Your search keyword '"Xiaoqiao Luo"' showing total 10 results

1. TBAOH intercalated WO3 for high-performance optical fiber hydrogen sensor

Author

Zhuang Ye, Hongbo Ruan, Xiangyang Hu, Jixiang Dai, Xiaoqiao Luo, and Minghong Yang

Subjects

Fuel Technology, Renewable Energy, Sustainability and the Environment, Energy Engineering and Power Technology, Condensed Matter Physics

Published

2022

2. New Insights into the Inhibition of Hesperetin on Polyphenol Oxidase: Inhibitory Kinetics, Binding Characteristics, Conformational Change and Computational Simulation

Author

Xinyue Hong, Xiaoqiao Luo, Langhong Wang, Deming Gong, and Guowen Zhang

Subjects

Health (social science), conformational change, hesperetin, computational simulation, inhibition mechanism, Plant Science, polyphenol oxidase, Health Professions (miscellaneous), Microbiology, Food Science

Abstract

The inhibitory activity of hesperetin on polyphenol oxidase (PPO) and their interaction characteristics were investigated using multiple spectroscopic methods and computational simulation. Hesperetin, a mixed inhibitor, reversibly inhibited PPO activity, and its half-maximum inhibitory concentration (IC50) values on monophenolase and diphenolase were 80.8 ± 1.4 μM and 776.0 ± 15.5 μM, respectively. Multivariate curve resolution–alternate least squares (MCR–ALS) analysis suggested PPO interacted with hesperetin and formed PPO–hesperetin complex. Hesperetin statically quenched PPO’s endogenous fluorescence, and hydrophobic interactions mainly drove their binding. Hesperetin affected the polarity of the microenvironment around the Trp residues in PPO, but had no effect on that around Tyr residues. Circular dichroism (CD) results showed that hesperetin increased α-helix content and decreased β-fold and random coil contents, thus tightening PPO’s structure. Molecular docking showed that hesperetin entered the hydrophobic cavity of PPO, bound near the dinuclear copper active center, interacted with Val283, Phe264, His85, Asn260, Val248, and His263 via hydrophobic interactions, formed hydrogen bonds with Met280, His89, and His259 residues and also interacted with Phe292, His61, Phe90, Glu256, His244, Asn260, Phe264, and Gly281 via van der Waals forces. The molecular dynamics simulation results also demonstrated that the addition of hesperetin reduced the stability and hydrophobicity of PPO and increased PPO’s structural denseness. Thus, the inhibition of hesperetin on PPO may be because hesperetin bound near the active center of PPO, interacted with the surrounding residues, occupied the binding site for substrate, and induced the changes in PPO’s secondary structure, thus inhibiting the catalytic activity of PPO. This study may provide novel views for the inhibition of hesperetin on PPO and theoretical guidance for developing flavonoids as new and efficient PPO inhibitors.

Published

2023

3. Amelioration of ovalbumin gel properties by EGCG via protein aggregation, hydrogen, and van der Waals force

Author

Hui Xue, Xiaoqiao Luo, Yonggang Tu, Yan Zhao, and Guowen Zhang

Subjects

General Medicine, Food Science, Analytical Chemistry

Published

2023

4. Exploring the Inhibition of Quercetin on Acetylcholinesterase by Multispectroscopic and In Silico Approaches and Evaluation of Its Neuroprotective Effects on PC12 Cells

Author

Yijing Liao, Xi Mai, Xiaqing Wu, Xing Hu, Xiaoqiao Luo, and Guowen Zhang

Subjects

acetylcholinesterase, quercetin, inhibitory mechanism, computational docking, oxidative stress, Organic Chemistry, Pharmaceutical Science, PC12 Cells, Analytical Chemistry, Rats, Neuroprotective Agents, Chemistry (miscellaneous), Drug Discovery, Acetylcholinesterase, Molecular Medicine, Animals, Quercetin, Cholinesterase Inhibitors, Physical and Theoretical Chemistry

Abstract

This study investigated the inhibitory mechanism of quercetin in acetylcholinesterase (AChE) and its neuroprotective effects on β-amyloid25–35-induced oxidative stress injury in PC12 cells. Quercetin inhibited AChE in a reversible mixed manner with an IC50 of 4.59 ± 0.27 µM. The binding constant of quercetin with AChE at 25 °C was (5.52 ± 0.05) × 104 L mol−1. Hydrogen bonding and van der Waals forces were the main interactions in forming the stable quercetin–AChE complex. Computational docking revealed that quercetin was dominant at the peripheral aromatic site in AChE and induced enzymatic allosterism; meanwhile, it extended deep into the active center of AChE and destabilized the hydrogen bond network, which caused the constriction of the gorge entrance and prevented the substrate from entering the enzyme, thus resulting in the inhibition of AChE. Molecular dynamics (MD) simulation emphasized the stability of the quercetin–AChE complex and corroborated the previous findings. Interestingly, a combination of galantamine hydrobromide and quercetin exhibited the synergistic inhibition effect by binding to different active sites of AChE. In a β-amyloid25–35-induced oxidative stress injury model in PC12 cells, quercetin exerted neuroprotective effects by increasing the glutathione level and reducing the malondialdehyde content and reactive oxygen species levels. These findings may provide novel insights into the development and application of quercetin in the dietary treatment of Alzheimer’s disease.

Published

2022

5. Sea Ice Environmental Load Assessment System Based on Convolution Identification Algorithm

Author

Xiaoqiao Luo, Xiaodi Yang, Minghao Chun, and Shuang Xu

Published

2022

6. Multi-Spectroscopic and Molecular Simulation Approaches to Characterize the Intercalation Binding of 1-Naphthaleneacetic Acid With Calf Thymus DNA

Author

Guowen Zhang, Xing Hu, Yaqin Hu, Xiaoqiao Luo, Rui Wang, Guimei Zhang, and Zhisheng Zhou

Subjects

Circular dichroism, Quenching (fluorescence), 010405 organic chemistry, Chemistry, spectroscopic analysis, Intercalation (chemistry), molecular docking, 010402 general chemistry, 01 natural sciences, Binding constant, Fluorescence, 0104 chemical sciences, nervous system diseases, Hydrophobic effect, calf thymus DNA, nervous system, immune system diseases, intercalation, RA1190-1270, mental disorders, Toxicology. Poisons, Melting point, 1–naphthaleneacetic acid, Protein secondary structure, Nuclear chemistry

Abstract

1–Naphthaleneacetic acid (NAA), having high-quality biological activity and great yield-increasing potential in agricultural production, is a broad-spectrum plant growth regulator. Although NAA is of low toxicity, it can affect the balance of the human metabolism and damage the body if it is used in high quantity for a long time. In this study, the interaction of NAA with calf thymus DNA (ctDNA) was investigated under simulated human physiological acidity (pH 7.4) using fluorescence, ultraviolet-visible absorption, and circular dichroism spectroscopy combined with viscosity measurements and molecular simulation techniques. The quenching of the endogenous fluorescence of NAA by ctDNA, observed in the fluorescence spectrum experiment, was a mixed quenching process that mainly resulted from the formation of the NAA–ctDNA complex. NAA mainly interacted with ctDNA through hydrophobic interaction, and the binding constant and quenching constant at room temperature (298 K) were 0.60 × 105 L mol−1 and 1.58 × 104 L mol−1, respectively. Moreover, the intercalation mode between NAA and ctDNA was verified in the analysis of melting point, KI measurements, and the viscosity of ctDNA. The results were confirmed by molecular simulation, and it showed that NAA was enriched near the C–G base of ctDNA. As shown in circular dichroism spectra, the positive peak intensity of ctDNA intensified along with a certain degree of redshift, while the negative peak intensity decreased after binding with NAA, suggesting that the binding of NAA induced the transformation of the secondary structure of ctDNA from B-form to A-form. These researches will help to understand the hazards of NAA to the human body more comprehensively and concretely, to better guide the use of NAA in industry and agriculture.

Published

2021

7. Remote Intelligent Watering System Based on Internet of Things

Author

Xihuan Hong, Xiaoqiao Luo, and Censong Liu

Subjects

Microcontroller, business.industry, Computer science, Air temperature, Real-time computing, Soil moisture sensor, STM32, Transmission system, Internet of Things, business, Collection system

Abstract

To achieve the intelligent, scientific management of the family pot, we design a remote intelligent watering system based on Internet of things. Firstly, the collection system of potted environment information is constructed by using soil moisture sensor and air temperature and humidity sensor. Secondly, based on STM32 microcontroller, ESP8266WIFI module and Internet of things technology, the potted information and watering command transmission system is realized. Finally, the web page of the system is developed by using JavaWeb technology and Mina communication framework to achieve the fundamental purpose of real-time display of potted environment information and remote intelligent watering. Tests show that the remote intelligent watering system works stably and has strong practicability, which ensures the healthy growth of family green plants.

Published

2019

8. Refractive index interferometer based on SMF-MMF-TMCF-SMF structure with low temperature sensitivity

Author

Guo Donglai, Farhan Mumtaz, Wenbin Hu, Cheng Du, Pu Cheng, Minghong Yang, and Xiaoqiao Luo

Subjects

Multi-mode optical fiber, Temperature sensitivity, Materials science, Optical fiber, Temperature sensing, business.industry, 02 engineering and technology, Cladding (fiber optics), 01 natural sciences, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Highly sensitive, law.invention, 010309 optics, Interferometry, 020210 optoelectronics & photonics, Optics, Control and Systems Engineering, law, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, business, Instrumentation, Refractive index

Abstract

An optic fiber refractive index (RI) sensor based on SMF-MMF-TMCF-SMF (SMTmS) structure is proposed. The MMF segment is introduced and confirmed theoretically and experimentally to act as an efficient optical coupler to launch the light from the center core to the cladding. Experimental results demonstrate that SMTmS is highly sensitive (1435.76 nm/RIU) to low surrounding RI in the range of 1.3330–1.3451. The temperature sensing has been implemented and the total wavelength shift of only 1.83 nm is achieved for the range of 30 °C–100 °C, implying a relatively low temperature cross-sensitivity of 2.01 × 10−5 RIU/°C. The developed sensor with high RI sensitivity and low temperature cross-sensitivity could be rather suitable and applicable in the fields of seawater sensing and environmental monitoring.

Published

2020

9. An experimental study on the wave-induced pore water pressure change and relative influencing factors in the silty seabed

Author

Xiaoqiao Luo, Lin Lin, Chunyu Le, Qing Ye, and Anlong Li

Subjects

Flume, Pore water pressure, Attenuation, Wave height, Wind wave, Soil water, Soil horizon, Ocean Engineering, Geotechnical engineering, Oceanography, Seabed, Geology

Abstract

In this study, a flume experiment was designed to investigate the characteristics of wave-induced pore water pressure in the soil of a silty seabed with different clay contents, soil layer buried depths and wave heights respectively. The study showed that water waves propagating over silty seabed can induce significant change of pore water pressure, and the amplitude of pore pressure depends on depth of buried soil layer, clay content and wave height, which are considered as the three influencing factors for pore water pressure change. The pressure will attenuate according to exponential law with increase of soil layer buried depth, and the attenuation being more rapid in those soil layers with higher clay content and greater wave height. The pore pressure in silty seabed increases rapidly in the initial stage of wave action, then decreases gradually to a stable value, depending on the depth of buried soil layer, clay content and wave height. The peak value of pore pressure will increase if clay content or depth of buried soil layer decreases, or wave height increases. The analysis indicated that these soils with 5% clay content and waves with higher wave height produce instability in bed easier, and that the wave energy is mostly dissipated near the surface of soils and 5% clay content in soils can prevent pore pressure from dissipating immediately.

Published

2014

10. Research on Video-Based Monitoring Algorithm of Parking Spaces

Author

Long Jiang, Xiaoqiao Luo, Yaowu Luo, and Wei Deng

Subjects

Nios II, Video Graphics Array, Parking guidance and information, Computer science, business.industry, Real-time computing, ComputingMilieux_LEGALASPECTSOFCOMPUTING, Image processing, GeneralLiterature_MISCELLANEOUS, Software, Parking space, Algorithm design, business, Field-programmable gate array, Algorithm

Abstract

Parking space monitoring algorithm serves to constantly and correctly update parking information which is vulnerable to the influences of shadows of surrounding objects and weather conditions through image processing. By analyzing and comparing various parking space detection algorithms, this paper selects the most suitable algorithm to achieve parking space detection in Nios II soft core embedded in FPGA. The algorithm can accurately and quickly reflect the change of state of parking spaces and can ensure real-time processing. After detection of parking spaces, real time status of parking spaces and parking guidance information will be displayed via VGA.

Published

2011