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1. Molecular interaction mechanism between 2-mercaptobenzimidazole and copper-zinc superoxide dismutase.

Author

Yue Teng, Luyi Zou, Ming Huang, and Yadong Chen

Subjects
Medicine, Science
Abstract

2-Mercaptobenzimidazole (MBI) is widely utilized as a corrosion inhibitor, copper-plating brightener and rubber accelerator. The residue of MBI in the environment is potentially harmful. In the present work, the toxic interaction of MBI with the important antioxidant enzyme copper-zinc superoxide dismutase (Cu/ZnSOD) was investigated using spectroscopic and molecular docking methods. MBI can interact with Cu/ZnSOD to form an MBI-Cu/ZnSOD complex. The binding constant, number of binding sites and thermodynamic parameters were measured, which indicated that MBI could spontaneously bind with Cu/ZnSOD with one binding site through hydrogen bonds and van der Waals forces. MBI bound into the Cu/ZnSOD interface of two subdomains, which caused some microenvironmental and secondary structure changes of Cu/ZnSOD and further resulted in the inhibition of Cu/ZnSOD activity. This work provides direct evidence at a molecular level to show that exposure to MBI could induce changes in the structure and function of the enzyme Cu/ZnSOD. The estimated methods in this work may be applied to probe molecular interactions of biomacromolecules and other pollutants and drugs.

Published
2014
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3. Responses of growth, yield and fruit quality of strawberry to elevated CO2, LED supplemental light, and their combination in autumn through spring greenhouse production

Author

Jiangbo Qiu, Chuang Cai, Min Shen, Xinyue Gu, Lei Zheng, Lixia Sun, Yue Teng, Hongyan Yu, and Luyi Zou

Abstract

During the whole growth cycle growth, yield and fruit quality of strawberry are often strongly affected by insufficient CO2 and low light in greenhouse production. However, it is still not clear what extent growth, yield and fruit quality of strawberry can be improved by elevated CO2 and supplementary light combination. We measured growth, yield and fruit quality of strawberries under four combinations of two levels of CO2, and two levels of light. Our results showed that yield enhancement throughout the growing season was 23.4% by elevated CO2, 21.46% by LED supplemental light, and 51.3% by their combination. Both elevated CO2 and LED supplemental light significantly increased soluble sugar content, but significantly decreased titratable acidity. LED supplemental light could partly or fully compensate for the negative impacts of elevated CO2 on soluble protein content, total phenol content, total flavonoid content, anthocyanin content, and total antioxidant capacity. Yield under four CO2 and light treatments was positively correlated with soluble sugar content, but negatively correlated with titratable acidity. Taken together, the combination of elevated CO2 and LED supplemental light largely improved both fruit yield and sweetness of strawberry during the autumn through spring in greenhouse. Optimal both CO2 and light is a worthwhile practice for improving strawberry production.

Published
2023

4. Insight into the Vacuolar Compartmentalization Process and the Effect Glutathione Regulation to This Process in the Hyperaccumulator Plant Solanum nigrum L

Author

Zhishuai Li, Wenjie Guan, Lan Yang, Yan Yang, Hongyan Yu, Luyi Zou, and Yue Teng

Subjects
Article Subject, General Immunology and Microbiology, General Medicine, General Biochemistry, Genetics and Molecular Biology
Abstract

Vacuole compartmentalization plays an important role in the storage of heavy metals in hyperaccumulators. Is the vacuolar compartmentation a simple shielding process or a dynamic process that continuously consumes cell sap resources? How does glutathione affect the process of vacuolar compartmentalization? These unknown questions are very important to understand the mechanism of vacuole compartmentalization and can provide a guide for the design of hyperaccumulator plants by genetic engineering. Therefore, this study explored the enzyme activities, total cadmium, Cd2+, glutathione, oxidized glutathione, and reactive oxygen species contents in protoplasts and vacuoles of leaf cells in Solanum nigrum L. through subcellular separation. The results showed that vacuolar compartmentalization was a dynamic process that actively induced the related substances produced by cell sap to enter the vacuole for detoxification. When regulating the decreased glutathione content with buthionine sulfoximine, the total cadmium and combined cadmium in protoplasm decreased significantly, but the vacuole still maintained a high proportion of cadmium content and stable ROS content, which indicated that various external resources were preferentially used to maintain cadmium storage and homeostasis in vacuole rather than outside vacuole. These findings could guide the use of genetic engineering to design hyperaccumulator plants.

Published
2022

6. Facile interface engineering of hierarchical flower spherical-like Bi-metal–organic framework microsphere/Bi2MoO6 heterostructure for high-performance visible–light photocatalytic tetracycline hydrochloride degradation

Author

Haiyan Zhu, Wenxiu Gu, Luyi Zou, and Qian Li

Subjects
Materials science, Heterojunction, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Catalysis, Biomaterials, Colloid and Surface Chemistry, Chemical engineering, Nano, Photocatalysis, Metal-organic framework, Nanorod, Absorption (electromagnetic radiation), Visible spectrum
Abstract

The self-assembled Bi-based metal–organic framework microspheres (Bi-MOF-M) by nanorods were successfully constructed by the glycol-assisted solvothermal method. Using Bi-MOF-M as a homologous template, a petal-like Bi2MoO6 (BMO) layer was grown in situ on its surface to facilely construct a chemically bonded heterojunction interface, realizing a micro/nano hierarchical flower spherical-like Bi-MOF-M/BMO heterojunction composite photocatalyst. The as-prepared series of Bi-MOF-M/BMO-x catalysts show higher visible light catalytic performance for tetracycline hydrochloride (TC) degradation. Among them, Bi-MOF-M/BMO-0.3 has the optimal catalytic activity, and the degradation efficiency can reach 93.6% within 60 min of light irradiation with superior mineralization ability and structural stability, and the degradation kinetic constant is 6.12 times that of Bi-MOF-M and 5.69 times that of BMO, respectively. The homologously grown Bi-MOF-M/BMO chemically bonded heterojunction not only effectively broadens the spectral absorption range and enhances the absorption intensity but also promotes the efficient separation of photogenerated carriers through forming a favorable interfacial electric field and well-matched energy band alignment. A reasonable mechanism for the visible light degradation of TC by the Bi-MOF-M/BMO composite catalyst with h+ and 1O2 as the main reactive species is proposed. The micro/nano hierarchical structure of the Bi-MOF/BMO catalyst allows it to exhibit the easy recovery advantage of micron-scale materials while maintaining the high catalytic activity of the primary nano-components.

Published
2022

8. Microbial dysbiosis together with nutrient imbalance cause the replant problem of upper six flue-cured tobacco in Central Henan

Author

Luyi Zou, Yue Teng, Dean Rao, Hongyan Yu, and Panyang Liu

Subjects
chemistry.chemical_classification, Rhizosphere, Phosphorus, chemistry.chemical_element, Plant Science, Horticulture, Biology, Nutrient, chemistry, Microbial population biology, Agronomy, Soil pH, Curing of tobacco, Mantel test, Organic matter, Agronomy and Crop Science
Abstract

Replant problem in agriculture is popular and has restricted the development of tobacco industry. To identify the key soil factors affecting replant problem of tobacco, rhizosphere soils and flue-cured tobacco plants were sampled from continuous planting fields for 1 year (CK), 3 years (3a), 5 years (5a), and 7 years (7a). The pH value, nutrient, autotoxic compounds and microbial community in soils and the yield and quality (economic characters) of tobacco were determined. Then the correlations between soil factors and economic characters of tobacco were analyzed by Mantel test. Results showed that the economic characters, soil pH, organic matter (SOM), total nitrogen (TN), available potassium (AK), microelements (Ca, Mg and Fe), bacterial richness and diversity decreased significantly, total potassium (TK), total phosphorus (TP), available phosphorus (AP) changed unevenly, while autotoxic compounds, fungal diversity and richness increased under the long-term continuous cropping system. Mantel test showed that the economic characters always had the highest positive correlation with bacterial community. In addition, when continuous cropping for 3 years, there was a high positive correlation between economic characters and major elements content (R = 0.5649, P = 0.003). After continuous cropping for 3 years, there was a high positive correlation between the economic characters and soil major elements (5 years: R = 0.6195, P = 0.001; 7 years: R = 0.4761, P = 0.001), microelements (5 years: R = 0.7214, P = 0.001; 7 years: R = 0.6427, P = 0.001). Therefore, in Central Henan tobacco growing areas, bacterial community dysbiosis together with nutrient imbalance cause the replant problem. However, the accumulation of rhizosphere autotoxic compounds contributes less to the problem.

Published
2021

9. Optimization of preparation parameters for environmentally friendly attapulgite functionalized by chitosan and its adsorption properties for Cd2+

Author

Hongyan Yu, An Yu, Yue Teng, Ziyang Jiang, Luyi Zou, and Zhenxing Huang

Subjects
Aqueous solution, Materials science, Ion exchange, Health, Toxicology and Mutagenesis, Aqueous two-phase system, Langmuir adsorption model, General Medicine, 010501 environmental sciences, 01 natural sciences, Pollution, law.invention, Chitosan, chemistry.chemical_compound, symbols.namesake, Adsorption, chemistry, Chemical engineering, law, symbols, Environmental Chemistry, Calcination, Fourier transform infrared spectroscopy, 0105 earth and related environmental sciences
Abstract

This work focused on using attapulgite and chitosan as raw materials to improve the adsorption capacity of Cd2+ from the aqueous phase by optimizing the preparation experimental parameters. The modification parameters (attapulgite-chitosan mass ratio, calcination temperature, and time) were specifically studied and optimized. The results indicated that the mass ratio of attapulgite to chitosan was 1:4, the calcination temperature was 300 °C, and the calcination time was 1 h. Both raw and functionalized attapulgite samples were characterized by nitrogen adsorption-desorption isotherms at 77 K, X-ray diffraction, Fourier transform infrared spectroscopy, scanning electron microscopy, and zeta potential analysis. A series of adsorption experiments showed that the pseudo-second-order kinetic model and Langmuir adsorption isotherm better corresponded with the adsorption characteristics of the newly prepared adsorbent, and the maximum adsorption amount of Cd2+ was 109.30 mg/g. Moreover, the effects of the pH value and coexisting cations on the Cd2+ adsorption in aqueous solution were investigated. Adsorption mechanism of Cd2+ on adsorbent might attribute to complexation, ion exchange reaction, and self-polarization.

Published
2021

11. Efficient and inexpensive preparation of graphene laminated film with ultrahigh thermal conductivity

Author

Tongshun Wu, Youliang Xu, Haoyu Wang, Luyi Zou, and Zhonghui Sun

Subjects
Materials science, Metal contamination, Graphene, Nanotechnology, 02 engineering and technology, General Chemistry, Thermal management of electronic devices and systems, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, Pilot plant, Thermal conductivity, law, General Materials Science, Electronics, 0210 nano-technology, Polyimide, Graphene oxide paper
Abstract

With the rapid development of electronic technology, the demand for thermal management materials is increasing continuously. Recent years graphene paper is considered as a potential material to replace the traditional graphitized polyimide film. Although the current route to graphene paper can achieve a high thermal conductivity, the extremely high energy consumption in graphitization procedure and severe heavy metal contamination limit the application of graphene paper. Here we develop a high-efficiency, low-energy cost, and inexpensive technology to produce graphene paper in large quantities. Without graphitization, the thermal conductivity of this graphene laminated film can reach 975 W m−1 K−1 when the thickness of film is 65 μm. Based on this easy-operated technology, we have already completed the pilot plant test, attained capacity of 3 kg graphene per reactor in 8 h and 800 mm × 100 m of graphene film each roll which was continuously and macroscopically assembled on our self-made equipment.

Published
2021

12. Characterization of binding interaction of triclosan and trypsin

Author

Ziyang Jiang, Hongjie Hui, Yue Teng, An Yu, Luyi Zou, Hongyan Yu, and Wang Xiaofang

Subjects
Health, Toxicology and Mutagenesis, 010501 environmental sciences, 01 natural sciences, Molecular Docking Simulation, chemistry.chemical_compound, medicine, Animals, Humans, Environmental Chemistry, Trypsin, Protein secondary structure, 0105 earth and related environmental sciences, Antibacterial agent, Hydrogen bond, Spectrum Analysis, fungi, Hydrogen Bonding, General Medicine, Metabolism, Pollution, Binding constant, Triclosan, chemistry, Biophysics, medicine.drug
Abstract

Triclosan (TCS), a broad-spectrum antibacterial agent, exhibits a high exposure in the environment. However, the residual TCS in the environment poses a potential risk to human health. In this study, spectroscopic methods, molecular docking and animal experiment were conducted to completely understand the interaction between trypsin and TCS. The formation of the TCS-trypsin complex was spontaneously achieved through hydrogen bonds and Van der Waals forces with a binding constant (Ka) between 103 and 104 L mol−1. In addition, the trypsin activity in fish intestine was inhibited by TCS exposure, revealing the potentially negative effects of TCS on metabolism. The results might be explained by changes in the conformation of the trypsin, inducing the content of unordered coil increasing significantly (from 36.2% to over 80%). This work provides useful information for assessing the toxicity of TCS at the molecular level.

Published
2020

13. Phytoremediation of cadmium-contaminated soils by Solanum nigrum L. enhanced with biodegradable chelating agents

Author

Yue Teng, Zhishuai Li, An Yu, Wenjie Guan, Zhenjun Wang, Hongyan Yu, and Luyi Zou

Subjects
Soil, Biodegradation, Environmental, Health, Toxicology and Mutagenesis, Metals, Heavy, Environmental Chemistry, Soil Pollutants, General Medicine, Pollution, Cadmium, Chelating Agents, Solanum nigrum
Abstract

The application of biodegradable chelating agents to enhance phytoremediation is a low-cost and promising method to improve the remediation efficiency of heavy metal-contaminated soil. The effects of N, N-bis glutamic acid (GLDA) on the growth and heavy metal absorption of Solanum nigrum were studied by pot experiment. The addition of chelate on the 20th day after sowing can improve the bioavailability of cadmium (Cd) in the soil. The results showed that the addition of chelating agents effectively improved the migration rate of the target heavy metal Cd in the soil, and significantly increased the accumulation of heavy metal in the roots, stems, and leaves of plants. The results showed that compared with the control group, the chelating agent could increase the extraction rate of total Cd by 28.65-68.74%. The application of GLDA significantly increased the accumulation of Cd (20 mg kg

Published
2021

14. Characterization of binding interaction of triclosan and bovine serum albumin

Author

Dong Mengxue, Wang Xiaofang, Luyi Zou, Yue Teng, Chenyu Mi, and Hongyan Yu

Subjects
Environmental Engineering, Protein Conformation, 010501 environmental sciences, 010402 general chemistry, 01 natural sciences, Molecular Docking Simulation, chemistry.chemical_compound, Human health, Molecular level, Binding site, Bovine serum albumin, 0105 earth and related environmental sciences, Antibacterial agent, Binding Sites, biology, Hydrogen bond, fungi, Hydrogen Bonding, Serum Albumin, Bovine, General Medicine, Triclosan, 0104 chemical sciences, Spectrometry, Fluorescence, chemistry, Anti-Infective Agents, Local, Biophysics, biology.protein, Thermodynamics, Spectrophotometry, Ultraviolet
Abstract

Triclosan (TCS) is widely used in personal care products and acts as an antibacterial agent. Residues of TCS may have potential effects on the human health. In this article, the interaction between TCS and bovine serum albumin (BSA) has been characterized by using multi-spectroscopic approaches and molecular docking method under physiological conditions. Thermodynamic investigations revealed that TCS spontaneously bound to a binding site of BSA and hydrogen bonds played a dominant role in this process. The site marker competition experiments indicated that TCS bound at site II (subdomain IIIA) of BSA, which was well substantiated by molecular docking. The binding of TCS further led to changes of conformation and microenvironment of BSA. This work explored the interaction of TCS with BSA, which might be beneficial for evaluating the binding mechanism of other environmental pollutant at molecular level.

Published
2019

15. Visualization and quantification of cadmium accumulation, chelation and antioxidation during the process of vacuolar compartmentalization in the hyperaccumulator plant Solanum nigrum L

Author

Hongyan Yu, An Yu, Ziyang Jiang, Luyi Zou, Wen-Jie Guan, Yue Teng, Yi-Miao Tang, and Zhi-Shuai Li

Subjects
0106 biological sciences, 0301 basic medicine, Antioxidant, medicine.medical_treatment, Plant Science, Vacuole, Biology, 01 natural sciences, Plant Roots, Antioxidants, 03 medical and health sciences, chemistry.chemical_compound, Genetics, medicine, Chelation, Hyperaccumulator, Solanum nigrum, chemistry.chemical_classification, Reactive oxygen species, Protoplasts, General Medicine, Glutathione, Compartmentalization (fire protection), Protoplast, 030104 developmental biology, chemistry, Biochemistry, Microscopy, Fluorescence, Reactive Oxygen Species, Agronomy and Crop Science, 010606 plant biology & botany, Cadmium
Abstract

Hyperaccumulators store metals in the vacuoles of leaf cells. To investigate the role of vacuolar compartmentalization in Cd accumulation, chelation and induced antioxidation, we quantified the amounts of total cadmium (Cd), Cd2+, glutathione (GSH) and reactive oxygen species (ROS) in leaf cells of Solanum nigrum L. The results confirmed that vacuoles were, indeed, the main storage compartments for Cd. We then found that with increased Cd treatment concentration, the proportion of vacuolar Cd in protoplasts showed its ultimate storage capacity (82.24 %-83.40 %), and the Cd concentration stored in the protoplast maintained at a certain level (73.81-77.46 mg L-1). Besides, studies on different forms of Cd showed that the chelation state was dominant in the protoplast. The large level appearance of Cd2+ outside the vacuole revealed the limitations of vacuolar Cd2+ sequestration. The relationships between the combined forms of Cd and GSH outside the vacuole (R2 = 0.9906) showed GSH was mainly distributed to important compartments for chelation, not to vacuoles. We also demonstrated the presence of ROS-induced oxidative stress and detoxification mediated by the antioxidant GSH in vacuoles, suggesting that sequestration into vacuoles is an active process accompanied by chelation and antioxidant-mediated detoxification.

Published
2021

17. CO2 bubble-assisted in-situ construction of mesoporous Co-doped Cu2(OH)2CO3 nanosheets as advanced electrodes towards fast and highly efficient electrochemical reduction of nitrate to N2 in wastewater

Author

Hongyan Yu, Shuang Qu, Pei-Ru Chen, Kai-Qin Ou, Jie-Ying Lin, Zheng-Han Guo, Lei Zheng, Jin-Kun Li, Sai Huang, Yue Teng, Luyi Zou, and Jun-Ling Song

Subjects
Environmental Engineering, Health, Toxicology and Mutagenesis, Environmental Chemistry, Pollution, Waste Management and Disposal
Published
2022

18. Remediation potential of spent mushroom substrate on Cd pollution in a paddy soil

Author

Shan Wei, Luyi Zou, Panyang Liu, Hongyan Yu, Yue Teng, and Dean Rao

Subjects
Environmental remediation, Health, Toxicology and Mutagenesis, Agaricus, 010501 environmental sciences, Pleurotus, 01 natural sciences, Soil, Animal science, Soil pH, Environmental Chemistry, Soil Pollutants, Organic matter, Pleurotus eryngii, 0105 earth and related environmental sciences, chemistry.chemical_classification, biology, food and beverages, Oryza, General Medicine, Straw, biology.organism_classification, Pollution, chemistry, Soil water, Brown rice, Agaricales, Agaricus bisporus, Cadmium
Abstract

To investigate the remediation potential of spent mushroom substrate (SMS) on Cd pollution in a paddy soil, a rice pot experiment was conducted to study the effects of SMS addition on the availability of Cd in soil and the uptake of Cd in rice tissues. Five percent of SMS from Pleurotus eryngii (SMS-A, treatment: A), SMS from Agaricus bisporus (SMS-B, treatment: B), or SMS-A plus SMS-B (1:1, treatment: A+B) were added into a Cd-contaminated paddy soil before planting, respectively. The treatment of no SMS amendment was set up as the control (CK). At the four main growth stages of rice, the soils and plant samples were collected to detect the soil properties, Cd concentration in soils and rice tissues, and Cd fractions in soils. Results indicated that the application of SMS-A, SMS-B, and A+B significantly increased soil pH by 14.0-22.9, 23.9-32.9, and 22.7-30%, organic matter (OM) contents by 12.9-31.5, 22.1-34.5, and 26.1-36.9% comparing with CK. While cation exchange capacities (CECs) were increased by 3.6-8.5, 4.9-13.1, and 0.4-10.0% in A, B, and A+B treatments, respectively, except those at the maturation stage in A and B treatments. However, the CaCl2-Cd concentrations in soils were significantly decreased by 64.8-77.9, 76.1-98.9, 73.2-98.9% in A, B, and A+B treatments, respectively, comparing with CK. The reduced availability of Cd was attributed to the changes of Cd from soluble to insoluble fractions in soils amended with SMS and resulted in the decreased Cd uptake in rice tissues. The Cd concentrations in roots significantly decreased by 22.8-36.9, 28.6-36.6, and 26.8-42.6%, while the Cd concentrations in straw decreased by 20.1-46.4, 9.3-41.6, and 16.0-49.1% in A, B, and A+B treatments, respectively. At the maturation stage, the Cd concentrations in brown rice were reduced by 17.7, 15.9, and 19.4% in A, B, and A+B treatments, respectively. Correlation analysis revealed that the Cd concentrations in rice roots, straws, and brown rice were all positively correlated with CaCl2-Cd concentrations of soils. Moreover, soil pH and OM were significantly negatively correlated with the Cd concentration in rice tissues, except that between soil pH and the Cd concentration in rice straws. Therefore, the reduced Cd availability in soil and uptake in rice plant tissues together with better soil nutrient conditions by SMS application improved the biomass of root and straw at heading, filling, and maturation stages and the rice production by 32.9-38.8% at the maturation stage. The combined application of SMS-A and SMS-B can be used as a potential method for remediation of Cd-contaminated paddy soil.

Published
2020

19. Optimization of preparation parameters for environmentally friendly attapulgite functionalized by chitosan and its adsorption properties for Cd

Author

Yue, Teng, Ziyang, Jiang, An, Yu, Hongyan, Yu, Zhenxing, Huang, and Luyi, Zou

Subjects
Chitosan, Kinetics, Silicon Compounds, Spectroscopy, Fourier Transform Infrared, Magnesium Compounds, Adsorption, Hydrogen-Ion Concentration, Water Pollutants, Chemical, Cadmium
Abstract

This work focused on using attapulgite and chitosan as raw materials to improve the adsorption capacity of Cd

Published
2020

20. A biophysical probe on the binding of 2-mercaptothioazoline to bovine hemoglobin

Author

Xiaoyue Zhang, Binbin Zou, Ruirui Sun, Mingying Shao, Luyi Zou, Yue Teng, Zhenxing Huang, He Liu, and Yuting Zhu

Subjects
Antifungal Agents, Molecular model, Health, Toxicology and Mutagenesis, 010501 environmental sciences, 01 natural sciences, Molecular Docking Simulation, Hemoglobins, Animals, Environmental Chemistry, Binding site, Protein secondary structure, 0105 earth and related environmental sciences, Binding Sites, Chemistry, Hydrogen bond, Circular Dichroism, Spectrum Analysis, Hydrogen Bonding, Serum Albumin, Bovine, General Medicine, Pollution, In vitro, Protein Subunits, Spectrometry, Fluorescence, Docking (molecular), Biophysics, Thermodynamics, Thiazolidines, Cattle, Environmental Pollutants, Spectrophotometry, Ultraviolet, Hemoglobin, Protein Binding
Abstract

2-Mercaptothiazoline (MTZ) is broadly present in daily use as an antifungal reagent, a brightening agent, and a corrosion inhibitor. MTZ is potentially harmful for human health. Although the toxic effects of MTZ on experimental animals have been reported, the effects of MTZ on the proteins in the circulatory system at the molecular level have not been identified previously. Here, we explored the interaction of MTZ with bovine hemoglobin (BHb) in vitro using multiple spectroscopic techniques and molecular docking. In this study, the binding capacity, acting force, binding sites, molecular docking simulation, and conformational changes were investigated. MTZ quenched the intrinsic emission of BHb via the static quenching process and could spontaneously bind with BHb mainly through van der Waals forces and hydrogen bond. The computational docking visualized that MTZ bound to the β2 subunit of BHb, which further led to some changes of the skeleton and secondary structure of BHb. This research provides valuable information about the molecular mechanisms on BHb induced by MTZ and is beneficial for clarifying the toxicological actions of MTZ in blood.

Published
2018

21. Molecular interaction of triclosan with superoxide dismutase (SOD) reveals a potentially toxic mechanism of the antimicrobial agent

Author

Yue Teng, Wang Xiaofang, Zhenxing Huang, Luyi Zou, Chenyu Mi, Hongyan Yu, and Wansong Zong

Subjects
0301 basic medicine, Protein Conformation, Health, Toxicology and Mutagenesis, 010501 environmental sciences, 01 natural sciences, Molecular Docking Simulation, Hydrophobic effect, Superoxide dismutase, 03 medical and health sciences, chemistry.chemical_compound, Anti-Infective Agents, Animals, Humans, Zebrafish, 0105 earth and related environmental sciences, biology, Superoxide Dismutase, Hydrogen bond, Circular Dichroism, fungi, Public Health, Environmental and Occupational Health, General Medicine, Antimicrobial, Pollution, Triclosan, Enzyme assay, Spectrometry, Fluorescence, 030104 developmental biology, Liver, chemistry, Toxicity, biology.protein, Biophysics, Protein Binding
Abstract

In this article, the interaction mechanism between the superoxide dismutase (SOD) and the triclosan (TCS), a kind of antimicrobial agent which is of widely application with potential effects both on environment and human health, was explored through a series of spectroscopic methods, animal experiment and the molecular docking simulation. The negative free energy change ∆G, enthalpy change (∆H = 162.21 kJmol-1) and entropy change (∆S = 615 Jmol-1K-1) demonstrated that TCS could combine with SOD spontaneously through hydrophobic interaction to form a complex. The binding constants of Ka293 and Ka313 were 1.706 × 103 and 1.2 × 105 Lmol-1, respectively. Furthermore, the interaction could also influence the skeleton structure and secondary contents of SOD. The molecular docking analysis revealed the TCS located between two subunits of SOD, and there was a hydrogen bond between TCS and the residue Asn51 of SOD, which influenced the structure of protein and resulted in a decrease of enzyme activity. This work could help understand the interaction mechanism between SOD and TCS. Moreover, it could also be used to consult for toxicity assessment of TCS at molecular level.

Published
2018

22. Capacity and potential mechanisms of Cd(II) adsorption from aqueous solution by blue algae-derived biochars

Author

Hongyan Yu, Dean Rao, Yue Teng, Panyang Liu, and Luyi Zou

Subjects
Environmental Engineering, 010504 meteorology & atmospheric sciences, chemistry.chemical_element, 010501 environmental sciences, 01 natural sciences, symbols.namesake, Adsorption, Biochar, Environmental Chemistry, Fourier transform infrared spectroscopy, Waste Management and Disposal, 0105 earth and related environmental sciences, Cadmium, Aqueous solution, Langmuir adsorption model, Pollution, Kinetics, chemistry, Chemisorption, Charcoal, symbols, Pyrolysis, Water Pollutants, Chemical, Nuclear chemistry
Abstract

The removal of potentially toxic metals by biochars is currently a popular and salutary method. In this study, we combined the advantages of blue algae (Microcystic) and pyrolysis technology to produce a late-model biochar. Moreover, the adsorption capacity and potential mechanisms of blue algae-derived biochars for the removal of cadmium (Cd) from aqueous solution were evaluated in comparison with the adsorption capacity and potential mechanisms of corn straw-derived biochar (CSBC) and rice husk-derived biochar (RHBC). Batch adsorption experiments were used to explore the adsorption performance of biochars, and a wide range of characterization techniques were employed: scanning electron microscopy (SEM), X-ray diffraction (XRD), Fourier transform infrared (FTIR) spectroscopy and zeta potential analysis. The results showed that the adsorption isotherms could be described well by the Langmuir model and that the pseudo-second-order model fit the Cd(II) adsorption kinetics best, indicating that the process was monolayer and controlled by chemisorption. Moreover, the Cd(II) removal capacity of optimal blue algae-derived biochar (BC600-2) (135.7 mg g−1) was 85.9% and 66.9% higher than the removal capacity of CSBC and RHBC, respectively. In addition, the results of the characterization methods showed that precipitation with minerals was the primary mechanism, accounting for 68.7–89.5% of the capacity. Overall, blue algae-derived biochars, as a product from freshwater biowaste, may be a novel and potentially valuable adsorbent for Cd(II) removal.

Published
2021

23. Experimental and theoretical study on the binding of 2-mercaptothiazoline to bovine serum albumin

Author

Luyi Zou, Du Xianzheng, Ming Huang, Xiang Wang, and Yue Teng

Subjects
biology, Stereochemistry, Hydrogen bond, Biophysics, Serum albumin, General Chemistry, Condensed Matter Physics, Biochemistry, Combinatorial chemistry, Atomic and Molecular Physics, and Optics, Corrosion inhibitor, chemistry.chemical_compound, symbols.namesake, Residue (chemistry), chemistry, Reagent, biology.protein, symbols, van der Waals force, Binding site, Bovine serum albumin
Abstract

2-Mercaptothiazoline (MTZ) is widely utilized as a brightening and stabilization agent, corrosion inhibitor and antifungal reagent. The residue of MTZ in the environment is potentially hazardous to human health. In this study, the binding mode of MTZ with bovine serum albumin (BSA) was investigated using spectroscopic and molecular docking methods under physiological conditions. MTZ could spontaneously bind with BSA through hydrogen bond and van der Waals interactions with one binding site. The site marker displacement experiments and the molecular docking revealed that MTZ bound into site II (subdomain IIIA) of BSA, which further resulted in some backbone structures and microenvironmental changes of BSA. This work is helpful for understanding the transportation, distribution and toxicity effects of MTZ in blood.

Published
2015

24. Characterization of the binding of 2-mercaptobenzimidazole to bovine serum albumin

Author

Ming Huang, Yue Teng, Wansong Zong, and Luyi Zou

Subjects
2-mercaptobenzimidazole, biology, Chemistry, Stereochemistry, Serum albumin, Residue (chemistry), Human health, Molecular level, Structural Biology, biology.protein, Biophysics, Bovine serum albumin, Binding site, Molecular Biology, Protein secondary structure
Abstract

2-Mercaptobenzimidazole (MBI) is widely utilized as a corrosion inhibitor, copper-plating brightener and rubber accelerator. The residue of MBI in the environment is potentially harmful to human health. In this article, the interaction of MBI with bovine serum albumin (BSA) was explored using spectroscopic and molecular docking methods under physiological conditions. The positively charged MBI can spontaneously bind with the negatively charged BSA through electrostatic forces with one binding site. The site marker competition experiments and the molecular docking study revealed that MBI bound into site II (subdomain IIIA) of BSA, which further led to some secondary structure and microenvironmental changes of BSA. This work provides useful information on understanding the toxicological actions of MBI at the molecular level. Copyright © 2015 John Wiley & Sons, Ltd.

Published
2015

25. A carbon-based photocatalyst efficiently converts CO2 to CH4 and C2H2 under visible light

Author

Fenghua Li, Luyi Zou, Qixian Zhang, Li Niu, Tongshun Wu, and Dongxue Han

Subjects
Materials science, Graphene, chemistry.chemical_element, Photochemistry, Pollution, Porphyrin, Methane, law.invention, Catalysis, chemistry.chemical_compound, chemistry, law, Photocatalysis, Environmental Chemistry, Bilayer graphene, Carbon, Visible spectrum
Abstract

Novel photocatalysts consisting of porphyrin and graphene have been designed to reduce CO2 to hydrocarbons under visible light. These catalysts can (i) effectively reduce CO2 to hydrocarbons, particularly to C2H2; and (ii) selectively control the transfer of photogenerated electrons from graphene to CO2 rather than to H2O.

Published
2014

26. Isolation of a fungus Pencicillium sp. with zinc tolerance and its mechanism of resistance

Author

Du Xianzheng, Luyi Zou, Wang Tao, Yue Teng, Chenyu Mi, and Hongyan Yu

Subjects
0301 basic medicine, Antioxidant, medicine.medical_treatment, Glutathione reductase, chemistry.chemical_element, Zinc, 010501 environmental sciences, 01 natural sciences, Biochemistry, Microbiology, Lipid peroxidation, Superoxide dismutase, 03 medical and health sciences, chemistry.chemical_compound, Soil, Bacterial Proteins, Genetics, medicine, Molecular Biology, Soil Microbiology, 0105 earth and related environmental sciences, biology, Superoxide Dismutase, Penicillium, General Medicine, Glutathione, Catalase, Oxidative Stress, 030104 developmental biology, chemistry, Peroxidases, biology.protein, Peroxidase
Abstract

A zinc (Zn)-tolerant fungus, designated BC109-2, was isolated from rhizosphere soil and was identified as Penicillium janthinellum BC109-2 based on ITS sequence analysis. To understand its Zn tolerance mechanisms, a series of studies was carried out addressing the subcellular distribution of Zn, its chemical forms, and the antioxidant system (superoxide dismutase, catalase, peroxidase, glutathione reductase, glutathione S-transferase, reduced glutathione, oxidized glutathione and malondialdehyde) of the fungus. The maximum level of resistance to Zn for strain BC109-2 is 2100 mg L−1. The Zn contents and percentages of cell wall and soluble fraction increased with increasing Zn concentration in the medium, which indicated extracellular accumulation/precipitation and vacuolar compartmentation mechanism might play significant role in the detoxificating process. The proportion of inactive forms of Zn was higher in the fungus, which indicated that BC109-2 mainly formed inactive Zn and stored it in the cell walls and vacuoles to decrease Zn toxicity. Furthermore, changes in antioxidant enzyme activities at various concentrations of Zn showed that the addition of Zn could cause oxidative stress in the fungal cells and that antioxidant enzymes in fungi played important roles in resistance to Zn toxicity. Moreover, the high level of lipid peroxidation showed that the protective effects of the antioxidant system were not sufficient at the high concentrations of Zn even though the antioxidant enzyme activity levels were very high. The purpose of this work is to figure out the heavy metal tolerance mechanisms of microorganisms in soil and the microbial isolate could be potentially used in bioremediation of Zn-contaminated environments.

Published
2016

27. LDA-TM : A two-step approach to twitter topic data clustering

Author

William Wei Song and Luyi Zou

Subjects
Structure (mathematical logic), Computer and Information Sciences, Social network, Topic Maps, business.industry, Computer science, Two step, Information and Computer Science, Data- och informationsvetenskap, 02 engineering and technology, 01 natural sciences, Data science, Variety (cybernetics), 010104 statistics & probability, Order (exchange), 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, 0101 mathematics, business, Cluster analysis, big data, twitter data, data analyties, LDA, topic model
Abstract

The Twitter System is the biggest social network in the world, and everyday millions of tweets are posted and talked about, expressing various views and opinions. A large variety of research activities have been conducted to study how the opinions can be clustered and analyzed, so that some tendencies can be uncovered. Due to the inherent weaknesses of the tweets - very short texts and very informal styles of writing - it is rather hard to make an investigation of tweet data analysis giving results with good performance and accuracy. In this paper, we intend to attack the problem from another aspect - using a two-layer structure to analyze the twitter data: LDA with topic map modelling. The experimental results demonstrate that this approach shows a progress in twitter data analysis. However, more experiments with this method are expected in order to ensure that the accurate analytic results can be maintained.

Published
2016

28. Molecular interaction of 2-mercaptobenzimidazole with catalase reveals a potentially toxic mechanism of the inhibitor

Author

Yue Teng, Wansong Zong, Ming Huang, and Luyi Zou

Subjects
Antioxidant, Stereochemistry, medicine.medical_treatment, Biophysics, Corrosion inhibitor, chemistry.chemical_compound, Residue (chemistry), medicine, Animals, Radiology, Nuclear Medicine and imaging, Binding site, chemistry.chemical_classification, Radiation, 2-mercaptobenzimidazole, Binding Sites, Radiological and Ultrasound Technology, biology, Chemistry, Hydrogen bond, Circular Dichroism, Catalase, Protein Structure, Tertiary, Molecular Docking Simulation, Kinetics, Enzyme, Spectrometry, Fluorescence, biology.protein, Thermodynamics, Benzimidazoles, Cattle, Protein Binding
Abstract

2-Mercaptobenzimidazole (MBI) is widely utilized as a corrosion inhibitor, copper-plating brightener and rubber accelerator. The residue of MBI in the environment possesses a potential risk to human health. In this work, the toxic interaction of MBI with the important antioxidant enzyme catalase (CAT) was investigated using spectroscopic and molecular docking methods under physiological conditions. MBI can spontaneously bind with CAT with one binding site through hydrogen bonds and van der Waals forces to form MBI-CAT complex. The molecular docking study revealed that MBI bound into the CAT interface of chains B and C, which led to some conformational and microenvironmental changes of CAT and further resulted in the inhibition of CAT activity. This present study provides direct evidence at a molecular level to show that exposure to MBI could induce changes in the structure and function of the enzyme CAT.

Published
2014

29. Characterization of the binding of 2-mercaptobenzimidazole to bovine serum albumin

Author

Yue, Teng, Luyi, Zou, Ming, Huang, and Wansong, Zong

Subjects
Molecular Docking Simulation, Animals, Humans, Benzimidazoles, Cattle, Serum Albumin, Bovine, Spectrophotometry, Ultraviolet
Abstract

2-Mercaptobenzimidazole (MBI) is widely utilized as a corrosion inhibitor, copper-plating brightener and rubber accelerator. The residue of MBI in the environment is potentially harmful to human health. In this article, the interaction of MBI with bovine serum albumin (BSA) was explored using spectroscopic and molecular docking methods under physiological conditions. The positively charged MBI can spontaneously bind with the negatively charged BSA through electrostatic forces with one binding site. The site marker competition experiments and the molecular docking study revealed that MBI bound into site II (subdomain IIIA) of BSA, which further led to some secondary structure and microenvironmental changes of BSA. This work provides useful information on understanding the toxicological actions of MBI at the molecular level.

Published
2014

30. Research on degradation of Nitrobenzene by artificial enrichment bioaugmentation in the source water

Author

Shuai Shao, Xu Zhan, and Luyi Zou

Subjects
Nitrobenzene, Pollutant, Bioaugmentation, chemistry.chemical_compound, Persistent organic pollutant, Hydraulic retention time, Chemistry, Environmental chemistry, Degradation (geology), Biodegradation, Water pollution
Abstract

Through combination-carrier AP, using the artificial enrichment and accumulation microorganisms on degradation of Persistent Organic Pollutants (POPs) was researched in the Meiliang Bay of Lake Taihu source water. While density of combination-carrier AP was 13.1%, the pilot showed that the effect of degradation of Nitrobenzene was increased as HRT extended. Under the condition of Hydraulic Retention Time (HRT) were 7d, the influent concentration of nitrobenzene was 0.219µg/L. The degradation rate of nitrobenzene reached 100%. One effective stain bacillus sp. which can highly degraded nitrobenzene was obtained by screening, isolating and screening the strain from static degradation of nitrobenzene. The stain didn't feed by nitrobenzene as sole resource of carbon and energy. When dosage of glucose was 20mg/L, degradation rate of nitrobenzene arrived 100%. The reaction characteristics of degradation of nitrobenzene satisfied one level reaction kinetics model.

Published
2011

33. A carbon-based photocatalyst efficiently converts CO2 to CH4 and C2H2 under visible light.

Author

Tongshun Wu, Luyi Zou, Dongxue Han, Fenghua Li, Qixian Zhang, and Li Niu

Subjects
*CARBON, *PHOTOCATALYSTS, *PHOTOCATALYSIS, *HYDROCARBONS, *ELECTRONS
Abstract

Novel photocatalysts consisting of porphyrin and graphene have been designed to reduce CO2 to hydrocarbons under visible light. These catalysts can (i) effectively reduce CO2 to hydrocarbons, particularly to C2H2; and (ii) selectively control the transfer of photogenerated electrons from graphene to CO2 rather than to H2O. [ABSTRACT FROM AUTHOR]

Published
2014
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