Your search keyword '"LIANG ZHU"' showing total 1,651 results

1. ROP Prediction Method Based on PCA–Informer Modeling

Author

Yefeng Wang, Yishan Lou, Yang Lin, Qiaoling Cai, and Liang Zhu

Subjects

Chemistry, QD1-999

Published

2024

2. Prediction of Network Security Situation Based on Attention Mechanism and Convolutional Neural Network–Gated Recurrent Unit

Author

Yuan Feng, Hongying Zhao, Jianwei Zhang, Zengyu Cai, Liang Zhu, and Ran Zhang

Subjects

network security, situation prediction, attention mechanism, 1D CNN, GRU, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Network-security situation prediction is a crucial aspect in the field of network security. It is primarily achieved through monitoring network behavior and identifying potential threats to prevent and respond to network attacks. In order to enhance the accuracy of situation prediction, this paper proposes a method that combines a convolutional neural network (CNN) and a gated recurrent unit (GRU), while also incorporating an attention mechanism. The model can simultaneously handle the spatial and temporal features of network behavior and optimize the weight allocation of features through the attention mechanism. Firstly, the CNN’s powerful feature extraction ability is utilized to extract the spatial features of the network behavior. Secondly, time-series features of network behavior are processed through the GRU layer. Finally, to enhance the model’s performance further, we introduce attention mechanisms, which can dynamically adjust the importance of different features based on the current context information; this enables the model to focus more on critical information for accurate predictions. The experimental results show that the network-security situation prediction method, which combines a CNN and a GRU and introduces an attention mechanism, performs well in terms of the fitting effect and can effectively enhance the accuracy of situation prediction.

Published

2024

3. Identification of the Mechanism of Action of the Index Components of Banxia Xiexin Decoction for Gastric Cancer through Network Pharmacology, Bioinformatics, and Molecular Docking Analysis

Author

Xiaoji Niu, Mingyue Ma, Shoumei Wang, Aiyan Hu, Yi Xu, Liang Zhu, and Shuhui Zhang

Subjects

Chemistry, QD1-999

Abstract

Banxia Xiexin decoction (BXD) is a traditional prescription widely used to treat gastrointestinal conditions, including gastric cancer. Through network pharmacology, bioinformatics, and molecular docking analysis, this study aimed to investigate the potential mechanism of the antigastric cancer effect of BXD and pave the way for future research. The network pharmacology analysis used BXD index components to improve reliability and validity. Prognosis-related genes identified through Lasso and Cox regression analysis were considered potential BXD core targets for gastric cancer. Functional enrichment analysis was conducted to uncover the potential mechanism of action of BXD in gastric cancer. In addition, molecular docking of the index components of BXD and the core targets was used to validate the results. The present study obtained six index components of BXD and 155 corresponding antigastric cancer targets. ANXA5, CYP19A1, FGF1, and F2 in the prognostic signature model were identified as core targets of the index components of BXD. Protein-protein interaction networks and functional enrichment analysis indicated that proteoglycans in cancer, PI3K-Akt, and other pathways were involved. According to molecular docking results, six index components showed good-to-strong binding affinities to the core targets. The results indicated that the index components of BXD act on multiple pathways and targets of gastric cancer. Our study paved the way for further investigation of the antigastric cancer activity and mechanisms of BXD.

Published

2024

4. DBSTGNN-Att: Dual Branch Spatio-Temporal Graph Neural Network with an Attention Mechanism for Cellular Network Traffic Prediction

Author

Zengyu Cai, Chunchen Tan, Jianwei Zhang, Liang Zhu, and Yuan Feng

Subjects

cellular network traffic prediction, deep learning, graph neural network, multi-modal feature fusion, attention mechanism, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

As network technology continues to develop, the popularity of various intelligent terminals has accelerated, leading to a rapid growth in the scale of wireless network traffic. This growth has resulted in significant pressure on resource consumption and network security maintenance. The objective of this paper is to enhance the prediction accuracy of cellular network traffic in order to provide reliable support for the subsequent base station sleep control or the identification of malicious traffic. To achieve this target, a cellular network traffic prediction method based on multi-modal data feature fusion is proposed. Firstly, an attributed K-nearest node (KNN) graph is constructed based on the similarity of data features, and the fused high-dimensional features are incorporated into the graph to provide more information for the model. Subsequently, a dual branch spatio-temporal graph neural network with an attention mechanism (DBSTGNN-Att) is designed for cellular network traffic prediction. Extensive experiments conducted on real-world datasets demonstrate that the proposed method outperforms baseline models, such as temporal graph convolutional networks (T-GCNs) and spatial–temporal self-attention graph convolutional networks (STA-GCNs) with lower mean absolute error (MAE) values of 6.94% and 2.11%, respectively. Additionally, the ablation experimental results show that the MAE of multi-modal feature fusion using the attributed KNN graph is 8.54% lower compared to that of the traditional undirected graphs.

Published

2024

5. Alendronate-functionalized double network hydrogel scaffolds for effective osteogenesis

Author

Guoke Tang, Liang Zhu, Weiheng Wang, Dongqing Zuo, Changgui Shi, Xiaojie Yu, and Rui Chen

Subjects

GelMA, ALN, OSA, schiff base, DN hydrogel, osteogenic differentiation, Chemistry, QD1-999

Abstract

Development of artificial bone substitutes mimicking the extracellular matrix is a promising strategy for bone repair and regeneration. In views of the actual requirement of biomechanics, biodegradability, and bioactivity, herein, a double-network (DN) hydrogel was constructed by interspersing a methacrylated gelatin (GelMA) network into alendronate (ALN)-modified oxidized alginate (OSA) network via Schiff base reaction and photo-crosslinking process to promote in situ bone regeneration. This GelMA@OSA-ALN DN hydrogel possessed favorable network and pores, good biocompatibility, and enhanced biomechanics. Notably, the introduction of Schiff base furnished the ND hydrogel scaffold with pH-responsive biodegradation and sustained ALN drug release delivery, which could provide effective bioactivity, upregulate osteogenesis-related genes, and promote the cell viability, growth, proliferation, and osteogenesis differentiation for bone regeneration. Therefore, we provide a new insight to develop functional DN hydrogel scaffold toward governing the on-demand drug release and achieving the stem cell therapy, which will be developed into the minimally invasive gelling system to prolong local delivery of bisphosphonates for the bone-related diseases.

Published

2022

6. Combined Effect of NZVI and H2O2 on the Cyanobacterium Microcystis aeruginosa: Performance and Mechanism

Author

Yun Kong, Lipeng Ji, Yue Wang, Jiake Li, Hao Lu, Shuhong Mo, Xianxun Wang, Liang Zhu, Xiangyang Xu, and Xing Zheng

Subjects

Microcystis aeruginosa, algal organic matters, Fenton-like process, antioxidant enzyme system, fluorescence properties, removal mechanism, Chemistry, QD1-999

Abstract

In order to eliminate the harmful cyanobacterium Microcystis aeruginosa and the algal organic matters (AOMs) produced by M. aeruginosa, the combined process of nanoscale zero-valent iron (NZVI) and hydrogen peroxide (H2O2) has been carried out, and the removal mechanism has also been clarified. As the initial cyanobacterial cell concentration is 1.0 (±0.05) × 105 cells·mL−1, all the treatments of NZVI, H2O2, and NZVI/H2O2 have inhibition effects on both the Chl a contents and photosynthetic pigments, with the Chl a removal efficiency of 47.3%, 80.5%, and 90.7% on the 5th day, respectively; moreover, the variation of ζ potential is proportional to that of the Chl a removal efficiency. The malondialdehyde content and superoxide dismutase activity are firstly increased and ultimately decreased to mitigate the oxidative stress under all the treatments. Compared with NZVI treatment alone, the oxidation of the H2O2 and NZVI/H2O2 processes can effectively destroy the antioxidant enzyme system and then inactivate the cyanobacterial cells, which further leads to the release of photosynthetic pigments and intracellular organic matters (IOM); in addition, the IOM removal efficiency (in terms of TOC) is 61.3% and 54.1% for the H2O2 and NZVI/H2O2 processes, respectively. Although NZVI is much more effective for extracellular organic matters (EOM) removal, it is less effective for IOM removal. The results of the three-dimensional EEM fluorescence spectra analysis further confirm that both H2O2 and NZVI/H2O2 have the ability to remove fluorescent substances from EOM and IOM, due to the oxidation mechanism; while NZVI has no removal effect for the fluorescent substances from EOM, it can remove part of fluorescent substances from IOM due to the agglomeration. All the results demonstrate that the NZVI/H2O2 process is a highly effective and applicable technology for the removal of M. aeruginosa and AOMs.

Published

2022

7. Bile Duct Ligation Impairs Function and Expression of Mrp1 at Rat Blood–Retinal Barrier via Bilirubin-Induced P38 MAPK Pathway Activations

Author

Ping Li, Yiting Yang, Zijin Lin, Shijin Hong, Ling Jiang, Han Zhou, Lu Yang, Liang Zhu, Xiaodong Liu, and Li Liu

Subjects

bile duct ligation, blood–retinal barrier, multidrug resistance-associated protein 1, liver injury, p38 MAPK, bilirubin, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Liver injury is often associated with hepatic retinopathy, resulting from accumulation of retinal toxins due to blood–retinal barrier (BRB) dysfunction. Retinal pigment epithelium highly expresses MRP1/Mrp1. We aimed to investigate whether liver injury affects the function and expression of retinal Mrp1 using bile duct ligation (BDL) rats. Retinal distributions of fluorescein and 2,4-dinitrophenyl-S-glutathione were used for assessing Mrp1 function. BDL significantly increased distributions of the two substrates and bilirubin, downregulated Mrp1 protein, and upregulated phosphorylation of p38 and MK2 in the retina. BDL neither affected the retinal distribution of FITC-dextran nor expressions of ZO-1 and claudin-5, demonstrating intact BRB integrity. In ARPE-19 cells, BDL rat serum or bilirubin decreased MRP1 expression and enhanced p38 and MK2 phosphorylation. Both inhibiting and silencing p38 significantly reversed the bilirubin- and anisomycin-induced decreases in MRP1 protein. Apparent permeability coefficients of fluorescein in the A-to-B direction (Papp, A-to-B) across the ARPE-19 monolayer were greater than Papp, B-to-A. MK571 or bilirubin significantly decreased Papp, A-to-B of fluorescein. Bilirubin treatment significantly downregulated Mrp1 function and expression without affecting integrity of BRB and increased bilirubin levels and phosphorylation of p38 and MK2 in rat retina. In conclusion, BDL downregulates the expression and function of retina Mrp1 by activating the p38 MAPK pathway due to increased bilirubin levels.

Published

2022

8. Comparison of Methods for Reconstructing MODIS Land Surface Temperature under Cloudy Conditions

Author

Dong Chen, Qifeng Zhuang, Liang Zhu, and Wenjie Zhang

Subjects

land surface temperature (LST), remote sensing, interpolation, reconstruction, MODIS, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Land surface temperature (LST) is a vital parameter associated with the land–atmosphere interface. The Moderate Resolution Imaging Spectroradiometer (MODIS) LST product can provide precise LST with high time resolution, and is widely applied in various remote sensing temperature research. However, due to its inability to penetrate the cloud and fog, its quality is not able to meet the requirements of actual research. Hence, obtaining continuous and cloudless MODIS LST datasets remains challenging for researchers. The critical point is to reconstruct missing pixels. To compare the performance of different methods, first, three kinds of methods were used to reconstruct the missing pixels, namely, temporal, spatial, and spatiotemporal methods. The predicted values using these methods were validated by the automatic weather system data (AWS) in the Heihe river basin of China. The results demonstrated that, compared with other methods, linear temporal interpolation using Aqua data had the best performance in MODIS LST reconstruction in the Heihe river basin, with an RMSE of 7.13 K and an R2 of 0.82, and the NSE and PBias were 0.78 and −0.76%, respectively. Furthermore, the interpolation method was improved using adaptive windows and robust regression. First, the international Geosphere–Biosphere Program (IGBP) classification was employed to distinguish the different land surface types. Then, the invalid LST values were reconstructed using adjacent days’ effective LST values combined with a robust regression. Finally, a mean filter was applied to eliminate outliers. The overall results combined with ERA5 data were validated by AWS, with an RMSE of 6.96 K and an R2 of 0.79 and the NSE and PBias were 0.77 and −0.20%, respectively. The validation demonstrated that the scheme proposed in this paper is able to accurately reconstruct the missing values and improve the accuracy of the interpolation method to a certain extent when reconstructing MODIS LST.

Published

2022

9. Polypyrrole/Al2O3/LiMn2O4 cathode for enhanced storage of Li ions

Author

Liang Zhu, Yingbing Zhang, Xiaoyu Zhao, Yaoxin Jiao, Zijian Zhao, Yanfei Wang, and Nianjun Yang

Subjects

Lithium ion battery, Lithium manganese oxides, Polypyrrole, Aluminum oxide, Battery performance, Industrial electrochemistry, TP250-261, Chemistry, QD1-999

Abstract

LiMn2O4 (LMO) is a promising cathode material for the assembly of lithium ion batteries in that it satisfies the requirement for a high specific capacity, but it lacks structural stability during long-term cycling. To overcome this challenge, Al2O3 and PPy are coated onto LiMn2O4 (PPy/Al2O3/LMO) using a sol–gel method followed by oxidative chemical polymerization. The discharge capacity of PPy/Al2O3/LMO reaches 121.73 mAh g−1 at a rate of 1C. The retention is as high as 95.81% even after 100 charge/discharge cycles. The enhanced performance of PPy/Al2O3/LMO for Li ion storage results from improved electron conductivity, a more rapid ion migration rate, and reduced Mn ion dissolution. This strategy could be further utilized for the synthesis of other cathode materials for use in lithium ion batteries.

Published

2021

10. Post-Stroke Social Isolation Reduces Cell Proliferation in the Dentate Gyrus and Alters miRNA Profiles in the Aged Female Mice Brain

Author

Aleah Holmes, Yan Xu, Juneyoung Lee, Michael E. Maniskas, Liang Zhu, Louise D. McCullough, and Venugopal Reddy Venna

Subjects

ischemic stroke, social isolation, miRNA, neurogenesis, aging, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Social isolation and loneliness are risk factors for stroke. Elderly women are more likely to be isolated. Census data shows that in homeowners over the age of 65, women are much more likely to live alone. However, the underlying mechanisms of the detrimental effects of isolation have not been well studied in older females. In this study, we hypothesized that isolation impairs post-stroke recovery in aged female mice, leading to dysregulated microRNAs (miRNAs) in the brain, including those previously shown to be involved in response to social isolation (SI). Aged C57BL/6 female mice were subjected to a 60-min middle cerebral artery occlusion and were randomly assigned to either single housing (SI) or continued pair housing (PH) immediately after stroke for 15 days. SI immediately after stroke led to significantly more brain tissue loss after stroke and higher mortality. Furthermore, SI significantly delayed motor and sensory recovery and worsened cognitive function, compared to PH. A decrease in cell proliferation was seen in the dentate gyrus of SI mice assessed by bromodeoxyuridine (BrdU) labeling. miRNAome data analysis revealed changes in several miRNAs in the brain, such as miR-297a-3p and miR-200c-3p, which are known to regulate pathways involved in cell proliferation. In conclusion, our data suggest that SI can lead to a poor post-stroke recovery in aged females and dysregulation of miRNAs and reduced hippocampal cell proliferation.

Published

2020

11. NOS1AP O-GlcNAc Modification Involved in Neuron Apoptosis Induced by Excitotoxicity

Author

Liang Zhu, Tao Tao, Dongmei Zhang, Xiaojuan Liu, Kaifu Ke, and Aiguo Shen

Subjects

O-GlcNAc modification, NOS1AP, excitotoxicity, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

O-Linked N-acetylglucosamine, or O-GlcNAc, is a dynamic post-translational modification that cycles on and off serine and threonine residues of nucleocytoplasmic and mitochondrial proteins. In addition to cancer and inflammation diseases, O-GlcNAc modification appears to play a critical role during cell apoptosis and stress response, although the precise mechanisms are still not very clear. Here we found that nitric oxide synthase adaptor (NOS1AP), which plays an important part in glutamate-induced neuronal apoptosis, carries the modification of O-GlcNAc. Mass spectrometry analysis identified Ser47, Ser183, Ser204, Ser269, Ser271 as O-GlcNAc sites. Higher O-GlcNAc of NOS1AP was detected during glutamate-induced neuronal apoptosis. Furthermore, with O-GlcNAc sites of NOS1AP mutated, the interaction of NOS1AP and neuronal nitric oxide syntheses (nNOS) decreases. Finally, during glutamate-induced neuronal apoptosis, decreasing the O-GlcNAc modification of NOS1AP results in more severe neuronal apoptosis. All these results suggest that O-GlcNAc modification of NOS1AP exerts protective effects during glutamate-induced neuronal apoptosis.

Published

2015

12. Preparation and Structural Analysis of Nano-Silver Loaded Poly(styrene-co-acrylic acid) Core-Shell Nanospheres with Defined Shape and Composition

Author

Jin Zhang, Xiaoyu Zhao, Yanfei Wang, Liang Zhu, Libin Yang, Gang Li, and Zuoliang Sha

Subjects

core-shell structure, composite nanospheres, polymers, synthesis, structural analysis, Chemistry, QD1-999

Abstract

A systematic study for the preparation and structural analysis of poly(styrene-co-acrylic acid) composite nanospheres (PSA) and silver nanoparticles loaded poly(styrene-co-acrylic acid) composite nanospheres (nAg@PSA) is reported. Poly(styrene-co-acrylic acid) nanospheres were synthesized by soap-free emulsion polymerization of styrene (St) and acrylic acid (AA) in water. Ag nanoparticles (Ag-NPs) were well-dispersed on the surfaces of poly(styrene-co-acrylic acid) composite nanospheres by in situ chemical reduction of AgNO3 using NaBH4 as a reducing agent in water. The particle size of PSA nanospheres was uniform. The surfaces of PSA nanospheres were distributed by highly uniform half-sphere arrays. Those half-sphere protruded more with the increase of the feeding amount of AA or the feed ratios of AA and St. The carboxyl groups content of nanospheres was directly proportional to the nanosphere surface area. This relationship and X-ray photoelectron spectroscopy and transmission electron microscopy images of the PSA nanospheres indicate that the acrylic acid was mainly distributed on the surface of the polystyrene spheres with unnegligible thickness. The number of Ag-NPs depends on immobilized carboxyl groups on the surface of PSA, according to thermogravimetry, ultraviolet-visible, X-ray diffraction and transmission electron microscopy results.

Published

2017

13. Testosterone Deficiency Induces Changes of the Transcriptomes of Visceral Adipose Tissue in Miniature Pigs Fed a High-Fat and High-Cholesterol Diet

Author

Lifan Zhang, Yueqin Cai, Shengjuan Wei, Yun Ling, Liang Zhu, Dongfeng Li, and Zhaowei Cai

Subjects

testosterone deficiency, visceral adipose tissue, inflammatory response, miniature pigs, RNA-Seq, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Testosterone deficiency causes fat deposition, particularly in visceral fat, and its replacement might reverse fat accumulation, however, the underlying mechanisms of such processes under diet-induced adiposity are largely unknown. To gain insights into the genome-wide role of androgen on visceral adipose tissue (VAT), RNA-Seq was used to investigate testosterone deficiency induced changes of VAT in miniature pigs fed a high-fat and high-cholesterol (HFC) diet among intact male pigs (IM), castrated male pigs (CM), and castrated male pigs with testosterone replacement (CMT) treatments. The results showed that testosterone deficiency significantly increased VAT deposition and serum leptin concentrations. Moreover, a total of 1732 differentially expressed genes (DEGs) were identified between any two groups. Compared with gene expression profiles in IM and CMT pigs, upregulated genes in CM pigs, i.e., LOC100520753 (CD68), LCN2, EMR1, S100A9, NCF1 (p47phox), and LEP, were mainly involved in inflammatory response, oxidation-reduction process, and lipid metabolic process, while downregulated genes in CM pigs, i.e., ABHD5, SPP1, and GAS6, were focused on cell differentiation and cell adhesion. Taken together, our study demonstrates that testosterone deficiency alters the expression of numerous genes involved in key biological processes of VAT accumulation under HFC diet and provides a novel genome-wide view on the role of androgen on VAT deposition under HFC diet, thus improving our understanding of the molecular mechanisms involved in VAT changes induced by testosterone deficiency.

Published

2016

14. Effect of AQP9 Expression in Androgen-Independent Prostate Cancer Cell PC3

Author

Qiwei Chen, Liang Zhu, Bo Zheng, Jinliang Wang, Xishuang Song, Wei Zheng, Lina Wang, Deyong Yang, and Jianbo Wang

Subjects

prostate cancer, aquaporin 9, RNA interference, proliferation, apoptosis, invasion, ERK signaling pathway, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

It is known that aquaporin 9 (AQP9) in the prostate was strictly upregulated by androgen and may represent a novel therapeutic target for several cancers, but whether AQP9 plays a role in the regulation of androgen-independent prostate cancer still remains unclear. In the present study, AQP9 was determined in prostate cancer and adjacent cancer tissues; AQP9-siRNA was applied to silencing AQP9 in androgen-independent prostate cancer cell PC3 cell line. Western blot and flow cytometry analysis were employed to detect changes in related-function of control and AQP9-siRNA groups. The results showed that AQP9 is significantly induced in cancer tissues than that in adjacent cancer tissues. Moreover, knockdown of AQP9 in PC3 androgen-independent prostate cancer cell prostate cancer cells increased inhibition rates of proliferation. In addition, knockdown of AQP9 resulted in a significant decrease in the expression of the Bcl-2 and with a notable increase in the expression of Bax and cleaved caspase 3, indicated that AQP9 knockdown promoted apoptosis in prostate cancer cells. From wound healing assay and matrigel invasion, we suggested that AQP9 expression affects the motility and invasiveness of prostate cancer cells. Moreover, In order to explore the pathway may be involved in AQP9-mediated motility and invasion of prostate cancer cells, the phosphorylation of ERK1/2 was significant suppressed in AQP9 siRNA-transfected cells compared with that in control cells, suggesting that AQP9 is involved in the activation of the ERK pathway in androgen-independent prostate cancer cells.

Published

2016

15. PXR activation impairs hepatic glucose metabolism partly via inhibiting the HNF4α–GLUT2 pathway

Author

Ming Liu, Ying Zhou, Ping Li, Qiushi Xie, Jiayi Zhang, Li Liu, Liang Zhu, Weimin Kong, Ling Jiang, Zhongjian Wang, Xiaodong Liu, Xiaonan Liu, Hanyu Yang, Jianjun Zou, and Peihua Liu

Subjects

endocrine system, medicine.medical_specialty, Pregnane X receptor, biology, Chemistry, Glucose uptake, Metabolism, medicine.disease, digestive system, digestive system diseases, Impaired glucose tolerance, Hepatocyte nuclear factors, Endocrinology, Downregulation and upregulation, Internal medicine, medicine, biology.protein, GLUT2, Gene silencing, General Pharmacology, Toxicology and Pharmaceutics

Abstract

Drug-induced hyperglycemia/diabetes is a global issue. Some drugs induce hyperglycemia by activating the pregnane X receptor (PXR), but the mechanism is unclear. Here, we report that PXR activation induces hyperglycemia by impairing hepatic glucose metabolism due to inhibition of the hepatocyte nuclear factor 4-alpha (HNF4α)‒glucose transporter 2 (GLUT2) pathway. The PXR agonists atorvastatin and rifampicin significantly downregulated GLUT2 and HNF4α expression, and impaired glucose uptake and utilization in HepG2 cells. Overexpression of PXR downregulated GLUT2 and HNF4α expression, while silencing PXR upregulated HNF4α and GLUT2 expression. Silencing HNF4α decreased GLUT2 expression, while overexpressing HNF4α increased GLUT2 expression and glucose uptake. Silencing PXR or overexpressing HNF4α reversed the atorvastatin-induced decrease in GLUT2 expression and glucose uptake. In human primary hepatocytes, atorvastatin downregulated GLUT2 and HNF4α mRNA expression, which could be attenuated by silencing PXR. Silencing HNF4α downregulated GLUT2 mRNA expression. These findings were reproduced with mouse primary hepatocytes. Hnf4α plasmid increased Slc2a2 promoter activity. Hnf4α silencing or pregnenolone-16α-carbonitrile (PCN) suppressed the Slc2a2 promoter activity by decreasing HNF4α recruitment to the Slc2a2 promoter. Liver-specific Hnf4α deletion and PCN impaired glucose tolerance and hepatic glucose uptake, and decreased the expression of hepatic HNF4α and GLUT2. In conclusion, PXR activation impaired hepatic glucose metabolism partly by inhibiting the HNF4α‒GLUT2 pathway. These results highlight the molecular mechanisms by which PXR activators induce hyperglycemia/diabetes.

Published

2022

16. Promising Enzymes for Inhibitors Development Against COVID-19

Author

Zhi-Gang Sun, Shuang Li, Xiang-Ting Qiu, Hai-Liang Zhu, Feng-Ling Yu, and Xue-Tang Li

Subjects

Pharmacology, chemistry.chemical_classification, 2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), SARS-CoV-2, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), General Medicine, Antiviral Agents, COVID-19 Drug Treatment, Enzyme, chemistry, Drug Discovery, Development economics, Humans, Business, Enzyme Inhibitors, Pandemics

Abstract

After the emergence of COVID-19 in 2019, it has now become a pandemic. COVID-19 has brought painful disasters to people all over the world. It not only threatens lives and health but also induces economic crises. At present, promising methods to eradicate COVID-19 mainly include drugs and vaccines. Enzyme inhibitors have always been a reliable strategy for the treatment of related diseases. Scientists worldwide have worked together to study COVID-19, obtained the structure of key SARS-CoV-2 associated enzymes, and reported the research of inhibitors of these enzymes. This article summarizes COVID-19-related enzyme inhibitors' recent development, mainly including 3CLpro, PLpro, TMPRSS2, and RdRp inhibitors, hoping to provide valuable weapons in the ensuing battle against COVID-19.

Published

2022

17. Comparative Analysis of the Hydrogen Bond Vibrations of Ice XII

Author

Xiao-Qing Yuan, Xu-Hao Yu, Xu-Liang Zhu, Xue-Chun Wang, Xiao-Yan Liu, Jing-Wen Cao, Xiao-Ling Qin, and Peng Zhang

Subjects

Chemistry, General Chemical Engineering, General Chemistry, Physics::Chemical Physics, QD1-999, Article

Abstract

It is difficult to theoretically study the vibrational spectrum of hydrogen-disordered ice XII compared with its hydrogen-ordered counterpart, ice XIV. We constructed a 24-molecule supercell of ice XII to mimic its real structure. We focused on hydrogen bond (HB) vibrational modes in the translation band using first-principles density functional theory (DFT). Our simulated results were in good agreement with inelastic neutron scattering experiments. We found that the optical vibrational modes of HBs are composed of three main components. These are cluster vibrations in the lowest-frequency region, four-bond HB vibrations in the highest-frequency region, and two-bond modes in between. Although the experimentally recorded curve of ice XII is smooth in the translation region, our results support the proposal that two types of intrinsic HB vibrational modes are common in the ice family.

Published

2022

18. Synthesis and Structure-Activity Relationship Studies of N-monosubstituted Aroylthioureas as Urease Inhibitors

Author

Zhu-Ping Xiao, Hui Ouyang, Hai-Liang Zhu, Hai-Lian Fang, Li Fang, Ya-Xi Ye, Dawalamu, Fu Zijuan, Wei-Yi Li, Ke Li, Zhu Wenyan, Wei-Wei Ni, Zou Xia, and Li Liu

Subjects

Urease, Stereochemistry, 01 natural sciences, Structure-Activity Relationship, 03 medical and health sciences, chemistry.chemical_compound, Bacterial Proteins, Catalytic Domain, Drug Discovery, medicine, Humans, Structure–activity relationship, Indophenol, Enzyme Inhibitors, IC50, 030304 developmental biology, 0303 health sciences, Binding Sites, Urea binding, Helicobacter pylori, biology, Acetohydroxamic acid, Thiourea, Active site, Hep G2 Cells, Surface Plasmon Resonance, Anti-Bacterial Agents, 0104 chemical sciences, Molecular Docking Simulation, Kinetics, 010404 medicinal & biomolecular chemistry, Solubility, chemistry, biology.protein, medicine.drug

Abstract

Background: Thiourea is a classical urease inhibitor which is usually used as a positive control, and many N,N'-disubstituted thioureas have been determined as urease inhibitors. However, due to steric hindrance, N,N'-disubstituted thiourea motif could not bind urease as thiourea. On the contrary, N-monosubstituted thiourea with a tiny thiourea motif could theoretically bind into the active pocket as thiourea. Objective: A series of N-monosubstituted aroylthioureas were designed and synthesized for evaluation as urease inhibitors. Methods: Urease inhibition was determined by the indophenol method and IC50 values were calculated using computerized linear regression analysis of quantal log dose-probit functions. The kinetic parameters were estimated via surface plasmon resonance (SPR) and by nonlinear regression analysis based on the mixed type inhibition model derived from Michaelis-Menten kinetics. Results: Compounds b2, b11, and b19 reversibly inhibited urease with a mixed mechanism, and showed excellent potency against both cell-free urease and urease in the intact cell, with IC50 values being 90- to 450-fold and 5- to 50-fold lower than the positive control acetohydroxamic acid, respectively. The most potent compound b11 showed an IC50 value of 0.060 ± 0.004μM against cell-free urease, which bound to urea binding site with a very low KD value (0.420±0.003nM) and a very long residence time (6.7 min). Compound b11 was also demonstrated to have very low cytotoxicity to mammalian cells. Conclusion: The results revealed that N-monosubstituted aroylthioureas bound to the active site of urease as expected, and represent a new class of urease inhibitors for the development of potential therapeutics against infections caused by urease-containing pathogens.

Published

2021

19. Discovery of 1-Amino-1H-imidazole-5-carboxamide Derivatives as Highly Selective, Covalent Bruton’s Tyrosine Kinase (BTK) Inhibitors

Author

Zhang Shuting, Xu Guiqing, Longfei Mao, Ma Chunhua, Zhang Dandan, Zhao Minghao, Liang Zhu, Dingding Gao, Yuqin Jiang, Yang Shouning, Ding Qingjie, Jie Zhao, Li Qingyun, Wei Li, and Goujie Fan

Subjects

biology, Chemistry, medicine.drug_class, Kinase, Carboxamide, chemistry.chemical_compound, immune system diseases, In vivo, Covalent bond, hemic and lymphatic diseases, Ibrutinib, Drug Discovery, biology.protein, medicine, Cancer research, Molecular Medicine, Bruton's tyrosine kinase, Imidazole, Tyrosine kinase

Abstract

Bruton's tyrosine kinase (BTK) inhibitors suppressing the aberrant activation of BTK have led to a paradigm shift in the therapy of B-cell malignancies. However, there is an urgent need to discover more selective covalent BTK inhibitors owing to the off-target adverse effects of the approved inhibitor, ibrutinib. Herein, we disclose the discovery and preliminary activity studies of novel BTK inhibitors carrying 1-amino-1H-imidazole-5-carboxamide as a hinge binder. The most potent BTK inhibitor 26 demonstrates impressive selectivity, favorable pharmacokinetic properties, and robust antitumor efficacy in vivo, which indicates its potential as a novel therapeutic option for B-cell lymphomas. Importantly, to the best of our knowledge, this is the first example of a 1-amino-1H-imidazole-5-carboxamide scaffold used as the hinge binder of kinase inhibitors, which will largely expand the chemical diversity of kinase inhibitors.

Published

2021

20. Simultaneous Measurement of Temperature and Pressure Based on Ring-Shaped Sensing Structure With Polymer Coated No-Core Fiber

Author

Yong Zhao, Jian Zhao, Xuegang Li, Cheng-Liang Zhu, Qiang Zhao, and Ri-qing Lv

Subjects

chemistry.chemical_classification, Materials science, Polymer, Bending, Temperature measurement, law.invention, Core (optical fiber), Pressure measurement, chemistry, law, Fiber, Sensitivity (control systems), Electrical and Electronic Engineering, Composite material, Instrumentation, Refractive index

Abstract

A ring-shaped structure based on polymer coated no-core fiber (NCF) is presented for simultaneous temperature and pressure measurements. The sensing structure is fabricated by splicing the partially coated NCF between single-mode fibers and bending it into a loop. The anti-resonance effect is formed in the NCF and the resonant dips have wavelength shift responses to the temperature and displacement variations. It should be noted that the increase of temperature leads to a decrease in the polymer coating refractive index and changes the displacement measurement sensitivity, thus, the compensation algorithm is required to resolve this cross-sensitivity problem. Combining the ring-shaped structure with the elastic diaphragm encapsulation can convert seawater pressure into structural deformation displacement to achieve pressure measurement. The experimental and simulation results show that this sensor offers a high temperature sensitivity of −5.098 nm/°C with the resolution of $2\times 10^{-4}$ °C and a pressure sensitivity of −2.368 nm/MPa with the resolution of $0.4\times 10^{-3}$ MPa. In addition, the sensing performances could be changed by adjusting the NCF size and the ring-shaped structure diameter, which enables this sensing structure to have a broader application potential for seawater parameter measurement.

Published

2021

21. Recent Advances of Small Molecule Focal Adhesion Kinase (FAK) Inhibitors as Promising Anticancer Therapeutics

Author

Hai-Liang Zhu, Kun Chen, and Peng-Cheng Lv

Subjects

Allosteric regulation, 01 natural sciences, Biochemistry, Focal adhesion, Structure-Activity Relationship, 03 medical and health sciences, Neoplasms, Drug Discovery, medicine, Humans, 0101 mathematics, Protein Kinase Inhibitors, Cell Proliferation, 030304 developmental biology, Pharmacology, 0303 health sciences, Multiple cancer, Cell growth, Chemistry, Organic Chemistry, Rational design, Cancer, medicine.disease, Small molecule, 010101 applied mathematics, Focal Adhesion Protein-Tyrosine Kinases, Cancer research, Molecular Medicine, Tyrosine kinase

Abstract

Focal Adhesion Kinase (FAK) is a non-receptor tyrosine kinase involved in the process of cell proliferation, survival, migration, and invasion. It has become a promising therapeutic target for the treatment of human metastatic cancers due to its overexpression and/or activation in multiple cancer types. Since FAK is emerging as a potential cancer target because of its overexpression at both the transcriptional and translational level in cancer, different types of FAK inhibitors with diversified scaffolds have been discovered in the past few years. In this review, the progress of recently discovered small molecule FAK inhibitors was summarized. Major efforts have been focused on the rational design and synthesis of small molecule FAK inhibitors, and their structure-activity relationship (SAR) analysis wasalso discussed. Among them, while type I inhibitors remain as the major focuses, type II inhibitors and novel allosteric FAK inhibitors (type III inhibitors) have been developed to improve both potency and selectivity. Meanwhile, novel strategies, such as targeting FAK using inhibitors of protein-protein interactions, were also discovered. Lastly, some insights and perspectives on the future development of FAK inhibitors as anticancer therapeutics have been provided.

Published

2021

22. Efficient stereoselective synthesis of 5a-carba-α-L-mannopyranose starting from naturally abundant (−)-shikimic acid

Author

Yong-Qiang Luo, Lei Wang, Xian-Ru Liang, Xiao-Xin Shi, and Xin-Liang Zhu

Subjects

chemistry.chemical_compound, chemistry, Stereochemistry, Organic Chemistry, Stereoselectivity, Shikimic acid

Abstract

In this article, an efficient and practical stereoselective synthesis of 5a-carba-α-L-mannopyranose from naturally abundant (−)-shikimic acid is discussed. 5a-Carba-α-L-mannopyranose was synthesize...

Published

2021

23. Recent Progress in Small Molecular Inhibitors of DNA Gyrase

Author

Yu-Shun Yang, Ruo-Jun Man, Hai-Liang Zhu, Xu-Ping Zhang, and Ai-Qin Jiang

Subjects

DNA, Bacterial, Pharmacology, Bacteria, Organic Chemistry, DNA replication, RNA, Microbial Sensitivity Tests, Computational biology, Biology, Biochemistry, DNA gyrase, Anti-Bacterial Agents, chemistry.chemical_compound, Human health, Antibiotic resistance, chemistry, DNA Gyrase, Transcription (biology), Drug Discovery, Humans, Topoisomerase II Inhibitors, Molecular Medicine, Drug effect, DNA

Abstract

Background: In the past few decades, with the abuse of antibiotics, bacterial resistance has enhanced constantly. More and more super species of bacteria, which are seriously threatening human health, have been discovered. Developing novel antibacterial agents to overcome the drug-resistance is an urgent duty. We all know that blocking the information-transfer of bacterial DNA and RNA is one of the effective ways to inhibit bacterial growth. Therefore, as the indispensable enzyme for DNA replication and transcription, DNA gyrase is one of the important targets for bacterial inhibitors. Accordingly, many inhibitors of DNA gyrase have also been developed. Methods: In this review, to highlight the recent progress in DNA gyrase inhibitors, the study in this field over the past three years (2017-2019) was summarized and organized based on their backbones or core moieties. Both of the subunits of DNA gyrase were taken into consideration. Results: These DNA gyrase inhibitors have been classified based on their backbones or core moieties. After the comparison of the divided 14 categories, we could achieve some clues for future modification. In particular, we found that benzodiazepines and naphthalene heterocycles were the most common structures in the drug design. On the other hand, isopropyl and cyclopropyl have also been used in drug design, which provides more inspiration for the investigations. Except for GSK2140944, which has entered the phase III clinical trial stage, other compounds here were not fully promulgated with their optimal pharmacokinetic activity. Conclusion: We briefly summed up the current situation and future challenges on this topic. Through the discussion of the design strategies and drug effect, we hope that this review can provide a focused direction for future researches.

Published

2021

24. Self-Assembly Behaviors of Giant Amphiphiles Containing Cubic Cage-like 'Monomers'

Author

Qingshu Dong, You-Liang Zhu, Xue-Hui Dong, Weihua Li, and Qingliang Song

Subjects

Materials science, Polymers and Plastics, Organic Chemistry, Dissipative particle dynamics, Condensed Matter::Soft Condensed Matter, Inorganic Chemistry, chemistry.chemical_compound, Monomer, chemistry, Chemical physics, Amphiphile, Materials Chemistry, Self-assembly, Cage

Abstract

We have studied the self-assembly of two types of amphiphiles with one or two blocks composed of giant “monomers” of the cubic cage using dissipative particle dynamics (DPD) simulations with the ai...

Published

2021

25. Dual-Mode Sensing Platform for Electrochemiluminescence and Colorimetry Detection Based on a Closed Bipolar Electrode

Author

Zhongping Yao, Yue Hu, Jinsen Liu, Yingchun Li, Xuecui Mei, and Liang Zhu

Subjects

Prussian blue, business.industry, Chemistry, Biosensing Techniques, Electrochemical Techniques, Hydrogen Peroxide, Signal, Cathode, Analytical Chemistry, law.invention, Anode, Luminol, chemistry.chemical_compound, Interference (communication), law, Luminescent Measurements, Electrode, Optoelectronics, Electrochemiluminescence, Colorimetry, business, Electrodes

Abstract

Development of sensors uniting different sensing principles is in line with the concept of reliable, comprehensive, and diversified equipment construction. However, the current exploration in this field is obstructed by compromise of reaction conditions and inevitable mutual interference arising from different sensing modes. This work reported a closed bipolar electrode (c-BPE) strategy for dual-modality detection or dual-target detection. To this end, a c-BPE sensing platform installed in physically separated anode and cathode compartments was well designed and carefully optimized. If luminol was present in the anode section and Prussian blue (PB) was at the cathode part, single stimulation could realize electrochemiluminescence (ECL) from luminol at the anode and conversion of PB to Prussian white (PW) at the cathode. The latter reaction helped elevate the ECL signal and also prepared for colorimetric detection as color change from PW to PB under the trigger of oxidant (like H2O2) was used to track the content of the oxidant. Thus, dual signals were obtained for dual-modality detection of single target or the detection of different targets was realized at different poles. Detection of glucose was carried out to validate the application for dual-modality detection, while VLDL/AChE and NADH/H2O2 assays illustrated the potential of dual-target detection. The proposed platform possesses outstanding sensing performance including selectivity, repeatability, long-term stability, accuracy, and so forth. This work implements a breakthrough in designing dual-mode sensors and is expected to present a rational basis for development of a diversified sensing platform.

Published

2021

26. Hot-band absorption of indocyanine green for advanced anti-stokes fluorescence bioimaging

Author

Xiaoxiao Fan, Zhe Feng, Jun Qian, Wen Liu, Yuhuang Zhang, Mubin He, Dingwei Xue, Andrey N. Kuzmin, Di Wu, Jie Liu, Paras N. Prasad, Zikang Ye, Jing Zhou, and Liang Zhu

Subjects

Materials science, genetic structures, Hot band, Article, law.invention, chemistry.chemical_compound, Computer Science::Hardware Architecture, Nuclear magnetic resonance, law, natural sciences, Applied optics. Photonics, cardiovascular diseases, Absorption (electromagnetic radiation), Imaging and sensing, QC350-467, Velocimetry, Optics. Light, Laser, Fluorescence, Atomic and Molecular Physics, and Optics, Photon upconversion, eye diseases, Electronic, Optical and Magnetic Materials, respiratory tract diseases, TA1501-1820, chemistry, Continuous wave, Biophotonics, Indocyanine green

Abstract

Bright anti-Stokes fluorescence (ASF) in the first near-infrared spectral region (NIR-I, 800 nm–900 nm) under the excitation of a 915 nm continuous wave (CW) laser, is observed in Indocyanine Green (ICG), a dye approved by the Food and Drug Administration for clinical use. The dependence of fluorescence intensity on excitation light power and temperature, together with fluorescence lifetime measurement, establish this ASF to be originated from absorption from a thermally excited vibrational level (hot-band absorption), as shown in our experiments, which is stronger than the upconversion fluorescence from widely-used rare-earth ion doped nanoparticles. To test the utility of this ASF NIR-I probe for advanced bioimaging, we successively apply it for biothermal sensing, cerebral blood vessel tomography and blood stream velocimetry. Moreover, in combination with L1057 nanoparticles, which absorb the ASF of ICG and emit beyond 1100 nm, these two probes generate multi-mode images in two fluorescent channels under the excitation of a single 915 nm CW laser. One channel is used to monitor two overlapping organs, urinary system & blood vessel of a live mouse, while the other shows urinary system only. Using in intraoperative real-time monitoring, such multi-mode imaging method can be beneficial for visual guiding in anatomy of the urinary system to avoid any accidental injury to the surrounding blood vessels during surgery., Hot-band absorption based anti-Stokes fluorescence of ICG for evaluating the thermal state of the tumor and multi-organ imaging.

Published

2021

27. Controlling metalation reaction of phthalocyanine with cobalt at single-molecule level on Au(111) surface

Author

Lei Dong, Bing Wang, Aidi Zhao, Liang Zhu, Wei Feng, and Bin Li

Subjects

Materials science, Metalation, chemistry.chemical_element, law.invention, Crystallography, chemistry.chemical_compound, chemistry, law, Atom, Phthalocyanine, Molecule, Density functional theory, Dehydrogenation, Physical and Theoretical Chemistry, Scanning tunneling microscope, Cobalt

Abstract

Metalation reaction of metal-free phthalocyanine molecule with Co atom adsorbed on Au(111) surface has been studied in situ at single atom/molecule scale by low-temperature scanning tunneling microscopy (STM) experiment combined with simulations based on density function theory calculations. Through manipulations using STM tip, we showed a controlled manner to have a single metal-free phthalocyanine molecule react with a Co atom to form Co phthalocyanine molecule. In this reaction process, an intermediate state originating from π-d interaction between the metal-free phthalocyanine molecule and Co atom has been identified. Moreover, we also revealed that the redox reaction represented as bond breaking and bond forming relative to the Co and pyrrolic N atoms, not pyrrolic H atoms, is a key process for dehydrogenation and metalation reaction. Our DFT calculations provided theoretical supporting for the above conclusions, and further understanding of the related mechanisms.

Published

2021

28. Stereodivergent Syntheses of All Stereoisomers of (−)‐Shikimic Acid: Development of a Chiral Pool for the Diverse Polyhydroxy‐cyclohexenoid (or ‐cyclohexanoid) Bioactive Molecules

Author

Yong-Qiang Luo, Xiao-Xin Shi, Yun-Gang He, Feng-Lei Li, Zhang-Li Xu, Wen-Jing Xie, Xing-Liang Zhu, and Yong-Kang Huang

Subjects

chemistry.chemical_compound, Chemistry, Cyclitol, Bioactive molecules, Organic Chemistry, Organic chemistry, Physical and Theoretical Chemistry, Shikimic acid

Published

2021

29. Polymer-stabilized blue phase liquid crystal sensor for sensitive and selective detection of organic vapors

Author

Dong-Peng Sun, Lin Zheng, Xuan Zhou, De-Shan Hou, Wen-Ming Han, and Ji-Liang Zhu

Subjects

chemistry.chemical_classification, Materials science, business.industry, Physics::Optics, General Chemistry, Polymer, Condensed Matter Physics, Blue phase liquid crystal, Condensed Matter::Soft Condensed Matter, chemistry, Liquid crystal, Optoelectronics, General Materials Science, business, Photonic crystal

Abstract

Polymer-stabilised blue-phase liquid crystal (PS-BPLC) is a soft artificial three-dimensional photonic crystal (PC) functional material for optics and optoelectronics because of its superior optica...

Published

2021

30. Novel Stereoselective Syntheses of (+)-Streptol and (−)-1-epi-Streptol Starting from Naturally Abundant (−)-Shikimic Acid

Author

Yun-Gang He, Wen-Jing Xie, Shi-Ling Liu, Xiao-Xin Shi, Yong-Kang Huang, Xing-Liang Zhu, Yong-Qiang Luo, and Lei Wang

Subjects

Chemistry, chemistry.chemical_compound, Stereochemistry, General Chemical Engineering, Yield (chemistry), Common key, Stereoselectivity, General Chemistry, Shikimic acid, QD1-999

Abstract

Novel highly stereoselective syntheses of (+)-streptol and (-)-1-epi-streptol starting from naturally abundant (-)-shikimic acid were described in this article. (-)-Shikimic acid was first converted to the common key intermediate by 11 steps in 40% yield. It was then converted to (+)-streptol by three steps in 72% yield, and it was also converted to (-)-1-epi-streptol by one step in 90% yield. In summary, (+)-streptol and (-)-1-epi-streptol were synthesized from (-)-shikimic acid by 14 and 12 steps in 29 and 36% overall yields, respectively.

Published

2021

31. Ligustrazine Attenuates Hyperhomocysteinemia-induced Alzheimer-like Pathologies in Rats

Author

Xi-Hu Qin, Juan Liu, Lin-Xiao Wang, Qing Zhang, Shi-Jie Jiang, Jing Wang, and Liang Zhu

Subjects

Tau hyperphosphorylation, Hyperhomocysteinemia, Ligusticum chuanxiong, Homocysteine, Pharmacology, Hippocampus, Biochemistry, Neuroprotection, Rats, Sprague-Dawley, chemistry.chemical_compound, Alzheimer Disease, Intragastric administration, Genetics, medicine, Animals, Humans, Hippocampus (mythology), Phosphorylation, Neurons, Memory Disorders, Amyloid beta-Peptides, business.industry, Alkaloid, Brain, medicine.disease, Rats, Disease Models, Animal, Neuroprotective Agents, chemistry, Pyrazines, business

Abstract

Ligustrazine, an alkaloid extracted from the traditional Chinese herbal medicine Ligusticum Chuanxiong Hort, has been clinically applied to treat the cerebrovascular diseases. Hyperhomocysteinemia (Hhcy) is an independent risk factor for Alzheimer's disease (AD). Memory deficits can be caused by Hhcy via pathologies of AD-like tau and amyloid-β (Aβ) in the hippocampus. Here, we investigated whether homocysteine (Hcy) can induce AD-like pathologies and the effects of ligustrazine on these pathologies. The Hcy rat model was constructed by 14-day Hcy injection via vena caudalis, and rats were treated with daily intragastric administration of ligustrazine at the same time. We found that the pathologies of tau and Aβ were induced by Hcy in the hippocampus, while the Hcy-induced tau hyperphosphorylation and Aβ accumulation could be markedly attenuated by simultaneous ligustrazine treatment. Our data demonstrate that ligustrazine may be used as a promising neuroprotective agent to treat the Hcy-induced AD-like pathologies.

Published

2021

32. Comparative Analysis of Hydrogen-Bonding Vibrations of Ice VI

Author

Jing-Wen Cao, Xiao-Ling Qin, Xu-Liang Zhu, Peng Zhang, Xiao-Qing Yuan, Xu-Hao Yu, Yue Gu, Hao-Cheng Wang, and Xue-Chun Wang

Subjects

Materials science, Phonon, General Chemical Engineering, Primitive cell, Ice XV, General Chemistry, Molecular physics, Article, Inelastic neutron scattering, Chemistry, Normal mode, Phase (matter), Molecular vibration, Molecule, Physics::Chemical Physics, QD1-999

Abstract

It is difficult to investigate the hydrogen-bonding dynamics of hydrogen-disordered ice VI. Here, we present a comparative method based on our previous study of its counterpart hydrogen-ordered phase, ice XV. The primitive cell of ice XV is a 10 molecule unit, and the vibrational normal modes were analyzed individually. We constructed an 80 molecule supercell of ice VI to mimic the periodic unit and performed first-principles density functional theory calculations. As the two vibrational spectra show almost identical features, we compared the molecular translation vibrations. Inspired by the phonon analysis of ice XV, we found that the vibrational modes in the translation band of ice VI are classifiable into three groups. The lowest-strength vibration modes represent vibrations between two sublattices that lack hydrogen bonding. The highest-strength vibration modes represent the vibration of four hydrogen bonds of one molecule. The middle-strength vibration modes mainly represent the molecular vibrations of only two hydrogen bonds. Although there are many overlapping stronger and middle modes, there are only two main peaks in the inelastic neutron scattering (INS) spectra. This work explains the origin of the two main peaks in the far-infrared region of ice VI and illustrates how to analyze a hydrogen-disordered ice structure.

Published

2021

33. A Strategy for the Analysis of the Far-Infrared Vibrational Modes of Hydrogen-Disordered Ice V

Author

Xiao-Ling Qin, Xiao-Qing Yuan, Xue-Chun Wang, Peng Zhang, Xiao-Tong Ma, Xu-Liang Zhu, Jia-Le Yu, Jing-Wen Cao, Hao-Cheng Wang, and Miao-Miao Li

Subjects

Materials science, Hydrogen, Ice V, Fingerprint (computing), Intermolecular force, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Molecular physics, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, General Energy, chemistry, Far infrared, Normal mode, Molecular vibration, Physical and Theoretical Chemistry, 0210 nano-technology

Abstract

Analysis of the intermolecular vibrational modes in a fingerprint region is always difficult. It is particularly hard to figure out the normal modes, especially in the far-infrared (IR) region, whi...

Published

2021

34. Covalently immobilize crude d-amino acid transaminase onto UiO-66-NH2 surface for d-Ala biosynthesis

Author

Hai-Liang Zhu, Chang-Hong Liu, Jin Zhou, Yu-Shun Yang, Bin Wang, Qingcai Jiao, and Xiang-Yang Zhang

Subjects

chemistry.chemical_classification, 0303 health sciences, Immobilized enzyme, Hybrid enzyme, 02 engineering and technology, General Medicine, 021001 nanoscience & nanotechnology, Biochemistry, Combinatorial chemistry, Transaminase, 03 medical and health sciences, chemistry.chemical_compound, Enzyme, Biosynthesis, chemistry, Structural Biology, Biocatalysis, Covalent bond, D-amino acid, 0210 nano-technology, Molecular Biology, 030304 developmental biology

Abstract

Enzyme reaction has been accepted widely in numerous applications owing to the high efficiency and stereo-selectivity, as well as simple preparation by gene engineering. However, the fragility and complex purification process of the enzyme are long-standing problems which limit the large-scale application. One possible solution may be the enzyme immobilization. As one type of porous material with high loading capacity and designable functionality, Metal-Organic Frameworks (MOFs) are ideal choices for the immobilization of enzyme with a considerable interest in recent years. In this study, d-amino acid transaminase (DAT), an important enzyme for industrial synthesis of d-Ala, was covalently immobilized on the surface of a star MOFs material, UiO-66-NH2. Interestingly, we found that the nanoscale hybrid enzyme UiO-66-NH2-Gd-DAT not only maintained the high catalytic efficiency but also got rid of the interference of polluting enzymes, which meant that we could obtain efficient and stereo-selective immobilized enzyme without complex purification process. In general, our findings demonstrated that using UiO-66-NH2 might be a promising strategy to immobilize enzyme and produce effective biocatalyst with high activity and stereo-selectivity.

Published

2021

35. Discovery of novel indole‐1,2,4‐triazole derivatives as tubulin polymerization inhibitors

Author

Hai-Liang Zhu, Zhu-Gui Zhou, Ruo-Jun Man, Yan-Juan Liao, and Meng-Ke Wu

Subjects

Indoles, Cell, Antineoplastic Agents, Apoptosis, HeLa, Structure-Activity Relationship, 03 medical and health sciences, 0302 clinical medicine, Microtubule, Cell Line, Tumor, Drug Discovery, medicine, Humans, Cell Proliferation, Indole test, A549 cell, Cyclin-dependent kinase 1, Molecular Structure, biology, Chemistry, Triazoles, Cell cycle, biology.organism_classification, Tubulin Modulators, Molecular Docking Simulation, Tubulin, medicine.anatomical_structure, Biochemistry, 030220 oncology & carcinogenesis, biology.protein, Drug Screening Assays, Antitumor, 030217 neurology & neurosurgery

Abstract

A series of novel indole-1,2,4-triazole derivatives have been designed, synthesized, and evaluated as potential tubulin polymerization inhibitors. The top hit 12, bearing the 3,4,5-trimethoxyphenyl moiety, exhibited substantial anti-proliferative activity against HepG2, HeLa, MCF-7, and A549 cells in vitro with IC50 values of 0.23 ± 0.08 μM, 0.15 ± 0.18 μM, 0.38 ± 0.12 μM, and 0.30 ± 0.13 μM, respectively. It also inhibited tubulin polymerization with the IC50 value of 2.1 ± 0.12 μM, which was comparable with that of the positive controls. Furthermore, compound 12 regulated the expression of cell cycle-related proteins (Cyclin B1, Cdc25c, and Cdc2) and apoptosis-related proteins (Bcl-2, Bcl-x, and Mcl-1). Mechanistically, compound 12 could arrest cell cycle at the G2/M phase, thus induce an increase of apoptotic cell death. In addition, molecular docking hinted the possible interaction mode of compound 12 into the colchicine binding site of tubulin heterodimers. According to the applications of microtubule-targeting agents in both direct and synergistic cancer therapies, we hope this work might be of significance for future researches.

Published

2021

36. Selective killing of cancer cells harboring mutant RAS by concomitant inhibition of NADPH oxidase and glutathione biosynthesis

Author

Liang Zhu, Jianjia Ma, Weiqin Lu, Yawei Bi, Eunice Kim, Catherine K. Luo, Dan Wang, Vincent W. Yang, Juntao Ji, Guoqiang Wang, Xiaokun Li, James L. Abbruzzese, Zhao-Shen Li, Haojie Huang, Lianghao Hu, Muyun Liu, and Yongde Luo

Subjects

Cancer Research, Antioxidant, Colorectal cancer, medicine.medical_treatment, medicine.disease_cause, chemistry.chemical_compound, Methionine, Onium Compounds, Antineoplastic Combined Chemotherapy Protocols, Enzyme Inhibitors, Ovarian Neoplasms, chemistry.chemical_classification, NADPH oxidase, Cell Death, biology, lcsh:Cytology, Glutathione, Tumor Burden, Sulfoxides, Colonic Neoplasms, Female, Carcinoma, Pancreatic Ductal, Signal Transduction, Glutamate-Cysteine Ligase, Immunology, Mice, Nude, Mice, Transgenic, Article, Cellular and Molecular Neuroscience, medicine, Animals, Humans, Chemotherapy, Buthionine sulfoximine, lcsh:QH573-671, Reactive oxygen species, NADPH Oxidases, Cancer, Oncogenes, Cell Biology, Genes, p53, HCT116 Cells, medicine.disease, Xenograft Model Antitumor Assays, Pancreatic Neoplasms, Oxidative Stress, Genes, ras, chemistry, Mutation, Cancer cell, Cancer research, biology.protein, Oxidative stress

Abstract

Oncogenic RAS is a critical driver for the initiation and progression of several types of cancers. However, effective therapeutic strategies by targeting RAS, in particular RASG12D and RASG12V, and associated downstream pathways have been so far unsuccessful. Treatment of oncogenic RAS-ravaged cancer patients remains a currently unmet clinical need. Consistent with a major role in cancer metabolism, oncogenic RAS activation elevates both reactive oxygen species (ROS)-generating NADPH oxidase (NOX) activity and ROS-scavenging glutathione biosynthesis. At a certain threshold, the heightened oxidative stress and antioxidant capability achieve a higher level of redox balance, on which cancer cells depend to gain a selective advantage on survival and proliferation. However, this prominent metabolic feature may irrevocably render cancer cells vulnerable to concurrent inhibition of both NOX activity and glutathione biosynthesis, which may be exploited as a novel therapeutic strategy. In this report, we test this hypothesis by treating the HRASG12V-transformed ovarian epithelial cells, mutant KRAS-harboring pancreatic and colon cancer cells of mouse and human origins, as well as cancer xenografts, with diphenyleneiodonium (DPI) and buthionine sulfoximine (BSO) combination, which inhibit NOX activity and glutathione biosynthesis, respectively. Our results demonstrate that concomitant targeting of NOX and glutathione biosynthesis induces a highly potent lethality to cancer cells harboring oncogenic RAS. Therefore, our studies provide a novel strategy against RAS-bearing cancers that warrants further mechanistic and translational investigation.

Published

2021

37. The stability of aerobic granular sludge under low energy consumption: optimization of the granular size distribution by a novel internal component

Author

Jingsong Deng, Xiangyang Xu, Yatong Ji, Han Taixing, Liang Zhu, and Cao Runjuan

Subjects

Environmental Engineering, Denitrification, Thauera, 010504 meteorology & atmospheric sciences, biology, Chemistry, Segmented filamentous bacteria, Microorganism, 0208 environmental biotechnology, Granule (cell biology), 02 engineering and technology, biology.organism_classification, 01 natural sciences, 020801 environmental engineering, Mixed liquor suspended solids, Zoogloea, Chemical engineering, Microbial population biology, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

To enhance the stability and pollutant removal performance of aerobic granular sludge (AGS), four groups of AGS reactors with mesh screens of different pore sizes (R1 is the control reactor; R2, R3, and R4 have pore sizes of 1.5, 2.5, and 3.5 mm, respectively) were established in this study. The results showed that the granular sludge in the reactor with a 2.5 mm mesh screen (R3) has the highest mixed liquor suspended solids (MLSS) value of 8.2 ± 0.2 g L−1 and the lowest sludge volume index (SVI30) value of 30 mL g−1. At the same time, the mature granular sludge in R3 had a compact structure and excellent total nitrogen (TN) removal performance (84.9 ± 1.2%), along with an optimal granule size distribution (span value of 96 ± 0.12). Analysis of the sludge microbial community showed that R3 has a higher enrichment of functional microorganisms, such as Zoogloea spp. (50.5%) and Thauera spp. (16.1%). This is beneficial for improving its intercellular adhesion and denitrification performance. The granule size distribution results indicated that R3 screened the growing granules with its appropriate mesh aperture in terms of optimizing hydraulic shear, thus inhibiting the growth of filamentous bacteria and keeping the granule size within the optimal range. This created a favorable niche for these fast-growing microorganisms, eventually forming granules with good stability and high denitrification efficiency.

Published

2021

38. Two birds with one stone: a NIR fluorescent probe for mitochondrial protein imaging and its application in photodynamic therapy

Author

Hai-Rong Wang, Ya-Lin Qi, Yu-Shun Yang, Hai-Liang Zhu, Long Guo, Li-Li Chen, Dan-Dan Yuan, and Yu-Yao Cao

Subjects

Mitochondrial DNA, Cell Survival, Infrared Rays, medicine.medical_treatment, Biomedical Engineering, Antineoplastic Agents, Photodynamic therapy, Mitochondrion, 010402 general chemistry, 01 natural sciences, Cell Line, Mitochondrial Proteins, HeLa, In vivo, medicine, Humans, General Materials Science, Cyclophosphamide, Epirubicin, Fluorescent Dyes, Aniline Compounds, Photosensitizing Agents, Molecular Structure, biology, 010405 organic chemistry, Chemistry, Optical Imaging, General Chemistry, General Medicine, biology.organism_classification, Fluorescence, Imaging agent, 0104 chemical sciences, Cell biology, Photochemotherapy, Apoptosis, Camptothecin, Drug Screening Assays, Antitumor

Abstract

Mitochondrial proteins, most of which are encoded in the nucleus and the rest of which are regulated by the mitochondrial genome, play pivotal roles in essential cellular functions. However, fluorescent probes that can be used for monitoring mitochondrial proteins have not yet been widely developed, thereby severely limiting the exploration of the functions of proteins in mitochondria. Towards this end, here we propose a near-infrared (NIR) fluorescence probe MPP to effectively illuminate the dynamic changes in mitochondrial proteins in live cells under oxidative stress, with excellent temporal and spatial resolution. Of particular importance, MPP extends the study of the pharmacology involved in apoptosis induced by anti-cancer drugs (hydroxycamptothecin (HCPT), epirubicin (Epi) and cyclophosphamide (CPA)) for the first time. Furthermore, employing a protein-activatable strategy, this probe could serve as an excellent phototherapeutic agent in photodynamic therapy (PDT). Finally, in vivo experiments suggest that this versatile probe can be used to image tumors in HeLa tumor-bearing mice for 24 h, which demonstrates that our probe could play a dual role as a robust phototherapeutic and imaging agent.

Published

2021

39. A NIR-triggered multifunctional nanoplatform mediated by Hsp70 siRNA for chemo-hypothermal photothermal synergistic therapy

Author

Chenwen Shao, Yu-Shun Yang, Yong-Tao Duan, Qin Li, Kang-Min Zhou, Hai-Liang Zhu, and Bo Zhang

Subjects

Indocyanine Green, Hyperthermia, Chemotherapy, Photothermal Therapy, Chemistry, medicine.medical_treatment, Photothermal effect, Biomedical Engineering, Hyperthermia, Induced, Photothermal therapy, medicine.disease, Hsp70, Drug Liberation, Doxorubicin, In vivo, Heat shock protein, medicine, Cancer research, Nanoparticles, General Materials Science, RNA, Small Interfering, medicine.drug

Abstract

Recently, hypothermal photothermal therapy (HPTT) seemed essential for the future clinical transformation of cancer optical therapies. However, at a lower working temperature, heat shock proteins (HSPs) seriously affect the anti-tumor effect of HPTT. This work reports a reasonable design of a dual-responsive nanoplatform for the synergistic treatment of chemotherapy and HPTT. We adopted a one-step method to wrap indocyanine green (ICG) into imidazole skeleton-8 (ZIF-8) and further loaded it with the chemotherapy drug doxorubicin (DOX). Furthermore, we introduced Hsp-70 siRNA to block the affection of HSPs at an upstream node, thereby avoiding the side effects of traditional heat shock protein inhibitors. The prepared ZIF-8@ICG@DOX@siRNA nanoparticles (ZID-Si NPs) could significantly improve the stability of siRNA to effectively down-regulate the expression of HSP70 protein during the photothermal therapy, thus realizing the pH-controlled and NIR-triggered release of the chemotherapeutical drug DOX. Moreover, tumors were also imaged accurately by ICG wrapped in ZID-Si nanoparticles. After the evaluation of the in vitro and in vivo photothermal effect as well as the anti-tumor activity, we found that the added Hsp-70 siRNA enhanced the synergistic anti-cancer activity of HPTT and chemotherapy. In summary, this work holds great potential in cancer treatment, and suggests better efficacy of synergistic chemo/HPTT than the single-agent therapy.

Published

2021

40. A novel fast-response and highly selective AIEgen fluorescent probe for visualizing peroxynitrite in living cells, C. elegans and inflammatory mice

Author

Qing Zhang, Qing-Cai Jiao, Zhong-Chang Wang, Xin-Yue Chen, Hai-Liang Zhu, Ya-Wen Yu, Xiao-Wen Wei, Ya-Xi Ye, and Bao-Zhong Wang

Subjects

inorganic chemicals, Quenching (fluorescence), biology, biology.organism_classification, Biochemistry, Fluorescence, In vitro, Analytical Chemistry, HeLa, chemistry.chemical_compound, Benzothiazole, chemistry, cardiovascular system, Electrochemistry, Biophysics, Environmental Chemistry, Selectivity, Cytotoxicity, Spectroscopy, Peroxynitrite

Abstract

Most of the ONOO- fluorescent probes have restricted applications because of their aggregation-caused quenching (ACQ) effect, long response time and low fluorescence enhancement. Herein, we developed a novel AIEgen fluorescent probe (PE-XY) based on a benzothiazole and quinolin scaffold with high sensitivity and selectivity for imaging of ONOO-. The results indicated that probe PE-XY exhibited fast response towards ONOO- with 2000-fold enhancement of fluorescence intensity ratio in vitro. Moreover, PE-XY exhibited a relatively high sensitivity (limit of detection: 8.58 nM), rapid response (

Published

2021

41. A highly selective AIEgen fluorescent probe for visualizing Cys in living cells and C. elegans

Author

Zhu-Min Xu, Qingcai Jiao, Xin-Yue Chen, Hai-Liang Zhu, Zhong-Chang Wang, Ya-Wen Yu, Bao-Zhong Wang, and Ya-Xi Ye

Subjects

chemistry.chemical_classification, Fluorescence-lifetime imaging microscopy, Quenching (fluorescence), biology, General Chemistry, Glutathione, biology.organism_classification, Fluorescence, Catalysis, Amino acid, HeLa, chemistry.chemical_compound, chemistry, Materials Chemistry, Biophysics, Moiety, Conjugate

Abstract

As essential biological thiols in organisms, Cys, Hcy, and GSH are closely related to each other, and they can be involved in various pathological processes if expression levels are abnormal. It is a challenge to develop effective fluorescence-based tools to selectively distinguish Cys from Hcy and GSH because of their common functional groups. For most existing Cys fluorescent probes, their application is greatly restricted by the influence of aggregation-caused quenching (ACQ). In this work, a novel fluorescent probe, PE-YW, for Cys was designed rationally via regulating its AIE-based effects. The probe PE-YW took advantage of a specific conjugate addition cyclization reaction between Cys and an acrylate moiety, inducing the aggregation of PE-OH and showing large turn-on fluorescence (about 7-fold). The probe could detect Cys over other amino acids with high selectivity and a low detection limit (LOD = 1.72 nM). In addition, PE-YW exhibited excellent performance, such as a high fluorescence quantum yield (δ = 0.8) and a fast response toward Cys (

Published

2021

42. Copper(<scp>ii</scp>)-catalyzed and acid-promoted highly regioselective oxidation of tautomerizable C(sp3)–H bonds adjacent to 3,4-dihydroisoquinolines using air (O2) as a clean oxidant

Author

Bo Zheng, Qi-Qi Fan, Yong-Qiang Luo, Yun-Gang He, Xiao-Xin Shi, Yong-Kang Huang, and Xing-Liang Zhu

Subjects

chemistry, General Chemical Engineering, Alkaloid, chemistry.chemical_element, Total synthesis, Regioselectivity, General Chemistry, Copper, Medicinal chemistry, Catalysis

Abstract

A mild, efficient and eco-friendly method for the oxidation of 1-Bn-DHIQs to 1-Bz-DHIQs without concomitant excessive oxidation of 1-Bz-DHIQs to 1-Bz-IQs is very important for the syntheses of 1-Bz-DHIQ alkaloids and analogues. In this article, we developed a novel Cu(II)-catalyzed and acid-promoted highly regioselective oxidation of tautomerizable C(sp3)–H bonds adjacent to the C-1 positions of various 1-Bn-DHIQs. It was observed that when 0.2 equiv. of Cu(OAc)2·2H2O was used as the catalyst, 3.0 equiv. of AcOH was used as the additive and air (O2) was used as a clean oxidant, various 1-Bn-DHIQs could be efficiently oxidized to corresponding 1-Bz-DHIQs at 25 °C in DMSO. Especially, almost no concomitant excessive oxidation of 1-Bz-DHIQs to 1-Bz-IQs was observed during the above reaction. In addition, this method was successfully applied in the first total synthesis of the alkaloid canelillinoxine.

Published

2021

43. Barium fluoroiodate crystals with a large band gap and birefringence

Author

Zhihua Yang, Minqiang Gai, Liang Zhu, Yun Yang, Shilie Pan, and Wenqi Jin

Subjects

Inorganic Chemistry, Crystallography, Birefringence, Materials science, chemistry, Polarizability, Band gap, Cationic polymerization, Space group, chemistry.chemical_element, Barium, Anisotropy, Hydrothermal circulation

Abstract

Two new alkaline-earth-metal fluoroiodate compounds, BaI2O5F2 and BaIO2F3, were successfully synthesized by replacing the O atoms in the iodates with F atoms via the hydrothermal method. They crystallize in centrosymmetric space groups P21/c and Cmca, respectively. Both compounds possess large birefringences (Δn) of 0.174 at 1064 nm for BaI2O5F2 and 0.133 at 1064 nm for BaIO2F3. Structurally, BaI2O5F2 has a large birefringence due to the highly polarizable [IO3F]2− with high anisotropic polarizability; for BaIO2F3, owing to the regulation of cationic polyhedra, the arrangement of [IO2F2]− anionic groups is well-ordered, and it exhibits large anisotropy. Also, both compounds exhibit a short UV cutoff edge, 230 and 234 nm, respectively. These results demonstrate that the two new alkaline-earth-metal fluoroiodate compounds will have potential applications as UV birefringent materials.

Published

2021

44. A versatile nanoplatform based on multivariate porphyrinic metal–organic frameworks for catalytic cascade-enhanced photodynamic therapy

Author

Bin Wang, Shu-Kai Li, Hailong An, Hai-Liang Zhu, Ming Liu, Shen-Zhen Ren, Yu-Shun Yang, and Xiao-Hua Zhu

Subjects

Porphyrins, Biocompatibility, medicine.medical_treatment, Biomedical Engineering, chemistry.chemical_element, Nanotechnology, Photodynamic therapy, Oxygen, Catalysis, Cell Line, Mice, chemistry.chemical_compound, Tumor Microenvironment, medicine, Animals, General Materials Science, Photosensitizer, Hydrogen peroxide, Metal-Organic Frameworks, Mice, Inbred BALB C, Singlet oxygen, Oxygen evolution, General Chemistry, General Medicine, Photochemotherapy, chemistry, Multivariate Analysis, Female, Drug Screening Assays, Antitumor

Abstract

In recent years, the antitumor application of photodynamic therapy (PDT) has gained widespread interest in treating solid tumors. Due to the hypoxic environment in tumors, the major limit of PDT seems to be the source of oxygen. In this work, we attempted to relieve hypoxia and enhance photodynamic therapy, and therefore, designed and assembled a catalytic cascade-enhanced PDT multifunctional nanoplatform. The mentioned platform termed UIO@Ca-Pt is based on porphyrinic metal-organic framework (UIO) combination, which is simultaneously loaded by CaO2 NPs with polydopamine (PDA) and then the Pt raw material to further improve biocompatibility and efficiency. In a tumor microenvironment, CaO2 could react with water to generate calcium hydroxide and hydrogen peroxide, which was further decomposed by Pt nanoparticles to form oxygen, thereby facilitating the generation of cytotoxic singlet oxygen by photosensitizer TCPP under laser irradiation. Both in vitro and in vivo experiment results confirmed the excellent oxygen production capacity and enhanced PDT effect of UIO@Ca-Pt. With guaranteed safety in PDT, the oxygen-supplying strategy might stimulate considerable interest in the development of various metal-organic materials with multifunctionality for tumor diagnosis and therapy.

Published

2021

45. The synthesis, characterization, and theoretical analysis of (NH4)3PbCl5

Author

Wenqi Jin, Liang Zhu, Yun Yang, Zhihua Yang, and Shilie Pan

Subjects

Birefringence, 010405 organic chemistry, Chemistry, Band gap, Hydrogen bond, General Chemistry, Crystal structure, 010402 general chemistry, 01 natural sciences, Catalysis, 0104 chemical sciences, Materials Chemistry, Physical chemistry, Orthorhombic crystal system, Density functional theory, Diffuse reflection, Molten salt

Abstract

A new compound, namely (NH4)3PbCl5, has been synthesized via a low-temperature molten salt method in a closed system. It crystallizes in the orthorhombic Pnma (No. 62) space group. The crystal structure of (NH4)3PbCl5 features a distinct three-dimensional network constructed via hydrogen bonds that exist between ammonium and chloride anions. The UV-Vis-NIR diffuse reflectance spectrum displays a short UV cutoff edge at about 256 nm. Besides, the thermal behavior (TG and DSC) was also analyzed. To better understand the structure–property relationships of (NH4)3PbCl5, theoretical calculations based on density functional theory were also performed. The result shows that the birefringence is expected to be about 0.050 at 1064 nm, and the bandgap is about 4.45 eV, which is consistent with the experimental result.

Published

2021

46. Co-catalytic Fc/HGQs/Fe3O4 nanocomposite mediated enzyme-free electrochemical biosensor for ultrasensitive detection of MicroRNA

Author

Liang Zhu, Sai Xu, Ruo Yuan, Yuanyuan Chang, Yaqin Chai, and Xiaolong Zhang

Subjects

Detection limit, Nanocomposite, technology, industry, and agriculture, Metals and Alloys, General Chemistry, Electrochemistry, Combinatorial chemistry, Catalysis, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, Ferrocene, chemistry, Materials Chemistry, Ceramics and Composites, Synergistic catalysis, Biosensor, Hemin

Abstract

Herein, a novel co-catalytic ferrocene/hemin/G-quadruplexes/Fe3O4 nanoparticles (Fc/HGQs/Fe3O4) nanocomposite was synthesized to significantly magnify the electrochemical signal of ferrocene (Fc) using the synergistic catalysis of hemin/G-quadruplexes (HGQs) and Fe3O4 nanoparticles as hydrogen peroxide enzyme mimics for the construction of ultrasensitive electrochemical biosensors. The fabricated electrochemical biosensor can achieve ultrasensitive detection of miRNA-155 ranging from 0.1 fM to 1 nM, as well as a limit of detection of 74.8 aM. This strategy provides a new route to exploring efficient signal labels for signal amplification and provides an impetus to find novel methods for the construction of biosensors for biological detection and the early clinic diagnosis of diseases.

Published

2021

47. Asymmetric hydrogenation of exocyclic γ,δ-unsaturated β-ketoesters to functionalized chiral allylic alcohols via dynamic kinetic resolution

Author

Xiong Wu, Qi-Lin Zhou, Jian-Hua Xie, Huai-Yu Bin, Xiaohui Yang, Chang-Liang Zhu, and Li Cheng

Subjects

Chemistry, Allylic rearrangement, Asymmetric hydrogenation, Enantioselective synthesis, chemistry.chemical_element, Reactivity (chemistry), Stereoselectivity, General Chemistry, Iridium, Medicinal chemistry, Kinetic resolution, Catalysis

Abstract

An iridium catalyzed asymmetric hydrogenation of racemic exocyclic γ,δ-unsaturated β-ketoesters via dynamic kinetic resolution to functionalized chiral allylic alcohols was developed. With the chiral spiro iridium catalysts Ir-SpiroPAP, a series of racemic exocyclic γ,δ-unsaturated β-ketoesters bearing a five-, six-, or seven-membered ring were hydrogenated to the corresponding functionalized chiral allylic alcohols in high yields with good to excellent enantioselectivities (87 to >99% ee) and cis-selectivities (93 : 7 to >99 : 1). The origin of the excellent stereoselectivity was also rationalized by density functional theory calculations. Furthermore, this protocol could be performed on gram scale and at a lower catalyst loading (0.002 mol%) without the loss of reactivity and enantioselectivity, and has been successfully applied in the enantioselective synthesis of chiral carbocyclic δ-amino esters and the β-galactosidase inhibitor isogalactofagomine., An iridium catalyzed asymmetric hydrogenation of exocyclic γ,δ-unsaturated β-ketoesters via dynamic kinetic resolution was developed, providing efficient protocol for enantioselective synthesis of functionalized chiral allylic alcohols.

Published

2021

48. Initiation of focal adhesion assembly by talin and kindlin: A dynamic view

Author

Edward F. Plow, Liang Zhu, and Jun Qin

Subjects

Models, Molecular, Talin, Integrins, Integrin, Muscle Proteins, Focal adhesion assembly, Review, Biochemistry, Focal adhesion, Mice, 03 medical and health sciences, Interaction network, Cell surface receptor, Animals, Cell adhesion, Molecular Biology, 030304 developmental biology, Mice, Knockout, Focal Adhesions, 0303 health sciences, biology, Chemistry, 030302 biochemistry & molecular biology, Cell migration, Cell biology, Cytoskeletal Proteins, biology.protein, Function (biology), Protein Binding, Signal Transduction

Abstract

Focal adhesions (FAs) are integrin-containing protein complexes regulated by a network of hundreds of protein-protein interactions. They are formed in a spatiotemporal manner upon the activation of integrin transmembrane receptors, which is crucial to trigger cell adhesion and many other cellular processes including cell migration, spreading and proliferation. Despite decades of studies, a detailed molecular level understanding on how FAs are organized and function is lacking due to their highly complex and dynamic nature. However, advances have been made on studying key integrin activators, talin and kindlin, and their associated proteins, which are major components of nascent FAs critical for initiating the assembly of mature FAs. This review will discuss the structural and functional findings of talin and kindlin and their immediate interaction network, which will shed light upon the architecture of nascent FAs and how they act as seeds for FA assembly to dynamically regulate diverse adhesion-dependent physiological and pathological responses.

Published

2020

49. MicroRNA-6862 inhibition elevates sphingosine kinase 1 and protects neuronal cells from MPP+-induced apoptosis

Author

Zhi-Qing Zhang, Gang Xue, Ju-Ping Chen, Jian-Liang Zhu, Ya Li, and Wanli Dong

Subjects

Aging, Messenger RNA, Programmed cell death, biology, Chemistry, Dopaminergic, Cell Biology, Cell biology, Sphingosine kinase 1, Cytoplasm, Apoptosis, microRNA, biology.protein, Cytotoxicity

Abstract

MPP+ (1-methyl-4-phenylpyridinium)-induced dopaminergic neuronal cell apoptosis is associated with sphingosine kinase 1 (SphK1) inhibition. We here tested the potential effect of microRNA-6862 (miR-6862), a novel SphK1-targeting miRNA, on MPP+-induced cytotoxicity in neuronal cells. MiR-6862 locates in the cytoplasm of SH-SY5Y neuronal cells. It directly binds to SphK1 mRNA. In SH-SY5Y cells and HCN-2 cells, ectopic overexpression of miR-6862 decreased SphK13'-untranslated region luciferase reporter activity and downregulated its expression. miR-6862 inhibition exerted opposite activity and elevated SphK1 expression. In neuronal cells, MPP+-induced cell death was significantly inhibited through miR-6862 inhibition. Conversely, ectopic overexpression of miR-6862 or CRISPR/Cas9-induced SphK1 knockout augmented MPP+-induced apoptosis in the neuronal cells. Importantly, antagomiR-6862 failed to inhibit MPP+-induced apoptosis in SphK1-knockout SH-SY5Y cells. These results suggest that inhibition of miR-6862 induces SphK1 elevation and protects neuronal cells from MPP+-induced cell death.

Published

2020

50. Visible-Light-Induced Nickel-Catalyzed P(O)–C(sp2) Coupling Using Thioxanthen-9-one as a Photoredox Catalysis

Author

Hong-Xi Li, Hao Wang, Qi Wu, Da-Liang Zhu, Shan Jiang, Lu-Lu Chai, and Hai-Yan Li

Subjects

010405 organic chemistry, Aryl, Organic Chemistry, chemistry.chemical_element, Halide, Photoredox catalysis, 010402 general chemistry, Photochemistry, 01 natural sciences, Biochemistry, 0104 chemical sciences, Catalysis, Nickel, chemistry.chemical_compound, chemistry, Photocatalysis, Irradiation, Physical and Theoretical Chemistry, Visible spectrum

Abstract

An efficient method has been developed for photocatalytic P(O)-C(sp2) coupling of (hetero)aryl halides with H-phosphine oxides or H-phosphites under the irradiation of visible light or sunlight. The thioxanthen-9-one/nickel dual catalysis mediates this phosphonylation to give arylphosphine oxides and arylphosphonates in moderate to excellent yields. This transformation is widely tolerant to a range of functional groups and proceeds efficiently on a gram scale.

Published

2020