Your search keyword '"Xuanting Liu"' showing total 59 results

1. Estimating shear strength of high-level pillars supported with cemented backfilling using the Hoek–Brown strength criterion

Author

Kaizong Xia, Congxin Chen, Xiumin Liu, Yue Wang, Xuanting Liu, and Jiahao Yuan

Subjects

Deep metal mines, High-level pillars, Hoek–Brown strength criterion, Cemented backfilling, Confining pressure, Shear strength, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

Deep metal mines are often mined using the high-level pillars with subsequent cementation backfilling (HLSCB) mining method. At the design stage, it is therefore important to have a reasonable method for determining the shear strength of the high-level pillars (i.e. cohesion and internal friction angle) when they are supported by cemented backfilling. In this study, a formula was derived for the upper limit of the confining pressure σ3max on a high-level pillar supported by cemented backfilling in a deep metal mine. A new method of estimating the shear strength of such pillars was then proposed based on the Hoek–Brown failure criterion. Our analysis indicates that the horizontal stress σhh acting on the cemented backfill pillar can be simplified by expressing it as a constant value. A reasonable and effective value for σ3max can then be determined. The value of σ3max predicted using the proposed method is generally less than 3 MPa. Within this range, the shear strength of the high-level pillar is accurately calculated using the equivalent Mohr–Coulomb theory. The proposed method can effectively avoid the calculation of inaccurate shear strength values for the high-level pillars when the original Hoek–Brown criterion is used in the presence of large confining pressures, i.e. the situation in which the cohesion value is too large and the friction angle is too small can effectively be avoided. The proposed method is applied to a deep metal mine in China that is being excavated using the HLSCB method. The shear strength parameters of the high-level pillars obtained using the proposed method were input in the numerical simulations. The numerical results show that the recommended level heights and sizes of the high-level pillars and rooms in the mine are rational.

Published

2024

2. Interaction Mechanisms between Blades and Maize Root–Soil Composites as Affected by Key Factors: An Experimental Analysis

Author

Xuanting Liu, Peng Gao, Hongyan Qi, Qifeng Zhang, Mingzhuo Guo, and Yunhai Ma

Subjects

stubble-breaking device, blade, root–soil composite, interaction mechanisms, cutting force, dragging distance, Agriculture (General), S1-972

Abstract

To design a high-performance stubble-breaking device, studying the interaction mechanisms between blades and root–soil composites is urgent. A simplified experimental method was proposed to investigate the cutting process and the effects of key factors on cutting by conducting cutting experiments on remolded root–soil composites and maize root–soil composites. The results showed that the soil support force and root–soil interface force significantly impacted cutting. Higher soil compaction and root–soil interface forces helped avoid root dragging, but higher soil compaction and thicker roots led to greater resistance. The superposition and accumulation effects significantly increased the cutting force, especially when root distribution was denser; as the oblique angle and bevel angle increased, the root-cutting force and dragging distance first decreased and then increased. Compared with orthogonal cutting, the optimal angles were both 45° and reduced the root-cutting force by 60.47% and 15.12% and shortened the dragging distance by 22.33 mm and 8.76 mm, respectively. Increasing the slide-cutting angle and cutting speed helped reduce the root-cutting force and dragging distance; however, it also faced greater pure-cutting force. Consequently, the interaction mechanisms between blades and root–soil composites revealed in this study provide a design and optimization basis for stubble-breaking devices, thus promoting the development of no-till technology.

Published

2024

3. Effects of Ultrasound-Assisted Soy Lecithin Addition on Rehydration Behavior and Physical Properties of Egg White Protein Powder

Author

Sijia Cao, Xuanting Liu, Zhiyuan Zheng, Zhaohui Yan, Ting Zhang, Jingbo Liu, and Ting Yu

Subjects

ultrasound, egg white protein powder (EWPP), physicochemical properties, wettability, rehydration behavior, Chemical technology, TP1-1185

Abstract

This study investigated the effects of ultrasound-assisted soybean lecithin (SL) on the rehydration behavior and physical properties of egg white protein powder (EWPP) and its ability to enhance the efficacy of EWPP instant solubility. The results of rehydration, including wettability and dispersibility, indicated that ultrasound (200 W)-assisted SL (5 g/L) addition had the shortest wetting time and dispersion time, which were 307.14 ± 7.00 s and 20.95 ± 2.27 s, respectively. In terms of powder properties, the EWPP with added SL had lower lightness, moisture content and bulk density. In addition, the increase in average particle size, net negative charge, free sulfhydryl group content and surface hydrophobicity indicated that ultrasound treatment facilitated the protein structures unfolding and promoted the formation of SL-EWP complexes. Overall, our study provided a new perspective for the food industry regarding using ultrasound technology to produce instant EWPP with higher biological activity and more complete nutritional value.

Published

2024

4. Biomimetic Design of Soil-Engaging Components: A Review

Author

Zihe Xu, Hongyan Qi, Peng Gao, Shuo Wang, Xuanting Liu, and Yunhai Ma

Subjects

biomimetics, soil-engaging components, draught reduction, anti-adhesion, wear resistance, Technology

Abstract

Soil-engaging components play a critical role in agricultural production and engineering construction. However, the soil-engaging components directly interacting with the soil often suffer from the problems of high resistance, adhesion, and wear, which significantly reduce the efficiency and quality of soil operations. A large number of featured studies on the design of soil-engaging components have been carried out while applying the principles of bionics extensively, and significant research results have been achieved. This review conducts a comprehensive literature survey on the application of biomimetics in the design of soil-engaging components. The focus is on performance optimization in regard to the following three aspects: draught reduction, anti-adhesion, and wear resistance. The mechanisms of various biomimetic soil-engaging components are systematically explained. Based on the literature analysis and biomimetic research, future trends in the development of biomimetic soil-engaging components are discussed from both the mechanism and application perspectives. This research is expected to provide new insights and inspiration for addressing related scientific and engineering challenges.

Published

2024

5. Finite-Time Extended State Observer-Based Attitude Control for Hypersonic Vehicles with Angle-of-Attack Constraint

Author

Qingli Lu, Ruisheng Sun, Yu Lu, and Xuanting Liu

Subjects

hypersonic vehicles, angle-of-attack constraint, finite-time extended state observer, barrier Lyapunov function, Mathematics, QA1-939

Abstract

This paper develops and validates a modified backstepping control scheme for hypersonic vehicles (HSVs) with uncertain dynamics and angle-of-attack (AOA) constraint, which incorporates a novel finite-time extended state observer (FTESO) and a time-varying barrier Lyapunov function (BLF)-based controller. In order to ensure that observation errors converge before the controller reaches the steady states, the “adding a power integrator” (AAPI) technique is utilized to design the FTESO by transforming the observation problem of the traditional extended state observer (ESO) into a stabilization problem. Combining time-varying constraints and tracking errors to construct the BLF, the backstepping control law that can adapt to large initial tracking errors is derived. Theoretical and comparative simulation results show that the proposed FTESO performs well in terms of speed and accuracy, and AOA is constrained within the prescribed region.

Published

2024

6. Review of Food Surfactants on Improving Protein Powder Solubility

Author

Ting ZHANG, Yi YANG, Min ZHANG, Hongyu JIANG, Jingbo LIU, and Xuanting LIU

Subjects

protein powder, solubility, food surfactant, interface, food processing, Food processing and manufacture, TP368-456

Abstract

As an important nutritional and functional base for food, protein powders are widely used in the food processing industry. However, the solubility of protein powders is reduced during the dissolution process due to lumping and agglomeration caused by interfacial effects, which severely limits the application and economic value of food proteins. Food surfactants can effectively bind protein powders and reduce the interfacial effects that occur during the dissolution process. Therefore, food surfactants can be more widely used to improve the solubility of protein powders. This paper reviews the main types of food surfactants, their mechanism of action on protein binding, and their effects on the various stages of protein powder solubilization, intending to provide a theoretical reference for the application of food surfactants in highly soluble protein powders.

Published

2022

7. Simulation of Draught Reduction Performance of Subsoiling with Upcutting Belt Motion Using Discrete Element Method

Author

Peng Gao, Jinguang Li, Hongyan Qi, Xuanting Liu, and Yunhai Ma

Subjects

subsoiler, discrete element method (DEM), continuous belt, draught force, soil disturbance, particle velocity, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Conventional subsoiling has the problem of excessive draught resistance, which has long been a major concern. A great reduction in draught is urgently required to make better use of the subsoiling technique with many agronomic benefits. In this study, an attempt was made to test the draught reduction performance of a series of tools with continuous belt motions. Comparative simulations between regular tools and belt tools were carried out using the discrete element method (DEM) to investigate the effects of belt motion on tool force, soil disturbance characteristics, particle velocity distribution, and soil deformation and movement patterns. The results indicated that the belt motion reduced the draught force by 13.18%, 25.21%, 37.98%, and 44.64% for the rake angles of 30°, 45°, 60°, and 75°, respectively, and caused acceptable increases in downward vertical force. The changes in soil disturbance, particle velocity distribution, and soil deformation and movement patterns contributed to the reduction in draught force. Negative effects on soil disturbance were acceptable considering the 13.18% to 44.64% reductions in draught force. The present study suggests that the belt motion has a great application potential for draught reduction in subsoiling. Also, this can serve as a theoretical foundation for future studies.

Published

2024

8. Egg White Protein–Proanthocyanin Complexes Stabilized Emulsions: Investigation of Physical Stability, Digestion Kinetics, and Free Fatty Acid Release Dynamics

Author

Ting Zhang, Shanglin Li, Meng Yang, Yajuan Li, Xuanting Liu, Xiaomin Shang, Jingbo Liu, Zhiyang Du, and Ting Yu

Subjects

biomacromolecules, proanthocyanins, structure, emulsion, digestion kinetics, Organic chemistry, QD241-441

Abstract

Egg white proteins pose notable limitations in emulsion applications due to their inadequate wettability and interfacial instability. Polyphenol-driven alterations in proteins serve as an effective strategy for optimizing their properties. Herein, covalent and non-covalent complexes of egg white proteins-proanthocyanins were synthesized. The analysis of structural alterations, amino acid side chains and wettability was performed. The superior wettability (80.00° ± 2.23°) and rigid structure (2.95 GPa) of covalent complexes established favorable conditions for their utilization in emulsions. Furthermore, stability evaluation, digestion kinetics, free fatty acid (FFA) release kinetics, and correlation analysis were explored to unravel the impact of covalent and non-covalent modification on emulsion stability, dynamic digestion process, and interlinkages. Emulsion stabilized by covalent complex exhibited exceptional stabilization properties, and FFA release kinetics followed both first-order and Korsmeyer–Peppas models. This study offers valuable insights into the application of complexes of proteins-polyphenols in emulsion systems and introduces an innovative approach for analyzing the dynamics of the emulsion digestion process.

Published

2024

9. Long-term microglial phase-specific dynamics during single vessel occlusion and recanalization

Author

Xiaoke Xie, Xuanting Liu, Jiazhu Zhu, Yongxian Xu, Xiaojing Li, Yameng Zheng, Shangyue Gong, Xiao Xiao, Yiwen Chen, Jianmin Zhang, Wei Gong, and Ke Si

Subjects

Biology (General), QH301-705.5

Abstract

The spatiotemporal dynamics of the microglial inflammatory response to single vessel occlusion and recanalization are analysed, revealing four different response phases.

Published

2022

10. The role of phosphatidylserine on the membrane in immunity and blood coagulation

Author

Jiao Wang, Changxin Yu, Junyi Zhuang, Wenxin Qi, Jiawen Jiang, Xuanting Liu, Wanwei Zhao, Yiyang Cao, Hao Wu, Jingxuan Qi, and Robert Chunhua Zhao

Subjects

Phosphatidylserine, GLA domain, Discoidin-like C2 domain, IgV-like domain, TAM, TIM, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract The negatively charged aminophospholipid, phosphatidylserine (PtdSer), is located in the inner leaflet of the plasma membrane in normal cells, and may be exposed to the outer leaflet under some immune and blood coagulation processes. Meanwhile, Ptdser exposed to apoptotic cells can be recognized and eliminated by various immune cells, whereas on the surface of activated platelets Ptdser interacts with coagulation factors prompting enhanced production of thrombin which significantly facilitates blood coagulation. In the case where PtdSer fails in exposure or mistakenly occurs, there are occurrences of certain immunological and haematological diseases, such as the Scott syndrome and Systemic lupus erythematosus. Besides, viruses (e.g., Human Immunodeficiency Virus (HIV), Ebola virus (EBOV)) can invade host cells through binding the exposed PtdSer. Most recently, the Corona Virus Disease 2019 (COVID-19) has been similarly linked to PtdSer or its receptors. Therefore, it is essential to comprehensively understand PtdSer and its functional characteristics. Therefore, this review summarizes Ptdser, its eversion mechanism; interaction mechanism, particularly with its immune receptors and coagulation factors; recognition sites; and its function in immune and blood processes. This review illustrates the potential aspects for the underlying pathogenic mechanism of PtdSer-related diseases, and the discovery of new therapeutic strategies as well.

Published

2022

11. Protective effects and potential mechanisms of fermented egg-milk peptides on the damaged intestinal barrier

Author

Siwen Lyu, Qi Yang, Xuehui Duan, Xuanting Liu, Zhiyang Du, Xiaomin Shang, Menglei Xu, Jingbo Liu, Fengguang Pan, and Ting Zhang

Subjects

peptides, intestinal barrier, zonula occludens-1, mucin, bioinformatics, Nutrition. Foods and food supply, TX341-641

Abstract

IntroductionFermented egg-milk peptides (FEMPs) could enhance the colon-intestinal barrier and upgrade the expression of zonula occludens-1 and mucin 2. Besides, the underlying biological mechanism and the targets FEMPs could regulate were analyzed in our study.MethodsHerein, the immunofluorescence technique and western blot were utilized to evaluate the repair of the intestinal barrier. Network pharmacology analysis and bioinformatics methods were performed to investigate the targets and pathways affected by FEMPs.Results and discussionAnimal experiments showed that FEMPs could restore intestinal damage and enhance the expression of two key proteins. The pharmacological results revealed that FEMPs could regulate targets related to kinase activity, such as AKT, CASP, RAF, and GSK. The above targets could interact with each other. GO analysis indicated that the targets regulated by FEMPs could participate in the kinase activity of the metabolic process. KEGG enrichment revealed that the core targets were enriched in pathways related to cell apoptosis and other important procedures. Molecular docking demonstrated that FEMPs could bind to the key target AKT via hydrogen bond interactions. Our study combined the experiment in vivo with the method in silico and investigated the interaction between peptides and targets in a pattern of multi-targets and multi-pathways, which offered a new perspective on the functional validation and potential application of bioactive peptides.

Published

2022

12. Parameter Optimization and DEM Simulation of Bionic Sweep with Lower Abrasive Wear Characteristics

Author

Shuo Wang, Xuanting Liu, Tianjian Tong, Zihe Xu, and Yunhai Ma

Subjects

biomimetic design, DEM, abrasive wear, Archard wear, sweep, Technology

Abstract

High wear rates during the tillage process often result in significant financial losses and wasted farming seasons. In this paper, a bionic design was used to reduce tillage wear. Inspired by wear-resistant animals with ribbed structures, the bionic ribbed sweep (BRS) was designed by combining a ribbed unit with a conventional sweep (CS). BRSs with different parameters (width φ, height h, angle θ, and interval λ) were simulated and optimized using the DEM and RSM methods at a working depth of 60 mm to evaluate the magnitude and trends of three responses: tillage resistance (TR), number of contacts between the sweep and soil particles (CNSP), and Archard wear value (AW). The results showed that a protective layer could be created on the surface of the sweep with a ribbed structure to reduce abrasive wear. Analysis of variance proved that factors φ, θ, and λ had significant effects on AW, CNSP, and TR, while factor h was insignificant. An optimal solution was obtained using the desirability method, including 8.88 mm φ, 1.05 mm h, 3.01 mm λ, and 34.46° θ. Wear tests and simulations showed that wear loss could be effectively reduced at different speeds by the optimized BRS. It was found to be feasible to create a protective layer to reduce partial wear by optimizing the parameters of the ribbed unit.

Published

2023

13. Structural Mechanical Properties of 3D Printing Biomimetic Bone Replacement Materials

Author

Xueman Lv, Shuo Wang, Zihe Xu, Xuanting Liu, Guoqin Liu, Feipeng Cao, and Yunhai Ma

Subjects

3D printing, mechanical property analysis, bone scaffold, finite element method, TCP, PCL, Technology

Abstract

One of the primary challenges in developing bone substitutes is to create scaffolds with mechanical properties that closely mimic those of regenerated tissue. Scaffolds that mimic the structure of natural cancellous bone are believed to have better environmental adaptability. In this study, we used the porosity and thickness of pig cancellous bone as biomimetic design parameters, and porosity and structural shape as differential indicators, to design a biomimetic bone beam scaffold. The mechanical properties of the designed bone beam model were tested using the finite element method (FEM). PCL/β-TCP porous scaffolds were prepared using the FDM method, and their mechanical properties were tested. The FEM simulation results were compared and validated, and the effects of porosity and pore shape on the mechanical properties were analyzed. The results of this study indicate that the PCL/β-TCP scaffold, prepared using FDM 3D printing technology for cancellous bone tissue engineering, has excellent integrity and stability. Predicting the structural stability using FEM is effective. The triangle pore structure has the most stability in both simulations and tests, followed by the rectangle and honeycomb shapes, and the diamond structure has the worst stability. Therefore, adjusting the porosity and pore shape can change the mechanical properties of the composite scaffold to meet the mechanical requirements of customized tissue engineering.

Published

2023

14. Ground Surface Deformation in the Hanging Wall of the Jinshandian Underground Iron Mine in China

Author

Tianlong Wang, Congxin Chen, Kaizong Xia, Chuqiang Zhang, Yue Wang, and Xuanting Liu

Subjects

metal mine, underground mining, hanging wall, in situ monitoring data, discontinuities and faults, ground surface deformation, Science

Abstract

When sublevel caving is used in metal mines, the stress state in the rock mass that initially existed around the mined-out area will be destroyed. This will lead to the rock strata deforming and moving and also, potentially, to large-scale collapse and cracking of the ground surface. Such ground surface deformation can cause significant damage to buildings and other structures. Therefore, it is very important to study the mechanism responsible for this ground surface deformation so that methods can be devised to protect the mine’s production facilities as well as the property and safety of nearby residents. In this study, the mechanism responsible for the surface deformation of the hanging wall in the eastern part of the Jinshandian iron mine was investigated by analyzing monitoring data collected in situ on the surface (from 2008 to 2020) and other related information (occurrence of surface cracking and collapse and geological conditions). The results show that the ground surface deformation can be divided into four stages (initial, creep, slow, and accelerating deformation stages). A flexural toppling failure model is proposed to account for the surface deformation. The model suggests that large-scale deformation of the ground surface at the hanging wall occurs due to the combined effect of in situ ground stress, occurrence of steep dip discontinuities and faults, the dips and strikes of the two parallel orebodies, and underground mining activity. Furthermore, the surface deformation can be divided into six regions corresponding to caved, rapidly-accelerating deformation, slowly-accelerating deformation, acceptable deformation, slight deformation, and no deformation zones. In the rapidly-accelerating deformation zone, the ratio of the horizontal to vertical displacement is greater than 1 and some major cracks can be found. Large-scale cracks begin to form when the horizontal velocity of the ground surface is greater than 1 mm/day.

Published

2022

15. The Synaptic Vesicle Protein 2A Interacts With Key Pathogenic Factors in Alzheimer’s Disease: Implications for Treatment

Author

Yanyan Kong, Lin Huang, Weihao Li, Xuanting Liu, Yinping Zhou, Cuiping Liu, Shibo Zhang, Fang Xie, Zhengwei Zhang, Donglang Jiang, Weiyan Zhou, Ruiqing Ni, Chencheng Zhang, Bomin Sun, Jiao Wang, and Yihui Guan

Subjects

Alzheimer’s disease, neurodegeneration, synaptic vesicle protein 2A, Tau, Aβ, PI3K signaling pathway, Biology (General), QH301-705.5

Abstract

Alzheimer’s disease (AD), a serious neurodegenerative disease, is pathologically characterized by synaptic loss and dysfunction. Synaptic vesicle protein 2A (SV2A) is an indispensable vesicular protein specifically expressed in synapses and can be used as a biomarker for synaptic density. We found that the expression of SV2A was down-regulated in the hippocampus of AD patients, yet the relation of SV2A to other hallmarks of AD pathology such as amyloid precursor protein (APP), β-amyloid (Aβ), and Tau protein is not thoroughly clear. In addition, SV2A colocalized with APP and was down-regulated at Aβ deposition. Moreover, we found that SV2A deficiency leads to a simultaneous increase in Aβ and Tau hyperphosphorylation, while SV2A overexpression was associated with downregulation of β-site APP cleaving enzyme 1 and apolipoprotein E genes. In addition, evidence gained in the study points to the phosphatidylinositol 3-kinase signaling pathway as a possible mediator in SV2A regulation influencing the incidence and development of AD. With limited effective diagnostic methods for AD, a close interplay between SV2A and AD-related proteins demonstrated in our study may provide novel and innovative diagnostic and therapeutic opportunities.

Published

2021

16. Investigation of the Deformation Failure Occurring When Extracting Minerals via Underground Mining: A Case Study

Author

Xuanting Liu, Congxin Chen, Xiumin Liu, Kaizong Xia, and Tianlong Wang

Subjects

metal mine, underground orebody excavation, sublevel caving method, strata movement, mining disturbance, deformation failure, Mineralogy, QE351-399.2

Abstract

Metal mines mined using the sublevel caving method often exhibit various environmental problems on the ground surface. This can affect the safety of the production process in the mining area. A numerical model using Universal Distinct Element Code has been established to investigate deformation failure giving rise to this underground mining. The calculations are combined with in-situ monitoring data collected over a period of 10 years. The results indicate that the strata movement in the footwall can be divided into two stages: an arch caving development stage and post arch caving development stage. Mining disturbance is the main cause of caving in the arch caving development stage. The overlying strata experience ‘caving–stability–caving’, leading to the formation of an ‘arch-shaped’ caving pattern. In the post arch caving development stage, flexural-toppling deformation occurs in the strata in the direction of the collapse pit due to the tectonic stress present and high dip angles of the discontinuities. Through-going failure surface has been analyzed by studying the plastic state and displacement of elements. The formation of through-going failure surface is related to the flexural-toppling deformation and stress concentration caused by mining activities. Based on the different failure mechanisms, an efficient partition has been proposed such that the footwall can be divided into a stable zone, flexural-toppling failure zone, compression and slipping-toppling failure zone, and shear-slipping failure zone. The results are a useful reference when applied to the Chengchao Iron Mine and other similar metal mines.

Published

2022

17. Ultrasound-assisted Maillard reaction of ovalbumin/xylose: The enhancement of functional properties and its mechanism

Author

Xuanting Liu, Qi Yang, Meng Yang, Zhiyang Du, Chen Wei, Ting Zhang, Boqun Liu, and Jingbo Liu

Subjects

Ovalbumin, Ultrasound, Glycation, Surface properties, Structure characteristics, Chemistry, QD1-999, Acoustics. Sound, QC221-246

Abstract

This study aims to optimize the ultrasound treatment conditions for enhancing the degree of glycation (DG) of ovalbumin (OVA)-xylose conjugates through Maillard reaction and investigate the correlation between DG and functional properties affected by structural changes. The structural and functional properties of classical heating OVA, glycated OVA, ultrasonic treated OVA, and ultrasound-assisted glycated OVA were investigated to explore the interaction mechanism of ultrasound treatment on foaming and emulsifying properties improvement. Results indicated that the ultrasound assistance increased free sulfhydryl content, surface hydrophobicity and particle size of OVA-xylose conjugates, and thus enhancing the surface properties, which were strongly linear correlated with DG under different glycation parameters (pH, xylose/OVA ratio, heating time). Additionally, circular dichroism spectroscopy analysis revealed that ultrasound promoted the conversion of α-helices to β-sheets and unfolded structures, which was consistent with the formation of short amyloid-like aggregates that observed by atomic force microscopy phenomenon. Overall, our study provides new insights into the effects of ultrasound treatment on Maillard-induced protein functional properties enhancement, which may be a new strategy to tune the DG and functionality of protein-saccharide grafts during ultrasound processing.

Published

2021

18. 3D Finite Element Simulation and Experimental Validation of a Mole Rat’s Digit Inspired Biomimetic Potato Digging Shovel

Author

Jiangtao Yu, Yunhai Ma, Shuo Wang, Zihe Xu, Xuanting Liu, Hubiao Wang, Hongyan Qi, Lijun Han, and Jian Zhuang

Subjects

biomimetic macroscopic surface modification, draught force reduction, finite element method, mole rat, potato digging shovel, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

To reduce the draught force of a traditional planar potato digging shovel (DZ), a biomimetic potato digging shovel (YS), inspired by the mole rat’s digits, is designed, using the biomimetic macroscopic surface modification method. The finite element simulations, soil bin experiments, and field experiments for DZ and YS are conducted to explore the factors affecting draught force and to verify the feasibility and effectiveness of the biomimetic potato digging shovel. Results show that the soil–shovel interaction models predict the draught force well, but the simulations for the soil rupture distance ratio need to be further improved. The studied factors all have a great influence on the draught force of DZ and YS and they follow the order of cutting speed > digging depth > mounting angle. For the single shovels, YS, compared with DZ, increases the draught force at a low mounting angle but decreases the draught force by over 8.41% when the mounting angle is higher than 30°; for the grouped shovels, the draught force and fuel consumption of YS, compared with those of DZ, decline by over 13.33% and 9.18%, respectively. The reasons for the reduction in the draught force of YS are to make the soil mass tend to move upward and to change the soil’s state of motion and stress continually; thus, the compaction to the soil is reduced, and the soil becomes easier to be broken.

Published

2022

19. The treatment of schizophrenia

Author

Xuanting Liu

Abstract

Schizophrenia is a kind of disease worldwide nowadays, and about twenty million people were found that have schizophrenia. For now, the treatment for treating schizophrenia methods includes using the psychological method, medical treatment, and Medicaid enterprise certification toolkit (MECT). The psychological method in treating schizophrenia has special advantages when the patients are not diagnosed. Pet therapy is a new way to treat patients without medicines or use in an adjuvant way. This therapy will help people get love or get warmness or become better. Research has shown that first-generation anti-schizophrenia medicine (FGAs) and second-generation anti-schizophrenia medicines (SGAs) have different effects. For example, CPZ in FGAs can help patients think normally and reduce the possibility of nervousness, but CPZ also has certain side effects, such as causing patients to have skin pigmentation. SGAs are very effective in treating schizophrenia and can also reduce the risk of side effects. SGAs have been replaced by FGAs in large populations and are also the first choice for researchers to use. Clozapine is a classic SGA drug. Studies have shown that it is safe for patients taking clozapine long-term. However, additionally, clozapine has been shown to cause a number of blood problems, as well as cardiac arrhythmias, such as QT prolongation. For now, the psychological method should be the first choice for the patient who has not been diagnosed. Some new treatment methods are still in progress, like MECT and new medicines for more target acceptors. This paper review briefly the treatment of schizophrenia.

Published

2022

20. Application of <scp> γ ‐cyclodextrin </scp> ‐lysozyme as host materials for encapsulation of curcumin: characterization, stability, and controlled release properties

Author

Hedi Wen, Deju Zhang, Jingbo Liu, Xiaomin Shang, Xuanting Liu, Zhiyang Du, and Ting Zhang

Subjects

Drug Carriers, Curcumin, Nutrition and Dietetics, Delayed-Action Preparations, Nanoparticles, Muramidase, Particle Size, Agronomy and Crop Science, gamma-Cyclodextrins, Food Science, Biotechnology

Abstract

In this study, a safe and relatively stable γ-cyclodextrin-lysozyme (γ-CD-Lys) was synthesized using epichlorohydrin as the cross-linking agent, and curcumin was successfully encapsulated in γ-CD-Lys.The successful Lys grafting onto γ-CD can be demonstrated by a high grafting ratio (79.02%) and was further confirmed by Fourier transform infrared (FTIR) band shifts and the new signal obtained at δ 2.75 in proton nuclear magnetic resonance. The encapsulation efficiency value of γ-CD-Lys was 76.74%, and the successful encapsulation of curcumin into γ-CD-Lys was confirmed by crystal structure change, increased melting point, and FTIR band shifts. The intermolecular bonds results suggested that associative forces between curcumin and γ-CD-Lys were electrostatic interaction, hydrogen bonds interaction, and hydrophobic interaction. The designed nanoparticles had excellent stability at low pH and low salt concentration. The release rate of these nanoparticles was inhibited in simulated gastric conditions, whereas it increased significantly in intestinal media. Simulated gastrointestinal digestion experiments further confirmed that nanoparticles showed higher bioaccessibility (86.05%) compared with curcumin (58.82%).Overall, our study showed that the nanoparticles were highly promising for delivering curcumin because of their enhanced functional attributes and stabilization in acid or low salt environments. Also, it was an excellent wall material for targeting hydrophobic bioactive compounds in the intestinal tract via oral administration. © 2022 Society of Chemical Industry.

Published

2022

21. Ground Movement in the Hanging Wall of Underground Iron Mines with Steeply Dipping Discontinuities: A Case Study

Author

Tianlong Wang, Congxin Chen, Kaizong Xia, Yong Shao, Xuanting Liu, and Kuoyu Yang

Subjects

Multidisciplinary

Published

2023

22. Co-encapsulation of Egg-White-Derived Peptides (EWDP) and Curcumin within the Polysaccharide-Based Amphiphilic Nanoparticles for Promising Oral Bioavailability Enhancement: Role of EWDP

Author

Meng Yang, Jingbo Liu, Yajuan Li, Qi Yang, Chunmei Liu, Xuanting Liu, Biying Zhang, Hui Zhang, Ting Zhang, and Zhiyang Du

Subjects

Drug Carriers, Curcumin, Polysaccharides, Biological Availability, Humans, Nanoparticles, General Chemistry, Caco-2 Cells, Particle Size, Peptides, General Agricultural and Biological Sciences

Abstract

The comprehensive utilization of food-derived nutraceuticals with different polarities has been extremely restricted by their poor bioavailability and coexistence in a single system. This study aimed to fabricate a self-assembly of amphiphilic nanoparticles (NPs) for the hydrophilic EWDP and hydrophobic curcumin based on the carboxymethyl chitosan (CMCS) shell and γ-cyclodextrin (γ-CD) core. Notably, EWDP could cooperate with CMCS to yield superior colloidal properties with an excellent curcumin aqueous solubility and co-encapsulation capacity (10%) for the NPs (pH 2.0-7.0). This phenomenon was mainly ascribed to the additional hydrogen-bonding network and hydrophobic interaction introduced by EWDP. Besides, the overall antioxidant activity, bioaccessibility, gastrointestinal stability, and Caco-2 cell absorption properties were significantly improved in the presence of EWDP (20% increase). Therefore, EWDP could function as both a potential affinity agent and a nutrition enhancer to expand the co-delivery applications for diverse nutraceuticals with promising oral bioavailability enhancement in food and pharmaceutical areas.

Published

2022

23. Fermented egg-milk beverage alleviates dextran sulfate sodium-induced colitis in mice through the modulation of intestinal flora and short-chain fatty acids

Author

mengmeng feng, Xuanting Liu, xuehui duan, Jingbo Liu, siwen lyu, Huifang Ge, Qi Yang, Ting Zhang, and Fengguang Pan

Subjects

Male, Cultured Milk Products, Eggs, Crypt, Inflammation, Biology, Mice, Cecum, Lactobacillus, medicine, Animals, Food science, Colitis, Mice, Inbred BALB C, Dextran Sulfate, Lachnospiraceae, food and beverages, General Medicine, Fatty Acids, Volatile, biology.organism_classification, medicine.disease, Ulcerative colitis, Gastrointestinal Microbiome, medicine.anatomical_structure, Fermentation, Fermented Foods, medicine.symptom, Food Science

Abstract

Fermented egg milk beverage (FEMB) can alleviate the symptoms of intestinal diseases by regulating intestinal flora and supplying nutrition. This study was investigated in the protective effect of fermented egg milk beverage (FEMB) on dextran sulfate sodium (DSS) induced ulcerative colitis (UC) mice. The results showed that FEMB eased the pathological abnormalities and colonic inflammation of UC mice, restructured the intestinal flora composition simultaneously. After FEMB treatment for 14 days, the body weight of the mice rose and disease activity index (DAI) decreased, the length and form of colon in UC mice restored notably, inflammatory cells were decreased or disappeared, globel cells and crypt were enriched and modified. 16S rRNA gene sequencing results demonstrated that FEMB treatment can increase the abundance of beneficial bacteria in the cecum content of mice, including unclassified_f_Lachnospiraceae and Lactobacillus. Besides, probiotics that can increase the content of short-chain fatty acids (SCFAs) may also contribute to inflammation alleviation. An increasing of amino acid, which may beneficial to nutritional supplement, was observed in our experiment. In conclusion, FEMB treatment can alleviate the damage of DSS-induced colitis in Balb/c mice, this study provides theoretical basis of inflammation relief and application of probiotics in fermented egg milk beverages.

Published

2022

24. Ions Regulated Ovalbumin-Lysozyme Heteroprotein Complex: Aggregation Kinetics, Thermodynamics and Morphologic Structure

Author

Jingbo Liu, Zhaohui Yan, Renzhao Zhang, Hongyu Jiang, Yudan Zhang, Ting Zhang, Zhiyang Du, xiaomin shang, and Xuanting Liu

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2023

25. Bending Response and Energy Dissipation of Interlayered Slidable Friction Booklike-Plates

Author

Bohua Sun, Wen Dang, Xuanting Liu, and Xiao-Lin Guo

Subjects

applied_physics

Abstract

To have a better protection, strong toughness and good flexibility, all lives and plants must have skins, similarly, all books should have covers. In this paper, considering interlayer friction as a perturbation, we formulate a hardcover-book-like laminated plates with internal friction. For a quasi-static problem, detail analysis on the bending response and energy dissipation are carried out for a three-point-supported plates. Our numerical investigations show that the hardcover is more essential than the core layers in terms of bending response, and the energy dissipation within per loading-unloading cycle can be made to vary by a considerable amount. The central goal of studying is not only to predict the bending deformation of the book-like-plates, but also as a representative case to help finding some clue on the universal behaviours of multilayered architectures with internal friction.

Published

2022

26. Bending Analysis of Integrated Multilayer Corrugated Sandwich Panel Based on 3D Printing

Author

Wen Dang, Xuanting Liu, and Bohua Sun

Subjects

polymers_plastics

Abstract

Single-layer core corrugated sandwich panels generally consist of a corrugated core and two layers of panels, while multi-layer core corrugated sandwich panels are formed by stacking multiple layers of panels with multiple layers of core layers. In this study, integrated multilayer core corrugated sandwich panels with different shapes of corrugated cores (triangular, trapezoidal, and rectangular) and the different number of core layers were fabricated using 3D printing technology, and the mechanical behavior of such multilayer core corrugated sandwich panels under quasi-static three-point bending was investigated using experiments and numerical simulations. The effects of core shape and number of core layers on the bending deformation process, damage mode, load carrying capacity, and bending energy dissipation capacity of multilayer core sandwich panels are discussed. Parametric design of multilayer triangular core corrugated sandwich panels was also carried out by finite element software ABAQUS. It was found that a new multilayer corrugated sandwich panel with a multi-layer core is better than the single core shape multilayer corrugated sandwich panel in terms of bending load capacity, energy dissipation capacity and deformation capacity can be obtained through the combination design of different core shapes.

Published

2022

27. Ovalbumin and its Maillard reaction products ameliorate dextran sulfate sodium-induced colitis by mitigating the imbalance of gut microbiota and metabolites

Author

Qi Yang, Ting Li, Siwen Lyu, Huifang Ge, Meng Yang, Xuanting Liu, Jingbo Liu, Yiding Yu, and Ting Zhang

Subjects

Glycation End Products, Advanced, Ovalbumin, Colon, Dextran Sulfate, General Medicine, Colitis, Biochemistry, Gastrointestinal Microbiome, Mice, Inbred C57BL, Mice, Disease Models, Animal, Structural Biology, Animals, Molecular Biology

Abstract

The Maillard reaction reduces the gastrointestinal digestibility of ovalbumin (OVA) in vitro. However, the regulatory effects of OVA and its Maillard reaction products (MRPs) on gut microbiota disorders remain unknown. In this study, the influence of OVA and its MRPs on the modulation of gut microbiota in mice with dextran sulfate sodium (DSS)-induced colitis was investigated. The results revealed that OVA and its MRPs intake could alleviate the symptoms of colitis and improve the richness and diversity of the gut microbiota. Moreover, the results revealed that the Maillard reaction would block the release of lysine and essential amino acids in vivo, but they variously regulated the gut microbiota and the levels of short-chain fatty acids (SCFAs) due to their indigestible properties. These findings provide a basic theory for the rational utilization of OVA and its MRPs as nutraceutical food ingredients in regulating the gut microbiota for maintaining intestinal health.

Published

2022

28. Soybean meal peptides regulated membrane phase of giant unilamellar vesicles: A key role for bilayer amphipathic region localization

Author

Feng Jiang, Jingbo Liu, Zhiyang Du, Xuanting Liu, Xiaomin Shang, Yiding Yu, and Ting Zhang

Subjects

Membranes, Fabaceae, Soybeans, Peptides, Unilamellar Liposomes, Food Science

Abstract

Membrane phase separation forms liquid-ordered (Lo) and liquid-disordered (Ld) phases and is involved in cellular processes and functions. Our previous study has confirmed that peptides can regulate phase separation by increasing the Lo phase. However, the specific mechanisms underlying the phase separation regulation of peptides remain poorly understood. This study aimed to explore the effect of soybean meal peptides on phase separation and illustrate the correlation between phase regulation and membrane localization of the peptides. Phase separation was studied by giant unilamellar vesicles (GUVs), and membrane localization of the peptides was detected by steady-state fluorescence quenching. Our results revealed that peptides YYK, CLA, and SLW enhanced the Lo phase while WLQ decreased the Lo phase. The localization in the membrane amphiphilic region of the peptides played a crucial role in their regulation of phase separation. The more localization of the peptides (YYK, CLA, and SLW) in the membrane amphiphilic region, the stronger the capacity to increase the Lo phase.

Published

2022

29. A self-assembled amphiphilic polysaccharide-based co-delivery system for egg white derived peptides and curcumin with oral bioavailability enhancement

Author

Sitong Ma, Zhiyang Du, Yajuan Li, Xuanting Liu, Ting Zhang, Meng Yang, Chunmei Liu, Qi Yang, Hang Xiao, Jingbo Liu, and Boqun Liu

Subjects

Curcumin, Magnetic Resonance Spectroscopy, Drug Compounding, Administration, Oral, Biological Availability, Chitosan, Hydrophobic effect, Surface-Active Agents, chemistry.chemical_compound, Drug Delivery Systems, Egg White, Polysaccharides, Spectroscopy, Fourier Transform Infrared, Amphiphile, Humans, Solubility, Fourier transform infrared spectroscopy, Drug Carriers, Calorimetry, Differential Scanning, General Medicine, Bioavailability, chemistry, Chemical engineering, Peptides, Food Science, Egg white

Abstract

Egg white derived peptides (EWDP) and curcumin are well known for diverse biological activities, but the combinational usage of the two natural nutraceuticals is extremely limited by their low oral bioavailability and distinctly different polarities. Therefore, this study aimed to exploit a facile self-assembled amphiphilic system for oral co-delivery of hydrophilic egg white derived peptides (EWDP) and hydrophobic curcumin. The hydrophobic curcumin was first loaded into the hydrophobic cavity of β-cyclodextrin (β-CD) as a core. Then, the hydrophilic EWDP was absorbed into the region between the core and the N-[(2-hydroxy-3-trimethyl ammonium) propyl] chitosan (HTCC) shell to form the amphiphilic nanoparticles (NPs) via layer-by-layer self-assembly. The resulting NPs showed ideal oral applicability with excellent colloidal properties and encapsulation capacity for EWDP and curcumin at pH 2.0-7.0. X-ray Photoelectron Spectroscopy (XPS), Fourier transform infrared spectroscopy (FTIR), nuclear magnetic resonance (1H NMR), X-ray diffraction (XRD) and differential scanning calorimetry (DSC) results indicated that hydrogen bonding and hydrophobic interaction were the main driving force for the formation of amphiphilic NPs. Upon combination with HTCC, EWDP (both shell material and core nutraceuticals) could facilitate curcumin loading into the deeper β-CD cavity site with admirable solubility improvement. Moreover, EWDP and curcumin after co-delivery exhibited superior bioavailability (especially for bioactivity and cellular absorption) than the simple mixture and conventional curcumin inclusion complex. Overall, these findings are enlightening for the rational peptide based oral co-delivery system formulations for a broader range of hydrophilic and hydrophobic nutraceuticals (initially synergistic or not) in the food and related health-promoting fields.

Published

2021

30. Aggregation of egg white peptides (EWP) induced by proanthocyanidins: A promising fabrication strategy for EWP emulsion

Author

Hedi Wen, Zihao Li, Yuchen Li, Yanrui Hao, Zhiyang Du, Xuanting Liu, Xiaomin Shang, Jingbo Liu, and Ting Zhang

Subjects

Egg White, Egg Proteins, Emulsions, Proanthocyanidins, General Medicine, Peptides, Food Science, Analytical Chemistry

Abstract

Egg-white peptides (EWP,1 kDa) have been shown to possess various bioactive properties. However, poor emulsification of EWP limits its application in functional foods. In this study, EWP aggregation induced by proanthocyanidins (PC) contributed to the improvement of emulsion properties. The two-step binding process of PC-EWP-EWP was confirmed by isothermal titration calorimetry, fluorescence spectroscopy, surface hydrophobicity, and Fourier transform infrared spectroscopy. We found that first EWP combines with PC via hydrogen bonding and hydrophobic interactions. Next, more EWPs bind to the EWP in PC-EWP via hydrogen bonding, thereby forming PC-EWP-EWP aggregates. The aggregates (PC to EWP ratio of 1:4) reduced the surface tension (6 %) and improved the contact angle (53 %). The co-adsorption of EWP and aggregates at the O/W interface improved the contact angle, protein adsorption rate, and emulsion stability. This study establishes EWP aggregates induced by PC as an effective emulsifier, thereby expanding the application fields of EWP.

Published

2022

31. Cylindrical Bending of A Hardcover Book with Internal Friction

Author

Bohua Sun, Wen Dang, Xuanting Liu, and Xiao-Lin Guo

Subjects

applied_physics

Abstract

To have a better protection, strong toughness and good flexibility, all lives and plants must have skins, similarly, all books should have covers. In this paper, we follow in the footsteps of Poincloux et al. [Phy.Rev.Lett. 126, 218004 (2021)] and extend their centerline-based theory from books without covers to hardcover book with internal friction. Our investigations show that the hardcover are more essential than the core layers in terms of bending response as well as energy absorption. The central goal of studying the covered book is not only to predict the bending deformation of the books, but also as a representative case to help finding some clue on the universal behaviours of multilayered architectures with internal friction.

Published

2022

32. Oxidation-mediated structure and molecular interaction transformation of egg white protein: The underlying mechanism of functional properties and in vitro gastric digestibility improvement

Author

Ting Zhang, Ping Gong, Ying Wang, Hongyu Jiang, Min Zhang, Meng Yang, Zhiyang Du, Jingbo Liu, and Xuanting Liu

Subjects

Hydroxyl Radical, Egg Proteins, General Medicine, Amino Acids, Rheology, Oxidation-Reduction, Food Science, Analytical Chemistry

Abstract

In this paper, the effects of hydroxyl radical-induced oxidation on structural characteristics, molecular interaction, functional properties, especially in gastric digestibility of egg white protein (EWP) were investigated. Altogether, oxidation enhanced EWP foaming stability, accompanied with even and loose arrangement bubbles by high interfacial and rheological properties. Additionally, structure and morphology characterization of hydrolysates as well as digestion kinetics results indicated the oxidized EWP had greater digestion degree and rate to release more free amino acids, along with hydrolysates composed by smaller globules and fibers. Briefly, oxidation might improve EWP functional and gastric digestive properties by providing more flexible conformation and strengthening non-covalent interactions. This work might provide an enlightening insight for enhancing protein functional properties and the nutrition of EWP via prompting amino acids release for the healthy food design.

Published

2022

33. Network structure of response to freeze-thaw cycles in egg white protein gels filled with emulsion: Digestive kinetics regulated by the state of water and embedded oil

Author

Jingbo Liu, Renzhao Zhang, Hongyu Jiang, Zhaohui Yan, Yudan Zhang, Ting Zhang, and Xuanting Liu

Subjects

General Chemical Engineering, General Chemistry, Food Science

Published

2023

34. Contextual Fear Learning and Extinction in the Primary Visual Cortex of Mice

Author

Xiaoke Xie, Shangyue Gong, Ning Sun, Jiazhu Zhu, Xiaobin Xu, Yongxian Xu, Xiaojing Li, Zhenhong Du, Xuanting Liu, Jianmin Zhang, Wei Gong, and Ke Si

Subjects

Physiology, General Neuroscience, General Medicine

Abstract

Fear memory contextualization is critical for selecting adaptive behavior to survive. Contextual fear conditioning (CFC) is a classical model for elucidating related underlying neuronal circuits. The primary visual cortex (V1) is the primary cortical region for contextual visual inputs, but its role in CFC is poorly understood. Here, our experiments demonstrated that bilateral inactivation of V1 in mice impaired CFC retrieval, and both CFC learning and extinction increased the turnover rate of axonal boutons in V1. The frequency of neuronal Ca

Published

2021

35. Numerical Simulation Study of ground surface subsidence caused by filling mining on surface buildings and facilities in a mining area: a case study

Author

Xuanting Liu, Xiumin Liu, Congxin Chen, and Qing Tan

Abstract

The filling mining method is planned to be adopted in Chentaigou Iron Mine. There are many significant buildings and facilities in the mining area, making it necessary to evaluate the influences of underground mining on the surface buildings and facilities. The main purpose of this research was to evaluate the extent of the surface subsidence basin and the degree of damage of buildings and facilities after filling mining by numerical simulation. To this end, a three-dimensional numerical model of the whole mining area was established. Secondly, a Discrete Fracture Network (DFN) in 3DEC numerical simulation software was adopted to obtain the strength parameters of each representative elemental volume (REV). Furthermore, FLAC3D numerical simulation software was utilized to evaluate the range of influence of the surface subsidence basin after filling mining. Finally, the maximum major principal strain on the surface was calculated. The results show that the surface subsidence basin of underground mining in this iron mine undergoes slow expansion then rapid expansion. Expansion of the surface subsidence basin is restricted by fault F1. After the mining orebody, the maximum major principal strain of surface meets design requirements, and the surface buildings and facilities are deemed safe.

Published

2022

36. Relationship of co-gelation and co-aggregation on egg white ovalbumin-lysozyme heteroprotein complex: Formation and thermodynamics

Author

Jingbo Liu, Hongyu Jiang, Min Zhang, Meng Yang, Ting Zhang, Zhiyang Du, Menglei Xu, and Xuanting Liu

Subjects

Molecular Docking Simulation, Egg White, Ovalbumin, Thermodynamics, Muramidase, General Medicine, Antiviral Agents, Gels, Food Science, Analytical Chemistry

Abstract

This study aimed to establish binary protein system on egg white ovalbumin (OVA) -lysozyme (LYS), and investigated the relationship between co-aggregation and co-gelation. We focused on the formation of OVA-LYS complex, the typical thermo-dynamically favored coacervation process, in terms of gelling properties, microstructure and thermodynamics. Benefited from synergistic effects during co-gelation, the thermally induced gels of OVA-LYS complex formed at extremely low protein concentration (18 mg/mL) and showed higher storage modulus with increasing LYS concentration. Moreover, the rising particle size, reduced zeta potential, unordered secondary structure and strengthened protein chain were observed with the addition of LYS. Remarkably, the divalent ions enhanced thermodynamic stability of OVA-LYS complex, although the growth of aggregates units were prevented by ions at room temperature. ITC and molecular docking analyses revealed the binding affinity stoichiometry and combination phase, which were closely related to the decrease of minimum energy resulted from the formation of hydrogen bond.

Published

2021

37. Stability of oil-in-water emulsions improved by ovalbumin-procyanidins mixture: A promising substrate with emulsifying and antioxidant activity

Author

Hedi Wen, Zhenzhen Ning, Jinming Li, Yu Guan, Biying Zhang, Xiaomin Shang, Xuanting Liu, Zhiyang Du, Jingbo Liu, and Ting Zhang

Subjects

Molecular Docking Simulation, Colloid and Surface Chemistry, Ovalbumin, Spectroscopy, Fourier Transform Infrared, Water, Emulsions, Proanthocyanidins, Surfaces and Interfaces, General Medicine, Physical and Theoretical Chemistry, Antioxidants, Biotechnology

Abstract

The aim of this study is to develop a dual-functional ingredient with antioxidant activity and emulsification. The emulsion stability of ovalbumin (OVA) was improved by procyanidins (PC). The interactions between OVA and PC were investigated using multi-spectroscopy and molecular docking. Furthermore, the effect of the addition of the OVA-PC mixture on emulsion stability was evaluated as well. The fluorescence results showed that the quenching mechanism of PC to OVA's endogenous fluorescence was static quenching, and the binding ratio of OVA and PC was 1:1. Circular dichroism (CD) and Fourier Transform Infrared Spectrometer (FT-IR) showed that the addition of PC promoted the unfolding of OVA, and transformed the secondary structure of OVA from α-helix to β-sheet. The main driving force of OVA and PC was hydrogen bonding, according to molecular docking analysis. Among all the samples, the stability of the emulsion of OVA-PC at a ratio of 1:30 exhibited extremely high stability and the smallest particle size. In comparison with individual OVA emulsions, the OVA-PC emulsions had excellent physical stabilities. Meanwhile, the oxidation degree of protein and oil for the OVA-PC emulsions was lower than that of the native OVA emulsion after 8-day storage. Our work provides important insights for understanding the interaction between OVA and expanding the application of OVA-PC.

Published

2021

38. Ions-regulated aggregation kinetics for egg white protein: A promising formulation with controlled gelation and rheological properties

Author

Jingbo Liu, Hongyu Jiang, Min Zhang, Ping Gong, Meng Yang, Ting Zhang, and Xuanting Liu

Subjects

Structural Biology, Egg Proteins, General Medicine, Molecular Biology, Biochemistry

Abstract

This study aims to evaluate the structure of ions-regulated gelation of egg white protein (EWP) via aggregation kinetics model, which was built by monitoring turbidity. Results showed that compared with NaCl and KCl, the addition of Na

Published

2021

39. Effect of soy lecithin concentration on physiochemical properties and rehydration behavior of egg white protein powder: Role of dry and wet mixing

Author

Ting Zhang, Yi Yang, Min Zhang, Hongyu Jiang, Zhaohui Yan, Jingbo Liu, and Xuanting Liu

Subjects

Food Science

Published

2022

40. The Synaptic Vesicle Protein 2A Interacts With Key Pathogenic Factors in Alzheimer’s Disease: Implications for Treatment

Author

Fang Xie, Shibo Zhang, Jiao Wang, Ruiqing Ni, Lin Huang, Weiyan Zhou, Weihao Li, Xuanting Liu, Yinping Zhou, Cuiping Liu, Chencheng Zhang, Yanyan Kong, Donglang Jiang, Bomin Sun, Zhang Zhengwei, and Yihui Guan

Subjects

0301 basic medicine, Apolipoprotein E, QH301-705.5, Alzheimer's disease, Neurodegeneration, Synaptic vesicle protein 2A, Tau, Aβ, PI3K signaling pathway, Tau protein, Biology, Synaptic vesicle, 03 medical and health sciences, Cell and Developmental Biology, 0302 clinical medicine, Downregulation and upregulation, medicine, Amyloid precursor protein, Biology (General), SV2A, Original Research, Cell Biology, medicine.disease, Cell biology, 030104 developmental biology, biology.protein, Signal transduction, Alzheimer’s disease, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Alzheimer’s disease (AD), a serious neurodegenerative disease, is pathologically characterized by synaptic loss and dysfunction. Synaptic vesicle protein 2A (SV2A) is an indispensable vesicular protein specifically expressed in synapses and can be used as a biomarker for synaptic density. We found that the expression of SV2A was down-regulated in the hippocampus of AD patients, yet the relation of SV2A to other hallmarks of AD pathology such as amyloid precursor protein (APP), β-amyloid (Aβ), and Tau protein is not thoroughly clear. In addition, SV2A colocalized with APP and was down-regulated at Aβ deposition. Moreover, we found that SV2A deficiency leads to a simultaneous increase in Aβ and Tau hyperphosphorylation, while SV2A overexpression was associated with downregulation of β-site APP cleaving enzyme 1 and apolipoprotein E genes. In addition, evidence gained in the study points to the phosphatidylinositol 3-kinase signaling pathway as a possible mediator in SV2A regulation influencing the incidence and development of AD. With limited effective diagnostic methods for AD, a close interplay between SV2A and AD-related proteins demonstrated in our study may provide novel and innovative diagnostic and therapeutic opportunities., Frontiers in Cell and Developmental Biology, 9, ISSN:2296-634X

Published

2021

41. Electron beam irradiation-induced structural changes increase the antioxidant activities of egg white protein

Author

Xuanting Liu, Shuo Han, Boqun Liu, Ting Zhang, Wenqi Zhang, and Jingbo Liu

Subjects

0106 biological sciences, ABTS, Antioxidant, Chemistry, medicine.medical_treatment, 04 agricultural and veterinary sciences, 040401 food science, 01 natural sciences, Electron beam irradiation, chemistry.chemical_compound, 0404 agricultural biotechnology, Protein structure, 010608 biotechnology, medicine, Food science, Scavenging, Food Science, Egg white

Abstract

Electron beam irradiation (EBI) is a widely applied non-thermal technology for food processing. To investigate the influence of EBI on the antioxidant activities and the structure of proteins, we treated egg white protein (EWP) with EBI and tracked the changes in antioxidant activities as well as in the structure of EWP. The ABTS+ free radical scavenging rate significantly increased from 30.16 ± 1.45% to 49.48 ± 1.53% (P

Published

2019

42. Ultrasound-assisted Maillard reaction of ovalbumin/xylose: The enhancement of functional properties and its mechanism

Author

Boqun Liu, Meng Yang, Chen Wei, Jingbo Liu, Qi Yang, Xuanting Liu, Ting Zhang, and Zhiyang Du

Subjects

Circular dichroism, Structure characteristics, Hot Temperature, Acoustics and Ultrasonics, Ovalbumin, Surface Properties, QC221-246, 02 engineering and technology, Xylose, 010402 general chemistry, Microscopy, Atomic Force, 01 natural sciences, Inorganic Chemistry, chemistry.chemical_compound, symbols.namesake, Glycation, Ultrasound, Chemical Engineering (miscellaneous), Environmental Chemistry, Radiology, Nuclear Medicine and imaging, Original Research Article, Particle Size, QD1-999, biology, business.industry, Circular Dichroism, Organic Chemistry, Acoustics. Sound, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Maillard Reaction, Maillard reaction, Chemistry, Glucose, chemistry, Ultrasonic Waves, biology.protein, symbols, Biophysics, Ultrasonic sensor, Emulsions, Particle size, 0210 nano-technology, business, Hydrophobic and Hydrophilic Interactions

Abstract

Highlights • Foaming and emulsifying properties are linear correlated with glycation degree. • Ultrasound treatment enhanced glycation degree and surface properties of conjugates. • Ultrasound promoted the conversion of α-helices to β-sheets and unfolded structures. • Ultrasound induced the formation of amyloid-like fibrils of conjugates., This study aims to optimize the ultrasound treatment conditions for enhancing the degree of glycation (DG) of ovalbumin (OVA)-xylose conjugates through Maillard reaction and investigate the correlation between DG and functional properties affected by structural changes. The structural and functional properties of classical heating OVA, glycated OVA, ultrasonic treated OVA, and ultrasound-assisted glycated OVA were investigated to explore the interaction mechanism of ultrasound treatment on foaming and emulsifying properties improvement. Results indicated that the ultrasound assistance increased free sulfhydryl content, surface hydrophobicity and particle size of OVA-xylose conjugates, and thus enhancing the surface properties, which were strongly linear correlated with DG under different glycation parameters (pH, xylose/OVA ratio, heating time). Additionally, circular dichroism spectroscopy analysis revealed that ultrasound promoted the conversion of α-helices to β-sheets and unfolded structures, which was consistent with the formation of short amyloid-like aggregates that observed by atomic force microscopy phenomenon. Overall, our study provides new insights into the effects of ultrasound treatment on Maillard-induced protein functional properties enhancement, which may be a new strategy to tune the DG and functionality of protein-saccharide grafts during ultrasound processing.

Published

2021

43. Characterization of the Structure and Wear Resistance of Ni65-Based Coatings via HVOF Flame Spraying and Its Application to Potato Digging Shovels

Author

Jiangtao Yu, Zihe Xu, Shuo Wang, Xuanting Liu, Hongyan Qi, and Yunhai Ma

Subjects

Ni65-based coating, rare earth oxides, High-Velocity Oxygen-Fuel flame spraying, laser surface texturing, tribological properties, potato digging shovel, Materials Chemistry, Surfaces and Interfaces, Surfaces, Coatings and Films

Abstract

To improve the tribological properties of a potato digging shovel (PDS), Ni65-based coatings with rare earth oxides additions were fabricated on 65Mn# steel via High-Velocity Oxygen-Fuel (HVOF) flame spraying, the effect of macroscopic surface shape of PDSs on their wear resistance of PDSs was examined, and finally a kind of PDS with a specific macroscopic surface shape and satisfied wear resistance was obtained. The addition of CeO2 and Y2O3 decreased the defects in coatings, refined the microstructure, made hard phases distributed more uniformly and ultimately improved coating properties. According to the XRD analysis results, the Ni65-based coatings were composed of the matrix phase γ-Ni and hard phases formed by Cr, Fe and Ni with B, C and Si. More Cr7C3 phases were detected in coating B than in coating A, but the phases related to Y and Ce were also not detected because of the low content in both EDS and XRD analyses. Heat treatment and HVOF flame sprayed coatings both increased the hardness of specimens, and coating A (621HV1.0) provided a hardness nearly equivalent to that of the heat treatment specimens (617HV1.0), while coating B provided the highest hardness (664HV1.0). For all specimens, laser surface texturing (LST) structures weakened their corrosion resistance. However, the Ni65-based self-fluxing alloy coatings significantly improved the corrosion resistance of specimens, and coating B provided the best corrosion resistance. SEM images show that the main wear mechanism for worn specimens was abrasive wear, and less wear signs were observed on the surface of coating B. Abrasive wear examinations indicate that specimen BJ had the best wear resistance and, compared with specimen W, the mass loss of specimen BJ decreased by 28.56% and 20.83% at relative sliding speeds of 2.35 m/s and 3.02 m/s, respectively. However, considering the negative effect of LST structures on the corrosion resistance of specimens, the processing techniques of specimen A and specimen B are more applicable to PDSs. The macroscopic surface shapes affected the wear resistance of PDSs and ZF had the lowest mass loss but the highest draught force; comparatively, YS had a better balance on the draught force reduction and wear resistance. Finally, YS with coating B, which decreased the mass loss by more than 27.17%, is recommended in this paper. On the whole, the conclusions in this paper provide a reference for the design of potato digging shovels with lower draught force and better tribological properties.

Published

2022

44. Effect of glycation degree on the structure and digestion properties of ovalbumin: A study of amino acids and peptides release after in vitro gastrointestinal simulated digestion

Author

Jingbo Liu, Ting Zhang, Meng Yang, siwen lyu, Boqun Liu, Xuanting Liu, Qi Yang, and Ying Wang

Subjects

chemistry.chemical_classification, Glycosylation, biology, Ovalbumin, Lysine, Peptide, General Medicine, Trypsin, Analytical Chemistry, Amino acid, Protein structure, chemistry, Biochemistry, Glycation, medicine, biology.protein, Animals, Digestion, Amino Acids, Peptides, Food Science, medicine.drug

Abstract

Glycation can improve the functional properties of protein. However, in vitro and animal studies have shown that glycation induced lysine blockage and impaired protein digestibility. This study aimed to explore the effects of different glycation degree on the structure and digestive characteristics of ovalbumin. The results showed that glycation decreased the turbidity and hydrophobicity of the protein and changed the protein structure. Moreover, the results of in vitro simulated digestion revealed that glycation reduced the contents of essential amino acids and total amino acids after digestion. Glycation changed the amino acids and peptides release from the protein by resisting the digestion of digestive enzymes, especially trypsin. In conclusion, this work links glycation, protein digestibility, and the release of amino acids and peptides. This emphasizes the importance of the balance between improving properties and ensuring the digestibility of proteins during food processing.

Published

2022

45. Ions-induced ovalbumin foaming properties enhancement: Structural, rheological, and molecular aggregation mechanism

Author

Ting Zhang, Hongyu Jiang, Jingbo Liu, Min Zhang, Ping Gong, and Xuanting Liu

Subjects

chemistry.chemical_classification, biology, General Chemical Engineering, Intermolecular force, General Chemistry, Salt bridge (protein and supramolecular), Divalent, Hydrophobic effect, Ovalbumin, Adsorption, chemistry, Rheology, Chemical engineering, biology.protein, Food Science, Homogenization (biology)

Abstract

This study aims to evaluate monovalent (Na+) and divalent (Mg2+) ions regulated ovalbumin (OVA) foaming properties enhancement via the change of protein structural and interfacial properties. The macro and microscopic photographs of samples after homogenization 0 min and 30 min were recorded. Results showed that foaming capacity (FC) significantly increased from 59.44 ± 16.69% to 136.67 ± 11.55% (NaCl) and 117.22 ± 5.36% (MgCl2). Accordingly, viscosity and surface intension reduced, whereas the amount of OVA adsorption increased, which suggested that ions could promote adsorption of OVA to air-water interface and further improve the foaming properties. Analogously, surface hydrophobicity (H0) increased, which revealed that the improvement of hydrophobic interactions of OVA. Besides, the β-sheet content increased, which indicated larger aggregates formed. Noteworthy, from the results of the interfacial adsorption amount and microscopic photographs, the foaming stability (FS) of samples with divalent ions was better, which could be hypothesized that protein intermolecular interactions via salt bridge may be stronger, while monovalent ions interacted with protein by nonspecific bond. Overall, our study provides a convenient approach of ions regulated structural and foaming properties of OVA, which may be a new strategy in improving the protein interfacial properties in food processing industry.

Published

2022

46. The Synaptic Vesicle Protein 2a Interacts With Key Pathogenic Factors in Alzheimer’s Disease: Implications for Treatment

Author

Yanyan Kong, Lin Huang, Xuanting Liu, Yinping Zhou, Cuipin Liu, Chencheng Zhang, Bomin Sun, Jiao Wang, and Yihui Guan

Abstract

Background:Alzheimer’s Disease(AD), a serious neurodegenerative disease,is pathologicallycharacterized by synaptic loss and dysfunction.Synaptic vesicle protein 2A (SV2A) is an indispensable vesicular protein specifically expressed in synapses and can be used as a biomarker for synaptic density. Nevertheless, the involvement of SV2A in the pathogenesis and development of ADand its relation to other hallmarks of AD pathology, such as amyloid precursor protein (APP), β-amyloid (Aβ), and tau protein are not fully understood.Methods:We first examined and compared the mRNA levels of SV2A in the hippocampus of AD patients and non-AD subject in the Allen Brain database,thenwe constructed SV2A knockout mouse model.Using PET imagingwe compared the expression of Aβ in SV2A knockout mice and WT mice, analyze the relationship between SV2A and AD related proteins by quantitative real-time polymerase chain reaction (PCR), western blotting and ELISA.Results:Our results showed thatthe expression of SV2A was downregulated in the hippocampus of AD patients.In addition,SV2A colocalized with APPandwas downregulated at Aβ deposition. Moreover, we used APPswe293T cells lines to either silence or overexpress SV2A and found that SV2A deficiency leads to a simultaneous increase in Aβand Tau hyperphosphorylation,whileSV2A overexpression was associated with down-regulation of BACE1 and APOE. In addition, evidence gained in the study points PI3K signaling pathway as a possible mediator in SV2A regulation influencing the incidence and development of AD. Conclusions:Our research demonstrated that SV2A is an important regulator of AD, close interplay between SV2A and AD related proteins demonstrated in our studyprovide novel diagnostic and therapeutic opportunities of AD. This study provides guidelines and information regarding the mechanism of SV2A influence in the regulation of AD and possible future research of neurological diseases.

Published

2020

47. Lipid oxidation induced egg white protein foaming properties enhancement: The mechanism study revealed by high resolution mass spectrometry

Author

Ting Zhang, Xuanting Liu, Hongyu Jiang, Meng Yang, Jingbo Liu, Ping Gong, Ying Wang, and Min Zhang

Subjects

chemistry.chemical_classification, biology, Chemistry, Atomic force microscopy, Egg Proteins, Ovotransferrin, Lipid Metabolism, Lipids, Mass Spectrometry, Amino acid, chemistry.chemical_compound, Lipid oxidation, Chemical engineering, Negative charge, biology.protein, Lysozyme, Hydrophobic and Hydrophilic Interactions, Food Science, Egg white

Abstract

Lipid oxidation often occurs during egg white protein (EWP) storage and processing periods. Here, 2,2′-azobis (2-amidinopropane) dihydrochloride (AAPH) was performed to simulate lipid oxidation to probe the oxidation effects on foaming and structural properties of EWP. Results indicated that EWP structure became unfolding and flexible after oxidation, resulting in more hydrophobic groups and negative charge exposed and soluble aggregates formed, which revealed by the results of DLS and AFM. Additionally, high resolution mass spectrometry results evidenced that ovotransferrin and lysozyme trended to be new oxidation targets with the AAPH concentration increasing, and the oxidation sites inside lysozyme proved that EWP unfolding and exposure of internal hydrophobic amino acids, which were related to the enhancement of EWP foaming properties. Overall, our study provided a further analysis of the lipid induced oxidation of EWP, which may contribute to provide a more accurate strategy for enhancing protein foaming properties in food industry.

Published

2022

48. The influence of interface on the structural stability in 3D concrete printing processes

Author

Bohua Sun and Xuanting Liu

Subjects

Rapid manufacturing, Materials science, Interface (Java), Biomedical Engineering, Process (computing), Mechanical engineering, Stability (probability), Industrial and Manufacturing Engineering, Buckling, Structural stability, Cylinder, General Materials Science, Engineering (miscellaneous), Failure mode and effects analysis

Abstract

Due to its advantages in rapid manufacturing, Three-dimensional concrete printing (3DCP) technology has developed rapidly in the past several decades. However, there are still many problems to be solved in the printing process. For example, many 3DCP structures failed during printing processes due to stability problems. There are still various shortcomings in the current stability research, among which the most significant is the inability to accurately predict the printing failure height. In this paper, a numerical model is established to predict the buckling failure of a 3DCP cylinder under its dead weight, and the effect of the interfacial area on the structural stability is analyzed. The results showed that the concept of the interfacial area solves the problem that the failure height predicted by the simulation is not consistent with experiments. Second, more detailed 3DCP structural behaviors are discussed, including the influence of the layer cross-sectional geometry on the stability, the influence of the structural deformation on the print path, and the development of the failure mode. Finally, the influences of the relevant printing parameters on the structural stability are evaluated. The results indicate that the interface is an important index that should be used to evaluate the structural stability in 3D concrete printing processes.

Published

2021

49. Effect of glycation degree on the in vitro simulated gastrointestinal digestion: A promising formulation for egg white gel with controlled digestibility

Author

Xiaohan Yang, Xuanting Liu, Boqun Liu, Ting Zhang, Yiding Yu, Jingbo Liu, Shoulu Li, Zhiyang Du, Meng Yang, Sitong Ma, and Chuang Li

Subjects

Glycosylation, Proteolysis, Lysine, 01 natural sciences, Analytical Chemistry, chemistry.chemical_compound, 0404 agricultural biotechnology, Egg White, Glycation, Ribose, medicine, Food science, chemistry.chemical_classification, biology, medicine.diagnostic_test, Chemistry, 010401 analytical chemistry, 04 agricultural and veterinary sciences, General Medicine, Ovotransferrin, 040401 food science, 0104 chemical sciences, Amino acid, Covalent bond, biology.protein, Digestion, Peptides, Gels, Food Science, Egg white

Abstract

The mechanism between food gelation and its digestibility has attracted increasing attention over the past few decades. This study aimed to evaluate the effect of glycation degree on the gelation and digestibility of egg white gel (EWG) using an in vitro model and a multi-scale characterization of gel structure. Results showed that EWG glycated with increasing d -ribose by covalent bonds exhibited better gelling properties and lower in vitro digestibility according to the appearance of soluble proteins and peptides. Besides, glycation preference for ovotransferrin at lysine might be important for regulating gel structure and proteolysis accessibility via the ratio of fibrous and granular aggregates. Moreover, gel structure was predominant over amino acids modification for digestibility. Binding disorder and steric hindrance could ascribe to the lower digestibility of gels. These findings are enlightening for the formulation and production of food matrix with controlled digestibility through glycation in food and related pharmaceutical fields.

Published

2021

50. Effect of the degree of glycation on the stability and aggregation of bovine serum albumin

Author

Xuanting Liu, Boqun Liu, Jingbo Liu, Meiru Chen, Robin Pearce, Ting Zhang, and Wenqi Zhang

Subjects

010304 chemical physics, biology, General Chemical Engineering, Low dose, 04 agricultural and veterinary sciences, General Chemistry, Xylose, 040401 food science, 01 natural sciences, chemistry.chemical_compound, Maillard reaction, symbols.namesake, 0404 agricultural biotechnology, Protein stability, chemistry, Biochemistry, Glycation, 0103 physical sciences, High doses, biology.protein, symbols, Bovine serum albumin, Food Science

Abstract

We report the wet-state glycation of Bovine Serum Albumin (BSA) with xylose through the Maillard reaction and its effect on protein aggregations during heat treatment. Using low doses of xylose, glycation stabilized the conformations of BSA and reduced the formation of large aggregates during heat treatment. However, using high doses of xylose, glycation promoted the conversion of α-helices to unfolded structures and β-sheets, and induced the formation of short amyloid-like aggregates after heat treatment. Using high-resolution mass spectrometry, three possible glycation sites were determined on BSA treated with low dose of xylose, while six glycations sites were detected when high doses of xylose were used instead. Considering the importance of glycation to the food industry, this work not only provides new insights into the nonlinear effects of glycation on protein stability, but also provides a strategy to tune the nutritional value and functionality of proteins during food processing.

Published

2020