOC) algorithm. Full-factorial bench and field tests based on seed spacing (0.1, 0.2, and 0.3 m) and operating speed (3, 6, 9, 12, and 15 km/h) were carried out to evaluate the performance of the EDS. The results of bench tests showed that seeding quality varied inversely with operating speed and positively with seed spacing. The average quality of feed index (QFI) at 0.1, 0.2, and 0.3 m seed spacing in bench tests was 88.38%, 96.67%, and 97.36%, with the average coefficient of variation (CV) being 20.13%, 16.27%, and 13.20%. Analysis of variance confirmed that both operating speed and seed spacing had a significant effect on QFI and CV (p < 0.001). The analysis of motor rotational speed accuracy showed that the relative error of motor rotational speed above 410 rpm did not exceed 2.24%, and the relative error had less influence on the seeding quality. The average QFI was 85.93%, 95.91%, and 96.24%, with the average CV being 21.12%, 15.50%, and 16.49% at 0.1, 0.2, and 0.3 m seed spacing in field tests. The methods and results of this study can provide a reference for the design and optimization of the EDS in a maize precision seeder and provide an effective solution for the improvement of maize yields.

Published

2024

7. Interaction Effects of Water and Nitrogen Practices on Wheat Yield, Water and Nitrogen Productivity under Drip Fertigation in Northern China

Author

Xin Zhang, Jianheng Zhang, Liwei Li, Yang Liu, Wenchao Zhen, and Guiyan Wang

Subjects

subsurface fertigation, N topdressing, wheat physiology, yield, resource use efficiency, Agriculture (General), S1-972

Abstract

Water resource shortage and unreasonable application of nitrogen (N) fertilizer have been problems in wheat production of northern China. However, the interaction effects of water regimes and N practices on wheat root growth, grain yield, soil water, and inorganic N changes as well as water-N use efficiency are still unclear under drip irrigation. A field experiment was conducted during the 2020–2021 and 2021–2022 winter wheat (Triticum aestivum) growing seasons. In this study, three irrigation schedules (i.e., irrigation was applied up to 80% [D1], 75% [D2], and 70% [D3] as soon as the soil water content decreased to 65%, 60% or 55% of field capacity) and two N practices (i.e., N applied at the base, jointing, booting stages were 90, 72, 48 kg ha−1 [N1], and the base, jointing, booting, filling stages were 90, 40, 40, 40 kg ha−1 [N2], respectively) were considered. The decease in irrigation water amount was offset by the increase in soil water consumption. In addition, N practices significantly interacted with irrigation on soil NO3−–N accumulation (2021–2022), NH4+–N accumulation, SPAD value (2020–2021), N content in stems and grains at maturity, and average root length and weight density at the flowering stage. Irrigation, rather than N practices, significantly affected grain yield, total N uptake, crop N transformations (NT), the contribution of NT to grain (NTPC), water and N productivity, in which, for the value of these two seasons, D2 increased total N uptake by 18.1% (p < 0.05), and NT by 39.4% (p < 0.05) under N1 as compared to D3. Additionally, the highest WUE and ANUE were found in D2 during 2021–2022. Heavy irrigation water amount caused high a LAI; further analysis proved that the LAI was the key factor affecting grain yield, and positively and significantly correlated to yield. However, no significant difference in the LAI between D1 and D2 was found. N1 was beneficial to prevent N leaching and increase water and N use efficiency, biomass, and N transformation amount. This study recommends that D2 + N1 might be a promising system for manipulating irrigation and fertilization practices under sub-surface drip irrigation systems to improve water and N use efficiency and grain yields in semi-arid regions.

Published

2024

8. Predictive models for lymph node metastasis in endometrial cancer: A systematic review and bibliometric analysis

Author

He Li, Junzhu Wang, Guo Zhang, Liwei Li, Zhihui Shen, Zhuoyu Zhai, Zhiqi Wang, and Jianliu Wang

Subjects

Medicine

Abstract

Background: Lymph node metastasis is associated with a poorer prognosis in endometrial cancer. Objective: The objective was to synthesize and critically appraise existing predictive models for lymph node metastasis risk stratification in endometrial cancer. Design: This study is a systematic review. Data Sources and Methods: We searched the Web of Science for articles reporting models predicting lymph node metastasis in endometrial cancer, with a systematic review and bibliometric analysis conducted based upon which. Risk of bias was assessed by the Prediction model Risk Of BiAS assessment Tool (PROBAST). Results: A total of 64 articles were included in the systematic review, published between 2010 and 2023. The most common articles were “development only.” Traditional clinicopathological parameters remained the mainstream in models, for example, serum tumor marker, myometrial invasion and tumor grade. Also, models based upon gene-signatures, radiomics and digital histopathological images exhibited an acceptable self-reported performance. The most frequently validated models were the Mayo criteria, which reached a negative predictive value of 97.1%–98.2%. Substantial variability and inconsistency were observed through PROBAST, indicating significant between-study heterogeneity. A further bibliometric analysis revealed a relatively weak link between authors and organizations on models predicting lymph node metastasis in endometrial cancer. Conclusion: A number of predictive models for lymph node metastasis in endometrial cancer have been developed. Although some exhibited promising performance as they demonstrated adequate to good discrimination, few models can currently be recommended for clinical practice due to lack of independent validation, high risk of bias and low consistency in measured predictors. Collaborations between authors, organizations and countries were weak. Model updating, external validation and collaborative research are urgently needed. Registration: None.

Published

2024

9. The CD2v protein of African swine fever virus inhibits macrophage migration and inflammatory cytokines expression by downregulating EGR1 expression through dampening ERK1/2 activity

Author

Min Zhang, Lilei Lv, Huaye Luo, Hongming Cai, Lingxue Yu, Yifeng Jiang, Fei Gao, Wu Tong, Liwei Li, Guoxin Li, Yanjun Zhou, Guangzhi Tong, and Changlong Liu

Subjects

ASFV, CD2v, cell migration, EGR1, ERK1/2, inflammatory cytokine, Veterinary medicine, SF600-1100

Abstract

Abstract African swine fever virus (ASFV) is a highly contagious and deadly virus that leads to high mortality rates in domestic swine populations. Although the envelope protein CD2v of ASFV has been implicated in immunomodulation, the molecular mechanisms underlying CD2v-mediated immunoregulation remain unclear. In this study, we generated a stable CD2v-expressing porcine macrophage (PAM-CD2v) line and investigated the CD2v-dependent transcriptomic landscape using RNA-seq. GO terms enrichment analysis and gene set enrichment analysis revealed that CD2v predominantly affected the organization and assembly process of the extracellular matrix. Wound healing and Transwell assays showed that CD2v inhibited swine macrophage migration. Further investigation revealed a significant decrease in the expression of transcription factor early growth response 1 (EGR1) through inhibiting the activity of extracellular signal-regulated kinase 1 and 2 (ERK1/2). Notably, EGR1 knockout in swine macrophages restricted cell migration, whereas EGR1 overexpression in PAM-CD2v restored the ability of macrophage migration, suggesting that CD2v inhibits swine macrophage motility by downregulating EGR1 expression. Furthermore, we performed chromatin immunoprecipitation and sequencing for EGR1 and the histone mark H3K27 acetylation (H3K27ac), and we found that EGR1 co-localized with the activated histone modification H3K27ac neighboring the transcriptional start sites. Further analysis indicated that EGR1 and H3K27ac co-occupy the promoter regions of cell locomotion-related genes. Finally, by treating various derivatives of swine macrophages with lipopolysaccharides, we showed that depletion of EGR1 decreased the expression of inflammatory cytokines including TNFα, IL1α, IL1β, IL6, and IL8, which play essential roles in inflammation and host immune response. Collectively, our results provide new insights into the immunomodulatory mechanism of ASFV CD2v.

Published

2023

10. Parthenolide alleviates cognitive dysfunction and neurotoxicity via regulation of AMPK/GSK3β(Ser9)/Nrf2 signaling pathway

Author

Jinfeng Sun, Liwei Li, Li Xiong, Fan Chen, Lingyu She, Hao Tang, Yuqing Zeng, Ying Duan, Luyao Li, Wei Wang, Gao Li, Xia Zhao, and Guang Liang

Subjects

Alzheimer’s disease, Parthenolide, Cell apoptosis, Cognitive deficits, AMPK, Therapeutics. Pharmacology, RM1-950

Abstract

Alzheimer's disease (AD) stands as the predominant age-related neurodegenerative disorder, for which efficacious treatment remains elusive. An auspicious avenue for this disease lies in natural compounds sourced from tranditional medicine and plant origins. Parthenolide (PTN) is a natural product with multiple biological functionsand. Recent investigations have illuminated PTN's protective properties against neurological maladies; however, its potential therapeutic role against AD remains uncharted. This study aims to explore the role of PTN in treating AD. Our in vitro findings underscore PTN's bioactivity, as evidenced by its capacity to curtail apoptosis, reduce reactive oxygen species (ROS) production, and restore mitochondrial membrane potential in PC12 cells. Moreover, PTN treatment demonstrates a capacity to ameliorate deficits in spatial learning and memory in the 3 ×Tg-AD murine model. Notably, PTN's therapeutic efficacy surpasses that of a clinical agent, donepezil. Mechanistically, PTN's neuroprotective effects stem from its adept regulation of the AMPK/GSK3β(ser9)/Nrf2 signaling pathway and protection on neuronal cells from ROS-related apoptosis. Although the molecular target and the pre-clinical evaluations of PTN need to be further explored, this study indicates PTN as a potential agent or lead compound for the drug development against AD.

Published

2023

11. Hydrogen trapping and hydrogen embrittlement (HE) susceptibility of X70 grade high-strength, acid-resistant, submarine pipeline steel with Mg treatment

Author

Fengjun Lang, Feng Huang, Jiangbo Yue, Liwei Li, Jinqiao Xu, and Jing Liu

Subjects

Mg treatment, Hydrogen trapping, Hydrogen embrittlement, X70 submarine pipeline steel, Mining engineering. Metallurgy, TN1-997

Abstract

The hydrogen embrittlement (HE) susceptibility of X70 grade, Acid-resistant, submarine pipeline steel with Mg treatment was studied via constant loading and slow strain rate tension (SSRT). The hydrogen diffusion and trapping behaviour in the tested steels treated with different Mg content was analysed by electrochemical hydrogen permeation testing and thermal desorption spectroscopy (TDS). The results suggested that micro/nanocomposite inclusions with “core-shell” structures obtained via Mg treatment have a greater activation energy of hydrogen desorption. On the one hand, this kind of inclusions can trap more hydrogen and reduce the diffusion coefficient of hydrogen in steel; on the other hand, the internal rigid core of Al–Mg–Ti–O and external soft shell of MnS not only play a role in stress shielding but also hinder the initiation and expansion of stress cracks. For the X70 grade high-strength, acid-resistant submarine pipeline steel, an optimal Mg addition amount is 0.003% (mass fraction).

Published

2023

12. Characteristics of molecular classification in 52 endometrial cancer and atypical hyperplasia patients receiving fertility-sparing treatment

Author

Yiqin Wang, Nan Kang, Liwei Li, Zhiqi Wang, Rong Zhou, Danhua Shen, and Jianliu Wang

Subjects

Endometrial cancer, Fertility-sparing, Progesterone, Molecular classification, Efficacy, Gynecology and obstetrics, RG1-991

Abstract

Objective: To investigate the molecular classification of endometrial cancer (EC) and atypical endometrial hyperplasia (AEH) patients treated with fertility-sparing treatment (FST), and its relationship with clinicopathological factors and treatment efficacy. Methods: A total of 52 ​EC and AEH patients who received FST and molecular classification tested by next generation sequencing in Peking University People's Hospital from June 2020 to December 2022, were retrospectively collected. We analyzed the relationship between molecular classification and clinicopathological factors and treatment outcomes. Results: (1) Of the 52 patients, including 46 ​EC and 6 AEH patients, 42 (80.8%) achieved complete remission (CR) after FST, with a median time to achieve CR of 9 months. Ten cases (23.8%) had recurrence. (2) Patients were distributed into 4 molecular subgroups as 39 cases (75%) of copy number low (CNL) , 7 cases (13.5%) of microsatellite instability-high (MSI-H) , 4 cases (7.7%) of POLE mutations (POLEmut), and 2 cases (3.8%) of copy number high (CNH). Patients with MSI-H subgroup had more family history of tumor (6/7), more with loss of expression of mismatch repair (MMR) protein (7/7), and higher expression level of Ki-67 (3/3). (3) Patients with MSI-H subgroup had the lowest CR rate at 6 months (0/7, P ​= ​0.014), and survival analysis showed that such patients were less likely to achieve CR than those with CNL (P ​= ​0.022). For CNL patients, median 6-month CR rate was 40.6%. In addition, CR was obtained in 3 (3/4) POLEmut patients and 2 (2/2) CNH patients, respectively. Conclusions: Molecular classification relates with the treatment response in patients with EC and AEH receiving FST. Patients with MSI-H subgroup have poor treatment efficacy, and patients with CNL need to be further divided to predict treatment benefit. There are also a few successful cases in POLEmut and CNH subtgroups, which needs further research.

Published

2023

13. A Satellite-Drone Image Cross-View Geolocalization Method Based on Multi-Scale Information and Dual-Channel Attention Mechanism

Author

Naiqun Gong, Liwei Li, Jianjun Sha, Xu Sun, and Qian Huang

Subjects

geolocalization, cross-view image matching, multi-scale information, attention mechanism, Science

Abstract

Satellite-Drone Image Cross-View Geolocalization has wide applications. Due to the pronounced variations in the visual features of 3D objects under different angles, Satellite-Drone cross-view image geolocalization remains an unresolved challenge. The key to successful cross-view geolocalization lies in extracting crucial spatial structure information across different scales in the image. Recent studies improve image matching accuracy by introducing an attention mechanism to establish global associations among local features. However, existing methods primarily focus on using single-scale features and employ a single-channel attention mechanism to correlate local convolutional features from different locations. This approach inadequately explores and utilizes multi-scale spatial structure information within the image, particularly lacking in the extraction and utilization of locally valuable information. In this paper, we propose a cross-view image geolocalization method based on multi-scale information and a dual-channel attention mechanism. The multi-scale information includes features extracted from different scales using various convolutional slices, and it extensively utilizes shallow network features. The dual-channel attention mechanism, through successive local and global feature associations, effectively learns depth discriminative features across different scales. Experimental results were conducted using existing satellite and drone image datasets, with additional validation performed on an independent self-made dataset. The findings indicate that our approach exhibits superior performance compared to existing methods. The methodology presented in this paper exhibits enhanced capabilities, especially in the exploitation of multi-scale spatial structure information and the extraction of locally valuable information.

Published

2024

14. Advances in research on cell models for skeletal muscle atrophy

Author

Liwei Li, Chunman Huang, Jingqun Pang, Yongbin Huang, Xinxin Chen, and Guanghua Chen

Subjects

Skeletal muscle atrophy, Myotubes, Cell models, Therapeutics. Pharmacology, RM1-950

Abstract

Skeletal muscle, the largest organ in the human body, plays a crucial role in supporting and defending the body and is essential for movement. It also participates in regulating the processes of protein synthesis and degradation. Inhibition of protein synthesis and activation of degradation metabolism can both lead to the development of skeletal muscle atrophy, a pathological condition characterized by a decrease in muscle mass and fiber size. Many physiological and pathological conditions can cause a decline in muscle mass, but the underlying mechanisms of its pathogenesis remain incompletely understood, and the selection of treatment strategies and efficacy evaluations vary. Moreover, the early symptoms of this condition are often not apparent, making it easily overlooked in clinical practice. Therefore, it is necessary to develop and use cell models to understand the etiology and influencing factors of skeletal muscle atrophy. In this review, we summarize the methods used to construct skeletal muscle cell models, including hormone, inflammation, cachexia, genetic engineering, drug, and physicochemical models. We also analyze, compare, and evaluate the various construction and assessment methods.

Published

2023

15. Expression of ASFV p17 in CHO cells and identification of one novel epitope using a monoclonal antibody

Author

Liwei Li, Sina Qiao, Shumao Wang, Jiachen Liu, Kuan Zhao, Yanjun Zhou, Guoxin Li, Yifeng Jiang, Changlong Liu, Guangzhi Tong, Wu Tong, and Fei Gao

Subjects

ASFV, P17, CHO cells, Monoclonal antibody, Epitope, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

As a highly pathogenic large DNA virus, African swine fever virus (ASFV) has huge particles and numerous encoded proteins. At present, few of the existing studies on ASFV proteins have investigated the function of p17. Specific antibodies against p17 to promote the development of prevention techniques against African swine fever (ASF) are urgently needed. Herein, we successfully expressed ASFV p17 in CHO cells using a suspension culture system and generated a monoclonal antibody (mAb) against p17. The mAb recognized a novel linear epitope (8LLSHNLSTREGIK20) and exhibited specific reactivity, which was conducive to the identification of ectopically expressed p17, the recombinant porcine reproductive and respiratory syndrome virus expressing p17, and the ASFV-SY18. The epitope was conservative among genotype I and genotype II ASFV strains. Overall, the mAb against p17 revealed efficient detection and promising application prospects, making it a useful tool for future vaccine research on ASF. Determination of the conserved linear epitope of p17 would contribute to the in-depth exploration of the biological function of ASFV antigen protein.

Published

2023

16. BST2 negatively regulates porcine reproductive and respiratory syndrome virus replication by restricting the expression of viral proteins

Author

Yujiao Zhang, Ning Kong, Jinfeng Ti, Dongshen Cao, Zhaofeng Sui, Aimin Ge, Liuting Pan, Kuan Zhao, Yanjun Zhou, Guangzhi Tong, Liwei Li, and Fei Gao

Subjects

Prrsv, Bst2, E protein, Nsp12, Antiviral activity, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

Porcine reproductive and respiratory syndrome virus (PRRSV) has seriously affected the viability of swine industries worldwide, and effective measures to control PRRSV are urgently required. Understanding the mechanisms of action of antiviral proteins is crucial for developing antiviral strategies. Interferon-induced bone marrow stromal cell antigen 2 (BST2) can inhibit the replication of various viruses via different pathways. However, little is known about the effects of BST2 on PRRSV. Therefore, this study aimed to evaluate whether the interferon-induced BST2 can inhibit PRRSV replication. We used western blotting and RT-qPCR techniques to analyze the effect of BST2 overexpression and knockdown on PRRSV replication. Overexpression of BST2 inhibited the replication of PRRSV, whereas knockdown of BST2 by small interfering RNA promoted PRRSV replication. Additionally, the expression of BST2 was upregulated during the early phase of PRRSV infection in porcine alveolar macrophages. Analysis of PRRSV proteins showed that BST2 restricted the expression of several non-structural viral proteins. BST2 downregulated the expression of Nsp12 through a proteasome-dependent pathway and downregulated the expression and transcription of E protein. These findings demonstrate the potential of BST2 as a critical regulator of PRRSV replication.

Published

2023

17. Expression of EMT-related genes in lymph node metastasis in endometrial cancer: a TCGA-based study

Author

He Li, Junzhu Wang, Liwei Li, Luyang Zhao, and Zhiqi Wang

Subjects

Endometrial cancer, Lymph node metastasis, Epithelial-mesenchymal transition, The cancer genome atlas, Pathway, Gene signature, Surgery, RD1-811, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Endometrial cancer (EC) with metastasis in pelvic/para-aortic lymph nodes suggests an unsatisfactory prognosis. Nevertheless, there is still rare literature focusing on the role of epithelial-mesenchymal transition (EMT) in lymph node metastasis (LNM) in EC. Methods Transcriptional data were derived from the TCGA database. Patients with stage IA–IIIC2 EC were included, constituting the LN-positive and LN-negative groups. To evaluate the extent of EMT, an EMT signature composed of 315 genes was adopted. The EMT-related genes (ERGs) were obtained from the dbEMT2 database, and the differentially expressed ERGs (DEERGs) between these two groups were screened. On the basis of DEERGs, pathway analysis was carried out. We eventually adopted the logistic regression model to build an ERG-based gene signature with predictive value for LNM in EC. Results A total of 498 patients were included, with 75 in the LN-positive group. Median EMT score of tumor tissues from LN-negative group was − 0.369, while that from the LN-positive group was − 0.296 (P

Published

2023

18. Remote Sensing Identification and Spatiotemporal Change Analysis of Cladophora with Different Morphologies

Author

Wenting Xu, Qian Shen, Bo Zhang, Yue Yao, Yuting Zhou, Jiarui Shi, Zhijun Zhang, Liwei Li, and Junsheng Li

Subjects

filamentous algae, Qinghai Lake, Sentinel-2, driving force, climatic factors, Science

Abstract

Cladophora qinghaiensis, an endemic species of Cladophora in saltwater lakes, was scientifically named in 2021 (hereafter referred to as Cladophora). Cladophora exists in different morphologies, including attached submerged Cladophora (AC), grown floating Cladophora (GFC), and death floating Cladophora (DFC). Previous satellite remote sensing has mainly focused on identifying floating algae. In this study, Qinghai Lake served as a case study, and a classification decision tree model (CDTM) was proposed. The model employed the chlorophyll spectral index (CSI) and the normalized difference vegetation index (NDVI) to differentiate AC, Floating Cladophora (FC), and water. Additionally, the floating Cladophora index (FCI) was introduced to further distinguish GFC and DFC within FC. The method was applicable to Sentinel-2 images from 2016–2023. Visual interpretation methods were used for Landsat series images from the summer months (July to September) to obtain the AC and FC. The results demonstrate that over the past 30 years, the areas inhabited by AC and FC have increased gradually. The three morphologies of Cladophora also exhibited seasonal variations, with growth observed annually in May–June, reaching peaks in August–September, and gradually declining in October. In addition, by combining factors such as water surface area and climatic factors, we analyzed the driving forces influencing the changes in Cladophora. In this research, AC and FC showed significant correlations with the water surface area, with correlation coefficients (r) of approximately 0.9 and 0.7, respectively. These new findings provide valuable insights regarding the spatiotemporal changes and underlying causes for different morphologies of Cladophora in global saline lakes.

Published

2024

19. Progress in Simulation Modeling Based on the Finite Element Method for Electrical Discharge Machining

Author

Liwei Li, Shuo Sun, Wenbo Xing, Yuyan Zhang, Yonglei Wu, Yingjie Xu, Hongyan Wang, Guojun Zhang, and Guofu Luo

Subjects

single-spark simulations, multi-spark simulations, material removal rate, surface roughness, tool wear ratio, recast layer thickness, Mining engineering. Metallurgy, TN1-997

Abstract

Electrical Discharge Machining (EDM) is a machining method commonly used to produce complex shapes and deep holes by eroding hard metals with an electric arc. There is a growing demand for process simulation using finite element models in order to improve the quality and efficiency of EDM, to reduce costs, to improve resource efficiency, and to facilitate its application in critical areas such as aerospace and mechanical engineering. Finite element models have greatly improved the prediction accuracy of EDM processes, simulated complex hybrid machining processes, and provided important guidance for the optimization of EDM processes. This paper systematically reviews the research progress of finite element modeling for EDM. Finite element method modeling is evaluated mainly in terms of four indicators: material removal rate, surface roughness, tool wear ratio, and recast layer thickness. Firstly, the importance and application of EDM are described, and the EDM finite element method modeling and its advantages are summarized. Then, the single-spark simulation model and the multi-spark simulation model of EDM are compared and discussed. Among the mainstream finite element models, the prediction error of the material removal rate for single-spark simulation ranges from 8.2% to 14.75%, while the prediction error of the recast layer thickness for multi-spark simulation can be as low as 1.98%. Finally, the applications of finite element modeling in EDM hybrid machining processes’ performance prediction and new material machining are summarized, and future research directions and trends in EDM finite element modeling are predicted.

Published

2023

20. Configuration and Motion Modeling of a New Parallel Machine Tool Based on 3-RRRS Mechanism

Author

Chunmei Pan, Ruolan Wang, Liwei Li, Liangwen Wang, Yalei Shi, and Shizhao Zhang

Subjects

Parallel machine tool, 3-RRRS mechanism, Modular construction, Inverse kinematics, Modeling and simulation, Mechanical engineering and machinery, TJ1-1570

Abstract

A novel parallel machine tool configuration is presented based on 3-RRRS mechanism. RRRS refers to kinematic pairs of a branched chain consisting of three R-pairs and an S-pair. The 3-RRRS mechanism connects a moving platform between top and bottom platforms，by which the six-dimensional motion of the moving platform relative to the bottom platform can be achieved. A power head installed on the moving platform completes the machining operation of the machine tool. Each R-pair in RRRS motion branch chain is equipped with a drive power where each motion consists of 3 drive pairs. The whole motion branch chain system has 9 driver variables and possesses sub-driver features，which make the parallel machine tool have a larger workspace and better motion and dynamic characteristics. Firstly，the modular structure of the novel machine tool is introduced. Secondly，the modeling analysis of the machine tool based on 3-RRRS mechanism is carried out and the motion and control models of each mechanism variables are given in machine tool operation. Finally，the calculation example is given and the result is verified by using a motion simulation. The related works provide a theoretical basis for the practical use of subsequent equipment.

Published

2022

21. The rPRRSV-E2 strain exhibited a low level of potential risk for virulence reversion

Author

Yifeng Jiang, Fei Gao, Liwei Li, Yanjun Zhou, Wu Tong, Lingxue Yu, Yujiao Zhang, Kuan Zhao, Haojie Zhu, Changlong Liu, Guoxin Li, and Guangzhi Tong

Subjects

rPRRSV-E2, virulence reversion, genetic stability, in vivo passage, CSFV E2, Veterinary medicine, SF600-1100

Abstract

Porcine Reproductive and Respiratory Syndrome Virus (PRRSV) and Classical Swine Fever Virus (CSFV) are two important pathogens, which cause serious impact on swine industry worldwide. In our previous research, rPRRSV-E2, the recombinant PRRSV expressing CSFV E2 protein, could provide sufficient protection against the lethal challenge of highly pathogenic PRRSV and CSFV, and could maintained genetically stable in vitro. Here, to evaluate the virulence reversion potential risk, rPRRSV-E2 had been continuously passaged in vivo, the stability of E2 expression and virulence of the passage viruses were analyzed. The results showed that no clinical symptoms or pathological changes could be found in the inoculated groups, and there were no significant differences of viraemia among the test groups. Sequencing and IFA analysis showed that the coding gene of exogenous CSFV E2 protein existed in the passaged viruses without any sequence mutations, deletions or insertions, and could expressed steadily. It could be concluded that the foreign CSFV E2 gene in the genome of rPRRSV-E2 could be maintained genetically stable in vivo, and rPRRSV-E2 strain had relatively low level of potential risk for virulence reversion.

Published

2023

22. Integrated silicon carbide electro-optic modulator

Author

Keith Powell, Liwei Li, Amirhassan Shams-Ansari, Jianfu Wang, Debin Meng, Neil Sinclair, Jiangdong Deng, Marko Lončar, and Xiaoke Yi

Subjects

Science

Abstract

Electro-optic modulator is used to encode electrical signals onto light. Here the authors demonstrate an electro-optic modulator, based on Silicon Carbide, which can be useful for quantum and optical communications.

Published

2022

23. Mutational analysis of compound heterozygous mutation p.Q6X/p.H232R in SRD5A2 causing 46,XY disorder of sex development

Author

Liwei Li, Junhong Zhang, Qing Li, Li Qiao, Pengcheng Li, Yi Cui, Shujun Li, Shirui Hao, Tongqian Wu, Lili Liu, Jianmin Yin, Pingsheng Hu, Xiaowei Dou, Shuping Li, and Hui Yang

Subjects

46,XY DSD, SRD5A2, p.Q6X/p.H232R mutation, Dihydrotestosterone, 5α-reductase 2 catalytic efficiency, Pediatrics, RJ1-570

Abstract

Abstract Background Over 100 mutations in the SRD5A2 gene have been identified in subjects with 46,XY disorder of sex development (DSD). Exploration of SRD5A2 mutations and elucidation of the molecular mechanisms behind their effects should reveal the functions of the domains of the 5α-reductase 2 enzyme and identify the cause of 46,XY DSD. Previously, we reported a novel compound heterozygous p.Q6X/p.H232R mutation of the SRD5A2 gene in a case with 46,XY DSD. Whether the compound heterozygous p.Q6X/p.H232R mutation in this gene causes 46,XY DSD requires further exploration. Methods The two 46,XY DSD cases were identified and sequenced. In order to identify the source of the compound heterozygous p.Q6X/p.H232R mutation, the parents, maternal grandparents, and maternal uncle were sequenced. Since p.Q6X mutation is a nonsense mutation, p.H232R mutation was transfected into HEK293 cells and dihydrotestosterone (DHT) production were analyzed by liquid chromatography–mass spectrometry (LC–MS) for 5α-reductase 2 enzyme activities test. Apparent michaelis constant (Km) were measured of p.H232R mutation to analyze the binding ability change of 5α-reductase 2 enzyme with testosterone (T) or NADPH. Results The sequence results showed that the two 46,XY DSD cases were the compound heterozygous p.Q6X/p.H232R mutation, of which the heterozygous p.Q6X mutation originating from maternal family and heterozygous p.H232R mutation originating from the paternal family. The function analysis confirmed that p.H232R variant decreased the DHT production by LC–MS test. The Km analysis demonstrated that p.H232R mutation affected the binding of SRD5A2 with T or NADPH. Conclusions Our findings confirmed that the compound heterozygous p.Q6X/p.H232R mutation in the SRD5A2 gene is the cause of 46,XY DSD. p.H232R mutation reduced DHT production while attenuating the catalytic efficiency of the 5α-reductase 2 enzyme.

Published

2022

24. Ginsenoside Rk3 ameliorates Aβ-induced neurotoxicity in APP/PS1 model mice via AMPK signaling pathway

Author

Lingyu She, Li Xiong, Liwei Li, Jing Zhang, Jinfeng Sun, Haibin Wu, Juan Ren, Wei Wang, Xia Zhao, and Guang Liang

Subjects

Alzheimer’s disease, Ginsenoside Rk3, Oxidative stress, APP/PS1, AMPK signaling pathway, Therapeutics. Pharmacology, RM1-950

Abstract

Alzheimer's disease (AD) has become a major public health problem affecting the elderly population, and there is currently no effective treatment. Although the pathogenesis of AD is unclear, neurotoxicity induced by oxidative stress plays an important role in the progression of AD. Ginseng, the root and rhizome of Panax ginseng C. A. Meyer, is used not only as an herbal medicine but also as a functional food to support bodily functions. Ginsenoside Rk3 (Rk3), the main bioactive component in ginseng, has a strong antioxidant effect and has not been reported in AD. In this study, we showed that Rk3 improved neuronal apoptosis, decreased intracellular reactive oxygen species (ROS) production and restored mitochondrial membrane potential in PC12 and primary neuronal cells. In vivo, we found that Rk3 improved spatial learning and memory deficit in precursor protein (APP)/presenilin 1 (PS1) double transgenic mouse model of AD. Additionally, Rk3 increases glutathione reductase (GSH) and superoxide dismutase (SOD) levels while inhibits malondialdehyde (MDA) production, apoptosis and activation of glial cells in APP/PS1 mice. Mechanistically, we found that the protective effect of Rk3 is in correlation with the activation of AMPK/Nrf2 signaling pathway. In conclusion, the findings of this study provide support for Rk3 as a new strategy for the treatment of AD.

Published

2023

25. A highly efficient indirect ELISA and monoclonal antibody established against African swine fever virus pK205R

Author

Liwei Li, Sina Qiao, Jiachen Liu, Yanjun Zhou, Wu Tong, Shishan Dong, Changlong Liu, Yifeng Jiang, Ziqiang Guo, Haihong Zheng, Ran Zhao, Guangzhi Tong, Guoxin Li, and Fei Gao

Subjects

ASFV pK205R, 293i cells, epitope, indirect ELISA, recombinant PRRSV, Immunologic diseases. Allergy, RC581-607

Abstract

African swine fever (ASF) is a contagious infectious disease with high lethality which continuously threatens the global pig industry causing huge economic losses. Currently, there are no commercially available vaccines or antiviral drugs that can effectively control ASF. The pathogen of ASF, ASF virus (ASFV) is a double-stranded DNA virus with a genome ranging from 170 to 193 kb and 151 to 167 open reading frames in various strains, which encodes 150–200 proteins. An effective method of monitoring ASFV antibodies, and specific antibodies against ASFV to promote the development of prevention techniques are urgently needed. In the present study, pK205R of ASFV was successfully expressed in mammalian cells using a suspension culture system. An indirect enzyme-linked immunosorbent assay (ELISA) based on the purified pK205R was established and optimized. The monoclonal antibody (mAb) against pK205R recognized a conservative linear epitope (2VEPREQFFQDLLSAV16) and exhibited specific reactivity, which was conducive to the identification of the recombinant porcine reproductive and respiratory syndrome virus (PRRSV) expressing pK205R. The ELISA method efficiently detected clinical ASFV infection and revealed good application prospects in monitoring the antibody level in vivo for recombinant PRRSV live vector virus expressing the ASFV antigen protein. The determination of the conserved linear epitope of pK205R would contribute to further research on the structural biology and function of pK205R. The indirect ELISA method and mAb against ASFV pK205R revealed efficient detection and promising application prospects, making them ideal for epidemiological surveillance and vaccine research on ASF.

Published

2023

26. Evaluation of common defects of grouted sleeve connectors

Author

Tan Wang, Zhijie Zhou, Kuo Yuan, Ruinian Jiang, Xianqian Ma, and Liwei Li

Subjects

Grouted sleeve connection, Grouting defects, Tensile performance, Safety control indicators, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Grouted sleeve connectors have been widely used in vertical connections of prefabricated reinforced concrete structures. However, the quality of grouted sleeve connections are likely affected by adverse factors during winter construction such as grouting operation error, adverse environmental change, and management negligence. Some defects in winter construction are difficult to check including insufficient strength of grouting material, insufficient anchorage length of connecting reinforcement bars and adverse impact of low-temperature grouting. Although research has been carried out on the connection performance of grouted sleeves with defects, few are on the comprehensive evaluation of the connection performance of grouted sleeves with different defects caused in winter construction. In this paper, 25 groups (75 sleeves) of semi-grouted sleeve connectors with various defects are designed and manufactured. The effects of insufficient anchorage (i.e. insufficient length of reinforcement bar extending into the sleeve), insufficient strength of grouting materials and low-temperature grouting on the tensile properties of semi-grouted sleeve connectors are experimentally studied. On the basis of the test, finite element analysis is performed on extended defect conditions to comprehensively evaluate the safety control indicators. This research provides reference for the safety evaluation of grouted sleeve connections for prefabricated structures.

Published

2022

27. A machine learning framework for rapid forecasting and history matching in unconventional reservoirs

Author

Shriram Srinivasan, Daniel O’Malley, Maruti K. Mudunuru, Matthew R. Sweeney, Jeffrey D. Hyman, Satish Karra, Luke Frash, J. William Carey, Michael R. Gross, George D. Guthrie, Timothy Carr, Liwei Li, and Hari S. Viswanathan

Subjects

Medicine, Science

Abstract

Abstract We present a novel workflow for forecasting production in unconventional reservoirs using reduced-order models and machine-learning. Our physics-informed machine-learning workflow addresses the challenges to real-time reservoir management in unconventionals, namely the lack of data (i.e., the time-frame for which the wells have been producing), and the significant computational expense of high-fidelity modeling. We do this by applying the machine-learning paradigm of transfer learning, where we combine fast, but less accurate reduced-order models with slow, but accurate high-fidelity models. We use the Patzek model (Proc Natl Acad Sci 11:19731–19736, https://doi.org/10.1073/pnas.1313380110 , 2013) as the reduced-order model to generate synthetic production data and supplement this data with synthetic production data obtained from high-fidelity discrete fracture network simulations of the site of interest. Our results demonstrate that training with low-fidelity models is not sufficient for accurate forecasting, but transfer learning is able to augment the knowledge and perform well once trained with the small set of results from the high-fidelity model. Such a physics-informed machine-learning (PIML) workflow, grounded in physics, is a viable candidate for real-time history matching and production forecasting in a fractured shale gas reservoir.

Published

2021

28. Tumor immune microenvironment in endometrial cancer of different molecular subtypes: evidence from a retrospective observational study

Author

Yibo Dai, Luyang Zhao, Dingchao Hua, Lina Cui, Xiaobo Zhang, Nan Kang, Linlin Qu, Liwei Li, He Li, Danhua Shen, Zhiqi Wang, and Jianliu Wang

Subjects

uterine neoplasms (MeSH), molecular subtype, tumor immune microenvironment, prognosis, immunotherapy, Immunologic diseases. Allergy, RC581-607

Abstract

ObjectiveTumor immune microenvironmental features may predict survival and guide treatment. This study aimed to comprehensively decipher the immunological features of different molecular subtypes of endometrial cancer.MethodsIn this retrospective study, 26 patients with primary endometrial cancer and four with recurrent disease treated in our center from December 2018 to November 2021 were included. Next-generation sequencing was performed on tumor samples. Patients were classified into four subtypes, including POLE mutant, microsatellite instability high (MSI-H), no specific molecular profile (NSMP) and TP53 mutant subtypes. Tumor-infiltrating immune cells were quantified using multiplex immunofluorescence assays.ResultsOf the 26 primary endometrial cancer cases, three were POLE mutant, six were MSI-H, eight were NSMP and nine were TP53 mutant. Of the four recurrent cases, two belonged to the NSMP subtype and two belonged to the TP53 mutant subtype. The tumor mutation burden (TMB) levels of POLE mutant and MSI-H cases were significantly higher than that of the other two subtypes (p< 0.001). We combined POLE mutant and MSI-H subtypes into the TMB high (TMB-H) subtype. The TMB-H subtype showed a high degree of infiltration of CD8+ T cells. In the NSMP subtype, the overall degree of intra-tumoral infiltrating immune cells was low. In the TP53 mutant subtype, the densities of both PD-L1+ macrophages (p = 0.047) and PD-1+ T cells (p = 0.034) in tumor parenchyma were the highest among the four subtypes.ConclusionEndometrial cancer of TMB-H, NSMP and TP53 mutant subtypes displayed phenotypes of normal immune response, absence of immune infiltration, and suppressed immune response, respectively. These features may provide mechanistic explanations for the differences in patients’ prognosis and efficacy of immune checkpoint blockade therapies among different endometrial cancer subtypes.

Published

2022

29. Anticoking Performance of Electrodeposited Mn/MnO Surface Coating on Fe–Ni–Cr Alloy during Steam Cracking

Author

Maxim P. Bukhovko, Lu Yang, Liwei Li, Andrzej Malek, Robert J. Davis, Pradeep K. Agrawal, and Christopher W. Jones

Subjects

Chemical engineering, TP155-156

Published

2021

30. The role and therapeutic implication of protein tyrosine phosphatases in Alzheimer’s disease

Author

Xia Zhao, Li Xiong, Lingyu She, Liwei Li, Ping Huang, and Guang Liang

Subjects

Alzheimer’s disease, Protein tyrosine phosphatases, β-amyloid plaques, Tau hyperphosphorylation, Signal transduction, Therapeutics. Pharmacology, RM1-950

Abstract

Protein tyrosine phosphatases (PTPs) are important regulator of neuronal signal transduction and a growing number of PTPs have been implicated in Alzheimer’s disease (AD). In the brains of patients with AD, there are a variety of abnormally phosphorylated proteins, which are closely related to the abnormal expression and activity of PTPs. β-Amyloid plaques (Aβ) and hyperphosphorylated tau protein are two pathological hallmarks of AD, and their accumulation ultimately leads to neurodegeneration. Studies have shown that protein phosphorylation signaling pathways mediates intracellular accumulation of Aβ and tau during AD development and are involved in synaptic plasticity and other stress responses. Here, we summarized the roles of PTPs related to the pathogenesis of AD and analyzed their therapeutic potential in AD.

Published

2022

31. Multi-Omics Analysis of the Microbiome and Metabolome Reveals the Relationship Between the Gut Microbiota and Wooden Breast Myopathy in Broilers

Author

Kelang Kang, Nanxuan Zhou, Weishi Peng, Fang Peng, Mengmeng Ma, Liwei Li, Fuyi Fu, Shuhan Xiang, Haihan Zhang, Xi He, and Zehe Song

Subjects

wooden breast myopathy, meat quality, gut microbiome, metabolomics, plasma metabolomics, broilers, Veterinary medicine, SF600-1100

Abstract

Wooden breast (WB) is a widely prevalent myopathy in broiler chickens. However, the role of the gut microbiota in this myopathy remains largely unknown, in particular the regulatory effect of gut microbiota in the modulation of muscle metabolism. Totally, 300 1-day-old Arbor Acres broilers were raised until 49 days and euthanized, and the breast filets were classified as normal (NORM), mild (MILD), or severe wooden breast (SEV). Birds with WB comprised 27.02% of the individuals. Severe WB filets had a greater L* value, a* value, and dripping loss but a lower pH (P < 0.05). WB filets had abundant myofiber fragmentation, with a lower average myofiber caliber and more fibers with a diameter of

Published

2022

32. Strong robustness and high accuracy in predicting remaining useful life of supercapacitors

Author

Chunli Liu, Dezhi Li, Licheng Wang, Liwei Li, and Kai Wang

Subjects

Biotechnology, TP248.13-248.65, Physics, QC1-999

Abstract

Remaining useful life shows extraordinary function in guiding the timely replacement of supercapacitors that reach the service life limit, which has great significance to the security and stability of the energy storage system. In order to more accurately predict the remaining useful life of supercapacitors so as to ensure the reliability of the whole supercapacitor bank, a temporal convolutional network is used. Among them, a residual block can solve the problems of gradient explosion and gradient disappearance, which are widespread in the recurrent neural network. Early stopping technology is used to avoid overfitting, and the Adam algorithm was used to optimize the process of parameter adjustment of the temporal convolutional network. The stability and accuracy of the model prediction were verified by using the capacity attenuation dataset of supercapacitors under different experimental conditions. Meanwhile, to verify the generalization ability of the model, the datasets of supercapacitors at different working conditions without training are input into the temporal convolutional network model. Simulation shows that the temporal convolutional network model exhibits strong robustness and high accuracy in predicting the remaining useful life of supercapacitors.

Published

2022

33. Completely laparoscopic versus open radical nephrectomy and infrahepatic tumor thrombectomy: Comparison of surgical complexity and prognosis

Author

Zhuo Liu, Xun Zhao, Liyuan Ge, Bingjun Wu, Shiying Tang, Peng Hong, Qiming Zhang, Liwei Li, Ran Peng, Binshuai Wang, Guoliang Wang, Shudong Zhang, Xiaojun Tian, Hongxian Zhang, and Lulin Ma

Subjects

Inferior vena cava, Laparoscopic, Renal cell carcinoma, Nephrectomy, Prognosis, Surgical complexity, Surgery, RD1-811

Abstract

Objective: To compare the operation complexity and prognosis of completely laparoscopic versus open radical nephrectomy and infrahepatic tumor thrombectomy. Methods: We reviewed and analyzed the clinical data of 87 patients with infrahepatic tumor thrombus from January 2015 to April 2019 retrospectively. Completely laparoscopic infrahepatic tumor thrombectomy was completed in 41 cases, and open surgery was completed in 46 cases. Results: All 41 patients successfully completed laparoscopic operation, and there were no cases of death during the operation. The completely laparoscopic group were older, had smaller renal tumor diameter, shorter median operation time, lower median intraoperative hemorrhage volume, and lower median transfusion volume of suspended red blood cells compared with open surgeries. The proportion of low-level tumor thrombus (Mayo I) in the completely laparoscopic group was higher (63.4%), while the proportion of low-level tumor thrombus in the open surgery group was lower (30.4%) (P = 0.002). The postoperative complications incidence of laparoscopic surgery was 19.5%, which was lower than that of open surgery (47.8%) (P = 0.004). The mean cancer-specific survival time of the laparoscopic surgery group was 36.6 ± 2.5 months, while that of the open surgery group was 32.3 ± 2.7 months (P = 0.277). There was no statistical difference between the two groups. Conclusion: Although completely laparoscopic radical nephrectomy and infrahepatic tumor thrombectomy is a challenging operation, it could be feasible and safely performed, especially in the hands of highly-experienced laparoscopic urologists for well selected cases.

Published

2021

34. Analyzing Long-Term High-Rise Building Areas Changes Using Deep Learning and Multisource Satellite Images

Author

Shun Yao, Liwei Li, Gang Cheng, and Bing Zhang

Subjects

high-rise building areas, Sentinel-2, Landsat-7, fully convolutional network, change analysis, Science

Abstract

High-rise building areas (HRBs) provide significant social and environmental services and play a crucial role in modern urbanization. The large-scale and long-term spatial distribution of HRBs is of great interest to many fields, such as urban planning and local climate analysis. While previous studies have confirmed the value of Sentinel-2 images in extracting HRBs and their changes, current work is limited to relatively local areas and short-term analysis. One reason is due to the fact that the earliest Sentinel-2 image can only date back to 2015. To address this research gap, this paper proposes an efficient procedure to intelligently extract HRBs and their changes from multitemporal Landsat-7 and Sentinel-2 images, using a specifically designed fully convolutional network. To validate the proposed method, we selected four typical cities in China, namely, Beijing, Shanghai, Guangzhou, and Zhengzhou, as study areas. We utilized Landsat-7 images acquired in 2000 and 2010, along with Sentinel-2 images acquired in 2020, as experimental data. We extracted and analyzed three periods of HRBs and their changes in the four cities, along with urban rail terminal data and gross domestic product (GDP) data in the same period. The results show that the proposed method can efficiently extract HRBs and their changes in the four cities over the past 20 years, with an overall accuracy of more than 90%. HRBs changes are primarily driven by urban planning policies and geographical factors. There is a strong positive correlation between the increase in HRBs and the increase in rail terminals, both in terms of quantity and spatial distribution. Additionally, there is a positive correlation between HRBs increase and GDP increase in terms of quantity, but the trend varies in different cities due to their diverse developing modes. Overall, the results indicate that the proposed method can be a potential operational tool to extract large-scale and long-term HRBs and their changes in China.

Published

2023

35. A Review of SOH Prediction of Li-Ion Batteries Based on Data-Driven Algorithms

Author

Ming Zhang, Dongfang Yang, Jiaxuan Du, Hanlei Sun, Liwei Li, Licheng Wang, and Kai Wang

Subjects

LIB, SOH, data-driven algorithms, data processing, Technology

Abstract

As an important energy storage device, lithium-ion batteries (LIBs) have been widely used in various fields due to their remarkable advantages. The high level of precision in estimating the battery’s state of health greatly enhances the safety and dependability of the application process. In contrast to traditional model-based prediction methods that are complex and have limited accuracy, data-driven prediction methods, which are considered mainstream, rely on direct data analysis and offer higher accuracy. Therefore, this paper reviews how to use the latest data-driven algorithms to predict the SOH of LIBs, and proposes a general prediction process, including the acquisition of datasets for the charging and discharging process of LIBs, the processing of data and features, and the selection of algorithms. The advantages and limitations of various processing methods and cutting-edge data-driven algorithms are summarized and compared, and methods with potential applications are proposed. Effort was also made to point out their application methods and application scenarios, providing guidance for researchers in this area.

Published

2023

36. Correction: Expression of EMT-related genes in lymph node metastasis in endometrial cancer: a TCGA-based study

Author

He Li, Junzhu Wang, Liwei Li, Luyang Zhao, and Zhiqi Wang

Subjects

Surgery, RD1-811, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

37. Kinematics Modeling and Analysis of a Quadruped Bionic Horse Robot Driven by a Cam-link Mechanism

Author

Xu Yang, Ruolan Wang, Liangwen Wang, Liwei Li, and Tuanhui Wang

Subjects

Quadruped robot, Bionic horse configuration, Cam-link combination mechanism, Kinematics modeling, Analysis, Mechanical engineering and machinery, TJ1-1570

Abstract

A quadruped walking robot with a bionic horse configuration for equestrian-assisted treatment is presented. A single leg system of the robot is driven by a cam-linkage combination mechanism. On the basis of introducing the structure and working principle of the quadruped bionic horse robot， the kinematics modeling and analysis of the robot are carried out. The kinematics equations of each mechanism are established by loop vector method， and Newton iteration method is used to solve the nonlinear displacement equations. The Matlab is used to develop a unified program to solve the displacement， velocity and acceleration of the moving leg of the robot. By an example， the characteristics of the endpoint displacement and acceleration of the moving leg for the robot driven at the same speed are analyzed. The relevant research lays a foundation for the subsequent optimizing the performance of the robot.

Published

2021

38. Long-Term Expansion of Porcine Intestinal Organoids Serves as an in vitro Model for Swine Enteric Coronavirus Infection

Author

Min Zhang, Lilei Lv, Hongming Cai, Yanhua Li, Fei Gao, Lingxue Yu, Yifeng Jiang, Wu Tong, Liwei Li, Guoxin Li, Guangzhi Tong, and Changlong Liu

Subjects

long-term 3D culture, porcine intestinal organoids, swine enteric coronaviruses, interferon-stimulated genes, immune suppression, Microbiology, QR1-502

Abstract

A reliable and reproducible model in vitro for swine enteric coronaviruses infection would be intestinal models that support virus replication and can be long-term cultured and manipulated experimentally. Here, we designed a robust long-term culture system for porcine intestinal organoids from the intestinal crypt or single LGR5+ stem cell by combining previously defined insights into the growth requirements of the intestinal epithelium of humans. We showed that long-term cultured swine intestinal organoids were expanded in vitro for more than 6 months and maintained the potential to differentiate into different types of cells. These organoids were successfully infected with porcine enteric coronavirus, including porcine epidemic diarrhea virus (PEDV) and transmissible gastroenteritis virus (TGEV), and were capable of supporting virus replication and progeny release. RNA-seq analysis showed robust induction of transcripts associated with antiviral signaling in response to enteric coronavirus infection, including hundreds of interferon-stimulated genes and cytokines. Moreover, gene set enrichment analysis indicated that PEDV infection could suppress the immune response in organoids. This 3D intestinal organoid model offers a long-term, renewable resource for investigating porcine intestinal infections with various pathogens.

Published

2022

39. Simultaneous Removal of NO and SO2 from Flue Gas Using [Bmim]2FeCl4/Sulfolane Binary Mixtures

Author

Liwei Li, Xiaoshan Li, Yajun Bi, Bowen Lu, Wufeng Jiang, and Liqi Zhang

Subjects

Chemistry, QD1-999

Published

2020

40. Research on Motion Simulation of a Quadruped Bionic Horse Robot Driven by a Cam-link Mechanism

Author

Liangwen Wang, Weiwei Zhang, Liwei Li, Fannian Meng, Tuanhui Wang, and Wenliao Du

Subjects

Quadruped robot, Bionic horse configuration, Cam-link combination mechanism, Motion simulation, Variable driving law, Mechanical engineering and machinery, TJ1-1570

Abstract

A quadruped walking robot with a bionic horse configuration for equestrian-assisted treatment is presented. A single leg system of the robot with two driving degrees of freedom （DOFs） is driven by a cam-linkage combination mechanism， and it can adjust the span and height of the leg end-point trajectory. On the basis of introducing the structure and working principle of the quadruped bionic horse robot driven by a cam-linkage combination mechanism， the movement simulation of the robot is carried out. Using SolidWorks software to establish the bionic horse robot model and import it into Adams software for dynamics simulation. By motion planning to set a motor driving function， the walking movement of the bionic horse robot is realized. From the further analysis， the change law of the contact forces between the foot end and the ground， and the corresponding trend of the motion trajectory are obtained in the process of the leg lift and landing. Aiming at body jumping phenomenon occurring in the simulation movement of the bionic horse robot， a measures of variable driving laws for the motor are put forward to improve the body jumping. The relevant research provides theoretical support for optimization design and application of the robot.

Published

2020

41. Laparoscopic conversion to open surgery in radical nephrectomy and tumor thrombectomy: causal analysis, clinical characteristics, and treatment strategies

Author

Zhuo Liu, Shiying Tang, Xiaojun Tian, Xun Zhao, Peng Hong, Qiming Zhang, Liwei Li, Li Zhang, Shudong Zhang, Guoliang Wang, Hongxian Zhang, Cheng Liu, Guodong Zhu, and Lulin Ma

Subjects

Laparoscopic approach, Conversion to open surgery, Renal cell carcinoma, Tumor thrombus, Surgery, RD1-811

Abstract

Abstract Background We aimed to explore the causal analysis, clinical characteristics and treatment strategies of laparoscopic conversion to open approach (LCTOA) in radical nephrectomy and tumor thrombectomy. Methods We included all patients with Mayo level I–III renal tumors with inferior vena cava (IVC) tumor thrombus who underwent laparoscopic radical nephrectomy and tumor thrombectomy as the first choice from May 2015 to July 2019. Results There were 70 cases of renal tumor with IVC tumor thrombus treated with a laparoscopic approach as the first choice; 31 Mayo level I, 30 Mayo level II, and 9 Mayo level III. A completely laparoscopic approach was performed in 51 cases (72.9%), and 19 cases (27.1%) underwent active or passive LCTOA. The LCTOA group had higher median preoperative serum creatinine (110.0 μmol/L vs 92.0 μmol/L; P = 0.026), longer postoperative hospital stay (9 days vs 7 days; P = 0.008), longer median operation time (374 min vs 311 min; P = 0.017), higher median intraoperative hemorrhage volume (1300 vs 600 ml; P = 0.020), and higher proportion of male patients (94.7% vs 66.7%; P = 0.016) vs the completely laparoscopic group, respectively. Although preoperative serum creatinine and gender were risk factors in the univariate analysis, multivariate analysis revealed no independent risk factors for LCTOA. We divided the reasons for LCTOA into active conversion and passive conversion; 4 (21.1%) cases underwent active conversion, and 15 (78.9%) underwent passive conversion. Most of the patients undergoing passive conversion had multiple concurrent risk factors, among which perirenal adhesion (30.9%), organ invasion (16.4%), and IVC adhesion (25.5%) were the most common. Fourteen (73.7%) cases underwent renal treatment, and 5 (26.3%) cases underwent tumor thrombus treatment. Conclusions The LCTOA group had a higher median preoperative serum creatinine concentration, longer hospital stay, longer median operation time, and higher median intraoperative hemorrhage volume. However, none of the predictors in our study was an independent risk factor for LCTOA. Perirenal adhesion, organ invasion, and IVC adhesion were the most common causes of LCTOA. Considering the limitations of this study, studies with large sample sizes are required to validate our conclusions.

Published

2020

42. The influence of venous tumor thrombus combined with bland thrombus on the surgical treatment and prognosis of renal cell carcinoma patients

Author

Zhuo Liu, Li Zhang, Peng Hong, Liwei Li, Shiying Tang, Xun Zhao, Qiming Zhang, Guodong Zhu, Ran Peng, Binshuai Wang, Zhigang Chen, Zhenghui Sun, Feilong Yang, Guoliang Wang, Xiaojun Tian, Shudong Zhang, Yi Huang, Hongxian Zhang, Cheng Liu, Shumin Wang, and Lulin Ma

Subjects

bland thrombus, prognosis, renal cell carcinoma, surgical treatment, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Objective To describe the clinical characteristics of renal cell carcinoma (RCC) with venous tumor thrombus (VTT) and bland thrombus (BT), and to evaluate the influence of BT on surgical treatment and cancer‐specific survival (CSS) of RCC with VTT. Methods We retrospectively reviewed clinical data of 123 patients with RCC and VTT, who underwent surgical treatment in our center between February 2015 and May 2018. Patients were divided into the BT group (21 patients) and non‐BT group (102 patients). Chi‐square and Mann‐Whitney U test were used for categorical and continuous variables respectively. Univariable log‐rank tests and multivariable Cox regressions were conducted to evaluate the prognostic significance of each variable. Kaplan‐Meier plots were performed to evaluate the influence of BT. Results In the delayed phase of enhanced magnetic resonance imaging (MRI), BT and VTT had difference. Patients were divided according to the relative position of BT: proximal end BT (one patients), contralateral renal vein BT (two patients), distal end BT (12 patients), and multiple BT (six patients). The average length of BT was 8.4 ± 5.8 cm (range: 0.6‐20.0 cm). Patients with BT had longer operative time (P = .001), more surgical blood loss (P = .004), higher proportion of open surgery (P = .006), more postoperative complications (P = .011). BT (hazard ratio [HR] = 3.323, P = .007) were independent risk factors for poor prognosis. Conclusions In the delayed phase of enhanced MRI, BT showed no obvious enhancement, while VTT usually showed enhancement. This was an important basis for preoperative imaging diagnosis of BT. The presence of BT increases the difficulty of surgery, and is correlated with adverse survival outcomes in patients with RCC and VTT.

Published

2020

43. Etched Silicon-on-Insulator Microring Resonator for Ultrasound Measurement

Author

Wenjian Yang, Shijie Song, Keith Powell, Xiaoyi Tian, Liwei Li, Linh Nguyen, and Xiaoke Yi

Subjects

Optical sensors, optical resonators, photonic integrated circuits, integrated optics devices., Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

A novel integrated optical ultrasound sensor based on silicon-on-insulator (SOI) platform is proposed, theoretically analyzed and experimentally demonstrated. By using a selectively etched SOI microring resonator in an add-drop structure, the technique provides a linear and distortion-free sensing response to the ultrasound signal as it prevents the coupling region deformation and removes variations from the power fluctuation of the optical source. The proof-of-concept experimental demonstration of the proposed sensor shows the detection of air-coupled ultrasound pressure at different frequencies and magnitudes, a frequency sensing resolution of 30 Hz and a wide acceptance angle around 75 degrees.

Published

2020

44. Fault Detection for 2-D Continuous-Discrete State-Delayed Systems in Finite Frequency Domains

Author

Wen Qin, Guopeng Wang, Liwei Li, and Mouquan Shen

Subjects

Finite frequency, fault detection, 2-D continuous discrete systems, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This paper investigates the fault detection problem for two dimensional (2-D) continuous discrete state-delay Roesser systems in finite frequency domains. Two performance indexes H∞ and H- are used to measure the fault sensitivity and the disturbance robustness in finite frequency. Based on this, the fault detection problem is converted into a filtering problem by designing a filter to generate a residual signal. By the generalized KYP lemma, convex design conditions are obtained, which are expressed in terms of linear matrix inequalities (LMIs). An example is provided to demonstrate the feasibility and effectiveness of the proposed method.

Published

2020

45. Short-Term PM2.5 Concentration Prediction by Combining GNSS and Meteorological Factors

Author

Hongfeng Wen, Yamin Dang, and Liwei Li

Subjects

Global navigation satellite system, metabolic method, fine particulate matter, support vector machine regression, zenith wet delay, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

With the development of industrialization, fine particulate matter (PM2.5) severely chills the health of people. Studies have shown that the variation of PM2.5 concentration is related to the Global Navigation Satellite System (GNSS) tropospheric delay. Therefore, it is possible to use the widely distributed continuous operation reference station (CORS) to monitor and predict PM2.5 concentrations with high time resolution. In this paper, the zenith wet delay (ZWD) of five CORS located in Baoding, Hebei Province, China, from Sep 2014 to Feb 2015, is calculated firstly. Then, the correlation between PM2.5 and ZWD is investigated. Finally, the experimental data including PM2.5, ZWD, temperature, air pressure, and relative humidity data sampled in one hour are used to establish PM2.5 concentrations online prediction model based on support vector machine regression (SVMR) model with metabolic method. The experimental results show that in autumn and winter, the correlation coefficient between daily-mean PM2.5 and ZWD is mainly larger than 0.4, and the correlation coefficient between hourly mean PM2.5 and ZWD is mainly larger than 0.3. Meanwhile, in daily cycle analysis, air temperature, air pressure and relative humidity are related to PM2.5 concentration. Finally, Using SVMR model with metabolic method, by combining GNSS and meteorological factors, ideal short-term prediction accuracy is achieved, which shows that the use of GNSS and meteorological factors is potential in predicting PM2.5 concentration.

Published

2020

46. Processing, Characterization, and Impact of Nafion Thin Film on Photonic Nanowaveguides for Humidity Sensing

Author

Liwei Li, Xiaoyi Tian, Debin Meng, Michael Collins, Jianfu Wang, Robert Patterson, Linh Nguyen, and Xiaoke Yi

Subjects

humidity sensors, Nafion films, nanophotonics, silicon-on-insulator microresonators, thin-film devices and applications, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

Herein, the impact and spin‐coating process of Nafion thin films on photonic nanowaveguide structures fabricated via a complementary metal–oxide–semiconductor compatible process for the first time is investigated. Particularly, the effect of Nafion thin films (≈23–776 nm) on microring resonators (MRRs) with compact waveguide sizes (480 nm by 220 nm and 380 nm by 220 nm) is focused on, where the microring provides enhanced interactions between the Nafion and light, which is related to Nafion thin‐film properties such as the refractive index, water uptake, and swelling. The results demonstrate small, compact, and cost‐effective MRR devices to characterize Nafion thin film and high‐resolution on‐chip humidity sensing for real‐time and continuous measurements.

Published

2022

47. Recombinant Bivalent Live Vectored Vaccine Against Classical Swine Fever and HP-PRRS Revealed Adequate Heterogeneous Protection Against NADC30-Like Strain

Author

Liwei Li, Jinxia Chen, Zhengda Cao, Yunlei Cao, Ziqiang Guo, Wu Tong, Yanjun Zhou, Guoxin Li, Yifeng Jiang, Changlong Liu, Lingxue Yu, Sina Qiao, Jiachen Liu, Guangzhi Tong, and Fei Gao

Subjects

rPRRSV-E2, live vectored vaccine, NADC30-like strain, heterologous protection, challenge model, Microbiology, QR1-502

Abstract

The recombinant bivalent live vectored vaccine rPRRSV-E2 has been proved to be a favorable genetic engineering vaccine against classical swine fever (CSF) and highly pathogenic porcine reproductive and respiratory syndrome (HP-PRRS). NADC30-like strains have recently emerged in China and caused severe disease, and it is necessary to evaluate the vaccine candidate for the currently circulating viruses. This study established a good challenge model to evaluate the candidate rPRRSV-E2 vaccine in preventing infection with a representative NADC30-like strain (ZJqz21). It was shown that the challenge control piglets displayed clinical signs typical of PRRSV, including a persistent fever, dyspnea, moderate interstitial pneumonia, lymph node congestion, and viremia. In contrast, the rPRRSV-E2 vaccination significantly alleviated the clinical signs, yielded a high level of antibodies, provided adequate protection against challenge with ZJqz21, and inhibited viral shedding and the viral load in target tissues. Our results demonstrated that the recombinant bivalent live vectored vaccine strain rPRRSV-E2 can provide efficient protection against the challenge of heterologous circulating NADC30-like strain and could be a promising vaccine candidate for the swine industry.

Published

2022

48. Electrochemical Impedance Spectroscopy: A New Chapter in the Fast and Accurate Estimation of the State of Health for Lithium-Ion Batteries

Author

Ming Zhang, Yanshuo Liu, Dezhi Li, Xiaoli Cui, Licheng Wang, Liwei Li, and Kai Wang

Subjects

electrochemical impedance spectroscopy, lithium-ion battery, estimation of SOH, equivalent circuit model, data-driven method, Technology

Abstract

Lithium-ion batteries stand out from other clean energy sources because of their high energy density and small size. With the increasing application scope and scale of lithium-ion batteries, real-time and accurate monitoring of its state of health plays an important role in ensuring the healthy and stable operation of an energy storage system. Due to the interaction of various aging reactions in the aging process of lithium-ion batteries, the capacity attenuation shows no regularity. However, the traditional monitoring method is mainly based on voltage and current, which cannot reflect the internal mechanism, so the accuracy is greatly reduced. Recently, with the development of electrochemical impedance spectroscopy, it has been possible to estimate the state of health quickly and accurately online. Electrochemical impedance spectroscopy can measure battery impedance in a wide frequency range, so it can reflect the internal aging state of lithium-ion batteries. In this paper, the latest impedance spectroscopy measurement technology and electrochemical impedance spectroscopy based on lithium-ion battery health state estimation technology are summarized, along with the advantages and disadvantages of the summary and prospects. This fills the gap in this aspect and is conducive to the further development of this technology.

Published

2023

49. The Indirect ELISA and Monoclonal Antibody against African Swine Fever Virus p17 Revealed Efficient Detection and Application Prospects

Author

Liwei Li, Sina Qiao, Guoxin Li, Wu Tong, Shishan Dong, Jiachen Liu, Ziqiang Guo, Haihong Zheng, Ran Zhao, Guangzhi Tong, Yanjun Zhou, and Fei Gao

Subjects

ASFV p17, CHO cells, epitope, indirect ELISA, recombinant PRRSV, Microbiology, QR1-502

Abstract

Since 2018, the outbreak and prevalence of the African swine fever virus (ASFV) in China have caused huge economic losses. Less virulent ASFVs emerged in 2020, which led to difficulties and challenges for early diagnosis and control of African swine fever (ASF) in China. An effective method of monitoring ASFV antibodies and specific antibodies against ASFV to promote the development of prevention techniques are urgently needed. In the present study, ASFV p17 was successfully expressed in CHO cells using a suspension culture system. An indirect enzyme-linked immunosorbent assay (ELISA) based on purified p17 was established and optimized. The monoclonal antibody (mAb) against p17 recognized a conservative linear epitope (3TETSPLLSH11) and exhibited specific reactivity, which was conducive to the identification of recombinant porcine reproductive and respiratory syndrome virus (PRRSV) expressing p17. The ELISA method efficiently detected clinical ASFV infection and effectively monitored the antibody levels in vivo after recombinant PRRSV live vector virus expressing p17 vaccination. Overall, the determination of the conserved linear epitope of p17 would contribute to the in-depth exploration of the biological function of the ASFV antigen protein. The indirect ELISA method and mAb against ASFV p17 revealed efficient detection and promising application prospects, making them ideal for epidemiological surveillance and vaccine research on ASF.

Published

2022

50. Nonstructural Protein 2 Is Critical to Infection Efficiency of Highly Pathogenic Porcine Reproductive and Respiratory Syndrome Virus on PAMs and Influence Virulence In Vivo

Author

Jiazeng Chen, Lingxue Yu, Yanjun Zhou, Shen Yang, Yun Bai, Qian Wang, Jinmei Peng, Tongqing An, Fei Gao, Liwei Li, Chao Ye, Changlong Liu, Guangzhi Tong, Xuehui Cai, Zhijun Tian, and Yifeng Jiang

Subjects

PRRSV, infection efficiency, PAM, virulence, Microbiology, QR1-502

Abstract

Porcine reproductive and respiratory syndrome (PRRS) is an important viral disease, causing significant economic losses to the swine industry worldwide. Atypical cases caused by highly pathogenic PRRS virus (HP-PRRSV) emerged in 2006 in China. The vaccine strain HuN4-F112 has been developed from the wild-type HP-PRRSV HuN4 through repeated passages on MARC-145 cells. However, the mechanisms of attenuation have yet to be defined. Previous studies have shown that the vaccine strain HuN4-F112 could not effectively replicate in porcine alveolar macrophages (PAMs). In the present study, a series of chimeric and mutant PRRSVs were constructed to investigate regions associated with the virus attenuation. Firstly, the corresponding genome regions (ORF1a, ORF1b and ORFs 2-7) were exchanged between two infectious clones of HuN4 and HuN4-F112, and then the influence of small regions in ORF1a and ORF2-7 was evaluated, then influence of specific amino acids on NSP2 was tested. NSP2 was determined to be the key gene that regulated infection efficiency on PAMs, and amino acids at 893 and 979 of NSP2 were the key amino acids. The results of in vivo study indicated that NSP2 was not only important for infection efficiency in vitro, but also influenced the virulence, which was indicated by the results of survival rate, temperature, viremia, lung score and tissue score.

Published

2022