Your search keyword '"Jinpeng Wang"' showing total 905 results

1. The effects of anti-lung cancer in nude mice by a fully human single-chain antibody against associated antigen Ts7TMR between A549 cells and Trichinella spiralis

Author

Taotao Yue, Jinpeng Wang, Fang Liu, Pengtao Gong, Jianhua Li, Xichen Zhang, and Nan Zhang

Subjects

Trichinella spiralis, A549 lung cancer, associated antigens, Ts7TMR, scFv, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

AbstractLung cancer is a dangerous disease that is lacking in an ideal therapy. Here, we evaluated the anti-lung cancer effect in nude mice of a fully human single-chain antibody (scFv) against the associated antigen 7 transmembrane receptor (Ts7TMR), which is also called G protein-coupled receptor, between A549 cells and Trichinella spiralis (T. spiralis). Our data showed that anti-Ts7TMR scFv could inhibit lung cancer growth in a dose-dependent manner, with a tumour inhibition rate of 59.1%. HE staining did not reveal any obvious tissue damage. Mechanistically, immunohistochemical staining revealed that the scFv down-regulated the expression of PCNA and VEGF in tumour tissues. Overall, this study found that anti-Ts7TMR scFv could inhibit A549 lung cancer growth by suppressing cell proliferation and angiogenesis, which may provide a new strategy for treating lung cancer.

Published

2024

2. Identification of the molecular link: STAT3 is a shared key gene linking postmenopausal osteoporosis and sarcopenia

Author

Dian Liu, Ke Wang, Jinpeng Wang, Fangming Cao, and Lin Tao

Subjects

postmenopausal osteoporosis, sarcopenia, stat3, osteoporosis, macrophages, osteoclasts, rna, gene expression, microrna (mirna), stem cells, pathophysiology, Diseases of the musculoskeletal system, RC925-935

Abstract

Aims: This study explored the shared genetic traits and molecular interactions between postmenopausal osteoporosis (POMP) and sarcopenia, both of which substantially degrade elderly health and quality of life. We hypothesized that these motor system diseases overlap in pathophysiology and regulatory mechanisms. Methods: We analyzed microarray data from the Gene Expression Omnibus (GEO) database using weighted gene co-expression network analysis (WGCNA), machine learning, and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analysis to identify common genetic factors between POMP and sarcopenia. Further validation was done via differential gene expression in a new cohort. Single-cell analysis identified high expression cell subsets, with mononuclear macrophages in osteoporosis and muscle stem cells in sarcopenia, among others. A competitive endogenous RNA network suggested regulatory elements for these genes. Results: Signal transducer and activator of transcription 3 (STAT3) was notably expressed in both conditions. Single-cell analysis pinpointed specific cells with high STAT3 expression, and microRNA (miRNA)-125a-5p emerged as a potential regulator. Experiments confirmed the crucial role of STAT3 in osteoclast differentiation and muscle proliferation. Conclusion: STAT3 has emerged as a key gene in both POMP and sarcopenia. This insight positions STAT3 as a potential common therapeutic target, possibly improving management strategies for these age-related diseases. Cite this article: Bone Joint Res 2024;13(8):411–426.

Published

2024

3. Hexokinase HK3-mediated O-GlcNAcylation of EP300: a key regulator of PD-L1 expression and immune evasion in ccRCC

Author

Wei Zhang, Enyang Zhao, Zhuolun Li, Weiyang Liu, Jinpeng Wang, Wenbin Hou, Nan Zhang, Yang Yu, Xuedong Li, and Bosen You

Subjects

Cytology, QH573-671

Abstract

Abstract Clear cell renal cell carcinoma (ccRCC) demonstrates enhanced glycolysis, critically contributing to tumor development. Programmed death-ligand 1 (PD-L1) aids tumor cells in evading T-cell-mediated immune surveillance. Yet, the specific mechanism by which glycolysis influences PD-L1 expression in ccRCC is not fully understood. Our research identified that the glycolysis-related gene (GRG) HK3 has a unique correlation with PD-L1 expression. HK3 has been identified as a key regulator of O-GlcNAcylation in ccRCC. O-GlcNAcylation exists on the serine 900 (Ser900) site of EP300 and can enhance its stability and oncogenic activity by preventing ubiquitination. Stably expressed EP300 works together with TFAP2A as a co-transcription factor to promote PD-L1 transcription and as an acetyltransferase to stabilize PD-L1 protein. Furthermore, ccRCC exhibits interactive dynamics with tumor-associated macrophages (TAMs). The uridine 5′-diphospho-N-acetylglucosamine (UDP-GlcNAc), which serves as a critical substrate for the O-GlcNAcylation process, facilitates TAMs polarization. In ccRCC cells, HK3 expression is influenced by IL-10 secreted by M2 TAMs. Our study elucidates that HK3-mediated O-GlcNAcylation of EP300 is involved in tumor immune evasion. This finding suggests potential strategies to enhance the efficacy of immune checkpoint blockade therapy.

Published

2024

4. Biological characteristics of tissue engineered-nerve grafts enhancing peripheral nerve regeneration

Author

Xiangling Li, Hang Xu, Chaochao Li, Yanjun Guan, Yuli Liu, Tieyuan Zhang, Fanqi Meng, Haofeng Cheng, Xiangyu Song, Zhibo Jia, Ruichao He, Jinjuan Zhao, Shengfeng Chen, Congcong Guan, Shi Yan, Jinpeng Wang, Yu Wei, Jian Zhang, Jinshu Tang, Jiang Peng, and Yu Wang

Subjects

Peripheral nerve injury, Extracellular matrix, Mesenchymal stem cells, Vascular regeneration, Whole transcriptome sequencing, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background A favorable regenerative microenvironment is essential for peripheral nerve regeneration. Neural tissue-specific extracellular matrix (ECM) is a natural material that helps direct cell behavior and promote axon regeneration. Both bone marrow-derived mesenchymal stem cells (BMSCs) and adipose-derived mesenchymal stem cells (ADSCs) transplantation are effective in repairing peripheral nerve injury (PNI). However, there is no study that characterizes the in vivo microenvironmental characteristics of these two MSCs for the early repair of PNI when combined with neural tissue-derived ECM materials, i.e., acellular nerve allograft (ANA). Methods In order to investigate biological characteristics, molecular mechanisms of early stage, and effectiveness of ADSCs- or BMSCs-injected into ANA for repairing PNI in vivo, a rat 10 mm long sciatic nerve defect model was used. We isolated primary BMSCs and ADSCs from bone marrow and adipose tissue, respectively. First, to investigate the in vivo response characteristics and underlying molecular mechanisms of ANA combined with BMSCs or ADSCs, eighty-four rats were randomly divided into three groups: ANA group, ANA+BMSC group, and ANA+ADSC group. We performed flow cytometry, RT-PCR, and immunofluorescence staining up to 4 weeks postoperatively. To further elucidate the underlying molecular mechanisms, changes in long noncoding RNAs (lncRNAs), circular RNAs (circRNAs), microRNAs (miRNAs), and messenger RNAs (mRNAs) were systematically investigated using whole transcriptome sequencing. We then constructed protein–protein interaction networks to find 10 top ranked hub genes among differentially expressed mRNAs. Second, in order to explore the effectiveness of BMSCs and ADSCs on neural tissue-derived ECM materials for repairing PNI, sixty-eight rats were randomized into four groups: ANA group, ANA+BMSC group, ANA+ADSC group, and AUTO group. In the ANA+BMSC and ANA+ADSC groups, ADSCs/BMSCs were equally injected along the long axis of the 10-mm ANA. Then, we performed histological and functional assessments up to 12 weeks postoperatively. Results The results of flow cytometry and RT-PCR showed that ANA combined with BMSCs exhibited more significant immunomodulatory effects, as evidenced by the up-regulation of interleukin (IL)-10, down-regulation of IL-1β and tumor necrosis factor-alpha (TNF-α) expression, promotion of M1-type macrophage polarization to M2-type, and a significant increase in the number of regulatory T cells (Tregs). ANA combined with ADSCs exhibited more pronounced features of pro-myelination and angiogenesis, as evidenced by the up-regulation of myelin-associated protein gene (MBP and MPZ) and angiogenesis-related factors (TGF-β, VEGF). Moreover, differentially expressed genes from whole transcriptome sequencing results further indicated that ANA loaded with BMSCs exhibited notable immunomodulatory effects and ANA loaded with ADSCs was more associated with angiogenesis, axonal growth, and myelin formation. Notably, ANA infused with BMSCs or ADSCs enhanced peripheral nerve regeneration and motor function recovery with no statistically significant differences. Conclusions This study revealed that both ANA combined with BMSCs and ADSCs enhance peripheral nerve regeneration and motor function recovery, but their biological characteristics (mainly including immunomodulatory effects, pro-vascular regenerative effects, and pro-myelin regenerative effects) and underlying molecular mechanisms in the process of repairing PNI in vivo are different, providing new insights into MSC therapy for peripheral nerve injury and its clinical translation.

Published

2024

5. Cell membrane camouflaged Cu-doped mesoporous polydopamine for combined CT/PTT/CDT synergistic treatment of breast cancer

Author

Di Meng, Shuoye Yang, Lin Ju, Jinpeng Wang, Yanan Yang, Lu Zhang, and Lan Cui

Subjects

Metal-containing polydopamine, Cell membrane, Synergistic therapy, Photothermal-enhanced therapy, Stimuli-responsive drug release, Breast cancer, Therapeutics. Pharmacology, RM1-950

Abstract

Currently, traditional monotherapy for cancer often results in indiscriminate attacks on the body, leading to the emergence of new health problems. To confront these challenges, multimodal combination therapy has become necessary. However, how to develop new smart nanomaterials through green synthesis methods, delivering drugs while simultaneously synergizing multimodal combination therapies for tumor treatment, remains a topic of great significance. In this study, a biomimetic composite nanomaterial (RM-Cu/P) composed of mesoporous polydopamine (MPDA) as the core and red blood cell membranes (RBCMs) as the shell was synthesized as a drug carrier to deliver doxorubicin (DOX) while achieving synergistic chemotherapy, photothermal and chemodynamic therapy (CT/PTT/CDT). Herein, the nanoparticles were extensively characterized to examine their morphological characteristics, elemental composition, and drug-carrying capacity. Notably, the coating of RBCM reduced the toxicity of the RM-Cu/P@DOX nanoparticles, improved their targeting ability and prolonged their circulation time in vivo. The Cu-doped nanoparticles were capable of initiating a Fenton-like reaction to generate reactive oxygen species (ROS) for CDT, while the photothermal conversion efficiency (η) reached 45.20 % under NIR laser irradiation. Subsequently, the particles were examined by in vivo and in vitro experimental studies in cytotoxicity, cellular uptake, ROS levels, lysosomal escape, and mouse tumor model to evaluate their potential application in antitumor. Compared with monotherapy, the RM-Cu/P@DOX nanoparticles had multiple-stimulation response properties under redox, pH, and NIR, which exhibited the advantage of combined trimodal therapy, resulting in remarkable synergistic antitumor efficacy. In conclusion, this innovative platform exhibited promising applications in smart drug delivery and synergistic treatment of cancer.

Published

2024

6. Tailoring lithium intercalation pathway in 2D van der Waals heterostructure for high‐speed edge‐contacted floating‐gate transistor and artificial synapses

Author

Jun Yu, Jiawei Fu, Hongcheng Ruan, Han Wang, Yimeng Yu, Jinpeng Wang, Yuhui He, Jinsong Wu, Fuwei Zhuge, Ying Ma, and Tianyou Zhai

Subjects

2D vdW heterostructure, high‐speed floating‐gate transistor, interlayer lithium intercalation engineering, phase‐engineered contact, Materials of engineering and construction. Mechanics of materials, TA401-492, Information technology, T58.5-58.64

Abstract

Abstract Local phase transition in transition metal dichalcogenides (TMDCs) by lithium intercalation enables the fabrication of high‐quality contact interfaces in two‐dimensional (2D) electronic devices. However, controlling the intercalation of lithium is hitherto challenging in vertically stacked van der Waals heterostructures (vdWHs) due to the random diffusion of lithium ions in the hetero‐interface, which hinders their application for contact engineering of 2D vdWHs devices. Herein, a strategy to restrict the lithium intercalation pathway in vdWHs is developed by using surface‐permeation assisted intercalation while sealing all edges, based on which a high‐performance edge‐contact MoS2 vdWHs floating‐gate transistor is demonstrated. Our method avoids intercalation from edges that are prone to be random but intentionally promotes lithium intercalation from the top surface. The derived MoS2 floating‐gate transistor exhibits improved interface quality and significantly reduced subthreshold swing (SS) from >600 to 100 mV dec–1. In addition, ultrafast program/erase performance together with well‐distinguished 32 memory states are demonstrated, making it a promising candidate for low‐power artificial synapses. The study on controlling the lithium intercalation pathways in 2D vdWHs offers a viable route toward high‐performance 2D electronics for memory and neuromorphic computing purposes.

Published

2024

7. A two-stage distributed stochastic planning method for source-grid-load-storage flexibility resources considering flexible ramp capacity

Author

Jinpeng Wang, (Peter) Pingliang Zeng, Lulu Yin, Yanfei Dong, Xiaofang Liu, and Ruopu Yang

Subjects

Flexibility resource planning, Stochastic planning, Second order cone, Benders decomposition, Production of electric energy or power. Powerplants. Central stations, TK1001-1841

Abstract

With rapidly increasing levels of renewable energy penetration, flexibility resources play an ever more critical role in the future power system. This paper describes a two-stage stochastic mixed integer second order cone (MISOC) method for flexibility resource planning (VFRP) considering source-grid-load-storage interactions. Considering renewable energy penetration levels and flexibility resource characteristics, this study quantifies the extent to which the share of renewable energy generation affects cost performance, and assesses the priority and potential of investing in flexibility resources. Moreover, the multi-type flexibility resource portfolio allocation method and energy storage only approach are compared in terms of socio-economic benefits. A multi-cut Benders-based approach is used for decomposing large-scale stochastic expansion planning problems to reduce the computational burden. Numerical simulation tests on the modified energy test systems I39G20 and F213G20 verified the correctness and effectiveness of the proposed flexible resource planning models and solution algorithms. The simulation results show that retrofit of coal-fired units for better flexibility has a higher investment return. Still, energy storage presents a tremendous investment prospect and potential. Finally, the multi-type flexibility resource portfolio allocation method is more cost-effective than an energy storage only approach.

Published

2024

8. Analysing and visualising mobility vulnerability and recovery across Florida neighbourhoods: a case study of Hurricane Ian

Author

Jinpeng Wang, Yujie Hu, Li Duan, and George Michailidis

Subjects

Human mobility, mobility networks, spatial networks, mobile phone location data, vulnerability, recovery, Regional economics. Space in economics, HT388, Regional planning, HT390-395

Abstract

Effective hurricane preparedness and response demand a thorough understanding of the impact on mobility patterns. While existing studies have explored mobility disruptions caused by hurricanes, very few have delved into the impact, considering both mobility vulnerability and recovery, on a state level. Utilising mobile phone location data, this research examines the mobility patterns of Florida residents throughout Hurricane Ian. The findings reveal that the hurricane profoundly disturbed the mobility patterns of Floridians. The state experienced a maximum average daily mobility reduction of 63.41%, with certain neighbourhoods coming to a complete standstill at 100% cessation in mobility. On average, Florida neighbourhoods needed 2.61 days for mobility recovery, though this period stretched to as long as 92 days in the most severely affected areas. The bivariate map highlights a prevailing trend: neighbourhoods with prolonged recovery periods also witnessed more substantial reductions in mobility. This dual disadvantage underscores the critical need for increased focus on these neighbourhoods. Furthermore, our findings highlight the significance of factoring in forecasted hurricane paths when analysing mobility impacts, as we noted more substantial effects on neighbourhoods along the predicted trajectory.

Published

2024

9. A likely paleo-autotetraploidization event shaped the high conservation of Nyssaceae genome

Author

Yishan Feng, Zhenyi Wang, Qimeng Xiao, Jia Teng, Jianyu Wang, Zijian Yu, Jiaqi Wang, Qiang Xu, Yan Zhang, Shaoqi Shen, Shoutong Bao, Yu Li, Zimo Yan, Yue Ding, Zihan Liu, Yuxian Li, Tianyu Lei, Min Yuan, Xiu-Qing Li, and Jinpeng Wang

Subjects

Nyssaceae, Polyploidization, Multigenome alignment, Evolutionary rate, Autotetraploidization, Karyotype evolution, Plant culture, SB1-1110

Abstract

Scientific knowledge about the ancestral genome of core eudicot plant kingdom can potentially have profound impacts on both basic and applied research, including evolution, genetics, genomics, ecology, agriculture, forestry, and global climate. To investigate which plant conserves best the core eudicots common ancestor genome, we compared Arcto-Tertiary relict Nyssaceae and 30 other eudicot plant families. The genomes of Davidia involucrata (a known living fossil), Camptotheca acuminata and Nyssa sinensis, one per existent genus of Nyssaceae, were performed comparative genomic analysis. We found that Nyssaceae originated from a single Nyssaceae common tetraploidization event (NCT)– autotetraploidization 28–31 Mya after the core eudicot common hexaploidization (ECH). We identified Nyssaceae orthologous and paralogous genes, determined its chromosomal evolutionary trajectory, and reconstructed the Nyssaceae most recent ancestor genome. D. involucrata genome contained the entire seven paleochromosomes and 17 ECH-generated eudicot common ancestor chromosomes and was the slowest in mutation among the analyzed 42 species of 31 plant families. Combing both its high retention of paleochromosomes and its low mutation rate, D. involucrata provides the best case in conservation of the core eudicot paleogenome.

Published

2024

10. The intestinal delivery systems of ferulic acid: Absorption, metabolism, influencing factors, and potential applications

Author

Yushan Chen, Wendi Teng, Jinpeng Wang, Ying Wang, Yuemei Zhang, and Jinxuan Cao

Subjects

bioavailability, delivery system, ferulic acid, gut microbiota, intestinal barrier, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Abstract Ferulic acid (FA) is a hydroxycinnamic acid known for its strong antioxidant activity and potential benefits for intestinal health. However, its poor water solubility and instability limit its effectiveness. To address these issues, different ways have been explored to protect FA against degradation and further exert its potential benefits. This review discusses the absorption and metabolism of FA in the gut, as well as its potential impact on intestinal health. It also compares different intestinal delivery systems, such as nanoparticles, electrospun nanofibers, microcapsules, cross‐linked polymer gels, and Pickering emulsions, which can improve the solubility, stability, and bioavailability of FA in the gastrointestinal tract. This comprehensive review provides valuable insights for using FA in food, pharmaceutical, and nutraceuticals products.

Published

2024

11. Characterizing the hindgut microbiome in healthy and ketotic cows

Author

Zhihua Ju, Rongling Li, Wenhao Liu, Qiang Jiang, Jinpeng Wang, Yaran Zhang, Xiuge Wang, Yao Xiao, Chunhong Yang, Xiaochao Wei, Yaping Gao, and Jinming Huang

Subjects

cow ketosis, β-hydroxybutyrate, 16s sequencing, hindgut fecal microbiota, Biotechnology, TP248.13-248.65, Life, QH501-531

Abstract

Ketosis is a prevalent metabolic disease in the peripartum period of dairy cows, that causes considerable losses in milk production. In particular, the changes in the gut microbiome influence the occurrence of cow ketosis. In this study, the hindgut microbial communities of ketotic and healthy cows were compared and analyzed using 16S rRNA sequencing. Community composition analysis reveal that the predominant phyl in both groups were Bacteroidetes and Firmicutes. At the genus level, Bifidobacterium were more abundant in healthy cows than in ketotic cows. Conversely, the ketotic group exhibited a greater abundance of Bacteroides and Treponema than the healthy group. Differential hindgut fecal bacterial taxa in healthy and ketotic cows were identified by linear discriminant analysis effect size, with increases in Treponema, Bacteroides, and Peptococcaceae and decreases in Christensenellales, Chloroflexi, and Paenibacillaceae in ketotic cows. A distance-based redundancy analysis was conducted to further explore the connection between the gut microbiome, blood β-hydroxybutyrate levels, and milk production traits. The results suggested that the hindgut microflora was significantly correlated with blood β-hydroxybutyrate concentration and somatic cell score. These results improve our understanding of rectal microbes, and may help prevent ketosis in cows.

Published

2024

12. A comprehensive investigation of the process and atmospheric coupling corrosion on corroded and mechanical properties of the SPA-H weathering steel

Author

Linfeng Lu, Jinpeng Wang, Zhongyi Ma, Songlin Ding, Rui Li, and Wei Wang

Subjects

Weathering steel, Corrosion, CASS test, Corrosion characteristics, Mechanical properties, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Weathering steel has recently become popular in engineering due to its corrosion resistance, but its mechanical characteristics must alter during double corrosion, process chemical solution corrosion (CSC), and atmospheric corrosion (AC). However, no studies have been published on the coupling effect of process and atmospheric corrosion. The durability and safety of weathering steel structures can be challenging to assess. As a result, we used SPA-H weathering steel as the object, ran process corrosion and double corrosion simulations (process corrosion plus atmospheric corrosion simulation), and created three corrosion conditions: non-corrosion, single-side corrosion, and double-side corrosion. CSC was the corrosion process. Following CSC, the second (120, 360, 720, and 1200 hour) Copper-Accelerated Acetic Acid-Salt Spray Testing (CASS) was performed to simulate atmospheric corrosion. A correlation analysis was conducted using the grey correlation method between indoor and atmospheric corrosion. After corrosion testing, these specimens were subjected to White Light Interferometry (WLI) and tensile coupon tests (TCT) to evaluate the corrosion characteristics and the deterioration of material mechanical properties. Finally, linear fitting was used to produce the calculation formula between the mechanical properties and the mass loss ratio of single-side and double-side corrosion.

Published

2024

13. UPLC-qTOF-MS phytochemical profile of Commiphora gileadensis leaf extract via integrated ultrasonic-microwave-assisted technique and synthesis of silver nanoparticles for enhanced antibacterial properties

Author

Hani Ahmed, Mohamed Y. Zaky, Marwan M. A. Rashed, Marwan Almoiliqy, Sam Al-Dalali, Zienab E. Eldin, Mohanad Bashari, Ahmad Cheikhyoussef, Sulaiman A. Alsalamah, Mohammed Ibrahim Alghonaim, Abdulrahman M Alhudhaibi, Jinpeng Wang, and Li-Ping Jiang

Subjects

Commiphora gileadensis, Ultrasonic-microwave-assisted, Green silver nanoparticles, Metabolite profiling, UPLC-qTOF-MS, Antimicrobial, Chemistry, QD1-999, Acoustics. Sound, QC221-246

Abstract

The utilization of metallic nanoparticles in bio-nanofabrication holds significant potential in the field of applied research. The current study applied and compared integrated ultrasonic-microwave-assisted extraction (US/MICE), ultrasonic extraction (USE), microwave-assisted extraction (MICE), and maceration (MAE) to extract total phenolic content (TPC). In addition, the study examined the antioxidant activity of Commiphora gileadensis (Cg) leaf. The results demonstrated that the TPC of US/MICE exhibited the maximum value at 59.34 ± 0.007 mg GAE/g DM. Furthermore, at a concentration of 10 μg/mL, TPC displayed a significant scavenging effect on DPPH (56.69 %), with an EC50 (6.48 μg/mL). Comprehensive metabolite profiling of the extract using UPLC-qTOF-MS/MS was performed to identify active agents. A total of 64 chromatographic peaks were found, out of which 60 were annotated. The most prevalent classes of metabolites found were polyphenols (including flavonoids and lignans), organic compounds and their derivatives, amides and amines, terpenes, and fatty acid derivatives. Transmission electron microscopy (TEM) revealed the aggregate size of the synthesized nanoparticles and the spherical shape of C. gileadensis-mediated silver nanoparticles (Cg-AgNPs). The nanoparticles had a particle size ranging from 7.7 to 42.9 nm. The Cg-AgNPs exhibited more inhibition zones against S. aureus and E. coli. The minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) of Cg-extract, AgNPs, and Cg-AgNPs were also tested. This study demonstrated the feasibility of using combined ultrasonic-microwave-assisted extraction to separate and extract chemicals from C. gileadensis on a large scale. These compounds have potential use in the pharmaceutical industry. Combining antibacterial and biocompatible properties in materials is vital for designing new materials for biomedical applications. Additionally, the results showed that the biocompatibility of the Ag-NPs using C. gileadensis extracts demonstrated outstanding antibacterial properties.

Published

2024

14. The interaction and mutual development of 'a maritime community with a shared future' and global ocean governance

Author

Xiaowen Xu, Zhijun Zhang, and Jinpeng Wang

Subjects

a maritime community with a shared future, global ocean governance, international law, China, international maritime rules, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

As multilateralism evolves and China’s ocean awareness grows, China remains actively engaged in global ocean governance. The country has introduced the initiative of Building a Maritime Community with a Shared Future (MCSF), offering fresh perspectives for global ocean governance. The MCSF demonstrates both compatibility and adaptability with the evolving landscape of global ocean governance. This study is grounded in the historical context of the formation and evolution of China’s ocean consciousness within the broader framework of global ocean governance. Taking China’s contemporary ocean consciousness, the MCSF as the focal point, it analyzes the practical feasibility of integrating the MCSF with the evolving frameworks of global ocean governance. It is concluded that this integration process should involve ongoing review and refinement as the MCSF continues to develop.

Published

2024

15. Targeting the crosstalk between estrogen receptors and membrane growth factor receptors in breast cancer treatment: Advances and opportunities

Author

Shunchao Yan, Jiale Ji, Zhijie Zhang, Murshid Imam, Hong Chen, Duo Zhang, and Jinpeng Wang

Subjects

Breast cancer, estrogen receptor, G protein-coupled estrogen receptor, cell membrane, growth factor receptor, crosstalk, Therapeutics. Pharmacology, RM1-950

Abstract

Estrogens play a critical role in the initiation and progression of breast cancer. Estrogen receptor (ER)α, ERβ, and G protein-coupled estrogen receptor are the primary receptors for estrogen in breast cancer. These receptors are mainly activated by binding with estrogens. The crosstalk between ERs and membrane growth factor receptors creates additional pathways that amplify the effects of their ligands and promote tumor growth. This crosstalk may cause endocrine therapy resistance in ERα-positive breast cancer. Furthermore, this may explain the resistance to anti-human epidermal growth factor receptor-2 (HER2) treatment in ERα-/HER2-positive breast cancer and chemotherapy resistance in triple-negative breast cancer. Accordingly, it is necessary to understand the complex crosstalk between ERs and growth factor receptors. In this review, we delineate the crosstalk between ERs and membrane growth factor receptors in breast cancer. Moreover, this review highlights the current progress in clinical treatment and discusses how pharmaceuticals target the crosstalk. Lastly, we discuss the current challenges and propose potential solutions regarding the implications of targeting crosstalk via pharmacological inhibition. Overall, the present review provides a landscape of the crosstalk between ERs and membrane growth factor receptors in breast cancer, along with valuable insights for future studies and clinical treatments using a chemotherapy-sparing regimen to improve patient quality of life.

Published

2024

16. Multimodal Object Detection of UAV Remote Sensing Based on Joint Representation Optimization and Specific Information Enhancement

Author

Jinpeng Wang, Congan Xu, Chunhui Zhao, Long Gao, Junfeng Wu, Yiming Yan, Shou Feng, and Nan Su

Subjects

Joint expression optimization module (JEOM), multimodal object detection, specific information enhancement module (SIEM), Ocean engineering, TC1501-1800, Geophysics. Cosmic physics, QC801-809

Abstract

With the development of Earth observation technology, it becomes easier and easier to acquire multimodal image data at the same time. To improve the performance of a multimodal remote-sensing detection algorithm, a new fusion feature optimization detection network is proposed. The method is designed to solve the problem of performance degradation caused by the unreliability of single-modal data in multimodal remote-sensing data. The key to obtain high-quality fusion features from multimodal data with interference is to suppress single-modal redundant features and fully integrate multimodal features. The proposed method mainly includes two improvements. First, a novel joint expression optimization module is designed to enhance the target features and suppress the redundant and interference features that affect the fusion effect. In addition, we propose a novel specific information enhancement module to further enhance the discriminative feature information of targets within each modal image. Experiments on the DroneVehicle dataset show that our proposed method is state of the art on this dataset.

Published

2024

17. Allotetraploidization event of Coptis chinensis shared by all Ranunculales

Author

Yan Zhang, Weina Ge, Jia Teng, Yanmei Yang, Jianyu Wang, Zijian Yu, Jiaqi Wang, Qimeng Xiao, Junxin Zhao, Shaoqi Shen, Yishan Feng, Shoutong Bao, Yu Li, Yuxian Li, Tianyu Lei, Yuxin Pan, Lan Zhang, and Jinpeng Wang

Subjects

Coptis chinensis, Ranunculales, Polyploidization, Genomic fractionation, P450 genes, Plant culture, SB1-1110

Abstract

Coptis chinensis Franch., also named Chinese goldthread is a member of Ranunculaceae in the order Ranunculales and represents an important lineage of early eudicots with traditional medicinal value. In our study, by using syntenic analysis combined with phylogenomic analysis of C. chinensis and four other representative genomes from basal and core eudicots, we confirmed that the WGD event in C. chinensis was shared by Aquilegia coerulea and Papaver somniferum L. and quickly occurred after Ranunculales diverged from other eudicots, likely a Ranunculales common tetraploidization (RCT). The synonymous nucleotide substitutions at synonymous sites distribution of syntenic blocks across these genomes showed that the evolutionary rate of the P. somniferum genome is faster than that of the C. chinensis genome by approximately 13.7%, possibly due to Papaveraceaes having an additional special tetraploidization event (PST). After Ks correction, the RCT dated to 115–130 million years ago (MYA), which was close to the divergence of Ranunculaceaes and Papaveraceaes approximately 115.45–130.51 MYA. Moreover, we identified homologous genes related to polyploidization and speciation and constructed multiple sequence alignments with different reference genomes. Notably, the event-related subgenomes in the basal genomes all showed genomic fractionation bias, suggesting a likely allopolyploid nature of the RCT, PST and T-Alpha and T-Beta events in Tetracentron sinense. In addition, we detected that the sixteen P450 subfamilies were markedly expanded in the genomes of Ranunculales, and most of them were related to the RCT and PST events. We constructed a new platform for Early Eudicot Comparative Genomic Research (http://www.cgrpoee.top/index.html) to store more information. In summary, our findings support the WGD of C. chinensis shared by Ranunculales, which is likely an allotetraploidization event. This present effort offered new insights into the evolution of key polyploidization events and the genes related to secondary metabolites during the diversification of early eudicots.

Published

2024

18. Hybrid-FHR: a multi-modal AI approach for automated fetal acidosis diagnosis

Author

Zhidong Zhao, Jiawei Zhu, Pengfei Jiao, Jinpeng Wang, Xiaohong Zhang, Xinmiao Lu, and Yefei Zhang

Subjects

Fetal heart rate, Fetal acidosis, Cardiotocography, Cross-modal feature fusion, Multi-modal, Temporal convolutional network, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Background In clinical medicine, fetal heart rate (FHR) monitoring using cardiotocography (CTG) is one of the most commonly used methods for assessing fetal acidosis. However, as the visual interpretation of CTG depends on the subjective judgment of the clinician, this has led to high inter-observer and intra-observer variability, making it necessary to introduce automated diagnostic techniques. Methods In this study, we propose a computer-aided diagnostic algorithm (Hybrid-FHR) for fetal acidosis to assist physicians in making objective decisions and taking timely interventions. Hybrid-FHR uses multi-modal features, including one-dimensional FHR signals and three types of expert features designed based on prior knowledge (morphological time domain, frequency domain, and nonlinear). To extract the spatiotemporal feature representation of one-dimensional FHR signals, we designed a multi-scale squeeze and excitation temporal convolutional network (SE-TCN) backbone model based on dilated causal convolution, which can effectively capture the long-term dependence of FHR signals by expanding the receptive field of each layer’s convolution kernel while maintaining a relatively small parameter size. In addition, we proposed a cross-modal feature fusion (CMFF) method that uses multi-head attention mechanisms to explore the relationships between different modalities, obtaining more informative feature representations and improving diagnostic accuracy. Results Our ablation experiments show that the Hybrid-FHR outperforms traditional previous methods, with average accuracy, specificity, sensitivity, precision, and F1 score of 96.8, 97.5, 96, 97.5, and 96.7%, respectively. Conclusions Our algorithm enables automated CTG analysis, assisting healthcare professionals in the early identification of fetal acidosis and the prompt implementation of interventions.

Published

2024

19. Multi-Modal Object Detection Method Based on Dual-Branch Asymmetric Attention Backbone and Feature Fusion Pyramid Network

Author

Jinpeng Wang, Nan Su, Chunhui Zhao, Yiming Yan, and Shou Feng

Subjects

multi-modal fusion, object detection, asymmetric attention, Science

Abstract

With the simultaneous acquisition of the infrared and optical remote sensing images of the same target becoming increasingly easy, using multi-modal data for high-performance object detection has become a research focus. In remote sensing multi-modal data, infrared images lack color information, it is hard to detect difficult targets with low contrast, and optical images are easily affected by illuminance. One of the most effective ways to solve this problem is to integrate multi-modal images for high-performance object detection. The challenge of fusion object detection lies in how to fully integrate multi-modal image features with significant modal differences and avoid introducing interference information while taking advantage of complementary advantages. To solve these problems, a new multi-modal fusion object detection method is proposed. In this paper, the method is improved in terms of two aspects: firstly, a new dual-branch asymmetric attention backbone network (DAAB) is designed, which uses a semantic information supplement module (SISM) and a detail information supplement module (DISM) to supplement and enhance infrared and RGB image information, respectively. Secondly, we propose a feature fusion pyramid network (FFPN), which uses a Transformer-like strategy to carry out multi-modal feature fusion and suppress features that are not conducive to fusion during the fusion process. This method is a state-of-the-art process for both FLIR-aligned and DroneVehicle datasets. Experiments show that this method has strong competitiveness and generalization performance.

Published

2024

20. Intestinal-Targeted Digestion of Heme Chloride by Forming Inclusion Complexes In Vitro

Author

Qianfan Yu, Li Huang, Yuemei Zhang, Wendi Teng, Ying Wang, Jinxuan Cao, and Jinpeng Wang

Subjects

hemin, iron fortifier, cyclodextrin, solubility, Chemical technology, TP1-1185

Abstract

Hemin, a heme-like compound with significant biological activity, shows promise as an iron supplement for humans. Nonetheless, its poor solubility in water greatly impedes its absorption and utilization. To surmount this obstacle, researchers have chosen various cyclodextrins with distinct cavity sizes and derivative groups to act as hosts, forming inclusion complexes with hemin chloride. Among these, γ-cyclodextrin has been identified as the optimal carrier, based on a thorough evaluation of its encapsulation efficiency, solubility, and molecular docking. Multiple characterization techniques further confirmed the formation of these inclusion complexes. Results from IEC-6 cell experiments indicated that the cytotoxicity of the inclusion complexes was lower than that of FeSO4. Static and dynamic gastrointestinal simulation digestion systems were established, and the results showed that the bioavailability of the inclusion complex was significantly higher than that of raw hemin. Additionally, only about 0.29% of hemin chloride is digested by gastric enzymes, whereas 9.52% is digested by pancreatic enzymes in the static gastrointestinal simulation digestion system, with similar outcomes observed in the dynamic system. These findings suggest that targeted digestion in the intestine significantly enhances the bioavailability of hemin chloride by forming inclusion complexes in vitro.

Published

2024

21. The area-based management tools coordination between IMO and BBNJ agreement regimes and its implications on vessel pollution control

Author

Jinpeng Wang and Yiwei Zhang

Subjects

area-based management tools (ABMTs), International Maritime Organization (IMO), marine biological diversity, areas beyond national jurisdiction (ABNJ), vessel pollution control, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The International Maritime Organization (IMO), as a specialized agency of the United Nations responsible for the safety and security of international shipping and the prevention of pollution from ships, has applied two main area-based management tools (ABMTs): the “Special Areas” established under the MARPOL 73/78; and the “Particularly Sensitive Sea Areas” (PSSAs) established under the IMO resolutions. The new Agreement under the United Nations Convention on the Law of the Sea on the Conservation and Sustainable Use of Marine Biological Diversity of Areas beyond National Jurisdiction (BBNJ agreement) stipulates the establishment of a comprehensive system of ABMTs to conserve and sustainably use areas beyond national jurisdiction. Strengthening coordination in the use of ABMTs established by the IMO and the BBNJ Agreement is important for vessel pollution control in the high seas. The IMO is a stakeholder for relevant proposals and consultations on proposals regarding the establishment of ABMTs in the BBNJ Agreements, and can provide information on the implementation of them. The Conference of the Parties (COPs) to the BBNJ Agreement can also make recommendations to the IMO and its parties to promote the adoption of special areas and PSSAs. This article respectively elaborates on the practices and effect of ABMTs of the IMO and explores the relevant rules of the BBNJ agreement and their enforcement. Then this article discusses the possible approaches for the ABMTs coordination between the IMO and the BBNJ agreement regimes and their implications on vessel pollution Control in the high seas. Overall, relevant rules of the BBNJ agreement shall be interpreted and applied in a manner that does not undermine relevant legal instruments of the IMO. Meanwhile, it is necessary to promote cooperation and coordination between the COPs to the BBNJ Agreement and the IMO under the idea of conserving ecosystem integrity, gradually forming a normal cooperation and information exchange mechanism.

Published

2024

22. De Novo Generation and Identification of Novel Compounds with Drug Efficacy Based on Machine Learning

Author

Dakuo He, Qing Liu, Yan Mi, Qingqi Meng, Libin Xu, Chunyu Hou, Jinpeng Wang, Ning Li, Yang Liu, Huifang Chai, Yanqiu Yang, Jingyu Liu, Lihui Wang, and Yue Hou

Subjects

drug efficacy, machine learning, de novo design, lead compound, Science

Abstract

Abstract One of the main challenges in small molecule drug discovery is finding novel chemical compounds with desirable activity. Traditional drug development typically begins with target selection, but the correlation between targets and disease remains to be further investigated, and drugs designed based on targets may not always have the desired drug efficacy. The emergence of machine learning provides a powerful tool to overcome the challenge. Herein, a machine learning‐based strategy is developed for de novo generation of novel compounds with drug efficacy termed DTLS (Deep Transfer Learning‐based Strategy) by using dataset of disease‐direct‐related activity as input. DTLS is applied in two kinds of disease: colorectal cancer (CRC) and Alzheimer's disease (AD). In each case, novel compound is discovered and identified in in vitro and in vivo disease models. Their mechanism of actionis further explored. The experimental results reveal that DTLS can not only realize the generation and identification of novel compounds with drug efficacy but also has the advantage of identifying compounds by focusing on protein targets to facilitate the mechanism study. This work highlights the significant impact of machine learning on the design of novel compounds with drug efficacy, which provides a powerful new approach to drug discovery.

Published

2024

23. Genome and evolution of Prosopis alba Griseb., a drought and salinity tolerant tree legume crop for arid climates

Author

Wenqian Kong, Min Liu, Peter Felker, Mauricio Ewens, Cecilia Bessega, Carolina Pometti, Jinpeng Wang, Peng Xu, Jia Teng, Jinyu Wang, Xiyin Wang, Yuannian Jiao, Magdy S. Alabady, Françoise Thibaud‐Nissen, Patrick Masterson, Xin Qiao, and Andrew H. Paterson

Subjects

colinearity, nitrogen fixation, pathways, photosynthesis, stress, Environmental sciences, GE1-350, Botany, QK1-989

Abstract

Societal Impact Statement Society anticipates a world in which more food and fiber must be produced at warmer temperatures, which, on the contrary, have greater constraints on the use of water and fertilizers. Tree legumes are often the climax vegetation on the semi‐arid and arid lands, covering ~25% of the planet, but the knowledge of their genomes is limited. A draft genome sequence for Prosopis alba, a salt and heat tolerant tree that is able to fix nitrogen under harsh conditions, yields new clues about its adaptations. Its rich genetic and ecological diversity makes Prosopis well‐suited to the investigation of gene functions important to its own greater utilization and/or the improvement of climate resilience of other crops. Summary In arid lands that comprise 41% of the Earth's surface and are growing, tree legumes are often the climax vegetation. Now found in much of arid America, Prosopis alba is a salt‐tolerant nitrogen‐fixing tree native to Argentina. We present a Prosopis alba genome assembly that is 707 Mb in size, comprising of 6087 contigs of up to 2,077,851 bp in length and of ~359.3 Mb (50.8%) being repetitive elements dominated (20.3%) by long terminal repeats (LTR) retrotransposons. Among a total of 57,572 coding sequences (CDS), 42,475 are putative protein coding genes with median length of 2748 bp. The Prosopis alba genome shares the legume‐common tetraploidy (LCT) but has not reduplicated, evolving 3.5% and 23.1% faster than Phaseolus vulgaris and Glycine max, respectively, since the LCT. The 50 most expanded gene families include many that are involved in ion homeostasis, perhaps related to drought and/or salt adaptation, together with photosynthetic genes carbonic anhydrase (CA), malate dehydrogenase (MDH) and malic enzyme and gene families involved in circadian clock systems, synthesis of brassinosteroids, auxin and gibberellin. Some expanded gene families include members showing molecular signatures of positive selection, as do numerous multi‐copy orthologous groups with features associated with pathogen resistance and single‐copy orthogroups related to drought and salt stress response, root and root hair development, nodulation, heavy metal detoxification and stay‐green habit. Coupling genomics‐based clues about possible causes of its striking physiological adaptations with rich diversity in ecological context offers means to further investigate functional roles of specific Prosopis genes/alleles.

Published

2023

24. Identification of errors in draft genome assemblies at single-nucleotide resolution for quality assessment and improvement

Author

Kunpeng Li, Peng Xu, Jinpeng Wang, Xin Yi, and Yuannian Jiao

Subjects

Science

Abstract

Abstract Assembly of a high-quality genome is important for downstream comparative and functional genomic studies. However, most tools for genome assembly assessment only give qualitative reports, which do not pinpoint assembly errors at specific regions. Here, we develop a new reference-free tool, Clipping information for Revealing Assembly Quality (CRAQ), which maps raw reads back to assembled sequences to identify regional and structural assembly errors based on effective clipped alignment information. Error counts are transformed into corresponding assembly evaluation indexes to reflect the assembly quality at single-nucleotide resolution. Notably, CRAQ distinguishes assembly errors from heterozygous sites or structural differences between haplotypes. This tool can clearly indicate low-quality regions and potential structural error breakpoints; thus, it can identify misjoined regions that should be split for further scaffold building and improvement of the assembly. We have benchmarked CRAQ on multiple genomes assembled using different strategies, and demonstrated the misjoin correction for improving the constructed pseudomolecules.

Published

2023

25. Stochastic expansion planning of integrated energy system: A benders-based decomposition approach

Author

Jinpeng Wang, Pingliang Zeng, Jinxin Fan, Biao Jiang, and Gongjin Ma

Subjects

Renewables-transmission expansion planning, Second-order cone, Benders-based decomposition, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This paper introduces a two-stage stochastic optimization model for the renewables-transmission expansion planning (RTEP) problem to obtain the optimal size and site of the renewable energy generating unit, as well as the investment decisions related to transmission lines and gas pipelines. The uncertainties associated with demand growth and stochastic renewable sources production levels are considered via a series of scenarios, and then, the scenario-reduction approach, i.e., the k-medoids method, is applied to reduce the computation burden. In addition, the gas flow-pressure difference steady-state formulations in the expansion planning model are reconstructed convexly using second-order cone constraints. A Benders-based decomposition method is adopted as a solution methodology in the co-planning problem. The proposed model was simulated on a modified IEEE 39-bus and Belgian gas-20 energy test network, and the simulation results validate the correctness and applicability of the presented approaches.

Published

2023

26. Children’s Iodine Intake from Dairy Products and Related Factors: A Cross-Sectional Study in Two Provinces of China

Author

Ying Zhang, Haiyan Wang, Wei Ma, Xiuwei Li, Jianqiang Wang, Jinpeng Wang, and Jing Xu

Subjects

iodine intake, iodine content, milk, dairy products, children, Nutrition. Foods and food supply, TX341-641

Abstract

Dairy products are a significant source of iodine, and their contribution to iodine intake must be evaluated regularly. However, there is a lack of data on iodine intake from dairy products in China. Through a cross-sectional study, we determined the iodine content of dairy products in the Chinese diet and estimated iodine intake among Chinese children. Intake records for 30 consecutive days were used to investigate the consumption of dairy products by 2009 children from Yunnan and Liaoning Provinces. The iodine contents of 266 dairy products with high intake frequency were determined using inductively coupled plasma–mass spectrometry (ICP-MS). We then calculated the iodine intake and contribution of dairy products and explored the related factors of dairy iodine intake through a generalized linear mixed model. Ultra-high-temperature (UHT) sterilized milk accounted for 78.7% of the total dairy products, with an iodine content of 23.0 μg/100 g. The dairy product intake rate of children in China was 83.6%, with an average daily intake of 143.1 g. The median iodine intake from milk and dairy was 26.8 μg/d, 41.5% of the estimated average recommendation (EAR) for younger children and 31.8% of the EAR for older children. The daily milk iodine intake of children in Yunnan Province was 9.448 μg/day lower than that of children in Liaoning Province (p < 0.001), and the daily iodine intake of children in rural areas was 17.958 μg/day lower than that of children in urban areas (p < 0.001). Chinese dairy products were rich in iodine, and the content of iodine was intermediate to that reported in Europe and the USA. However, children’s daily intake of milk iodine was lower than that of children in other developed countries due to the lower daily intake of dairy products, especially those in rural areas.

Published

2024

27. A novel tyrosine tRNA-derived fragment, tRFTyr, induces oncogenesis and lactate accumulation in LSCC by interacting with LDHA

Author

Rui Zhao, Zhenming Yang, Bo Zhao, Wenjing Li, Yaohui Liu, Xiaoxue Chen, Jing Cao, Jiarui Zhang, Yan Guo, Licheng Xu, Jinpeng Wang, Yanan Sun, Ming Liu, and Linli Tian

Subjects

tsRNAs, tRFTyr, LDHA, Lactate, LSCC, Cytology, QH573-671

Abstract

Abstract Background Transfer (t)RNA-derived small RNA (tsRNA), generated from precursor or mature tRNA, is a new type of small non-coding RNA (sncRNA) that has recently been shown to play a vital role in human cancers. However, its role in laryngeal squamous cell carcinoma (LSCC) remains unclear. Methods We elucidated the expression profiles of tsRNAs in four paired LSCC and non-neoplastic tissues by sequencing and verified the sequencing data by quantitative real-time PCR (qRT–PCR) of 60 paired samples. The tyrosine-tRNA derivative tRFTyr was identified as a novel oncogene in LSCC for further study. Loss-of-function experiments were performed to evaluate the roles of tRFTyr in tumorigenesis of LSCC. Mechanistic experiments including RNA pull-down, parallel reaction monitoring (PRM) and RNA immunoprecipitation (RIP) were employed to uncover the regulatory mechanism of tRFTyr in LSCC. Results tRFTyr was significantly upregulated in LSCC samples. Functional assays showed that knockdown of tRFTyr significantly suppressed the progression of LSCC. A series of mechanistic studies revealed that tRFTyr could enhance the phosphorylated level of lactate dehydrogenase A (LDHA) by interacting with it. The activity of LDHA was also activated, which induced lactate accumulation in LSCC cells. Conclusions Our data delineated the landscape of tsRNAs in LSCC and identified the oncogenic role of tRFTyr in LSCC. tRFTyr could promote lactate accumulation and tumour progression in LSCC by binding to LDHA. These findings may aid in the development of new diagnostic biomarkers and provide new insights into therapeutic strategies for LSCC.

Published

2023

28. Current progress and prospects for G protein-coupled estrogen receptor in triple-negative breast cancer

Author

Duo Zhang, Hong Chen, Jinpeng Wang, Jiale Ji, Murshid Imam, Zhijie Zhang, and Shunchao Yan

Subjects

G protein-coupled estrogen receptor, triple-negative breast cancer, tumor development, mechanism, prognostic, Biology (General), QH301-705.5

Abstract

Triple-negative breast cancer (TNBC) is a biologically and clinically heterogeneous disease. The G protein-coupled estrogen receptor (GPER) plays a crucial role in mediating the effect of estrogen and estrogen-like compounds in TNBC cells. Compared with other subtypes, GPER has a higher expression in TNBC. The GPER mechanisms have been thoroughly characterized and analyzed in estrogen receptor α (ERα) positive breast cancer, but not in TNBC. Our previous work revealed that a higher expression of GPER mRNA indicates a better prognosis for ERα-positive breast cancer; however, its effects in TNBC differ. Whether GPER could serve as a predictive prognostic marker or therapeutic target for TNBC remains unclear. In this review, we provide a detailed introduction to the subcellular localization of GPER, the different effects of various ligands, and the interactions between GPER and closely associated factors in TNBC. We focused on the internal molecular mechanisms specific to TNBC and thoroughly explored the role of GPER in promoting tumor development. We also discussed the interaction of GPER with specific cytokines and chemokines, and the relationship between GPER and immune evasion. Additionally, we discussed the feasibility of using GPER as a therapeutic target in the context of existing studies. This comprehensive review highlights the effects of GPER on TNBC, providing a framework and directions for future research.

Published

2024

29. New developments and trends in extended continental shelf delineation practices—An analysis of China's participation and response strategies

Author

Zhengkai Mao, Jinpeng Wang, and Zhijun Zhang

Subjects

Commission on the limits of the continental shelf (CLCS), Continental shelf beyond 200 nautical miles, United Nations Convention on the Law of the Sea, Maritime delineation, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Rights and interests concerning the continental shelf beyond 200 nautical miles (extended continental shelf, ECS) are related to important aspects of a nation's marine utilization such as marine resource development, marine technological innovation, and the construction of marine ecological civilization. China is a country with a long coastline and has the right to delineate large areas of ECS according to the United Nations Convention on the Law of the Sea (UNCLOS). However, the process of confirming China's ECS rights under international law is particularly complicated owing to the complex maritime delineation disputes between China and its neighboring countries. From the perspective of international law, this study uses the method of historical analysis and case analysis to retrospectively explore the evolution of the international legal frameworks governing ECS and analyze its current characteristics and trends in practice. On this basis, the paper evaluates the major challenges of China's national practice in ECS delineation and puts forward suggested countermeasures for safeguarding its legitimate rights and interests related to ECS.

Published

2024

30. The categorizations of vasculogenic mimicry in clear cell renal cell carcinoma unveil inherent connections with clinical and immune features

Author

Bo Geng, Weiyang Liu, Jinpeng Wang, Wei Zhang, Zhuolun Li, Nan Zhang, Wenbin Hou, Enyang Zhao, Xuedong Li, and Bosen You

Subjects

ccRCC, vasculogenic mimicry, molecular subtypes, tumor immune microenvironment, drug susceptibility, Therapeutics. Pharmacology, RM1-950

Abstract

Background: Clear cell renal cell carcinoma (ccRCC) stands as the prevailing variant kidney cancer in humans. Unfortunately, patients with disseminated RCC at diagnosis often have a diminished prognosis. Rapid tumor growth necessitates efficient blood supply for oxygen and nutrients, involving the circulation of blood from vessels to tumor tissues, facilitating tumor cell entry into the extracellular matrix. Vasculogenic mimicry (VM) significantly contributes to tumor growth and metastasis. Within this investigation, we identified vasculogenic mimicry-related genes (VMRGs) by analyzing data from 607 cases of kidney renal clear cell carcinoma (KIRC) in The Cancer Genome Atlas (TCGA) and the Gene Expression Omnibus (GEO) database (https://www.ncbi.nlm.nih.gov/geo/). These findings offer insights into ccRCC progression and metastasis.Method: We identified VMRGs-related subtypes using consistent clustering methods. The signature of the VMRGs was created using univariate Cox regression and LASSO Cox regression analyses. To evaluate differences in immune cell infiltration, we employed ssGSEA. Afterwards, we created an innovative risk assessment model, known as the VM index, along with a nomogram to forecast the prognosis of ccRCC. Additionally, we verified the expression of an important gene related to VM, peroxiredoxin 2 (PRDX2), in tissue samples. Furthermore, we assessed the sensitivity to drugs in various groups by utilizing the pRRophetic R package.Results: Significant predictors of survival rates in both high- and low-risk groups of KIRC patients were identified as VMRGs. The independent prognostic factors for RCC were confirmed by both univariate and multivariate Cox regression analyses, validating VMRG risk signatures. Differences were observed in drug sensitivity, immune checkpoint expression, and responses to immune therapy between patients classified into high- and low-VMRG-risk groups. Our nomograms consistently demonstrated precise predictive capabilities. Finally, we experimentally verified PRDX2 expression levels and their impact on prognosis.Conclusion: The signature predicts patient prognosis and therapy response, laying the groundwork for future clinical strategies in treating ccRCC patients.

Published

2023

31. Revolutionizing educational landscapes: A systematic review of Metaverse applications, paradigms and emerging technologies

Author

Yihe Qian, Jinpeng Wang, and Yixin Cai

Subjects

metaverse, education, Meta-AI, ChatGpt, generative AI, augmented reality, Education (General), L7-991

Abstract

AbstractThis paper addresses the existing gap in the literature on Metaverse applications in education by providing a comprehensive analysis of associated paradigms, platforms, hardware, and software, which have not been systematically reviewed yet. Notably, this study is among the first, to the best of our knowledge, to introduce the pioneering concept of Meta-AI in education and propose its potential to revolutionize the educational landscape by synergistically combining generative AI technologies, such as ChatGPT, with Metaverse education. Through this in-depth examination, our research makes a significant contribution to the field, establishing a solid foundation for the development of effective Metaverse teaching applications and guiding future scholarly endeavours.

Published

2023

32. Coordinated alternation of DNA methylation and alternative splicing of PBRM1 affect bovine sperm structure and motility

Author

Chunhong Yang, Yao Xiao, Xiuge Wang, Xiaochao Wei, Jinpeng Wang, Yaping Gao, Qiang Jiang, Zhihua Ju, Yaran Zhang, Wenhao Liu, Ning Huang, Yanqin Li, Yundong Gao, Lingling Wang, and Jinming Huang

Subjects

alternative splicing, dairy cattle, epigenetic regulation, pbrm1, spermatogenesis, Genetics, QH426-470

Abstract

DNA methylation and gene alternative splicing drive spermatogenesis. In screening DNA methylation markers and transcripts related to sperm motility, semen from three pairs of full-sibling Holstein bulls with high and low motility was subjected to reduced representation bisulphite sequencing. A total of 948 DMRs were found in 874 genes (gDMRs). Approximately 89% of gDMR-related genes harboured alternative splicing events, including SMAD2, KIF17, and PBRM1. One DMR in exon 29 of PBRM1 with the highest 5mC ratio was found, and hypermethylation in this region was related to bull sperm motility. Furthermore, alternative splicing events at exon 29 of PBRM1 were found in bull testis, including PBRM1-complete, PBRM1-SV1 (exon 28 deletion), and PBRM1-SV2 (exons 28–29 deletion). PBRM1-SV2 exhibited significantly higher expression in adult bull testes than in newborn bull testes. In addition, PBRM1 was localized to the redundant nuclear membrane of bull sperm, which might be related to sperm motility caused by sperm tail breakage. Therefore, the hypermethylation of exon 29 may be associated with the production of PBRM1-SV2 in spermatogenesis. These findings indicated that DNA methylation alteration at specific loci could regulate gene splicing and expression and synergistically alter sperm structure and motility.

Published

2023

33. ISG15 targets glycosylated PD-L1 and promotes its degradation to enhance antitumor immune effects in lung adenocarcinoma

Author

Tongyuan Qu, Wenshuai Zhang, Chenhui Yan, Danyang Ren, Yalei Wang, Yuhong Guo, Qianru Guo, Jinpeng Wang, Liren Liu, Lei Han, Lingmei Li, Qiujuan Huang, Lu Cao, Zhaoxiang Ye, Bin Zhang, Qiang Zhao, and Wenfeng Cao

Subjects

ISG15/ISGylation, Glycosylated PD-L1, Anticancer immunity, Lung adenocarcinoma, Medicine

Abstract

Abstract Background Immunocheckpoint inhibitors (ICIs) have been widely used in the clinical treatment of lung cancer. Although clinical studies and trials have shown that patients can benefit significantly after PD-1/PD-L1 blocking therapy, less than 20% of patients can benefit from ICIs therapy due to tumor heterogeneity and the complexity of immune microenvironment. Several recent studies have explored the immunosuppression of PD-L1 expression and activity by post-translational regulation. Our published articles demonstrate that ISG15 inhibits lung adenocarcinoma progression. Whether ISG15 can enhance the efficacy of ICIs by modulating PD-L1 remains unknown. Methods The relationship between ISG15 and lymphocyte infiltration was identified by IHC. The effects of ISG15 on tumor cells and T lymphocytes were assessed using RT-qPCR and Western Blot and in vivo experiments. The underlying mechanism of PD-L1 post-translational modification by ISG15 was revealed by Western blot, RT-qPCR, flow cytometry, and Co-IP. Finally, we performed validation in C57 mice as well as in lung adenocarcinoma tissues. Results ISG15 promotes the infiltration of CD4+ T lymphocytes. In vivo and in vitro experiments demonstrated that ISG15 induces CD4+ T cell proliferation and invalidity and immune responses against tumors. Mechanistically, we demonstrated that the ubiquitination-like modifying effect of ISG15 on PD-L1 increased the modification of K48-linked ubiquitin chains thus increasing the degradation rate of glycosylated PD-L1 targeting proteasomal pathway. The expression of ISG15 and PD-L1 was negatively correlated in NSCLC tissues. In addition, reduced accumulation of PD-L1 by ISG15 in mice also increased splenic lymphocyte infiltration as well as promoted cytotoxic T cell infiltration in the tumor microenvironment, thereby enhancing anti-tumor immunity. Conclusions The ubiquitination modification of PD-L1 by ISG15 increases K48-linked ubiquitin chain modification, thereby increasing the degradation rate of glycosylated PD-L1-targeted proteasome pathway. More importantly, ISG15 enhanced the sensitivity to immunosuppressive therapy. Our study shows that ISG15, as a post-translational modifier of PD-L1, reduces the stability of PD-L1 and may be a potential therapeutic target for cancer immunotherapy.

Published

2023

34. Cyclodextrin carboxylate improves the stability and activity of nisin in a wider range of application conditions

Author

Yao Hu, Kequan Xing, Xiaojing Li, Shangyuan Sang, David Julian McClements, Long Chen, Jie Long, Aiquan Jiao, Xueming Xu, Jinpeng Wang, Zhengyu Jin, and Chao Qiu

Subjects

Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Abstract Nisin is a natural bacteriocin that exhibits good antibacterial activity against Gram-positive bacteria. It has good solubility, stability, and activity under acidic conditions, but it becomes less soluble, stable, and active when the solution pH exceeds 6.0, which severely restricted the industrial application range of nisin as antibacterial agent. In this study, we investigated the potential of complexing nisin with a cyclodextrin carboxylate, succinic acid-β-cyclodextrin (SACD), to overcome the disadvantages. Strong hydrogen bonding was shown between the nisin and SACD, promoting the formation of nisin-SACD complexes. These complexes exhibited good solubility under neutral and alkaline conditions, and good stability after being held at high pH values during processing with high-steam sterilization. Moreover, the nisin-SACD complexes displayed significantly improved antibacterial activity against model Gram-positive bacteria (S. aureus). This study shows that complexation can improve the efficacy of nisin under neutral and alkaline situations, which may greatly broaden its application range in food, medical, and other industries.

Published

2023

35. Friction stir processing of hybridized AZ31B magnesium alloy-based composites by adding CeO2 and ZrO2powders: mechanical, wear, and corrosion behaviors

Author

Shoufa Liu, Moslem Paidar, Olatunji Oladimeji Ojo, Michaela Šlapáková Poková, Sadok Mehrez, Azlan Mohd Zain, Qiaorong Zhao, and Jinpeng Wang

Subjects

Friction stir processing, AZ31B magnesium, Cerium oxide, Zirconium dioxide, Mechanical properties, Wear, Mining engineering. Metallurgy, TN1-997

Abstract

To improve the properties of AZ31B Mg alloy and for the first time, the rare earth cerium oxide (CeO2) and zirconium dioxide (ZrO2) were combined for synergistic benefits and introduced into the structural AZ31B magnesium alloy through the solid-state friction stir processing procedure to form the hybridized AZ31B Mg/ZrO2+CeO2 composites under variable levels of the tool's rotational speed up to 1200 rpm. The macro-/microstructure, hardness, shear punching strength, tensile strength, corrosion behaviours, and tribological characteristics such as weight/wear loss, wear rate, coefficient of friction, worn surfaces, and debris of the AZ31B Mg/ZrO2+CeO2 hybrid composites were investigated and compared. The results indicated that void, tunnel defect, and ZrO2+CeO2 agglomeration could not be prevented at low speed (800 rpm) while defect-free composites were obtained at high speed (1200 rpm). Grain refinement from 7.39 μm to 3.38 μm and the ZrO2+CeO2 fragmentation (4.52–2.49 μm) ensued after a rise in the tool's rotational speed owing to higher plastic straining, dynamic recrystallization, and ZrO2+CeO2 particle-aided pinning effects. Improvements in hardness (99–135 HV), shear punching strength (121–237 MPa), tensile strength (172–228 MPa) and wear properties of the composite were attained due to the defect elimination, inherent finer Mg grains, and the uniformly dispersed ZrO2+CeO2 particles. These attributes also enhanced the corrosion resistance of the AZ31B Mg/ZrO2+CeO2 composite at the elevated rotating speed of the tool. The combination of the CeO2 and ZrO2 particles is an effective particle-blend for improving the properties of Mg alloy to expand its application scope.

Published

2023

36. A likely autotetraploidization event shaped the Chinese mahogany (Toona sinensis) genome

Author

Jianyu Wang, Ziyi Yang, Tianyu Lei, Yan Zhang, Qimeng Xiao, Zijian Yu, Jiaqi Zhang, Sangrong Sun, Qiang Xu, Shaoqi Shen, Zimo Yan, Mengnan Fang, Yue Ding, Zihan Liu, Qianwen Zhu, Ke Ren, Yuxin Pan, Haibin Liu, and Jinpeng Wang

Subjects

Toona sinensis, Alignment, Autotetraploidization, Karyotype evolution, Terpene synthase genes, Plant culture, SB1-1110

Abstract

Chinese mahogany (Toona sinensis) is of considerable medical and economic importance, and its genome has been deciphered. However, the process underlying its polyploidy is unclear, and the chromosomal evolutionary trajectory is poorly understood. Here, by reanalysing the T. sinensis genome, we found evidence of a tetraploidization event (T. sinensis special tetraploidization, TST) that occurred approximately 15–17 million years ago (MYA) after the core eudicot-common hexaploidization (ECH or gamma) event. We characterized the synonymous nucleotide substitution rates (Ks values) of collinear genes and found that T. sinensis genes affected by the TST evolve at a slower rate than Acer yangbiense genes. Furthermore, we identified homologous genes related to polyploidization and speciation and constructed multiple alignments with different reference genomes. Notably, the significant balance of gene retention and loss characterized in the two TST-derived subgenomes suggests an autopolyploid nature of the TST. Moreover, we deduced the chromosomal karyotypes of the two subgenomes and identified 7 chromosomal fusions that have shaped the T. sinensis genome; more information is available on a newly constructed karyotype platform (http://www.cgrpoee.top/Toona_sinensis/index.html). The T. sinensis genome preserves the ancestral chromosome structure of dicotyledons well and could serve as a good reference for understanding genomic changes in other Meliaceae and Sapindales plants. In addition, we verified that tandem duplication and the ECH have promoted the expansion of terpene synthase (TPS) genes; conversely, the TST seems to have inhibited expansion of these genes. This present effort has clarified the polyploidy events of the T. sinensis genome, filled gaps in the history of karyotype evolution, and laid a solid foundation for further genomic studies in the Meliaceae research community and beyond.

Published

2023

37. Genomic rearrangements and evolutionary changes in 3D chromatin topologies in the cotton tribe (Gossypieae)

Author

Xiaochong Li, Jinbin Wang, Yanan Yu, Guo Li, Jinpeng Wang, Changping Li, Zixian Zeng, Ning Li, Zhibin Zhang, Qianli Dong, Yiyang Yu, Xiaofei Wang, Tianya Wang, Corrinne E. Grover, Bin Wang, Bao Liu, Jonathan F. Wendel, and Lei Gong

Subjects

Chromatin architecture, Gossypieae, Chromosome rearrangement, Hi-C, Epigenetic modifications, Biology (General), QH301-705.5

Abstract

Abstract Background Analysis of the relationship between chromosomal structural variation (synteny breaks) and 3D-chromatin architectural changes among closely related species has the potential to reveal causes and correlates between chromosomal change and chromatin remodeling. Of note, contrary to extensive studies in animal species, the pace and pattern of chromatin architectural changes following the speciation of plants remain unexplored; moreover, there is little exploration of the occurrence of synteny breaks in the context of multiple genome topological hierarchies within the same model species. Results Here we used Hi-C and epigenomic analyses to characterize and compare the profiles of hierarchical chromatin architectural features in representative species of the cotton tribe (Gossypieae), including Gossypium arboreum, Gossypium raimondii, and Gossypioides kirkii, which differ with respect to chromosome rearrangements. We found that (i) overall chromatin architectural territories were preserved in Gossypioides and Gossypium, which was reflected in their similar intra-chromosomal contact patterns and spatial chromosomal distributions; (ii) the non-random preferential occurrence of synteny breaks in A compartment significantly associate with the B-to-A compartment switch in syntenic blocks flanking synteny breaks; (iii) synteny changes co-localize with open-chromatin boundaries of topologically associating domains, while TAD stabilization has a greater influence on regulating orthologous expression divergence than do rearrangements; and (iv) rearranged chromosome segments largely maintain ancestral in-cis interactions. Conclusions Our findings provide insights into the non-random occurrence of epigenomic remodeling relative to the genomic landscape and its evolutionary and functional connections to alterations of hierarchical chromatin architecture, on a known evolutionary timescale.

Published

2023

38. Antimicrobial Properties of Carboxymethyl Cellulose/Starch/N’N Methylenebisacrylamide Membranes Endowed by Ultrasound and Their Potential Application in Antimicrobial Packaging

Author

Youliang Cheng, Xinyi Cheng, Changqing Fang, Jing Chen, Xin Zhang, Changxue Cao, and Jinpeng Wang

Subjects

sonochemistry, antibacterial properties, carboxymethyl cellulose, Organic chemistry, QD241-441

Abstract

Cellulose is used widely in antimicrobial packaging due to its abundance in nature, biodegradability, renewability, non-toxicity, and low cost. However, how efficiently and rapidly it imparts high antimicrobial activity to cellulose-based packaging materials remains a challenge. In this work, Ag NPs were deposited on the surface of carboxymethyl cellulose/starch/N’N Methylenebisacrylamide film using ultrasonic radiation. Morphology and structure analysis of as-prepared films were conducted, and the antibacterial effects under different ultrasonic times and reductant contents were investigated. These results showed that Ag NPs were distributed uniformly on the film surface under an ultrasonic time of 45 min. The size of Ag NPs changes as the reducing agent content decreases. The composite film demonstrated a slightly better antibacterial effect against E. coli than against S. aureus. Therefore, this work can provide valuable insights for the research on antimicrobial packaging.

Published

2024

39. Recent Progresses in Pyrolysis of Plastic Packaging Wastes and Biomass Materials for Conversion of High-Value Carbons: A Review

Author

Youliang Cheng, Jinpeng Wang, Changqing Fang, Yanli Du, Jian Su, Jing Chen, and Yingshuan Zhang

Subjects

plastic packaging wastes, co-pyrolysis, polyolefin, carbon nanotubes, Organic chemistry, QD241-441

Abstract

The recycling of plastic packaging wastes helps to alleviate the problems of white pollution and resource shortage. It is very necessary to develop high-value conversion technologies for plastic packaging wastes. To our knowledge, carbon materials with excellent properties have been widely used in energy storage, adsorption, water treatment, aerospace and functional packaging, and so on. Waste plastic packaging and biomass materials are excellent precursor materials of carbon materials due to their rich sources and high carbon content. Thus, the conversion from waste plastic packaging and biomass materials to carbon materials attracts much attention. However, closely related reviews are lacking up to now. In this work, the pyrolysis routes of the pyrolysis of plastic packaging wastes and biomass materials for conversion to high-value carbons and the influence factors were analyzed. Additionally, the applications of these obtained carbons were summarized. Furthermore, the limitations of the current pyrolysis technology are put forward and the research prospects are forecasted. Therefore, this review can provide a useful reference and guide for the research on the pyrolysis of plastic packaging wastes and biomass materials and the conversion to high-value carbon.

Published

2024

40. Dead-Time Compensation Using ADALINE for Reduced-Order Observer-Based Sensorless SynRM Drives

Author

Liangnian Lv, Ziyuan Wang, Xinru Zhao, Rui Guo, Jinpeng Wang, Gaolin Wang, and Shulin Li

Subjects

synchronous reluctance motor, adaptive linear neurons, dead-time compensation, reduced-order observer, Technology

Abstract

The inverter dead time effect is non-negligible for the control performance of sensorless synchronous reluctance motor (SynRM) drives at low speeds. In this paper, a reduced-order observer-based sensorless control method for SynRM drives combined with the adaptive linear neurons (ADALINE)-based dead-time compensation is proposed. The reduced-order observer-based sensorless control method is presented, for which is parameter tuning is easy. On this basis, the dead-time compensation strategy using ADALINE filters is proposed to reduce the voltage harmonics effect on the estimation performance of the reduced-order observer. With ADALINE filters, the sixth current harmonic can be successfully filtered out by compensating the voltage directly or fitting the current to compensate the voltage. In this way, the low-speed estimation performance of the reduced-order observer is improved. The effectiveness of the proposed method is verified on a 3 kW SynRM experimental platform.

Published

2024

41. Exosomes derived from platelet-rich plasma promote diabetic wound healing via the JAK2/STAT3 pathway

Author

Wenhai Cao, Xiaotong Meng, Fangming Cao, Jinpeng Wang, and Maowei Yang

Subjects

Cell biology, Cellular physiology, Human metabolism, Science

Abstract

Summary: Diabetic non-healing wounds are bringing a heavy burden on patients and society. Platelet-rich plasma (PRP) has been widely applied in tissue regenerating for containing various growth factors. Recently, PRP-derived exosomes (PRP-Exos) have been proved to be more effective than PRP in tissue regeneration. However, few studies have investigated the therapeutic potential of PRP-Exos in diabetic wound healing to date. Therefore, we extracted and identified exosomes derived from PRP and tested its promoting effect on diabetic wound healing in vivo and in vitro. We found that high glucose (HG) inhibited cell proliferation and migration and induced apoptosis through ROS-dependent activation of the JNK and p38 MAPK signaling pathways. PRP-Exos can stimulate fibroblast functions and accelerate diabetic wound healing. The benefits of PRP-Exos may be attributed to its capability to prevent HG-induced ROS-dependent apoptosis via the PDGF-BB/JAK2/STAT3/Bcl-2 signaling pathway. This illustrates the therapeutic potential of PRP-Exos in diabetic wounds.

Published

2023

42. Divergent features of ERβ isoforms in triple negative breast cancer: progress and implications for further research

Author

Shunchao Yan, Jinpeng Wang, Hong Chen, Duo Zhang, and Murshid Imam

Subjects

ERβ isoforms, triple negative breast cancer, prognostic effect, binding affinity, mechanism, further research directions, Biology (General), QH301-705.5

Abstract

Estrogen receptor β (ERβ) was discovered more than 20 years ago. However, the extent and role of ERβ expression in breast cancer remain controversial, especially in the context of triple-negative breast cancer (TNBC). ERβ exists as multiple isoforms, and a series of studies has revealed an inconsistent role of ERβ isoforms in TNBC. Our recent results demonstrated contrasting functions of ERβ1 and ERβ2/β5 in TNBC. Additional research should be conducted to explore the functions of individual ERβ isoforms and develop targeted drugs according to the relevant mechanisms. Consequently, a systematic review of ERβ isoforms is necessary. In this review, we overview the structure of ERβ isoforms and detail what is known about the function of ERβ isoforms in normal mammary tissue and breast cancer. Moreover, this review highlights the divergent features of ERβ isoforms in TNBC. This review also provides insights into the implications of targeting ERβ isoforms for clinical treatment. In conclusion, this review provides a framework delineating the roles and mechanisms of different ERβ isoforms in TNBC and sheds light on future directions for basic and clinical research.

Published

2023

43. Variable-Angle Random High-Frequency Voltage Injection Strategy with Cross-Saturation Effect Compensation for Sensorless Synchronous Reluctance Motor Drives

Author

Liangnian Lv, Ziming Hu, Sisi Li, Rui Guo, Jinpeng Wang, Gaolin Wang, and Shulin Li

Subjects

synchronous reluctance motor, random HF voltage injection, variable-angle square-wave injection, cross-saturation effect compensation, Technology

Abstract

There are usually noise problems when the position sensorless control of a synchronous reluctance motor (SynRM) is carried out by high-frequency (HF) signal injection method. Due to the special structure, the cross-saturation effect of the SynRM is particularly serious, resulting in reduced position observation accuracy. In this paper, a variable-angle random HF voltage injection strategy with cross-saturation effect compensation is proposed for position sensorless SynRM drives. Random number generation based on the chaotic mapping method is used to generate random HF voltage signals with different frequencies for injection; the current power spectral density (PSD) distribution is extended and the HF noise can be reduced. A control strategy based on variable-angle square-wave injection is proposed to suppress the cross-saturation effect. By measuring the position error curves of different loads off-line and polynomial fitting the curves, the position error is achieved by combining with the corresponding signal demodulation algorithm. The proposed method does not require additional hardware resources and can maintain high control accuracy and robustness. Finally, the effectiveness of the proposed sensorless control strategy is verified on a 3 kW SynRM experimental platform.

Published

2024

44. Harnessing the potential: exploring development opportunities and charting strategic pathways for China’s enhanced engagement in international blue carbon cooperation

Author

Zhijun Zhang, Zhengkai Mao, and Jinpeng Wang

Subjects

blue carbon, international cooperation, China, ‘dual carbon’ goal, the Paris Agreement, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350, Science, Physics, QC1-999

Abstract

In light of the urgent need to combat climate change and attain carbon neutrality, the development of blue carbon has emerged as a pivotal strategy for the global community. This approach offers significant potential for both mitigating and adapting to the impacts of climate change. As a result, international collaboration on blue carbon initiatives has become a focal point in the worldwide response to the climate crisis. China, blessed with extensive blue carbon resources, recognizes the development of these ecosystems as a critical component in its efforts to make a substantial contribution to the global endeavor to curb climate change and achieve sustainable environmental goals. This article offers a comprehensive analysis of China’s opportunities and challenges in international blue carbon collaboration. Despite its vast potential, China faces significant hurdles, including the degradation of blue carbon ecosystems, a delayed start in implementing blue carbon practices, and inconsistencies in the blue carbon standard system. To enhance its participation in global blue carbon initiatives, China should pursue several key strategies, including preserving and restoring its blue carbon ecosystems, strengthening domestic protection and application mechanisms, promoting the construction of an international blue carbon system, establishing a scientific cooperation platform to facilitate capacity building and technology transfer and advocating for an international blue carbon market trading mechanism. By prioritizing these key areas, China can simultaneously foster domestic blue carbon conservation and development while solidifying its role as a pivotal contributor to global climate change mitigation efforts.

Published

2024

45. Study on the Changes of Bone Calcium during the Fermentation of Bone Powders with Different Fermenters

Author

Jia Meng, Ying Wang, Jinxuan Cao, Wendi Teng, Jinpeng Wang, and Yuemei Zhang

Subjects

bone powders, fermentation, calcium forms, calcium release, structure, Chemical technology, TP1-1185

Abstract

Two fermenters, Lactobacillus acidophilus (LA) and the active dry yellow wine yeast (HY), were utilized to ferment cattle bones in order to release calcium. The influences of fermenters and the fermentation process on the calcium release capacity, particle properties, morphology, and chemical composition of bone powders were assessed, and the underlying mechanism was discussed. The results showed that LA had a better capacity of acid production than yeast, and therefore released more calcium during the fermentation of bone powders. The released calcium in the fermentation broth mainly existed in the forms of free Ca2+ ions, organic acid-bound calcium and a small amount of calcium–peptide chelate. For bone powders, the fermentation induced swollen bone particles, increased particle size, and significant changes of the internal chemical structure. Therefore, fermentation has a great potential in the processing of bone-derived products, particularly to provide new ideas for the development of calcium supplement products.

Published

2024

46. A Communication Anti-Jamming Scheme Assisted by RIS with Angular Response

Author

Jinpeng Wang, Wenyu Jiang, Kaizhi Huang, and Xiaoli Sun

Subjects

channel capacity, reconfigurable intelligent surface, anti-jamming, angular response, Science, Astrophysics, QB460-466, Physics, QC1-999

Abstract

By optimizing the reconfigurable intelligent surface (RIS) reflection coefficients, the channel capacity of legitimate users can be increased, thereby enhancing the anti-jamming performance of communication systems. However, existing studies on RIS-assisted anti-jamming assume that there is no coupling between the RIS reflection coefficients and the incident angle of electromagnetic (EM) waves, which is quite unreasonable. Therefore, we consider the effect of the incident angle of EM waves on the reflection coefficients of the RIS and propose a communication anti-jamming scheme assisted by an RIS with angular response. Specifically, a problem is formulated to optimize the RIS reflection coefficients so that the legitimate signal is amplified, but the jamming signal is attenuated, thus enhancing the legitimate channel capacity. However, the coupling of the EM incident angle and the RIS reflection coefficients causes the problem to be non-convex. To tackle this problem, we equivalently transform the RIS reflection coefficients optimization problem into a quadratically constrained quadratic programming (QCQP) problem using the complex Taylor expansion and the multidimensional complex quadratic transform (MCQT) and solve it utilizing the alternating direction method of the multipliers (ADMM) algorithm. The simulation results reveal that, compared to other schemes supported by RIS without angular response, the proposed scheme is able to achieve a significant improvement in the anti-jamming performance.

Published

2023

47. Evolutionary analysis and functional characterization of BZR1 gene family in celery revealed their conserved roles in brassinosteroid signaling

Author

Chunliu Zuo, Lan Zhang, Xinyue Yan, Xinyue Guo, Qing Zhang, Songyang Li, Yanling Li, Wen Xu, Xiaoming Song, Jinpeng Wang, and Min Yuan

Subjects

Brassinosteroids, BZR1, Celery, Constitutive BR-responsive phenotypes, Whole-genome duplication, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Brassinosteroids (BRs) are a group of essential steroid hormones involved in diverse developmental and physiological processes in plants. The Brassinazole-resistant 1 (BZR1) transcription factors are key components of BR signaling and integrate a wide range of internal and environmental signals to coordinate plant development, growth, and resistance to abiotic and biotic stresses. Although the BZR1 family has been fully studied in Arabidopsis, celery BZR1 family genes remain largely unknown. Results Nine BZR1 genes were identified in the celery genome, and categorized into four classes based on phylogenetic and gene structure analyses. All the BZR1 proteins shared a typical bHLH (basic helix-loop-helix) domain that is highly conserved across the whole family in Arabidopsis, grape, lettuce, ginseng, and three Apiaceae species. Both duplications and losses of the BZR1 gene family were detected during the shaping of the celery genome. Whole-genome duplication (WGD) or segmental duplication contributed 55.56% of the BZR1 genes expansion, and the γ as well as celery-ω polyploidization events made a considerable contribution to the production of the BZR1 paralogs in celery. Four AgBZR1 members (AgBZR1.1, AgBZR1.3, AgBZR1.5, and AgBZR1.9), which were localized both in the nucleus and cytoplasm, exhibit transcription activation activity in yeast. AgBZR1.5 overexpression transgenic plants in Arabidopsis showed curled leaves with bent, long petioles and constitutive BR-responsive phenotypes. Furthermore, the AgBZR1 genes possessed divergent expression patterns with some overlaps in roots, petioles, and leaves, suggesting an extensive involvement of AgBZR1s in the developmental processes in celery with both functional redundancy and divergence. Conclusions Our results not only demonstrated that AgBZR1 played a conserved role in BR signaling but also suggested that AgBZR1 might be extensively involved in plant developmental processes in celery. The findings lay the foundation for further study on the molecular mechanism of the AgBZR1s in regulating the agronomic traits and environmental adaptation of celery, and provide insights for future BR-related genetic breeding of celery and other Apiaceae crops.

Published

2022

48. Conversion between duplicated genes generated by polyploidization contributes to the divergence of poplar and willow

Author

Jianyu Wang, Lan Zhang, Jiaqi Wang, Yanan Hao, Qimeng Xiao, Jia Teng, Shaoqi Shen, Yan Zhang, Yishan Feng, Shoutong Bao, Yu Li, Zimo Yan, Chendan Wei, Li Wang, and Jinpeng Wang

Subjects

Poplar, Willow, Polyploidization, Duplicated genes, Gene conversion, Botany, QK1-989

Abstract

Abstract Background Gene conversion has an important effect on duplicate genes produced by polyploidization. Poplar (Populus trichocarpa) and willow (Salix brachista) are leading models and excellent green plants in the Salicaceae. Although much attention has been paid to the evolution of duplicated genes in poplar and willow, the role of conversion between duplicates generated from polyploidization remains poorly understood. Results Here, through genomic synteny analyses, we identified duplicate genes generated by the Salicaceae common tetraploidization (SCT) in the poplar and willow genomes. We estimated that at least 0.58% and 0.25% of poplar and willow duplicates were affected by whole-gene conversion after the poplar-willow divergence, with more (5.73% and 2.66%) affected by partial-gene conversion. Moreover, we found that the converted duplicated genes were unevenly distributed on each chromosome in the two genomes, and the well-preserved homoeologous chromosome regions may facilitate the conversion of duplicates. Notably, we found that conversion maintained the similarity of duplicates, likely contributing to the conservation of certain sequences, but is essentially accelerated the rate of evolution and increased species divergence. In addition, we found that converted duplicates tended to have more similar expression patterns than nonconverted duplicates. We found that genes associated with multigene families were preferentially converted. We also found that the genes encoding conserved structural domains associated with specific traits exhibited a high frequency of conversion. Conclusions Extensive conversion between duplicate genes generated from the SCT contributes to the diversification of the family Salicaceae and has had long-lasting effects on those genes with important biological functions.

Published

2022

49. Study on optimal adsorption conditions of norfloxacin in water based on response surface methodology

Author

Ming Zhang, Kuo Zhang, Jinpeng Wang, Runjuan Zhou, Jiyuan Li, and Wei Zhao

Subjects

adsorption conditions, biochar, interaction, norfloxacin, rsm, Water supply for domestic and industrial purposes, TD201-500, River, lake, and water-supply engineering (General), TC401-506

Abstract

The waste pomelo peel was pyrolyzed at 400 °C to prepare biochar and used as adsorbent to remove norfloxacin (NOR) from simulated wastewater. The adsorption conditions of norfloxacin by biochar were optimized by response surface methodology (RSM). On the basis of single-factor experiment, the adsorption conditions of biochar dosage, solution pH and reaction temperature were optimized by Box-Behnken Design (BBD), and the quadratic polynomial regression model of response value Y1 (NOR removal efficiency) and Y2 (NOR adsorption capacity) were obtained respectively. The results show that the two models are reasonable and reliable. The influence of single factor was as follows: solution pH > biochar dosage > reaction temperature. The interaction between biochar dosage and solution pH was very significant. The optimal adsorption conditions after optimization were as follows: biochar dosage = 0.5 g/L, solution pH = 3, and reaction temperature = 45 °C. The Y1 and Y2 obtained in the verification experiment were 75.68% and 3.0272 mg/g, respectively, which were only 2.38% and 0.0242 mg/g different from the theoretical predicted values of the model. Therefore, the theoretical model constructed by response surface methodology can be used to optimize the adsorption conditions of norfloxacin in water. HIGHLIGHTS Constructed a reliable response surface model for biochar adsorption of norfloxacin in water.; The interaction of adsorption conditions and its influence on the adsorption of norfloxacin by biochar have been explored clearly.; The constructed response surface model can be used to adjust the adsorption conditions of biochar to adsorb norfloxacin in actual water.;

Published

2022

50. Hydroxylamine enhanced activation of peroxymonosulfate by Fe(III)/Cu(II) bimetallic for high-efficiency degradation of AO7

Author

Ming Zhang, Kuo Zhang, Runjuan Zhou, and Jinpeng Wang

Subjects

bimetallic, hydroxylamine, organic pollutants, peroxymonosulfate, Environmental technology. Sanitary engineering, TD1-1066

Abstract

In this study, a new type of iron/copper bimetallic combined with hydroxylamine (HA) activated peroxymonosulfate (PMS) was constructed to treat organic pollutants. Selecting the azo dye acid orange 7 (AO7) as the representative of organic pollutants, the new system can achieve nearly 100% degradation of AO7 within 5 min. The Fe(III)/Cu(II)/HA/PMS system mainly generates SO4·− to achieve the degradation of AO7 in acidic environment, while neutral and alkaline environments rely on ·OH. The presence of hydroxylamine accelerates the cycle of Fe(III)/Fe(II) and Cu(II)/Cu(I) in the system, and enhances the degradation ability of the system for organic pollutants. The addition of trace Cu(II) (1 μM) enhances the ability of a single Fe(III)/HA/PMS system to degrade AO7 in neutral and alkaline environments without causing secondary copper pollution. The common inorganic anions Cl− and NO3− in water have almost no effect on the degradation of AO7 in the system. The constructed Fe(III)/Cu(II)/HA/PMS system is an efficient and clean organic pollutant wastewater treatment process, which has very promising application prospects. HIGHLIGHTS The effect of hydroxylamine on the activation of peroxymonosulfate in Fe(III)-Cu(II) bimetallic is reported for the first time.; The Fe(III)/Cu(II)/hydroxylamine/peroxymonosulfate system can remove 100% of AO7 within 5 min.; Hydroxylamine enables Fe(III), which cannot activate peroxymonosulfate, to activate peroxymonosulfate efficiently.; A trace amount of Cu(II) can reduce Fe(III) to Fe(II).;

Published

2022