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2. A facile alternative strategy of upcycling mixed plastic waste into vitrimers

Author

Kok Wei Joseph Ng, Jacob Song Kiat Lim, Nupur Gupta, Bing Xue Dong, Chun-Po Hu, Jingdan Hu, and Xiao Matthew Hu

Subjects
Chemistry, QD1-999
Abstract

Abstract Chemical depolymerization has been identified as a promising approach towards recycling of plastic waste. However, complete depolymerization may be energy intensive with complications in purification. In this work, we have demonstrated upcycling of mixed plastic waste comprising a mixture of polyester, polyamide, and polyurethane through a reprocessable vitrimer of the depolymerized oligomers. Using poly(ethylene terephthalate) (PET) as a model polymer, we first demonstrated partial controlled depolymerization, using glycerol as a cleaving agent, to obtain branched PET oligomers. Recovered PET (RPET) oligomer was then used as a feedstock to produce a crosslinked yet reprocessable vitrimer (vRPET) despite having a wide molecular weight distribution using a solventless melt processing approach. Crosslinking and dynamic interactions were observed through rheology and dynamic mechanical analysis (DMA). Tensile mechanical studies showed no noticeable decrease in mechanical strength over multiple repeated melt processing cycles. Consequently, we have clearly demonstrated the applicability of the above method to upcycle mixed plastic wastes into vitrimers and reprocessable composites. This work also afforded insights into a potentially viable alternative route for utilization of depolymerized plastic/mixed plastic waste into crosslinked vitrimer resins manifesting excellent mechanical strength, while remaining reprocessable/ recyclable for cyclical lifetime use.

Published
2023
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3. Reduction of Satellite Signature Effect in High-Accuracy Satellite Laser Ranging to Etalon

Author

Ning An, Bowen Guan, Natalia Edith Nunez, Jian Gao, Xue Dong, Haitao Zhang, and Ricardo Cesar Podesta

Subjects
satellite laser ranging, satellite signature effect, pro-processing algorithm, center of mass corrections, Etalon, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Etalon is considered to be one of the most promising satellites for studying crustal motions, Earth rotation, and other scientific applications. Unfortunately, its outsized shape and signature result in a measurement range bias of several millimeters. On the basis of simulations of the echo signals, we analyze the center of mass corrections (CoM) for Etalon due to variations in satellite signature effect at different incidence angles. To minimize range bias caused by satellite signature effects, a center of mass corrections filter has been proposed for the processing of standard SLR data. According to the relationship between RMS of CoM and the upper limits of the rejection criteria, the measurements with the lowest variability of CoM are selected for normal points. Statistics indicate that the center of mass corrections filter can improve the stability of the collected data by 79%, and reduce the mean RMS of normal points from 163.7 × 41.8 ps to 118.2 × 8.94 ps. Additionally, the new algorithm is applicable to Etalon-2. In particular, this paper enriches and provides a useful reference for minimizing the effects of satellite signatures on the production of SLR data by providing a theoretical model that incorporates systematic errors in SLR.

Published
2023
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5. LUMDE: Light-Weight Unsupervised Monocular Depth Estimation via Knowledge Distillation

Author

Wenze Hu, Xue Dong, Ning Liu, and Yuanfeng Chen

Subjects
knowledge distillation (KD), pose network, Transformer, unsupervised depth estimation, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

The use of the unsupervised monocular depth estimation network approach has seen rapid progress in recent years, as it avoids the use of ground truth data, and also because monocular cameras are readily available in most autonomous devices. Although some effective monocular depth estimation networks have been reported previously, such as Monodepth2 and SC-SfMLearner, most of these approaches are still computationally expensive for lightweight devices. Therefore, in this paper, we introduced a knowledge-distillation-based approach named LUMDE, to deal with the pixel-by-pixel unsupervised monocular depth estimation task. Specifically, we use a teacher network and lightweight student network to distill the depth information, and further, integrate a pose network into the student module to improve the depth performance. Moreover, referring to the idea of the Generative Adversarial Network (GAN), the outputs of the student network and teacher network are taken as fake and real samples, respectively, and Transformer is introduced as the discriminator of GAN to further improve the depth prediction results. The proposed LUMDE method achieves state-of-the-art (SOTA) results in the knowledge distillation of unsupervised depth estimation and also outperforms the results of some dense networks. The proposed LUMDE model only loses 2.6% on δ1 accuracy on the NYUD-V2 dataset compared with the teacher network but reduces the computational complexity by 95.2%.

Published
2022
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6. pH-Responsive DNA Motif: From Rational Design to Analytical Applications

Author

Lin Lin Zheng, Jin Ze Li, Ying Xu Li, Jian Bang Gao, Jiang Xue Dong, and Zhong Feng Gao

Subjects
pH-responsive, DNA molecular devices, triplex DNA, i-motif, A+-C mismatch, Chemistry, QD1-999
Abstract

pH-responsive DNA motifs have attracted substantial attention attributed to their high designability and versatility of DNA chemistry. Such DNA motifs typically exploit DNA secondary structures that exhibit pH response properties because of the presence of specific protonation sites. In this review, we briefly summarized second structure-based pH-responsive DNA motifs, including triplex DNA, i-motif, and A+-C mismatch base pair-based DNA devices. Finally, the challenges and prospects of pH-responsive DNA motifs are also discussed.

Published
2021
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7. Effects of PDE4 pathway inhibition in rat experimental stroke.

Author

Yang, Fan, Sumbria, Rachita K, Xue, Dong, Yu, Chuanhui, He, Dan, Liu, Shuo, Paganini-Hill, Annlia, and Fisher, Mark

Subjects
Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Brain Disorders, Stroke, Aetiology, 2.1 Biological and endogenous factors, Animals, Cyclic Nucleotide Phosphodiesterases, Type 4, Disease Models, Animal, Fibrinolysis, Fluorescent Antibody Technique, Male, Microvessels, Oligonucleotide Array Sequence Analysis, Phosphodiesterase 4 Inhibitors, Rats, Rats, Inbred F344, Rats, Wistar, phosphodiesterase IV, rolipram, phosphodiesterase IV inhibitor, animal experiment, animal model, animal tissue, article, brain infarction size, brain ischemia, controlled study, disease activity, enzyme activity, enzyme assay, experimental stroke, gene, gene expression, gene function, gene identification, immunofluorescence, in vivo study, molecular dynamics, molecular pathology, nonhuman, phosphodiesterase 4 gene, rat, signal transduction, animal, chemistry, disease model, DNA microarray, drug effects, fibrinolysis, Fischer 344 rat, fluorescent antibody technique, genetics, male, metabolism, microvasculature, pathology, Wistar rat, Pharmacology & Pharmacy, Pharmacology and pharmaceutical sciences
Abstract

PurposeThe first genomewide association study indicated that variations in the phosphodiesterase 4D (PDE4D) gene confer risk for ischemic stroke. However, inconsistencies among the studies designed to replicate the findings indicated the need for further investigation to elucidate the role of the PDE4 pathway in stroke pathogenesis. Hence, we studied the effect of global inhibition of the PDE4 pathway in two rat experimental stroke models, using the PDE4 inhibitor rolipram. Further, the specific role of the PDE4D isoform in ischemic stroke pathogenesis was studied using PDE4D knockout rats in experimental stroke.MethodsRats were subjected to either the ligation or embolic stroke model and treated with rolipram (3mg/kg; i.p.) prior to the ischemic insult. Similarly, the PDE4D knockout rats were subjected to experimental stroke using the embolic model.ResultsGlobal inhibition of the PDE4 pathway using rolipram produced infarcts that were 225% (p

Published
2014

8. Synthesis, structure, DNA binding and anticancer activity of a new tetranuclear Pb(II) complex constructed by 8-hydroxyquinolinate and 4-nitrobenzoate ligands

Author

Lv Lu-Lu, Xia Wei-Min, Cheng Yuan-Zheng, Zhang Li-Ping, and Wang Xue-Dong

Subjects
pb(ii), 8-hydroxyquinolinate, 4-nitrobenzoate, crystal structure, dna-binding, anticancer activity, Chemistry, QD1-999
Abstract

A new Pb(II) complex, [Pb(8-OQ)(4-NB)], where 8-OQ = 8-hydroxyquinolinate, 4-NB = 4-nitrobenzoate, has been synthesized and characterized by elemental analysis, IR spectroscopy, and X-ray single-crystal diffraction. The single crystal X-ray analysis reveals that the complex possesses a tetranuclear Pb4O4 cubane structure. The Pb(II) atom is coordinated by three triply bridging phenolic hydroxyl O atoms of 8-OQ ligands, then the tetranuclear Pb system is formed resulting in a tetrahedral cage. The interaction of complex with HS-DNA in Tris buffer was studied by UV−vis absorption spectrum and fluorescence ethidium bromide displacement experiment with an intrinsic binding constant of 1.52×104 M-1 and a linear Stern–Volmer quenching constant of 6.77×103 M-1. Anticancer activity against MCF-7, HepG-2 and A549 cell lines of complex was also determined by the MTT-based assay. The results showed the complex can inhibit proliferation of these three kinds of tumor cells and is less cytotoxic than cisplatin.

Published
2019
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9. Fluorescence Enhanced Optical Resonator Constituted of Quantum Dots and Thin Film Resonant Cavity for High-Efficiency Reflective Color Filter

Author

Xiaochuan Chen, Pengxia Liang, Qian Wu, Qiaofeng Tan, and Xue Dong

Subjects
color filter, quantum dots, fluorescence enhanced optical resonator, Chemistry, QD1-999
Abstract

Conventional color filters selectively absorb a part of the backlight while reflecting or transmitting other light, resulting in the problem of low efficiency and energy wasting. For this problem, a new concept of fluorescence enhanced optical resonator was proposed and verified in this paper. The new structure consists of structural color filter and light-conversion material. Specially, a thin film resonant cavity was designed, and InP/ZnSe/ZnS quantum dots were inserted inside the resonator. When illuminated by sunlight, the novel fluorescence enhanced optical resonator could not only reflect the specific light, but also convert absorbed energy into desired light, leading to the utilization efficiency improvement of solar energy. An all-dielectric red fluorescence enhanced optical resonator was fabricated, with peak equivalent reflectance up to 105%. Compared with a thin film resonator, the enhancement coefficient of the as-proposed structure is about 124%. The new optical structure can utilize solar source efficiently, showing application potential as the next generation of reflective color filters for display.

Published
2021
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10. A SLR Pre-Processing Algorithm Based on Satellite Signature Effect

Author

Bowen Guan, Cunbo Fan, Ning An, Ricardo Cesar Podesta, Dra Ana Pacheco, Xiaonan Yu, Jian Gao, and Xue Dong

Subjects
satellite laser ranging, satellite signature effect, satellite geodesy, LAGEOS-1, pre-processing algorithm, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

As one of the major error sources, satellite signature effect should be reduced or even erased from the distribution of the post-fit residuals to improve the ranging precision. A simulation of satellite signature effect removal process for normal point algorithm is conducted based on a revised model of satellite response, which fully considers the structural and distribution characteristics of retroreflectors. In order to eliminate both long-term and short-term satellite signature effect, a clipping method for SLR data processing is proposed by defining the clipping location as 5.6 mm away from the mean value of the long-term fit residuals to select effective returns for normal points. The results indicate that, compared to normal points algorithm, the RMS per NP of LAGEOS-1 observation data processed by the clipping method is reduced from 62.90 ± 9.9 mm to 56.07 ± 4.69 mm, and the stability of RMS is improved 53%. This study improves the satellite signature effect model and simulates the fluctuation of normal points caused by satellite signature effect for the first time. The new method based on the simulation of satellite signature effect has stronger robustness and applicability, which can further minimize the influence of satellite signature effect on the SLR production and significantly improve the data property.

Published
2021
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11. Rational design of CO2 electroreduction cathode via in situ electrochemical phase transition

Author

Liming Zhang, Xue Dong, Zhongwei Cao, Bingjie Pang, Huan Li, Jianping Xiao, Weishen Yang, Xue-Feng Zhu, Shiqing Hu, and Wenguang Yu

Subjects
Electrolysis, Materials science, Oxide, Energy Engineering and Power Technology, Electrochemistry, Dissociation (chemistry), law.invention, Catalysis, chemistry.chemical_compound, Fuel Technology, Adsorption, chemistry, Chemical engineering, law, Faraday efficiency, Energy (miscellaneous), Perovskite (structure)
Abstract

CO2 electroreduction reaction (CO2RR), combined with solid oxide electrolysis cells (SOECs), is a feasible technology for the storage of renewable electric energy, while its development is limited by the catalytic activity and stability on cathodes. Here, a novel garnet oxide (Gd3Fe5O12) cathode is designed, where the garnet oxide is converted to perovskite oxide and iron via in situ electrochemical phase transition during CO2 electroreduction, resulting in high activity with Faradaic efficiency close to 100% and great stability over 1000 h galvanostatic test. A variety of experimental characterizations and density functional theory calculations indicate that in situ exsolved Fe clusters can effectively enhance the adsorption energies of intermediates and lowering the CO2 dissociation barriers. Microkinetic modelling confirms that CO2RR goes through a dissociative adsorption mechanism and the electronic transfer for CO2 dissociation is the rate-determining step.

Published
2022

12. Morphology evolution of primary Mg2Si in Ca-modified Al–Mg2Si alloy with various contents of Mg/Si

Author

Hao-Nan Wang, Xue-Dong Xu, Lei Yu, Hong-Chen Yu, Shu-Guo Yang, Chang-Sheng Zou, Hui Liu, Yu-Zhuo Men, Wei-Rong Zhong, and Yi-Fei Li

Subjects
Primary (chemistry), Morphology (linguistics), Chemistry, Alloy, General Chemistry, engineering.material, Condensed Matter Physics, law.invention, Crystal, Chemical engineering, law, engineering, General Materials Science, Particle size, Growth rate, Crystallization, Inhibitory effect
Abstract

The combined influence of Mg/Si and Ca contents on the crystallization of primary Mg2Si in Al–Mg2Si alloy is investigated. Embryo formation of primary Mg2Si can be restricted by the addition of Ca while the restricted effect is weakened by increasing the content of Mg/Si, and content of Ca for over-modification is increased with the increased Mg/Si content. Growth of primary Mg2Si is encouraged with the increasing content of Mg/Si, while the addition of Ca can restrict the growth rate directionally in Ca-modified Al–Mg2Si alloy, which leads to the morphology evolution of primary Mg2Si. The serious inhibition effect on the whole crystallization process of primary Mg2Si caused by increasing the content of Ca is the main reason for the occurrence of over-modification. Dice-like primary Mg2Si is prepared successfully in the over-modified alloy for the first time. The tip-growth process of the dice-like primary Mg2Si is revealed, which is completed by 2-D nucleation growth. The study provides a novel method to control the morphology and particle size of primary Mg2Si, which can further help understand the crystallization process of the crystal.

Published
2022

15. High Breakdown Current Density in Quasi-1D van der Waals Layered Material Ta2NiSe7

Author

Jae-Hyuk Park, Jae-Hyun Lee, Asghar Ghulam, Chaeheon Woo, Kyung Hwan Choi, Sudong Chae, Tae Yeong Kim, Hak Ki Yu, Jiho Jeon, Xue Dong, Seungbae Oh, Jungyoon Ahn, Sang Ok Yoon, Han Eol Jang, Byung Joo Jeong, Jae-Young Choi, Bum Jun Kim, Bom Yi Lee, and Sooheon Cho

Subjects
Materials science, Chalcogenide, Exfoliation joint, symbols.namesake, chemistry.chemical_compound, Crystallinity, chemistry, Electrical resistivity and conductivity, symbols, Breakdown voltage, General Materials Science, van der Waals force, Composite material, Ternary operation, Current density
Abstract

We synthesized ternary composition chalcogenide Ta2NiSe7, a quasi-one-dimensional (Q1D) material with excellent crystallinity. To utilize the excellent electrical conductivity property of Ta2NiSe7, the breakdown current density (JBD) according to thickness change through mechanical exfoliation was measured. It was confirmed that as the thickness decreased, the maximum breakdown voltage (VBD) increased, and at 18 nm thickness, 35 MA cm-2 of JBD was measured, which was 35 times higher than that of copper, which is commonly used as an interconnect material. By optimization of the exfoliation process, it is expected that through a theoretical model fitting, the JBD can be increased to about 356 MA cm-2. It is expected that the low-dimensional materials with ternary compositions proposed through this experiment can be used as candidates for current-carrying materials that are required for the miniaturization of various electronic devices.

Published
2021

16. The Development and Survival of Thymic Epithelial Cells Require TSC1-Dependent Negative Regulation of mTORC1 Activity

Author

Xubiao Xie, Zhaoqi Zhang, Xue Dong, Liguang Sun, Lina Sun, Tianxiu Li, Zhanfeng Liang, Liang Tan, Qian Zhang, and Yong Zhao

Subjects
congenital, hereditary, and neonatal diseases and abnormalities, Cell Survival, Immunology, Apoptosis, Haploinsufficiency, Thymus Gland, mTORC1, Mechanistic Target of Rapamycin Complex 1, Tuberous Sclerosis Complex 1 Protein, Cathepsin B, Cathepsin L, Mice, Lysosome, medicine, Animals, Homeostasis, Immunology and Allergy, Cells, Cultured, Cell Proliferation, Feedback, Physiological, Mice, Knockout, biology, Cell growth, Chemistry, Intrinsic apoptosis, Cell Differentiation, Epithelial Cells, Regulatory-Associated Protein of mTOR, Cell biology, Thymocyte, medicine.anatomical_structure, biology.protein, Reactive Oxygen Species
Abstract

Thymic epithelial cells (TECs) are critical for the development and generation of functionally competent T cells. Until now, the mechanism that regulates the survival of TECs is poorly understood. In the current study, we found that Tsc1 controls the homeostasis of medullary TECs (mTECs) by inhibiting lysosomal-mediated apoptosis pathway in mice. TEC-specific deletion of Tsc1 predominately decreased the cell number of mTECs and, to a lesser content, affected the development cortical TECs. The defect of mTECs caused by Tsc1 deficiency in mice impaired thymocyte development and peripheral T cell homeostasis. Mechanistically, Tsc1 deficiency did not affect the cell proliferation of mTECs but increased the apoptosis of mTECs significantly. RNA-sequencing analysis showed that pathways involved in lysosomal biogenesis, cell metabolism, and apoptosis were remarkably elevated in Tsc1-deficient mTECs compared with their wild-type counterparts. Tsc1-deficient mTECs exhibited overproduction of reactive oxygen species and malfunction of lysosome, with lysosome membrane permeabilization and the release of cathepsin B and cathepsin L to the cytosol, which then lead to Bid cleaved into active truncated Bid and subsequently intrinsic apoptosis. Finally, we showed that the impaired development of mTECs could be partially reversed by decreasing mTORC1 activity via haploinsufficiency of Raptor. Thus, Tsc1 is essential for the homeostasis of mTECs by inhibiting lysosomal-mediated apoptosis through mTORC1-dependent pathways.

Published
2021

17. LncDACH1 promotes mitochondrial oxidative stress of cardiomyocytes by interacting with sirtuin3 and aggravates diabetic cardiomyopathy

Author

Yanjie Lu, Qi Zhang, Xue Dong, Xiao-Wen Zhang, Li-Li Peng, Lu Zhao, Qi Hua, Xin-Yu Pei, Bo Meng, Baofeng Yang, Zhenwei Pan, Xiaoxi Hu, Junwu Liu, Yang Zhang, and Danyang Li

Subjects
chemistry.chemical_classification, Reactive oxygen species, SIRT3, Cardiac fibrosis, medicine.disease, medicine.disease_cause, General Biochemistry, Genetics and Molecular Biology, Muscle hypertrophy, Cell biology, chemistry, Apoptosis, Diabetic cardiomyopathy, cardiovascular system, medicine, Gene silencing, General Agricultural and Biological Sciences, Oxidative stress, General Environmental Science
Abstract

Diabetic cardiomyopathy (DCM) is a common complication in diabetic patients. The molecular mechanisms of DCM remain to be fully elucidated. The intronic long noncoding RNA of DACH1 (lncDACH1) has been demonstrated to be closely associated with heart failure and cardiac regeneration. In this study, we investigated the role of lncDACH1 in DCM and the underlying molecular mechanisms. The expression of lncDACH1 was increased in DCM hearts and in high glucose-treated cardiomyocytes. Knockout of lncDACH1 reduced mitochondrial oxidative stress, cell apoptosis, cardiac fibrosis and hypertrophy, and improved cardiac function in DCM mice. Overexpression of lncDACH1 exacerbated mitochondria-derived reactive oxygen species (ROS) level and apoptosis, decreased activity of manganese superoxide dismutase (Mn-SOD); while silencing of lncDACH1 attenuated ROS production, mitochondrial dysfunction, cell apoptosis, and increased the activity of Mn-SOD in cardiomyocytes treated with high glucose. LncDACH1 directly bound to sirtuin3 (SIRT3) and facilitated its degradation by ubiquitination, therefore promoting mitochondrial oxidative injury and cell apoptosis in mouse hearts. In addition, SIRT3 silencing abrogated the protective effects of lncDACH1 deficiency in cardiomyocytes. In summary, lncDACH1 aggravates DCM by promoting mitochondrial oxidative stress and cell apoptosis via increasing ubiquitination-mediated SIRT3 degradation in mouse hearts. Inhibition of lncDACH1 represents a novel therapeutic strategy for the intervention of diabetic cardiomyopathy.

Published
2021

18. DNA crosslinking and recombination‐activating genes 1/2 (RAG1/2) are required for oncogenic splicing in acute lymphoblastic leukemia

Author

Zhihui Li, Guoyu Meng, Zhu Chen, Yang Liang, Wei-Na Zhang, Xue Dong, Weiguo Hu, Su-Jiang Zhang, Chengli Fang, Jiang Zhu, Yu Zhang, Nuo Cheng, Jian-Qing Mi, Ling Bai, Minghao Jiang, Yajie Zhao, Jinyan Huang, Xiang-Qin Weng, Sai-Juan Chen, Hao Zhang, and Yuwen Li

Subjects
Cancer Research, DUX4/IGH, ERGalt, Carcinogenesis, Proximity ligation assay, Acute lymphoblastic leukemia, Recombination-activating gene, alternative splicing, DUX4, X-Ray Diffraction, hemic and lymphatic diseases, Scattering, Small Angle, Animals, Humans, Lectins, C-Type, RAG1/2, Gene, RC254-282, Homeodomain Proteins, Recombination, Genetic, Chemistry, Alternative splicing, Intron, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, hemic and immune systems, Original Articles, DNA, Precursor Cell Lymphoblastic Leukemia-Lymphoma, Molecular biology, Oncology, Receptors, Mitogen, RNA splicing, Immunoglobulin heavy chain, Original Article
Abstract

Background Abnormal alternative splicing is frequently associated with carcinogenesis. In B-cell acute lymphoblastic leukemia (B-ALL), double homeobox 4 fused with immunoglobulin heavy chain (DUX4/IGH) can lead to the aberrant production of E-26 transformation-specific family related gene abnormal transcript (ERGalt ) and other splicing variants. However, the molecular mechanism underpinning this process remains elusive. Here, we aimed to know how DUX4/IGH triggers abnormal splicing in leukemia. Methods The differential intron retention analysis was conducted to identify novel DUX4/IGH-driven splicing in B-ALL patients. X-ray crystallography, small angle X-ray scattering (SAXS), and analytical ultracentrifugation were used to investigate how DUX4/IGH recognize double DUX4 responsive element (DRE)-DRE sites. The ERGalt biogenesis and B-cell differentiation assays were performed to characterize the DUX4/IGH crosslinking activity. To check whether recombination-activating gene 1/2 (RAG1/2) was required for DUX4/IGH-driven splicing, the proximity ligation assay, co-immunoprecipitation, mammalian two hybrid characterizations, in vitro RAG1/2 cleavage, and shRNA knock-down assays were performed. Results We reported previously unrecognized intron retention events in C-type lectin domain family 12, member A abnormal transcript (CLEC12Aalt ) and chromosome 6 open reading frame 89 abnormal transcript (C6orf89alt ), where also harbored repetitive DRE-DRE sites. Supportively, X-ray crystallography and SAXS characterization revealed that DUX4 homeobox domain (HD)1-HD2 might dimerize into a dumbbell-shape trans configuration to crosslink two adjacent DRE sites. Impaired DUX4/IGH-mediated crosslinking abolishes ERGalt , CLEC12Aalt , and C6orf89alt biogenesis, resulting in marked alleviation of its inhibitory effect on B-cell differentiation. Furthermore, we also observed a rare RAG1/2-mediated recombination signal sequence-like DNA edition in DUX4/IGH target genes. Supportively, shRNA knock-down of RAG1/2 in leukemic Reh cells consistently impaired the biogenesis of ERGalt , CLEC12Aalt , and C6orf89alt . Conclusions All these results suggest that DUX4/IGH-driven DNA crosslinking is required for RAG1/2 recruitment onto the double tandem DRE-DRE sites, catalyzing V(D)J-like recombination and oncogenic splicing in acute lymphoblastic leukemia.

Published
2021

19. LncRNA-6395 promotes myocardial ischemia-reperfusion injury in mice through increasing p53 pathway

Author

Qi Zhang, Xiao-Wen Zhang, Li-Li Peng, Linfeng Zhan, Xin-Yu Pei, Zhenwei Pan, Bo Meng, Lu Zhao, Wendi Shang, Mingyu Zhang, Yanjie Lu, Chaoqian Xu, and Xue Dong

Subjects
Cardiac function curve, Apoptosis, Myocardial Reperfusion Injury, Chromosomal translocation, Endogeny, Article, Mice, Downregulation and upregulation, medicine, Animals, Myocytes, Cardiac, Pharmacology (medical), Mice, Knockout, Pharmacology, Gene knockdown, Chemistry, Hydrogen Peroxide, General Medicine, medicine.disease, Cell biology, Infarction, Knockout mouse, RNA, Long Noncoding, Tumor Suppressor Protein p53, Apoptosis Regulatory Proteins, Reperfusion injury
Abstract

Myocardial ischemia-reperfusion (I/R) injury is a pathological process characterized by cardiomyocyte apoptosis, which leads to cardiac dysfunction. Increasing evidence shows that abnormal expression of long noncoding RNAs (lncRNAs) plays a crucial role in cardiovascular diseases. In this study we investigated the role of lncRNAs in myocardial I/R injury. Myocardial I/R injury was induced in mice by ligating left anterior descending coronary artery for 45 min followed by reperfusion for 24 h. We showed that lncRNA KnowTID_00006395, termed lncRNA-6395 was significantly upregulated in the infarct area of mouse hearts following I/R injury as well as in H(2)O(2)-treated neonatal mouse ventricular cardiomyocytes (NMVCs). Overexpression of lncRNA-6395 led to cell apoptosis and the expression change of apoptosis-related proteins in NMVCs, whereas knockdown of lncRNA-6395 attenuated H(2)O(2)-induced cell apoptosis. LncRNA-6395 knockout mice (lncRNA-6395(+/−)) displayed improved cardiac function, decreased plasma LDH activity and infarct size following I/R injury. We demonstrated that lncRNA-6395 directly bound to p53, and increased the abundance of p53 protein through inhibiting ubiquitination-mediated p53 degradation and thereby facilitated p53 translocation to the nucleus. More importantly, overexpression of p53 canceled the inhibitory effects of lncRNA-6395 knockdown on cardiomyocyte apoptosis, whereas knockdown of p53 counteracted the apoptotic effects of lncRNA-6395 in cardiomyocytes. Taken together, lncRNA-6395 as an endogenous pro-apoptotic factor, regulates cardiomyocyte apoptosis and myocardial I/R injury by inhibiting degradation and promoting sub-cellular translocation of p53.

Published
2021

20. The Effects of Adoptively Transferred IL-23/IL-18-Polarized Neutrophils on Tumor and Collagen-Induced Arthritis in Mice

Author

Yifang Chen, Han Guo, Zhaoqi Zhang, Jiayu Zhang, Xue Dong, Yi Liu, Yuan Zhuang, Yang Li, and Yong Zhao

Subjects
Adoptive cell transfer, polarization, tumor, medicine.diagnostic_test, Chemistry, Immunology, Arthritis, Inflammation, medicine.disease, Molecular biology, Flow cytometry, Pathogenesis, Immune system, neutrophils, arthritis, In vivo, IL-23, medicine, Interleukin 23, Immunology and Allergy, medicine.symptom, Journal of Inflammation Research, IL-18, Original Research
Abstract

Yifang Chen,1,* Yang Li,1,* Han Guo,1,2,* Zhaoqi Zhang,1,2 Jiayu Zhang,1,2 Xue Dong,1 Yi Liu,3 Yuan Zhuang,3 Yong Zhao1,4 1Department of State Key Laboratory of Membrane Biology, Institute of Zoology, Chinese Academy of Sciences, Beijing, People’s Republic of China; 2Savaid Medical School, University of Chinese Academy of Sciences, Beijing, People’s Republic of China; 3Department of Blood Transfusion, First Medical Center of Chinese PLA General Hospital, Beijing, People’s Republic of China; 4Department of State Key Laboratory of Membrane Biology, Institute for Stem Cell and Regeneration, Chinese Academy of Science, Beijing, People’s Republic of China*These authors contributed equally to this workCorrespondence: Yong Zhao; Yuan Zhuang Email zhaoy@ioz.ac.cn; zhuangyuan0215@126.comBackground: Neutrophils present great diverse phenotypes in various microenvironments and play different immune regulatory functions. Neutrophils generally classified into inflammatory phenotype N1 and anti-informatory phenotype N2. Our recent studies showed that IL-23 alone stimulated neutrophils to express IL-17A, IL-17F and IL-22 and displayed a gene transcriptional profile similar to Th17 cells. In the present study, we tried to identify potential cytokines to promote IL-23-induced neutrophil polarization.Methods: Mouse bone marrow-derived neutrophils and human peripheral blood neutrophils were treated with IL-23 (10 ng/mL) plus IL-18 (25 ng/mL) to induce Th17-like subset in vitro and detected by real-time PCR, flow cytometry, ELISA, immunofluorescence and RNA-seq assays. In vivo, collagen-induced arthritis (CIA) mouse model and EL4 tumor-bearing mouse model were used to characterize the potential roles of N(IL-23+IL-18) in inflammation and tumor.Results: Real-time PCR, ELISA and flow cytometry assays showed that IL-18 could significantly enhance IL-23-induced IL-17A, IL-17F and IL-22 expressions in mouse and human neutrophils in a synergistic way, although IL-18 alone failed to induce these cytokines expression. RNA-seq and molecular studies showed that the polarization of N(IL-23+IL-18) is mainly mediated by the JNK/p38-STAT3-BATF signaling pathway. Adoptive transfer of the induced N(IL-23+IL-18) neutrophils significantly accelerated the tumor growth in EL4 tumor-bearing mice and enhanced disease progression in the CIA mouse model. IL-17A-deficient N(IL-23+IL-18) neutrophils failed to enhance the CIA pathogenesis in this model, suggesting that IL-17A may be involved in the N(IL-23+IL-18) neutrophils-promoted arthritis in mice.Conclusion: The Th17-type subpopulation N(IL-23+IL-18) has pro-tumor and pro-inflammatory properties. Recognizing the different functional polarization of neutrophils would significantly help us to understand the distinctive protective/pathological roles of neutrophils in physiological and different pathological situations.Keywords: IL-23, IL-18, neutrophils, polarization, tumor, arthritis

Published
2021

21. Synthesis and crystal structure of a new 2D supramolecular Cd(II) complex with 1-phenyl-3-methyl-4-benzoyl-5-pyrazolone ligand

Author

Zhang Li-Ping, Deng Shu-E, and Wang Xue-Dong

Subjects
cd(ii) complex, crystal structure, 1-phenyl-3-methyl-4-benzoyl-5-pyrazolone, supramolecular complex, Chemistry, QD1-999
Abstract

A new Cd(II) complex, [Cd(PMBP)2(CH3OH)2] (PMBP = 1-phenyl-3-methyl-4-benzoyl-5-pyrazolone), has been synthesized and characterized by elemental analysis, IR spectroscopy, thermal gravimetric analysis, fluorescence analysis, and X-ray single-crystal diffraction. In the complex, a slightly distorted octahedral geometry of cadmium ion is coordinated by six oxygen atoms, and the cadmium ion locates in the center position. The complex is a monomeric species, which is extended into 2D supramolecular architecture by strong intermolecular hydrogen bonds. Moreover, the intramolecular hydrogen bonds and C-H···π interactions are also found in the complex so that the 2D supramolecular network is consolidated.

Published
2015
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22. Transcriptome analysis of flower color variation in five Rhododendron species (Ericaceae)

Author

Shuzhen Wang, Wenying Zhang, Shuang Zhao, Yu Zhu, Zhiliang Li, Xue Dong, and Qiaofeng Yang

Subjects
biology, Rhododendron molle, fungi, food and beverages, Plant Science, biology.organism_classification, Transcriptome, chemistry.chemical_compound, Flavonoid biosynthesis, chemistry, Ericaceae, Isoflavonoid biosynthesis, Anthocyanin, Ornamental plant, Botany, Rhododendron simsii
Abstract

Rhododendron genus is famous with important ecology impacts, ornamental values, and high medicine values. To obtain a comprehensive overview of anthocyanin regulatory networks, RNA-seq and de novo assembly of five Rhododendron species flower tissues were performed, generating 159,408 unigenes with an average length of 490 bp and an N50 of 552 bp. In particular, 106,766 unigenes could be annotated. Flavonoid biosynthesis was the most abundant KEGG pathway. Genes controlling flower color varied in different species: transcripts involving in carotenoid biosynthesis and isoflavonoid biosynthesis highly expressed in Rhododendron molle G. Don possessing yellow color flower; genes involved in flavone and flavonol biosynthesis showed higher abundance in Rhododendron fortune Lindl. with light pink flowers; transcripts of unigenes participated in flavonoid biosynthesis exhibited higher levels in Rhododendron mariesii Hemsl. with pink color; unigenes involved in anthocyanin biosynthesis showed higher mRNA levels in Rhododendron simsii Planch. with red color; genes involved in carotenoid biosynthesis and flavonoid biosynthesis showed higher expression levels in Rhododendron pulchrum Sweet with purplish red flowers. The five species were clustered into two main groups: group 1 (R. fortune and R. mariesii) and group 2 (R. simsii, R. molle and R. pulchrum) based on expression levels of differentially expressed genes (DEGs). In particular, R. molle showed a closer relationship with R. simsii. This study will provide rich genetic information for further mechanism analysis of flower color variation and genetic improvement of flower color in Rhododendron species.

Published
2021

23. Lightweight and thermally insulating aluminum borate nanofibrous porous ceramics

Author

Lan Li, Liwen Yan, Jinyu Wu, Xue Dong, Anran Guo, Jiachen Liu, and Dong Ye

Subjects
010302 applied physics, Materials science, Process Chemistry and Technology, Sintering, chemistry.chemical_element, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Crystal, Thermal conductivity, chemistry, Aluminium, Boron oxide, Nanofiber, 0103 physical sciences, Materials Chemistry, Ceramics and Composites, Composite material, 0210 nano-technology, Boron, Porosity
Abstract

Aluminum borate porous ceramics are excellent candidates for high-temperature insulation applications. Current research on aluminum borate-based porous ceramics mainly focuses on porous ceramics made up of aluminum borate whiskers, whose low aspect ratio leads to a relatively dense porous structure; this results in porous ceramics with low porosity and relatively high thermal conductivity. In this study, we report the manufacturing of aluminum borate nanofibrous porous ceramics by an agar-based gel casting method using electrospun nanofibers with a high aspect ratio as the three-dimensional skeleton structure. We explored the effect of the alumina/boron oxide molar ratio on the microscopic morphology and crystal phase composition of the aluminum borate nanofibers and that of the sintering temperature on the micro and macro properties of porous ceramics based on the nanofibers. The results showed that aluminum borate nanofibers with an alumina/boron oxide molar ratio of 7:2 had the densest microscopic morphology, and the corresponding porous ceramics exhibited a higher porosity (91%) and lower thermal conductivity (0.11 W m−1 K−1) after sintering at 1200 °C than aluminum borate porous ceramics with aluminum borate whiskers as the skeleton. The successful synthesis of aluminum borate nanofibrous porous ceramics provides new insights into the development of high-temperature insulators.

Published
2021

24. 3-Silaazetidine: An Unexplored yet Versatile Organosilane Species for Ring Expansion toward Silaazacycles

Author

Linjie Li, Qiantao Wang, Yuanhang He, Zhenlei Song, Lu Gao, Xue Dong, Song Zhou, and Wanshu Wang

Subjects
chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Functional importance, Functional group, Organic synthesis, General Chemistry, Ring (chemistry), Biochemistry, Combinatorial chemistry, Catalysis
Abstract

Small-ring silacycles are important organosilane species in main-group chemistry and have found numerous applications in organic synthesis. 3-Silaazetidine, a unique small silacycle bearing silicon and nitrogen atoms, has not been adequately explored due to the lack of a general synthetic scheme and its sensitivity to air. Here, we describe that 3-silaazetidine can be easily prepared in situ from diverse air-stable precursors (RSO2NHCH2SiR12CH2Cl). 3-Silaazetidine shows excellent functional group tolerance in a palladium-catalyzed ring expansion reaction with terminal alkynes, giving 3-silatetrahydropyridines and diverse silaazacycle derivatives, which are promising ring frameworks for the discovery of Si-containing functional molecules.

Published
2021

26. Synthesis and characterization of osmotic pump capsules containing polyoxyethylene and pH modifier to control the release of nifedipine

Author

Liandong Hu, Guotao Li, Yanna Chen, Yang Liu, Xue Meng, Jiaojiao Yu, Xue Dong, and Mengfan Han

Subjects
Nifedipine, Kinetics, Drug Evaluation, Preclinical, Pharmaceutical Science, Capsules, Poloxamer, 02 engineering and technology, 030226 pharmacology & pharmacy, Excipients, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Pharmacokinetics, Osmotic Pressure, Animals, Cellulose, Chromatography, Capsule, General Medicine, Hydrogen-Ion Concentration, 021001 nanoscience & nanotechnology, Controlled release, Cellulose acetate, Drug Liberation, Membrane, Solubility, chemistry, Delayed-Action Preparations, Rabbits, 0210 nano-technology, Citric acid, Tablets, Biotechnology
Abstract

The aim of this study was to formulate osmotic pump capsules (OPCs) to control the release of nifedipine (NP). NP solid dispersion was prepared by solvent evaporation method. The prepared mixture of NP solid dispersion and various excipients were filled into the commercial HPMC hard capsule shells and then coated with cellulose acetate (CA) solution to form NP-OPC. The CA coating solution consisted of CA as semi-permeable membrane, and Poloxamer 188 as pore formers. The impact of addition agents, citric acid and pore formers on in vitro drug release were investigated. Furthermore, the study has highlighted the impact of paddle speed and the pH value of release media, on the release and compared the release with the commercial controlled release tablets. The in vitro drug release study indicated that drug release could reach 95% in 24 h with optimal formulation, and interestingly model fitting showed that the drug release behavior was closely followed to zero-order release kinetics. The pharmacokinetic studies were performed in rabbits with commercial controlled release tablets as reference, both preparations showed a sustained release effect. Compared with traditional preparation methods of OPCs, the new preparation process was simplified without the operation of laser drilling and the sealing process of capsule body and cap, which improved the feasibility of industrial production.

Published
2021

27. MicroRNA-103 Promotes Colorectal Cancer by Targeting Tumor Suppressor DICER and PTEN

Author

Li Geng, Bing Sun, Bo Gao, Zheng Wang, Cheng Quan, Feng Wei, and Xue-Dong Fang

Subjects
miR-103, DICER, PTEN, proliferation, migration, colorectal cancer, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

MicroRNAs (miRNAs) are a class of small, noncoding RNAs that act as key regulators in various physiological and pathological processes. However, the regulatory mechanisms for miRNAs in colorectal cancer remain largely unknown. Here, we found that miR-103 is up-regulated in colorectal cancer and its overexpression is closely associated with tumor proliferation and migration. In addition, repressing the expression of miR-103 apparently inhibits colorectal cancer cell proliferation and migration in vitro and HCT-116 xenograft tumor growth in vivo. Subsequent software analysis and dual-luciferase reporter assay identified two tumor suppressor genes DICER and PTEN as direct targets of miR-103, and up-regulation of DICER and PTEN obtained similar results to that occurred in the silencing of miR-103. In addition, restoration of DICER and PTEN can inhibit miR-103-induced colorectal cancer cell proliferation and migration. Our data collectively demonstrate that miR-103 is an oncogene miRNA that promotes colorectal cancer proliferation and migration through down-regulation of the tumor suppressor genes DICER and PTEN. Thus, miR-103 may represent a new potential diagnostic and therapeutic target for colorectal cancer treatment.

Published
2014
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28. A Strategy Based on the Enzyme-Catalyzed Polymerization Reaction of Asp-Phe-Tyr Tripeptide for Cancer Immunotherapy

Author

Si-Min Zeng, Xue Dong, Fan Gao, Si-Xue Cheng, Pei Pan, Di-Wei Zheng, Xian-Zheng Zhang, and Qiu-Ling Zhang

Subjects
medicine.medical_treatment, Antigen presentation, Melanoma, Experimental, Chemical biology, Antigen-Presenting Cells, Tripeptide, Administration, Cutaneous, 010402 general chemistry, 01 natural sciences, Biochemistry, Catalysis, Polymerization, Mice, Colloid and Surface Chemistry, Immune system, Antigen, Cancer immunotherapy, medicine, Animals, Monophenol Monooxygenase, Chemistry, Melanoma, General Chemistry, Immunotherapy, medicine.disease, 0104 chemical sciences, Cancer research, Oligopeptides
Abstract

Immunotherapy has provided a promising strategy for the treatment of cancers. However, even in tumors with high antigen burdens, the systemic inhibition of the antigen presentation still greatly restricts the application of immunotherapy. Here, we construct a tumor protein-engineering system based on the functional tripeptide, Asp-Phe-Tyr (DFY), which can automatically collect and deliver immunogenetic tumor proteins from targeted cells to immune cells. Through a tyrosinase-catalyzed polymerization, the DFY tripeptide selectively accumulates in tyrosinase high-expressed melanoma cells. Then quinone-rich intermediates are covalently linked with tumor-specific proteins by Michael addition and form tumor protein-carried microfibers that could be engulfed by antigen-presenting cells and exhibited tumor antigenic properties for boosting immune effect. In melanoma cells with deficient antigen presentation, this system can successfully enrich and transport tumor antigen-containing proteins to immune cells. Furthermore, in the in vivo study on murine melanoma, the transdermal delivery of the DFY tripeptide suppressed the tumor growth and the postsurgery recurrence. Our findings provide an avenue for the regulation of the immune system on an organism by taking advantage of certain polymerization reactions by virtue of chemical biology.

Published
2021

29. CO2 Emission of Electric and Gasoline Vehicles under Various Road Conditions for China, Japan, Europe and World Average—Prediction through Year 2040

Author

Xue Dong, Bin Wang, Ho Lung Yip, and Qing Nian Chan

Subjects
CO2 emission, gasoline vehicles, electric vehicles, driving cycles, vehicle dynamic model, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Many countries are making strategic plans to replace conventional vehicles (CVs) with electric vehicles (EVs), with the motivation to curb the growth of atmospheric CO2 concentration. While previous publications have mainly employed social-economic based models to predict CO2 emission trends from vehicles over the years, they do not account for the dynamics of engine and motor efficiency under different driving conditions. Therefore, this study utilized an experimentally validated vehicle dynamic model to simulate the consumption of gasoline and electricity for CVs and EVs, respectively, under eight driving cycles for different countries/regions. The CO2 emissions of CVs and EVs through 2040 were then calculated, based on the assumptions of the improvement of engine efficiency and composition of power supply chain over the years. Results reveal that, assuming that the current projections and assumptions remain valid, China would have the highest CO2 emission for EVs, followed by Japan, world average and the EU, mainly determined by the share of fossil fuels in the power grid. As for the influence of road conditions, the CO2 emission of CVs was found to be always higher than that of EVs for all countries/regions over the years. The difference is around 10−20% under highway conditions, and as high as 50−60% in crowded urban driving conditions.

Published
2019
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30. Novel Method for Quantitative Assessment of Reduced Chemical Mechanisms Based on the Inherent Similarity Evaluation: Case Study of n-Heptane

Author

Yachao Chang, Bo Niu, Pengzhi Wang, Xue Dong, and Ming Jia

Subjects
Heptane, Computer science, General Chemical Engineering, Energy Engineering and Power Technology, 02 engineering and technology, 021001 nanoscience & nanotechnology, chemistry.chemical_compound, Fuel Technology, 020401 chemical engineering, chemistry, Similarity (network science), Quantitative assessment, 0204 chemical engineering, 0210 nano-technology, Biological system, Focus (optics)
Abstract

A quantitative assessment method of reduced chemical mechanisms based on the similarity evaluation is proposed in this study with special focus on the inherent chemical kinetic characteristics. Two...

Published
2021

31. One-dimensional CO9S8-V3S4 heterojunctions as bifunctional electrocatalysts for highly efficient overall water splitting

Author

Xue Dong, Yu Wang, Ganceng Yang, Yanqing Jiao, Chungui Tian, Honggang Fu, Aiping Wu, Haijing Yan, and Dezheng Guo

Subjects
chemistry.chemical_classification, Electrolysis, Materials science, Hydrogen, Sulfide, Oxygen evolution, chemistry.chemical_element, Heterojunction, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Cobalt sulfide, 0104 chemical sciences, law.invention, chemistry.chemical_compound, chemistry, Chemical engineering, law, Water splitting, General Materials Science, 0210 nano-technology, Bifunctional
Abstract

Development of cost-effective, active and durable electrocatalysts for overall water splitting is still a huge challenge. Herein, we have constructed one-dimensional (1D) cobalt sulfide and vanadium sulfide heterojunction nanowires arranged on carbon cloth (Co9S8-V3S4/CC) as bifunctional electrocatalysts for the efficient overall water splitting. The 1D wire-structured Co9S8-V3S4 heterojunctions possess large surface area, plentiful active sites and rapid transport of electrons/reactants and the release of gas. Importantly, the electron transfer from Co9S8 to V3S4 occurs at the interface due to the strong electronic coupling effect in Co9S8-V3S4 heterojunction, in which the electron-attracting V3S4 (V2+) optimizes the adsorption of H* active species for hydrogen evolution reaction (HER), while the electron-losing Co9S8 (Co3+) responds to the enhancement of oxygen evolution reaction (OER) activity. Co9S8-V3S4/CC exhibits low overpotentials of 85 and 232 mV at 10 mA cm−2 and small Tafel slopes of 51 and 59 mV dec−1 for HER and OER, respectively. Especially, the electrolyzer with Co9S8 V3S4/CC as both the anode and cathode requires low onset voltage of 1.35 V and cell voltage of 1.53 V at 10 mA cm−2 and exhibits high Faradaic efficiencies and robust stability. It can be driven by a solar cell (1.53 V) for continuous production of hydrogen and oxygen. This study highlights the design of 1D sulfide heterojunction in pursuit of highly efficient electrocatalysts for overall water splitting.

Published
2021

32. Cobalt monosulfide nanofibers: ethanol sensing and magnetic properties

Author

Hang-Fei Li, Xue-Dong Wang, Zhi-Da Hu, Zong-Tao Chi, Qiao-Tong Luan, Ya-Ru Kang, Wanfeng Xie, Xian-Qiang Song, Peng Wang, and Xi-Yu Sun

Subjects
Materials science, Nanostructure, 020502 materials, Metals and Alloys, chemistry.chemical_element, 02 engineering and technology, Condensed Matter Physics, Electrospinning, law.invention, Nanomaterials, Crystallinity, Paramagnetism, 0205 materials engineering, Chemical engineering, chemistry, law, Nanofiber, Materials Chemistry, Calcination, Physical and Theoretical Chemistry, Cobalt
Abstract

Metal sulfide nanomaterials have attracted great interest because of their excellent properties and promising applications in sensing, energy harvesting, magnetic and optoelectronic devices, especially their well-aligned crystalline nanostructures are highly desirable for the enhanced performance and novel applications. In this study, the cobalt monosulfide (CoS) nanofibers with uniform shape and good crystallinity were firstly obtained via electrospinning and atmospheric calcination routes under controllable conditions. It was found that the CoS nanofibers exhibited ethanol sensing properties at the optimum working temperature of 200 °C, the response was 11.6 toward 100 × 10−6 ethanol gas, and the CoS nanofibers-based sensor exhibits a short response time and recovery time of 5 and 6 s at the optimum temperature, respectively, the result also shows that the sensor has good stability after 50 days, which would be a favorable characteristic as a promising sensor. In addition, the Pauli paramagnetic property of CoS nanofibers was also investigated at room temperature.

Published
2021

33. Super-Stacking Self-Assembly of Organic Topological Heterostructures

Author

Xue-Dong Wang, Liang-Sheng Liao, Guang-Peng He, Guo-Qing Wei, Yi Yuan, Ming-Peng Zhuo, Shuit-Tong Lee, and Yi-Chen Tao

Subjects
Crystal, chemistry.chemical_classification, Materials science, chemistry, Phase (matter), Stacking, Non-covalent interactions, Heterojunction, General Chemistry, Self-assembly, Topology
Abstract

The precise control of multicomponent complex topological configurations integrating more than one compound or one crystal phase with high spatial and angular precision is extremely challenging due...

Published
2021

34. All-trans-retinoic acid suppresses rat embryo hindlimb bud mesenchymal chondrogenesis by modulating HoxD9 expression

Author

Peng Xie, Shi-xin Du, Xue-dong Li, and Quan Hong

Subjects
animal structures, Mesenchyme, Retinoic acid, Tretinoin, Bioengineering, Hindlimb, Applied Microbiology and Biotechnology, chemistry.chemical_compound, chondrogenesis, GLI3, medicine, Animals, neoplasms, Cells, Cultured, Homeodomain Proteins, All-trans retinoic acid, HoxD9, organic chemicals, General Medicine, Embryo, Mammalian, Chondrogenesis, biological factors, Neoplasm Proteins, Rats, Cell biology, Blot, Clubfoot, medicine.anatomical_structure, chemistry, Apoptosis, embryonic structures, Signal transduction, TP248.13-248.65, Research Article, Research Paper, club foot, Biotechnology
Abstract

In vertebrates, 5ʹ-Hoxd genes (Hoxd9), which are expressed in the hindlimb bud mesenchyme, participate in limb growth and patterning in early embryonic development. In the present study, We investigated the mechanisms by which ATRA regulates cultured E12.5 rat embryo hindlimb bud mesenchymal cells (rEHBMCs). Following exposure to ATRA over 24 h, mRNA and protein expression levels of HoxD9 were evaluated by reverse transcription-polymerase chain reaction (RT-PCR), quantitative real-time PCR (qPCR), and western blotting. Flow cytometry was used to detect apoptosis. ATRA inhibited the condensation and proliferation, and promoted the apoptosis rate of the rEHBMCs in a dose-dependent manner. Sox9 and Col2a1 in rEHBMCs were downregulated by ATRA in a dose-dependent manner at both mRNA and protein levels. Similarly, HoxD9 was downregulated by ATRA in a dose-dependent manner, in parallel with the cartilage-specific molecules Sox9 and Col2a1. Both qPCR and western blotting showed that both Shh and Gli3 were downregulated. Overexpression of HoxD9 reversed the effects of ATRA. These results demonstrate that ATRA suppresses chondrogenesis in rEHBMCs by inhibiting the expression of HoxD9 and its downstream protein targets, including Sox9 and Col2a1. This effect may also be correlated with inhibition of the Shh-Gli3 signaling pathway.

Published
2021

35. A study on the bio-applicability of aqueous-dispersed van der Waals 1-D material Nb2Se9 using poloxamer

Author

Jiho Jeon, Jin Woong Lee, Liyi Shi, Si Young Song, Cong Wang, Kyung Hwan Choi, Zhixiang Liu, Ghulam Asghar, Sung Jae Kim, Sudong Chae, Seungbae Oh, Xue Dong, Jung Heon Lee, Changmo Lim, Jae-Young Choi, Hak Ki Yu, Chaeheon Woo, and Joohoon Kang

Subjects
Steric effects, Science, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Dispersant, Article, symbols.namesake, Adsorption, Copolymer, Multidisciplinary, Aqueous solution, Chemistry, Synthesis and processing, Poloxamer, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Tissues, Chemical engineering, symbols, Medicine, van der Waals force, 0210 nano-technology, Dispersion (chemistry)
Abstract

In this research, dispersion of a new type of one-dimensional inorganic material Nb2Se9, composed of van der Waals bonds, in aqueous solution for bio-application study were studied. To disperse Nb2Se9, which exhibits hydrophobic properties in water, experiments were carried out using a block copolymer (poloxamer) as a dispersant. It was confirmed that PPO, the hydrophobic portion of Poloxamer, was adsorbed onto the surface of Nb2Se9, and PEO, the hydrophilic portion, induced steric hinderance to disperse Nb2Se9 to a size of 10 nm or less. To confirm the adaptability of muscle cells C2C12 to the dispersed Nb2Se9 using poloxamer 188 as dispersant, a MTT assay and a live/dead assay were performed, demonstrating improvement in the viability and proliferation of C2C12 cells.

Published
2021

36. The development of an Amber-compatible organosilane force field for drug-like small molecules

Author

Qiantao Wang, Xinghang Yuan, Zhenlei Song, and Xue Dong

Subjects
Models, Molecular, Materials science, Molecular Structure, 010304 chemical physics, Binding free energy, Silicon, 010405 organic chemistry, Drug discovery, Force field (physics), General Physics and Astronomy, chemistry.chemical_element, Interaction energy, 01 natural sciences, Small molecule, 0104 chemical sciences, Small Molecule Libraries, Drug Development, chemistry, Chemical physics, 0103 physical sciences, Thermodynamics, Organosilicon Compounds, Development (differential geometry), Physical and Theoretical Chemistry
Abstract

As members of the group IVA elements, silicon and carbon have long been thought of as isosteres of each other in drug design. However, the lack of silicon parameters in current main stream force fields hinders the computational study of this important element in drug discovery. Thus, in this study, we attempted to supplement the parameters of organosilanes in the General Amber Force Field (GAFF2). The parameters have been designed following the principles of GAFF2 to make it compatible with the Amber force field family. The accuracy of the parameters was discussed by comparing the pair interaction energy, the liquid properties, and the structures and alchemical binding free energy differences for a set of protein-ligand complexes.

Published
2021

37. Hollow and highly diastereoselective face-rotating polyhedra constructed through rationally engineered facial units

Author

Haoliang Liu, Xinchang Wang, Liulin Yang, Andrew C.-H. Sue, Hang Qu, Kai Tan, Zhong-Qun Tian, Shilin Zhang, Xiao-Yu Cao, Xiao Tang, Wenbin Gao, Zhihao Li, and Xue Dong

Subjects
Cavity size, Materials science, Imine, Rational design, Diastereomer, General Chemistry, Combinatorial chemistry, Chemistry, chemistry.chemical_compound, symbols.namesake, Polyhedron, chemistry, Face (geometry), symbols, Structural isomer, van der Waals force
Abstract

Molecular face-rotating polyhedra (FRP) exhibit complex stereochemistry, rendering it challenging to manipulate their assembly in a stereoselective manner. In our previous work, stereocontrolled FRP were gained at the cost of losing the confined inner space, which hampers their host–guest interactions and potential applications. Through a rational design approach, herein we demonstrate the successful construction of hollow FRP with high diastereoselectivity. Whereas the [4 + 4] imine condensation of meta-formyl substituted C3h-symmetric TAT-m and C3-symmetric Tri-NH2 led to the formation of all feasible FRP-12 diastereoisomers; the para-substituted constitutional isomer, TAT-p, exclusively assembled into a pair of homo-directional enantiomeric FRP-13-CCCC/AAAA with a cavity size larger than 600 Å3. Detailed structural characterizations and theoretical investigations revealed the thermodynamic landscape of FRP assembly can be effectively shaped by modulating the van der Waals repulsive forces among the facial building blocks. Our work provided a novel strategy towards stereospecific assembly of pure organic cages, opening up new opportunities for further applications of these chiral materials., The rationally engineered facial units, TAT-m and TAT-p, resulted in distinct diastereoselectivity of face-rotating polyhedra (FRP).

Published
2021

38. Serum albumin guided plasmonic nanoassemblies with opposite chiralities

Author

Li Zhao, Jun Lu, Kun Liu, Xue-Dong Fang, Jin-Cheng Li, Zhaoyi Wang, and Ning-Ning Zhang

Subjects
Serum albumin, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, medicine, Animals, Horses, Surface charge, Bovine serum albumin, Serum Albumin, chemistry.chemical_classification, Nanotubes, Sheep, biology, Chemistry, Biomolecule, Albumin, Serum Albumin, Bovine, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Human serum albumin, Nanostructures, 0104 chemical sciences, Biophysics, biology.protein, Nanorod, Gold, 0210 nano-technology, Chirality (chemistry), medicine.drug
Abstract

Chiral assemblies by combining natural biomolecules with plasmonic nanostructures hold great promise for plasmonic enhanced sensing, imaging, and catalytic applications. Herein, we demonstrate that human serum albumin (HSA) and porcine serum albumin (PSA) can guide the chiral assembly of gold nanorods (GNRs) with left-handed chiroptical responses opposite to those by a series of other homologous animal serum albumins (SAs) due to the difference of their surface charge distributions. Under physiological pH conditions, the assembly of HSA or PSA with GNRs yielded left-handed twisted aggregates, while bovine serum albumin (BSA), sheep serum albumin, and equine serum albumin behaved on the contrary. The driving force for the chiral assembly is mainly attributed to electrostatic interaction. The opposite chiroptical signals acquired are correlated with the chiral surface charge distributions of the tertiary structures of SAs. Moreover, the chirality of the assembly induced by both HSA and BSA can be enhanced or reversed by adjusting the pH values. This work provides new insights into the modulation of protein-induced chiral assemblies and promotes their applications.

Published
2021

39. mTORC2 negatively controls the maturation process of medullary thymic epithelial cells by inhibiting the LTβR/RANK‐NF‐κB axis

Author

Jiayu Zhang, Xue Dong, Hongxia Wang, Qian Zhang, Zhanfeng Liang, Yong Zhao, and Zhaoqi Zhang

Subjects
0301 basic medicine, Physiology, Clinical Biochemistry, Mechanistic Target of Rapamycin Complex 2, Thymus Gland, mTORC1, mTORC2, Immune tolerance, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Downregulation and upregulation, Lymphotoxin beta Receptor, Animals, PI3K/AKT/mTOR pathway, Mice, Knockout, Thymocytes, Receptor Activator of Nuclear Factor-kappa B, Chemistry, NF-kappa B, Cell Differentiation, Epithelial Cells, NF-κB, Cell Biology, Cell biology, Kinetics, Rapamycin-Insensitive Companion of mTOR Protein, 030104 developmental biology, Gene Expression Regulation, 030220 oncology & carcinogenesis, Signal transduction, CD80, Signal Transduction
Abstract

The differentiation of mature medullary thymic epithelial cells (mTECs) is critical for the induction of central immune tolerance. Although the critical effect of mechanistic target of rapamycin complex 1 (mTORC1) in shaping mTEC differentiation has been studied, the regulatory role of mTORC2 in the differentiation and maturation of mTECs is poorly understood. We herein reported that TEC-specific ablation of a rapamycin-insensitive companion of mTOR (RICTOR), a key component of mTORC2, significantly decreased the thymus size and weight, the total cell number of TECs, and the cell number of mTECs with a smaller degree of reduced cortical thymic epithelial cells. Interestingly, RICTOR deficiency significantly accelerated the mTEC maturation process, as indicated by the increased ratios of mature mTECs (MHCIIhi , CD80+ , and Aire+ ) to immature mTECs (MHCIIlo , CD80- , and Aire- ) in Rictor-deficient mice. The RNA-sequencing assays showed that the upregulated nuclear factor-κB (NF-κB) signaling pathway in Rictor-deficient mTECs was one of the obviously altered pathways compared with wild-type mTECs. Our studies further showed that Rictor-deficient mTECs exhibited upregulated expression of receptor activator of NF-κB (RANK) and lymphotoxin β receptor (LTβR), as well as increased activity of canonical and noncanonical NF-κB signaling pathways as determined by ImageStream and Simple Western. Finally, our results showed that inhibition of NF-κB signaling pathways could partially reverse the accelerated maturation of mTECs in Rictor conditional KO mice. Thus, mTORC2 negatively controls the kinetics of the mTEC maturation process by inhibiting the LTβR/RANK-NF-κB signal axis.

Published
2020

40. Mechanism of hyperproteinemia-induced blood cell homeostasis imbalance in an animal model

Author

Jinfang Shi, Guang Wang, Xin-Yin Liang, Ruji Peng, Yang-Hu Sima, Guihua Jiang, Yong-Feng Wang, Jiang-Lan Li, Shi-Qing Xu, and Xue-Dong Chen

Subjects
Programmed cell death, Blood Cells, Ecology, Chemistry, JAK-STAT signaling pathway, Blood proteins, Cell biology, Blood cell, Haematopoiesis, Disease Models, Animal, STAT Transcription Factors, medicine.anatomical_structure, medicine, Animals, Homeostasis, Animal Science and Zoology, Signal transduction, Ecology, Evolution, Behavior and Systematics, Hormone, Janus Kinases
Abstract

Hyperproteinemia is a metabolic disorder associated with increased plasma protein concentration (PPC). It is often clinically complicated by malignant diseases or severe infections. Research on the molecular mechanism of High PPC (HPPC) is scant. Here, an animal model of primary hyperproteinemia was constructed in an invertebrate, Bombyx mori, to investigate the effect of HPPC on circulating blood cells. We showed that HPPC affected blood cell homeostasis and enhanced blood cell phagocytosis, leading to increased reactive oxygen species levels, and induced programmed cell death that depended on the endoplasmic reticulum-calcium ion signaling pathway. HPPC induced the proliferation of blood cells, mainly granulocytes, by activating the JAK/STAT signaling pathway. Supplementation with endocrine hormone active substance 20E significantly reduced the impact of HPPC on blood cell homeostasis. Herein, we reported a novel signaling pathway by which HPPC affected blood cell homeostasis, which was different from hyperglycemia, hyperlipidemia, and hypercholesterolemia. In addition, we showed that down-regulation of gene expression of the hematopoietic factor Gcm could be used as a potential early monitoring index for hyperproteinemia.Highlights•HPPC induced proliferation of circulating blood cells through the JAK/STAT pathway, leading to a significant increase in the proportion of granulocytes.•Supplementing endocrine hormone 20E improved hematopoietic function and restored the homeostasis of circulating blood cells through modulation of the JAK/STAT signaling pathway.•HPPC induced PCD in blood cells through the endoplasmic reticulum-calcium ion release signaling pathway.•Down-regulation of the gene expression of the hematopoietic factor Gcm could be used as a potential early monitoring index for hyperproteinemia.

Published
2022

41. Analysis of NIST Monoclonal Antibody Reference Material Glycosylation Using the LC–MS/MS-Based Glycoproteomic Approach

Author

Wenjing Peng, Jingfu Zhao, Xue Dong, and Yehia Mechref

Subjects
chemistry.chemical_classification, Modern medicine, Glycan, Glycosylation, biology, medicine.drug_class, Antibodies, Monoclonal, General Chemistry, Monoclonal antibody, Biochemistry, Glycoproteomics, carbohydrates (lipids), chemistry.chemical_compound, chemistry, Polysaccharides, Tandem Mass Spectrometry, Pharmacodynamics, biology.protein, medicine, Glycoprotein, Fucosylation, Chromatography, Liquid, Glycoproteins
Abstract

Protein-based therapeutics such as mAbs have become emerging drugs in modern medicine. Most of the approved therapeutic proteins are glycoproteins. Glycosylation is an essential critical quality attribute (CQA) due to the influence that glycoforms have on the safety, efficacy, and pharmacokinetics/pharmacodynamics (PK/PD) of biotherapeutics. Here, we applied an LC-MS/MS-based glycoproteomics approach to characterize Fc glycans of an NISTmAb reference material (RM) 8671 (sample B) and a β-1,4-galactosidase-treated NISTmAb (sample A). Overall, 48 glycan compositions were identified and quantified. The glycan structure with the highest abundance was FA2, with a relative abundance of 52% in sample A and 38% in sample B. Over 50% of the identified glycans presented at levels smaller than 0.1%. Important glycan attributes were further derived using the quantitative results. The galactosylation level of modified NISTmAb was found to decrease by ∼10% when compared to the galactosylation level of NISTmAb. There was no significant difference between the two samples in the levels of sialylation, fucosylation, and high mannose. Moreover, unglycosylated peptides were also observed at a level of 1-2%.

Published
2020

42. Facilitated self-assembly of a prevascularized dermal/epidermal collagen scaffold

Author

Ryan Bender, Jason A. Spector, Yoshiko Toyoda, Xue Dong, Julia L. Jin, Sushmita Mukherjee, Ross Weinreb, and Kerry A. Morrison

Subjects
Keratinocytes, Neointima, Embryology, Scaffold, Biomedical Engineering, Skin flap, 03 medical and health sciences, 0302 clinical medicine, Tissue engineering, Humans, Skin equivalent, Skin, 030304 developmental biology, 0303 health sciences, Tissue Engineering, Tissue Scaffolds, Chemistry, Endothelial Cells, Fibroblasts, Microvascular Network, 030220 oncology & carcinogenesis, Collagen, Self-assembly, Epidermis, Collagen scaffold, Biomedical engineering
Abstract

Introduction: Resurfacing complex full thickness wounds requires free tissue transfer which creates donor site morbidity. We describe a method to fabricate a skin flap equivalent with a hierarchical microvascular network. Materials & methods: We fabricated a flap of skin-like tissue containing a hierarchical vascular network by sacrificing Pluronic® F127 macrofibers and interwoven microfibers within collagen encapsulating human pericytes and fibroblasts. Channels were seeded with smooth muscle and endothelial cells. Constructs were topically seeded with keratinocytes. Results: After 28 days in culture, multiphoton microscopy revealed a hierarchical interconnected network of macro- and micro-vessels; larger vessels (>100 μm) were lined with a monolayer endothelial neointima and a subendothelial smooth muscle neomedia. Neoangiogenic sprouts formed in the collagen protodermis and pericytes self-assembled around both fabricated vessels and neoangiogenic sprouts. Conclusion: We fabricated a prevascularized scaffold containing a hierarchical 3D network of interconnected macro- and microchannels within a collagen protodermis subjacent to an overlying protoepidermis with the potential for recipient microvascular anastomosis.

Published
2020

43. Influence of the functional group of fuels on the construction of skeletal chemical mechanisms: A case study of 1-hexane, 1-hexene, and 1-hexanol

Author

Yachao Chang, Bo Niu, Xue Dong, Pengzhi Wang, and Ming Jia

Subjects
Imagination, Work (thermodynamics), Chemical substance, 010304 chemical physics, Chemistry, General Chemical Engineering, media_common.quotation_subject, General Physics and Astronomy, Energy Engineering and Power Technology, 02 engineering and technology, General Chemistry, Combustion, 01 natural sciences, Hexane, Reaction rate, chemistry.chemical_compound, Fuel Technology, 020401 chemical engineering, 0103 physical sciences, Functional group, Biochemical engineering, 0204 chemical engineering, Science, technology and society, media_common
Abstract

To investigate the oxidation and combustion performance of practical fuels, surrogate fuels including various types of fuels are usually introduced. The unique functional groups of different fuels dominate the fuel oxidation behaviors of different fuels, thus it is crucial to take account of the impact of fuel function groups for the development of the skeletal chemical mechanisms of surrogate fuels. In this work, by integrating the reaction class-based global sensitivity analysis and the decoupling methodology, a skeletal chemical mechanism of fuels is built, and the influence of the functional group was specially considered in the construction of the chemical mechanisms. First, the reaction class-based global sensitivity and path sensitivity analyses were employed to recognize the important reaction classes in the fuel-related sub-mechanism, and the reaction classes relevant to the fuel function group were identified. Second, a representative reaction was selected from each important reaction class by the rate of production analysis, and the skeletal fuel-specific sub-mechanism was obtained. Third, the initial skeletal chemical mechanism of fuels was formed by assembling the skeletal fuel-specific sub-mechanism with a detailed C0–C1 sub-mechanism and a reduced C2–C3 sub-mechanism based on the decoupling methodology. Finally, the optimization aiming at the ignition delay times and the concentrations of fuel, H2O, CO, and CO2 was conducted based on the genetic algorithm by tuning the reaction rate coefficients in the fuel-specific sub-mechanism within their uncertainties to enhance the performance of the skeletal mechanism. Using the above method, a skeletal chemical mechanism for 1-hexane, 1-hexene, and 1-hexanol was established containing 72 species and 243 reactions. The validation results indicated that decent consistency between the simulated and experimental data in premixed and opposed flames, jet-stirred reactors, and shock tubes was achieved for the three fuels over wide operating conditions. Moreover, the unique oxidation behavior of 1-hexane, 1-hexene, and 1-hexanol was captured by the present skeletal mechanism due to the identification of the functional group reactions.

Published
2020

45. Truncated Face-Rotating Polyhedra Constructed from Pentagonal Pentaphenylpyrrole through Graph Theory

Author

Hang Qu, Xiao-Yu Cao, Hui Zhang, Zhihao Li, Xinchang Wang, Haoliang Liu, Xiao Tang, Liulin Yang, Wenbin Gao, Zhong-Qun Tian, Zujin Zhao, Xue Dong, Ruishan Huang, and Zheyu Huang

Subjects
Series (mathematics), Chemistry, Rational design, Design elements and principles, Graph theory, General Chemistry, 010402 general chemistry, 01 natural sciences, Biochemistry, Catalysis, 0104 chemical sciences, Combinatorics, Polyhedron, Colloid and Surface Chemistry, Face (geometry)
Abstract

Discovering novel families of molecular polyhedra through graph theory has attracted increasing interest. Nevertheless, the design principles of molecular polyhedra based on graph theory remain elusive, especially for those containing five-node units. Herein, we construct a series of chiral truncated face-rotating polyhedra (T-FRP) from pentagonal pentaphenylpyrrole (PPP) derivatives and chiral diamines. Graph theory is used to elucidate the geometry of these novel T-FRP, which represent a new family of molecular polyhedra. The phenyl flipping of PPP faces in these T-FRP is significantly restricted, thus making T-FRP chiral and strongly emissive in solution. In addition, T-FRP also generate circularly polarized luminescence. This study provides new insights into the rational design of novel molecular polyhedra through graph theory.

Published
2020

46. Response to important considerations when assessing the effect of essential fatty acids on cognitive performance

Author

Xue Dong and Dongfeng Zhang

Subjects
Gerontology, Letter to the editor, National Health and Nutrition Examination Survey, ω-6 fatty acids, Medicine (miscellaneous), lcsh:TX341-641, Clinical nutrition, ω-3 fatty acids, Cognition, Elderly, Fatty Acids, Omega-6, Fatty Acids, Omega-3, Humans, Medicine, NHANES, Effects of sleep deprivation on cognitive performance, Fatty acids, Cognitive performance, Letter to the Editor, lcsh:RC620-627, Aged, Nutrition, chemistry.chemical_classification, Nutrition and Dietetics, Fatty Acids, Essential, business.industry, Fatty acid, Nutrition Surveys, lcsh:Nutritional diseases. Deficiency diseases, Cognitive impairment, chemistry, business, lcsh:Nutrition. Foods and food supply
Abstract

Over the past decade, there have been many studies determining the effect of dietary ω-3 and ω-6 fatty acids intake on cognitive performance; however, they have largely been inconsistent in their conclusions. In this letter, we provide context to the article by Dong et al., titled “Association of dietary ω-3 and ω-6 fatty acids intake with cognitive performance in older adults: National Health and nutrition examination Survey (NHANES) 2011–2014” and provide methodological considerations with regards to covariate measurement and inclusion that can be generalized to future cross-sectional studies. In particular, delineating 1) the type and source of fatty acid, in context of an individual’s overall dietary patterns, 2) sociobehavioral risk factors and physical & mental comorbidities, 3) and daily cognitive activity are important to adequately control for covariates.

Published
2020

47. Insecticide rotation scheme restores insecticide susceptibility in thiamethoxam‐resistant field populations of Asian citrus psyllid, <scp> Diaphorina citri </scp> Kuwayama (Hemiptera: Liviidae), in Florida

Author

Kirsten S. Pelz-Stelinski, Hunter Gossett, Surendra Neupane, Lukasz L. Stelinski, and Xue Dong Chen

Subjects
0106 biological sciences, Citrus, Insecticides, Diaphorina citri, 01 natural sciences, Hemiptera, Toxicology, chemistry.chemical_compound, Imidacloprid, Animals, biology, Neonicotinoid, Clothianidin, General Medicine, Multiple modes, biology.organism_classification, Metabolic detoxification, 010602 entomology, chemistry, Insect Science, Florida, Thiamethoxam, Agronomy and Crop Science, 010606 plant biology & botany
Abstract

BACKGROUND We investigated rotation using insecticides with multiple modes of action as a resistance management strategy for Asian citrus psyllid, Diaphorina citri, Kuwayama (Hemiptera: Liviidae), in Florida. The stability of thiamethoxam resistance was investigated in the laboratory by establishing populations of field-collected, resistant D. citri and rearing them under no insecticide exposure. Furthermore, recovery of susceptibility was investigated in the field by initiating rotation to insecticides in plots that previously were treated with consecutive thiamethoxam applications. RESULTS The resistance ratio (RR) for thiamethoxam reached between 1266.29- and 1395.00-fold after three and four consecutive applications of thiamethoxam, respectively. However, the RR for thiamethoxam remained low (1.71-5.28-fold) under both rotations at both Lake Alfred and Wauchula. Thiamethoxam was cross-resistant with imidacloprid (RR site 1 = 1059.65-fold, RR site 2 = 1595.43-fold) and clothianidin (RR site 1 = 1798.78-fold, RR site 2 = 1270.57-fold) in the nonrotated treatment at both sites. There was very low cross-resistance to other insecticides with different modes of action. Both laboratory and field investigations indicated that susceptibility to thiamethoxam fully recovered after five D. citri generations. Expression of CYP4C67 was significantly increased in resistant populations. CONCLUSION Our results revealed that D. citri populations develop a high level of resistance following only three or four consecutive neonicotinoid sprays; this was associated with subsequent product failure. Our data suggest that metabolic detoxification by cytochrome P450s contributes to thiamethoxam resistance in D. citri. Overall, the investigation demonstrated that resistance to thiamethoxam can be managed readily in populations of D. citri by rotating modes of action.

Published
2020

48. Efficient All-Inorganic Perovskite Light-Emitting Diodes with Cesium Tungsten Bronze as a Hole-Transporting Layer

Author

Xiao-Chen Fang, Ming-Peng Zhuo, Ying-Li Shi, Xiao-Qing Zhou, Weifan Chen, Liang-Sheng Liao, and Xue-Dong Wang

Subjects
Materials science, business.industry, chemistry.chemical_element, 02 engineering and technology, Tungsten, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, Nanocrystal, PEDOT:PSS, chemistry, law, Optoelectronics, General Materials Science, Quantum efficiency, Physical and Theoretical Chemistry, 0210 nano-technology, business, Layer (electronics), Diode, Perovskite (structure), Light-emitting diode
Abstract

The realization of high-performance optoelectronic devices requires excellent charge-transporting layers and efficient carrier recombination. Herein, we synthesized cesium tungsten bronze (Cs0.32WO3) nanocrystals and utilized them as the hole-transporting material to fabricate all-inorganic perovskite light-emitting diodes (PeLEDs). Due to the excellent carrier balance characteristics via comparison between the hole-only device and electron-only device, the all-inorganic PeLEDs with CsPbBr3 as the light-emitting layer present the maximum current efficiency of 31.51 cd/A and external quantum efficiency (EQE) of 8.48%, which are self-evidently enhanced compared with the PEDOT:PSS (14.78 cd/A, 4.03%) and WO3 (24.75 cd/A, 6.18%) based devices. Considering the remarkably improved device performance, the proposed HTL of Cs0.32WO3 is promising, acting as a favorable building block for high-efficiency light-emitting devices.

Published
2020

49. Tuning molecular emission of organic emitters from fluorescence to phosphorescence through push-pull electronic effects

Author

Jacky W. Y. Lam, Qian Peng, Jiajie Zeng, Xue-Dong Wang, Ping An Yin, Ben Zhong Tang, Hai-Tao Feng, and Zujin Zhao

Subjects
Materials science, Electronic materials, Science, General Physics and Astronomy, 02 engineering and technology, 010402 general chemistry, Photochemistry, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Article, chemistry.chemical_compound, Displays, Computer Science::Multimedia, Lasers, LEDs and light sources, Singlet state, Triplet state, lcsh:Science, Multidisciplinary, Carbazole, General Chemistry, 021001 nanoscience & nanotechnology, Fluorescence, 0104 chemical sciences, Intersystem crossing, chemistry, Luminophore, Physics::Accelerator Physics, lcsh:Q, 0210 nano-technology, Phosphorescence, Ground state
Abstract

Organic emitters with persistent phosphorescence have shown potential application in optoelectronic devices. However, rational design and phosphorescence tuning are still challenging. Here, a series of metal-free luminophores without heavy atoms and carbonyl groups from commercial/lab-synthesized carbazole and benzene were synthesized to realize tunable molecular emission from fluorescence to phosphorescence by simply substituent variation. All the molecules emit blue fluorescence in both solution and solid state. Upon removal of excitation source, the fluorinated luminophores show obvious phosphorescence. The lab-synthesized carbazole based molecules exhibit a huge lifetime difference to the commercially purchased ones due to the existence of isomer in the latter samples. The small energy gap between singlet and triplet state and low reorganization energy help enhance intersystem crossing to contribute to a more competitive radiative process from triplet to ground state. Blue and white organic light-emitting devices are fabricated by using fluorinated luminophore as emitting layer., Though organic emitters with room temperature phosphorescence (RTP) are attractive for various applications, realizing highly efficient and long lifetime emission remains a challenge. Here, the authors report the role of push-pull electronic effects on emission for organic RTP emitters.

Published
2020

50. Development of 55‐in. 8K AMOLED TV based on coplanar oxide thin‐film transistors and inkjet printing process

Author

Liangchen Yan, Taejin Kim, Yuqing Peng, Zhongyuan Wu, Huaiting Shih, Xue Dong, Yongqian Li, Xuehuan Feng, and Jianwei Yu

Subjects
Materials science, business.industry, Process (computing), Oxide, Oxide thin-film transistor, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, AMOLED, chemistry, Thin-film transistor, Optoelectronics, Electrical and Electronic Engineering, business, Inkjet printing
Published
2020

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