Your search keyword '"Wang, Jieqiong"' showing total 13 results

1. Nitrogen and Sulfur Co-Doped Graphene-Quantum-Dot-Based Fluorescent Sensor for Rapid Visual Detection of Water Content in Organic Solvents.

Author

Zhang, Hongyuan, Wang, Jieqiong, Ji, Xiaona, Bao, Yanru, Han, Ce, and Sun, Guoying

Subjects

*IMAGING systems in biology, *RESPONSE surfaces (Statistics), *QUANTUM dots, *FLUORESCENT probes, *SMARTPHONES, *NITROGEN

Abstract

Accurate water content detection is crucial for optimizing chemical reactions, ensuring product quality in pharmaceutical manufacturing, and maintaining food safety. In this study, nitrogen and sulfur co-doped graphene quantum dots (R-GQDs) were synthesized via a one-step hydrothermal method using o-phenylenediamine as the carbon source. The synthesis conditions, including reaction time, temperature, o-phenylenediamine concentration, and H2SO4/water ratio, were optimized using the Box-Behnken response surface methodology. The R-GQDs exhibited excellent fluorescence stability and distinct solvent-dependent characteristics, alongside a broad linear detection range and high sensitivity, making them highly suitable for dual-mode water content detection (colorimetric and fluorescent). To enhance the accuracy of visual detection, R-GQDs were incorporated into portable test strips with smartphone-assisted analysis, compensating for the human eye's limitations in distinguishing subtle color changes. The sensor's practical utility was validated through spiked recovery experiments in food samples, and the R-GQDs demonstrated good biocompatibility for in vivo imaging in shrimp. These findings highlight a novel strategy for developing portable, real-time water content sensors with potential applications in both portable detection systems and biological imaging. [ABSTRACT FROM AUTHOR]

Published

2024

2. The Intestinal Barrier Protective Effect of Indole Aldehyde Derivatives on Acute Toxoplasma gondii Infection.

Author

Wang, Jieqiong, Yan, Weifeng, Cheng, Xu, Tong, Yonggang, Wang, Sihong, and Jin, Chunmei

Subjects

*ALDEHYDE derivatives, *SMALL intestine, *GASTROINTESTINAL motility, *PERITONEUM, *INTESTINAL diseases

Abstract

Toxoplasmosis, a zoonotic infection caused by Toxoplasma gondii (T. gondii), poses a significant risk to human health and public safety. Despite the availability of clinical treatments, none effectively mitigate the intestinal barrier damage, which is the primary defense against T. gondii invasion. This study introduced aldehyde groups into the indole scaffold of a peptide-like structure to investigate the protective effects of these indole aldehyde derivatives on the intestinal barrier in mice with acute T. gondii infection. This approach leveraged the propensity of peptides and aldehyde groups to form hydrogen bonds. We synthesized a range of indole derivatives using the Vilsmeier–Haack reaction and evaluated their intestinal barrier protective effects both in vitro and in vivo. Our findings revealed that indole derivatives A1 (1-Formyl-1H-indole-3-acetonitrile), A3 (Indole-3-carboxaldehyde), A5 (2-Chloro-1H-indole-3-carboxaldehyde), A8 (1-Methyl-indole-3-carboxaldehyde), and A9 (1-Methyl-2-phenyl-1H-indole-3-carboxaldehyde) demonstrated a higher selectivity index compared to the positive control, spiramycin. These derivatives enhanced gastrointestinal motility, increased glutathione (GSH) levels in the small intestine, and reduced malondialdehyde (MDA) and nitric oxide (NO) levels in the small intestine tissue and diamine oxidase (DAO) and NO levels in the serum of infected mice. Notably, A3 exhibited comparable anti-T. gondii tachyzoites activity in the peritoneal cavity. Molecular docking studies indicated that the aldehyde group on the indole scaffold not only formed a hydrogen bond with NTPase-II but also interacted with TgCDPK1 through hydrogen bonding. Among the derivatives, A3 showed promising intestinal barrier protective effects in mice with acute T. gondii infection. This research suggests that indole derivatives could serve as a potential therapeutic strategy for intestinal diseases induced by T. gondii, offering a novel direction for treating intestinal barrier damage and providing valuable insights for the chemical modification of drugs targeting T. gondii. Furthermore, it contributes to the advancement of therapeutic approaches for toxoplasmosis. [ABSTRACT FROM AUTHOR]

Published

2024

3. The Complete Mitochondrial Genomes of Penthe kochi (Coleoptera: Tetratomidae) with Its Phylogenetic Implications.

Author

Ouyang, Bowen, Li, Yingying, Wang, Jieqiong, Wei, Zhonghua, and Shi, Aimin

Published

2024

4. Comparison of Combined Dissipation Behaviors and Dietary Risk Assessments of Thiamethoxam, Bifenthrin, Dinotefuran, and Their Mixtures in Tea.

Author

Wang, Tiancai, Qian, Yongzhong, Wang, Jieqiong, Yin, Xueyan, Liang, Qifu, Liao, Guangqin, Li, Xiabing, Qiu, Jing, and Xu, Yanyang

Subjects

TEA growing, BIFENTHRIN, AMINO acid residues, DIETARY patterns, INSECTICIDES, THIAMETHOXAM

Abstract

In the tea-planting process, insecticides are commonly combined, potentially prolonging the pre-harvest interval and heightening the risk of dietary exposure. This study focused on three frequently used insecticides in tea cultivation: thiamethoxam, bifenthrin, and dinotefuran, aiming to investigate their dissipation behaviors and associated dietary risks upon individual and simultaneous application. The dissipation kinetics of thiamethoxam, bifenthrin, and dinotefuran were successfully characterized by first-order kinetics, yielding respective half-lives of 5.44, 9.81, and 10.16 days. Upon joint application, the dissipation half-lives of thiamethoxam and bifenthrin were notably prolonged compared with their individual applications, resulting in final concentrations after 28 days that were correspondingly elevated by 1.41 and 1.29 times. Assessment of the dietary intake risk revealed that the chronic and acute risk quotients associated with thiamethoxam and bifenthrin escalated by 1.44–1.59 times following their combined application. Although dietary risks associated with Tianmuhu white tea, as determined by the exposure assessment model, were deemed acceptable, the cumulative risks stemming from pesticide mixtures across various dietary sources warrant attention. Molecular docking analyses further unveiled that thiamethoxam and bifenthrin competitively bound to glutathione S-transferase (GST) at amino acid residues, notably at the 76th GLU and the 25th PHE, pivotal in the metabolism and absorption of exogenous substances. Moreover, the interactions between P-glycoprotein and pesticides during transport and absorption were likely to influence dissipation behaviors post-joint application. This research offers valuable insights and data support for optimizing joint pesticide application strategies and assessing risks associated with typical pesticides used in tea cultivation. [ABSTRACT FROM AUTHOR]

Published

2024

5. Characterization and Comparison of Contrast Imaging Properties of Naturally Isolated and Heterologously Expressed Gas Vesicles.

Author

Liu, Tingting, Wang, Jieqiong, Liu, Chenxing, Wang, Yuanyuan, Li, Zhenzhou, and Yan, Fei

Subjects

*CONTRAST-enhanced ultrasound, *ULTRASOUND contrast media, *DIAGNOSTIC ultrasonic imaging, *CONTRAST media, *GENETIC techniques, *GENETIC engineering

Abstract

Nanoscale ultrasound contrast agents have attracted considerable interest in the medical imaging field for their ability to penetrate tumor vasculature and enable targeted imaging of cancer cells by attaching to tumor-specific ligands. Despite their potential, traditional chemically synthesized contrast agents face challenges related to complex synthesis, poor biocompatibility, and inconsistent imaging due to non-uniform particle sizes. To address these limitations, bio-synthesized nanoscale ultrasound contrast agents have been proposed as a viable alternative, offering advantages such as enhanced biocompatibility, consistent particle size for reliable imaging, and the potential for precise functionalization to improve tumor targeting. In this study, we successfully isolated cylindrical gas vesicles (GVs) from Serratia. 39006 and subsequently introduced the GVs-encoding gene cluster into Escherichia coli using genetic engineering techniques. We then characterized the contrast imaging properties of two kinds of purified GVs, using in vitro and in vivo methods. Our results demonstrated that naturally isolated GVs could produce stable ultrasound contrast signals in murine livers and tumors using clinical diagnostic ultrasound equipment. Additionally, heterologously expressed GVs from gene-engineered bacteria also exhibited good ultrasound contrast performance. Thus, our study presents favorable support for the application of genetic engineering techniques in the modification of gas vesicles for future biomedical practice. [ABSTRACT FROM AUTHOR]

Published

2024

6. A Review for Artificial Intelligence Based Protein Subcellular Localization.

Author

Xiao, Hanyu, Zou, Yijin, Wang, Jieqiong, and Wan, Shibiao

Subjects

DEEP learning, ARTIFICIAL intelligence, IMMUNOELECTRON microscopy, MACHINE learning, ALZHEIMER'S disease, NUCLEOTIDE sequencing, DRUG design

Abstract

Proteins need to be located in appropriate spatiotemporal contexts to carry out their diverse biological functions. Mislocalized proteins may lead to a broad range of diseases, such as cancer and Alzheimer's disease. Knowing where a target protein resides within a cell will give insights into tailored drug design for a disease. As the gold validation standard, the conventional wet lab uses fluorescent microscopy imaging, immunoelectron microscopy, and fluorescent biomarker tags for protein subcellular location identification. However, the booming era of proteomics and high-throughput sequencing generates tons of newly discovered proteins, making protein subcellular localization by wet-lab experiments a mission impossible. To tackle this concern, in the past decades, artificial intelligence (AI) and machine learning (ML), especially deep learning methods, have made significant progress in this research area. In this article, we review the latest advances in AI-based method development in three typical types of approaches, including sequence-based, knowledge-based, and image-based methods. We also elaborately discuss existing challenges and future directions in AI-based method development in this research field. [ABSTRACT FROM AUTHOR]

Published

2024

7. Does Environmental Regulation Promote Eco-Innovation Performance of Manufacturing Firms?—Empirical Evidence from China.

Author

Wang, Jieqiong, Hu, Shichao, and Zhang, Ziyi

Subjects

*ENVIRONMENTAL regulations, *TECHNOLOGICAL innovations, *INDUSTRIAL clusters, *CARBON emissions, *ORGANIZATIONAL performance, *ENVIRONMENTAL policy

Abstract

As the world becomes more concerned about carbon emissions, the Chinese government, which is a large contributor to carbon emissions, has also begun to pay attention to the issue of carbon emissions. Environmental regulatory policies have been implemented to improve the environment, but are these policies really conducive to improving firms' eco-innovation performance? This paper empirically investigates the relationship between environmental regulation policies and firms' eco-innovation performance in China and finds that: firstly, environmental regulation in China is inadequate and that manufacturing eco-innovation performance is generally low; secondly, there is a U-shaped relationship between environmental regulation policies and firms' eco-innovation performance; thirdly, there is significant industry and regional heterogeneity in the induced effects of environmental regulation tools; and fourthly, there is a mediating effect of industrial agglomeration on the promotion of firms' eco-innovation performance. The conclusions of this paper are: firstly, that the Chinese government should continue to improve environmental regulations and strictly enforce them so that green becomes the colour of 'economic recovery'; secondly, that the Chinese government should develop scientific and reasonable environmental regulatory policies according to local conditions; thirdly, that Chinese companies should increase their spending on research and development; and fourthly, that the Chinese government needs to optimise the industrial layout and support mechanisms. The Chinese government should play an active role in industrial agglomeration in technological innovation. [ABSTRACT FROM AUTHOR]

Published

2023

8. How Diversity and Accessibility Affect Street Vitality in Historic Districts?

Author

Huang, Jing, Hu, Xiao, Wang, Jieqiong, and Lu, Andong

Subjects

HISTORIC districts, URBAN planning, GEOSPATIAL data, PUBLIC transit, INFRASTRUCTURE (Economics), STREET children

Abstract

The loss of traditional features and place memory, and ultimately vibrancy in historic districts, has attracted substantial attention in today's urban design. Most conventional theories are of the consensus that diversity and accessibility characteristics play important roles in creating street vitality, whereas how these characteristics influence street vitality in historic districts has not been thoroughly explored. Furthermore, it is less clear as to which characteristics exert greater influence. Taking the Drum Tower Muslim District, a historical neighborhood in Xi'an, China, as a case study, this paper employs geospatial data to examine how diversity and accessibility influence street vitality. This study identifies seven factors of diversity and accessibility, and incorporates them into a spatial multivariate regression model for analysis. The results indicate that accessibility makes a stronger impact on the street vitality than diversity does. Furthermore, the closeness of streets, the functional density, the intersection density, the location of public transportation and the density of public infrastructure are the top five factors influencing street vitality. The outcome of this study will shed light on what constitutes a vibrant historic district and will help to inform us as to where and how we can improve street vitality. [ABSTRACT FROM AUTHOR]

Published

2023

9. Highly Bright Gold Nanowires Arrays for Sensitive Detection of Urea and Urease.

Author

Li, Yan, Zhao, Aowei, Wang, Jieqiong, Yu, Jieyu, Xiao, Fei, and Sun, Hongcheng

Subjects

NANOWIRES, UREA, UREASE, FLUORESCENCE yield, GOLD, FLUORESCENT probes

Abstract

In this work, highly fluorescent gold nanowire arrays (Au NWs) are successfully synthesized by assembling Zn2+ ions and non-emissive oligomeric gold-thiolate clusters using mercaptopropionic acid both as a reducing agent and a growth ligand. The synthesized Au NWs exhibited strong bluish green fluorescence with an absolute quantum yield up to 32% and possessed ultrasensitive pH stimuli-responsive performance in the range of 7.0–7.8. Based on the excellent properties of the as-prepared nanowire arrays, we developed a facile, sensitive, and selective fluorescent method for quantitative detection of urea and urease. The fabricated nanoprobe showed superior biosensing response characteristics with good linearities in the range of 0–100 μM for urea concentration and 0–12 U/L for urease activity. In addition, this fluorescent probe afforded relatively high sensitivity with the detection limit as low as 2.1 μM and 0.13 U/L for urea and urease, respectively. Urea in human urine and urease in human serum were detected with satisfied results, exhibiting a promising potential for biomedical application. [ABSTRACT FROM AUTHOR]

Published

2022

10. Photo Processing for Biomedical Hydrogels Design and Functionality: A Review.

Author

Yao, Hongyi, Wang, Jieqiong, and Mi, Shengli

Subjects

*HYDROGELS, *ENGINEERING technology education, *BIOMEDICAL engineers, *CHEMICAL reactions, *CROSSLINKING (Polymerization)

Abstract

A large number of opportunities for biomedical hydrogel design and functionality through photo-processing have stretched the limits of innovation. As both photochemical understanding and engineering technologies continue to develop, more complicated geometries and spatiotemporal manipulations can be realized through photo-exposure, producing multifunctional hydrogels with specific chemical, biological and physical characteristics for the achievement of biomedical goals. This report describes the role that light has recently played in the synthesis and functionalization of biomedical hydrogels and primarily the design of photoresponsive hydrogels via different chemical reactions (photo crosslinking and photo degradation) and conventional light curing processes (micropatterning, stereolithography and two/multiphoton techniques) as well as typical biomedical applications of the hydrogels (cell culture, differentiation and in vivo vascularization) and their promising future. [ABSTRACT FROM AUTHOR]

Published

2018

11. Targeted Delivery of Liposomal Temozolomide Enhanced Anti-Glioblastoma Efficacy through Ultrasound-Mediated Blood–Brain Barrier Opening.

Author

Song, Zhuqing, Huang, Xiuxian, Wang, Jieqiong, Cai, Feiyan, Zhao, Ping, and Yan, Fei

Subjects

BLOOD-brain barrier, MICROBUBBLE diagnosis, CENTRAL nervous system tumors, TEMOZOLOMIDE, BRAIN tumors, SURVIVAL rate, DRUG accessibility

Abstract

Glioblastoma (GBM) is the commonest form of primary brain tumor in the central nervous system, with median survival below 15 months and only a 25% two-year survival rate for patients. One of the major clinical challenges in treating GBM is the presence of the blood–brain barrier (BBB), which greatly limits the availability of therapeutic drugs to the tumor. Ultrasound-mediated BBB opening provides a promising approach to help deliver drugs to brain tumors. The use of temozolomide (TMZ) in the clinical treatment of GBM has been shown to be able to increase survival in patients with GBM, but this improvement is still trivial. In this study, we developed a liposomal temozolomide formulation (TMZ-lipo) and locally delivered these nanoparticles into GBM through ultrasound-mediated BBB opening technology, significantly suppressing tumor growth and prolonging tumor-bearing animal survival. No significant side effects were observed in comparison with control rats. Our study provides a novel strategy to improve the efficacy of TMZ against GBM. [ABSTRACT FROM AUTHOR]

Published

2021

12. Dual-Modality Molecular Imaging of Tumor via Quantum Dots-Liposome-Microbubble Complexes.

Author

Wang J, Wang Y, Jia J, Liu C, Ni D, Sun L, and Guo Z

Abstract

Molecular imaging has demonstrated promise for evaluating the expression levels of biomarkers for the early prediction of tumor progression and metastasis. However, most of the commonly used molecular imaging modalities are relatively single and have difficulties imaging complex biological processes. Here, we fabricated αvβ3-integrin-targeted quantum-dots-loaded liposome-microbubble (iRGD-QDLM) complexes that combined ultrasound imaging with optical imaging. The resulting iRGD-QDLM has excellent binding capability to 4T1 breast cancer cells. Ultrasound molecular imaging of 4T1 tumors demonstrated that significantly enhanced ultrasound molecular signals could be observed in comparison with non-targeted QDLM. Importantly, our study also suggested that iRGD-QDL on the surface of microbubbles could be delivered into a tumor by ultrasound-mediated microbubble destruction and adhered to αvβ3 integrin on breast cancer cells, achieving transvascular fluorescent imaging. Our study provides a novel approach to dual-modality molecular imaging of αvβ3 integrin in the tumor tissue.

Published

2022

13. Photo Processing for Biomedical Hydrogels Design and Functionality: A Review.

Author

Yao H, Wang J, and Mi S

Abstract

A large number of opportunities for biomedical hydrogel design and functionality through photo-processing have stretched the limits of innovation. As both photochemical understanding and engineering technologies continue to develop, more complicated geometries and spatiotemporal manipulations can be realized through photo-exposure, producing multifunctional hydrogels with specific chemical, biological and physical characteristics for the achievement of biomedical goals. This report describes the role that light has recently played in the synthesis and functionalization of biomedical hydrogels and primarily the design of photoresponsive hydrogels via different chemical reactions (photo crosslinking and photo degradation) and conventional light curing processes (micropatterning, stereolithography and two/multiphoton techniques) as well as typical biomedical applications of the hydrogels (cell culture, differentiation and in vivo vascularization) and their promising future., Competing Interests: The authors declare no conflicts of interest.

Published

2017