Search

Your search keyword '"Ming-Li Chen"' showing total 207 results
Start Over Author "Ming-Li Chen" Language undetermined
207 results on '"Ming-Li Chen"'

5. Insights into Surface Charge of Single Particles at the Orifice of a Nanopipette

Author

Tienan Gao, Cong Xu, Ming-Li Chen, Jian-Hua Wang, Lanqun Mao, and Ping Yu

Subjects
Surface Properties, Nanoparticles, Gold, Silicon Dioxide, Analytical Chemistry
Abstract

The dynamic behaviors of particles in various physical fields are related to the physicochemical properties of particles. Herein, we focus on the relationship between surface charge and dynamic behaviors of particles at the orifice of a nanopipette. We interestingly find that angle θ, a parameter related to the asymmetric degree of current spike, exhibits a strong relationship with surface charge of the particles. Both theoretical derivation and finite element simulation validate this relationship and thus could be used for quantifying the surface charge of single particles. Moreover, the gold and silica nanoparticles with the same size but different surface charges could be well distinguished and identified based on this relationship. This study not only gives a comprehensive understanding on the dynamic behaviors of particles outside the nanopipette but also opens a new way for investigating the surface charge of single particles.

Published
2022

6. A modular single-cell pipette microfluidic chip coupling to ETAAS and ICP-MS for single cell analysis

Author

Xuan Zhang, Meng Yang, Jinhui Liu, Ming-Li Chen, Jian-Hua Wang, Xing Wei, and Ze Jiang

Subjects
Coupling, Materials science, Microscope, business.industry, Pipette, General Chemistry, Modular design, law.invention, Single-cell analysis, Sampling (signal processing), Quantum dot, law, Optoelectronics, business, Inductively coupled plasma mass spectrometry
Abstract

Accurate single-cell capture is a crucial step for single cell biological and chemical analysis. Conventional single-cell capturing often confront operational complexity, limited efficiency, cell damage, large scale but low accuracy, incompetence in the acquirement of nano-upgraded single-cell liquid. Flow cytometry has been widely used in large-scale single-cell detection, while precise single-cell isolation relies on both a precision operating platform and a microscope, which is not only extremely inefficient, but also not conducive to couple with modern analytical instruments. Herein, we develop a modular single-cell pipette (mSCP) microfluidic chip with high efficiency and strong applicability for accurate direct capture of single viable cell from cell suspensions into nanoliter droplets (30−1000 nL). The mSCP is used as a sampling platform for the detection of CdTe quantum dots in single cells with electrothermal atomic absorption spectrometry (ETAAS) for the first time. It also ensures precise single-cell sampling and detection by inductively coupled plasma mass spectrometry (ICP-MS).

Published
2022

7. Novel thiol-functionalized covalent organic framework-enabled ICP-MS measurement of ultra-trace metals in complex matrices

Author

Jiping Ma, Li Yutong, Jian-Hua Wang, Xiao-Xuan Han, Ming-Li Chen, Cheng Jiawen, Ting Yang, and Yong Tian

Subjects
chemistry.chemical_compound, Schiff base, chemistry, Tap water, Covalent bond, Inorganic chemistry, Sewage treatment, Seawater, Inductively coupled plasma mass spectrometry, Effluent, Spectroscopy, Analytical Chemistry, Covalent organic framework
Abstract

The measurement of ultra-trace level of heavy metals in complex metrics is of great concern and challenge in life and environmental science. Herein, a novel thiol-functionalized covalent organic framework (COF) was prepared and achieved quantitative preconcentration of trace heavy metals in environmental water samples. The material was synthetized by two-step reactions, including a Schiff base reaction between 1,3,5-triformylphloroglucinol (Tp) and 2,5-divinyl-p-phenylenediamine (DvPa) to form preliminary COF (TpDvPa), and a thiol-ene “click” reaction between 1,2-ethanedithiol and the vinyl groups of TpDvPa to produce thiol-functionalized TpDvPa (TpDvPa-S-SH). By packing the material into a home-made SPE micro-column, and hyphenating the micro-column with inductively coupled plasma mass spectrometry (ICP-MS), trace level of Co2+, Ni2+ and Cd2+ in environmental waters could be successfully preconcentrated and measured, with LODs of 1.46, 1.38 and 0.10 ng L-1, respectively. The precisions were all less than 2.7%,with linear ranges extended from 5 to 1000 ng L-1. The proposed method was validated by the analysis of the certificated reference material (GBW08608), and measurement of Co2+, Ni2+ and Cd2+ in tap water, reservoir water, effluent of wastewater treatment plant and sea water, confirming the accuracy and feasibility of the method.

Published
2022

8. Aggregation-induced emission luminogens for highly effective microwave dynamic therapy

Author

Brian Bui, Wirya Feizi, Wei Xiong, Aseem Atul Athavale, Wei Chen, Ming-Li Chen, Lingyun Wang, Jian Yang, Lloyd Lumata, Eric Amador, Christina Xing, Nil Kanatha Pandey, and Yaowu Hao

Subjects
AIEgens, QH301-705.5, medicine.medical_treatment, 0206 medical engineering, Biomedical Engineering, Photodynamic therapy, 02 engineering and technology, Article, Biomaterials, Microwave ablation, chemistry.chemical_compound, medicine, Irradiation, Biology (General), Microwaves, Materials of engineering and construction. Mechanics of materials, chemistry.chemical_classification, Reactive oxygen species, Singlet oxygen, Chemistry, 021001 nanoscience & nanotechnology, 020601 biomedical engineering, Cancer treatment, Cancer cell, TA401-492, Biophysics, 0210 nano-technology, Microwave, Biotechnology
Abstract

Aggregation-induced emission luminogens (AIEgens) exhibit efficient cytotoxic reactive oxygen species (ROS) generation capability and unique light-up features in the aggregated state, which have been well explored in image-guided photodynamic therapy (PDT). However, the limited penetration depth of light in tissue severely hinders AIEgens as a candidate for primary or adjunctive therapy for clinical applications. Coincidentally, microwaves (MWs) show a distinct advantage for deeper penetration depth in tissues than light. Herein, for the first time, we report AIEgen-mediated microwave dynamic therapy (MWDT) for cancer treatment. We found that two AIEgens (TPEPy-I and TPEPy-PF6) served as a new type of microwave (MW) sensitizers to produce ROS, including singlet oxygen (1O2), resulting in efficient destructions of cancer cells. The results of 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) and live/dead assays reveal that the two AIEgens when activated by MW irradiation can effectively kill cancer cells with average IC-50 values of 2.73 and 3.22 μM, respectively. Overall, the ability of the two AIEgens to be activated by MW not only overcomes the limitations of conventional PDT, but also helps to improve existing MW ablation therapy by reducing the MW dose required to achieve the same therapeutic outcome, thus reducing the occurrence of side-effects of MW radiation., Graphical abstract Image 1, Highlights • For the first time, microwave-induced photodynamic therapy using AIEgens is reported. • The AIEgens showed significant cytotoxicity when excited by microwave toward HeLa cells. • AIEgens are promising candidates for image-guided microwave dynamic therapy. • This novel work opens a new door for AIEgens applications.

Published
2022

9. Dual-Multivalent-Aptamer-Conjugated Nanoprobes for Superefficient Discerning of Single Circulating Tumor Cells in a Microfluidic Chip with Inductively Coupled Plasma Mass Spectrometry Detection

Author

Wei-Tao Li, Ming-Li Chen, Jun-Jie Bai, Chengxin Wu, Xue Men, Ting Yang, Xuan Zhang, Xing Wei, and Jian-Hua Wang

Subjects
Materials science, Aptamer, Microfluidics, Immobilized Nucleic Acids, Metal Nanoparticles, Nanoprobe, Cell Separation, Conjugated system, Mass Spectrometry, Circulating tumor cell, Biomimetic Materials, Cell Line, Tumor, Lab-On-A-Chip Devices, Humans, General Materials Science, Multiplex, Inductively coupled plasma mass spectrometry, Receptor Protein-Tyrosine Kinases, Aptamers, Nucleotide, Microfluidic Analytical Techniques, Epithelial Cell Adhesion Molecule, Neoplastic Cells, Circulating, Microfluidic chip, Biophysics, Gold, Cell Adhesion Molecules
Abstract

The efficient recognition of circulating tumor cells (CTCs) with an aptamer probe confers numerous benefits; however, the stability and binding affinity of aptamers are significantly hampered in real biological sample matrices. Inspired by the efficient preying mechanism by multiplex tubing feet and endoskeletons of sea urchins, we engineered a superefficient biomimetic single-CTC recognition platform by conjugating dual-multivalent-aptamers (DMAs) Sgc8 and SYL3C onto AuNPs to form a sea urchin-like nanoprobe (sea urchin-DMA-AuNPs). Aptamers Sgc8 and SYL3C selectively bind with the biomarker proteins PTK7 and EpCAM expressed on the surface of CTCs. CTCs were captured with 100% efficiency, followed by sorting on a specially designed multifunctional microfluidic configuration, integrating a single-CTC separation unit and a hydrodynamic filtrating purification unit. After sorting, background-free analysis of biomarker proteins in single CTCs was undertaken with inductively coupled plasma mass spectrometry by measuring the amount of 197Au isotope in sea urchin-DMA-AuNPs. With respect to a single-aptamer nanoprobe/-interface, the dual-aptamer nanoprobe improves the binding efficiency by more than 200% (Kd < 0.35 nM). The microchip facilitates the recognition of single CTCs with a sorting separation rate of 93.6% at a flow rate of 60 μL min-1, and it exhibits 73.8 ± 5.0% measurement efficiency for single CTCs. The present strategy ensures the manipulation and detection of a single CTC in 100 μL of whole blood within 1 h.

Published
2021

10. Intolerance of profligacy: an aptamer concentration gradient-tailored unicellular array for high-throughput biologics-mediated phenotyping

Author

Xuan Zhang, Ya-Nan Zhao, Xing Wei, Xue Men, Cheng-Xin Wu, Jun-Jie Bai, Ting Yang, Ming-Li Chen, and Jian-Hua Wang

Subjects
Biological Products, Liver Neoplasms, Biomedical Engineering, Tumor Microenvironment, Humans, Bioengineering, General Chemistry, Aptamers, Nucleotide, Cisplatin, Biochemistry
Abstract

In aptamer-based assay schemes, aptamer probes not labeled with biomarkers have to be eliminated before testing, which may lead to a tremendous waste of precious probes. We herein propose a microfluidics system integrating an aptamer concentration gradient generator (Apt-CGG) and a dual single-cell culturing array (D-SCA), termed Mi-Apt-SCA. This facilitates the precise construction of a nanoscale-gradient microenvironment and the high-throughput profiling of single-cell growth/phenotypesiin situ/iwith the minimal consumption of Apt-probe. Unlike previous snakelike mixers, the choreographed winding-ravined aptamer dual-spiral micromixer (Apt-WD-mixer) in Apt-CGG could allow thorough blending to generate linear concentration gradients of aptamer (quasi-non-Newtonian fluid) under the action of continuous fluidic wiggles and bidirectionaliDean/iflow. In contrast to other trap-like systems, the mild vortex allows single-cell growth in an ultra-tender fluidic microenvironment using triple-jarless single-cell culture capsules (TriJ-SCCs) in D-SCA (shear stress: 3.43 × 10sup-5/supdynes per cmsup2/sup). The minimum dosage of aptamer probe required for exploring PDL1 protein expression in two hepatoma cell lines is only one-900th of that required by conventional protocols. In addition, this approach facilitated the profiling of ITF-β/cisplatin-mediated single-cell/cell-cluster phenotypes.

Published
2022

11. Comparative Efficacy of Tezepelumab to Mepolizumab, Benralizumab, and Dupilumab in Eosinophilic Asthma: A Bayesian Network Meta-analysis

Author

Tanawin Nopsopon, Grace Lassiter, Ming-Li Chen, G. Caleb Alexander, Corinne Keet, Hwanhee Hong, and Ayobami Akenroye

Subjects
Immunology, Immunology and Allergy
Abstract

It is unclear how the efficacy of tezepelumab, approved for the treatment of type 2 ("T2") high and low asthma, compares to the efficacy of other biologics for T2-high asthma.To conduct an indirect comparison of tezepelumab to dupilumab, benralizumab, and mepolizumab in the treatment of eosinophilic asthma.We conducted a systematic review and Bayesian network meta-analyses. We identified randomized controlled trials (RCTs) indexed in PubMed, Embase, or CENTRAL between January 1, 2000, and August 12, 2022. Outcomes included exacerbation rates, prebronchodilator Forced Expiratory Volume (FEV1), and the Asthma Control Questionnaire (ACQ). (PROSPERO CRD42021232084) RESULTS: Ten RCTs (n = 9201) met eligibility. Tezepelumab (relative risk 0.63, 95% credible intervals [CI] 0.46-0.86) was associated with significantly lower exacerbation rates than benralizumab; and larger improvements in FEV1 compared to mepolizumab (mean difference, MD, 66, CI -33 to 170) and benralizumab (MD, 62, CI -22 to 150), though the CI crossed the null value of 0. Mepolizumab improved ACQ the most but was not significantly different from tezepelumab (tezepelumab vs. mepolizumab, MD, 0.14, CI -0.10 to 0.38). For efficacy by clinically important thresholds, tezepelumab, mepolizumab, and dupilumab achieved a99% probability of reducing exacerbation rates by ≥50% compared to placebo, but benralizumab had only a 66% probability of doing so. Tezepelumab and dupilumab had a probability of 1.00 of improving prebronchodilator FEV1 by ≥100 mL above placebo. Compared to mepolizumab, dupilumab had90% chance for improving FEV1 by ≥50 mL, but none of the differences between biologics exceeded 100 mL.In individuals with eosinophilic asthma, tezepelumab and dupilumab were associated with greater improvements in exacerbation rates and lung function than benralizumab or mepolizumab, although below clinical thresholds.

Published
2022

15. Determination of Chromium Based on Laser Ablation Inductively Coupled Plasma Mass Spectrometry

Author

Jian-Hua Wang, Jinhui Liu, Jing-Jing Zhou, Xing Wei, and Ming-Li Chen

Subjects
Detection limit, Microscope, Calibration curve, Chemistry, 010401 analytical chemistry, Analytical chemistry, chemistry.chemical_element, 02 engineering and technology, 021001 nanoscience & nanotechnology, Laser, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, law.invention, Electrophoresis, Chromium, law, 0210 nano-technology, Inductively coupled plasma mass spectrometry, Polyacrylamide gel electrophoresis
Abstract

Chromium plays an irreplaceable role in the life system. The exploration of chromium is beneficial to reveal its physiological or pathological processes. In this study, a novel method was established for determination of chromium in gels by matrix-matched external standard method-laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS). The relative standard deviation of chromium signal intensity during ablation standard were less than 16% (n = 300), the correlation coefficient (R2) of LA-ICP-MS quantitative calibration curve was 0.9805, and the detection limit was 2.22 µg/g. The MCF-7 cells were used as an in vitro cell model, and two kinds of polyacrylamide gel electrophoresis (PAGE) method were used to separate the protein extract after chromium incubation. And then, the electrophoresis bands obtained by two electrophoresis methods were ablated respectively by LA-ICP-MS with line scan mode, and the weak chromium-containing protein bands were obtained in electrophoresis band. Finally, the LA-ICP-MS was used to measure and image the chromium in individual cell, and it was found that the cell element distribution map overlapped well with the cell contour map under the laser microscope.

Published
2021

17. Label-Free Resistance Cytometry at the Orifice of a Nanopipette

Author

Ming-Li Chen, Ping Yu, Furong Ma, Tienan Gao, Cong Xu, Menglin Wang, Jian-Hua Wang, Xiangyi Gao, and Lanqun Mao

Subjects
Medical diagnostic, Blood Cells, Erythrocytes, Chemistry, 010401 analytical chemistry, Ion current, Size change, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Biophysics, Humans, Osmotic pressure, Normal blood, Single-Cell Analysis, Cytometry, Body orifice, Label free
Abstract

Development of new principles and techniques at the single-cell level is significantly important since cells as basic units of living organisms always bear large heterogeneity. Herein, we demonstrate a new electrochemical principle for single-cell analysis based on an ion current blockage at the orifice of a nanopipette, defined as resistance cytometry. The amplitude and the frequency of ion current transients show strong dependence on the size and the concentration of cells, which could be used for in situ cell sizing and counting. This technique shows good ability to detect the size change of RBCs under stimulations of different pH and osmotic pressure values. More importantly, the as-presented resistance cytometry can distinguish lymphoma blood cells from normal blood cells for patient blood samples. The as-presented resistance cytometry is label-free, non-invasive, and non-destructive, which not only opens new opportunities for single-cell analysis but also provides a new platform for cell-related medical diagnostic technologies.

Published
2021

18. Cu-Based Metal–Organic Framework Nanoparticles for Sensing Cr(VI) Ions

Author

Ming-Li Chen, Wei-Tao Li, Mengqi He, Wei Chen, Brian Bui, Wei Shi, and Xing Wei

Subjects
Materials science, Chemical engineering, Scanning electron microscope, Nanoparticle, General Materials Science, Metal-organic framework, Nanoscopic scale, Copper nitrate, Mixing (physics), Ion
Abstract

A nanoscale MOF-199 was synthesized in a simple and fast way by mixing btc triethylammonium and copper nitrate solution at room temperature and characterized by scanning electron microscopy, transm...

Published
2021

19. Terbium doping of graphitic carbon nitride endows a highly sensitive ratiometric fluorescence assay of alkaline phosphatase

Author

Ming-Li Chen, Jian-Hua Wang, Qi-Xuan Sun, Xun Liu, and Shang-Qing Zhang

Subjects
Materials science, chemistry.chemical_element, Terbium, Catalysis, Polyethylene Glycols, chemistry.chemical_compound, Limit of Detection, Materials Chemistry, Animals, Humans, Nitrogen Compounds, Fluorescent Dyes, Doping, Metals and Alloys, Graphitic carbon nitride, General Chemistry, Alkaline Phosphatase, Fluorescence, Ratiometric fluorescence, Nanostructures, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Highly sensitive, Full width at half maximum, Spectrometry, Fluorescence, chemistry, Ceramics and Composites, Alkaline phosphatase, Cattle, Graphite, Rabbits, Nuclear chemistry
Abstract

Terbium doped graphitic carbon nitride (g-C3N4:Tb) gives rise to two exceptional emissions at λex/λem = 290/490 nm and 290/546 nm, with extremely narrow peak widths of FWHM 200 nm. The modification of g-C3N4:Tb with HOOC-PEG-COOH provides a ratiometric fluorescent probe which ensures highly sensitive detection of alkaline phosphatase (ALP) activity based on the inner filter effect (IFE).

Published
2021

20. Effects of N-Substituents on the Solution Behavior of Poly(sulfobetaine methacrylate)s in Water: Upper and Lower Critical Solution Temperature Transitions

Author

Michael T. Kelly, Ethan W. Kent, Bin Zhao, Jian-Hua Wang, Evan M. Lewoczko, Ning Wang, Ming-Li Chen, Claire E. Lundberg, and Tao Wu

Subjects
Hydrophobic effect, Water soluble, Materials science, Polymers and Plastics, Chemical engineering, Upper critical solution temperature, Process Chemistry and Technology, Organic Chemistry, Methacrylate, Lower critical solution temperature
Abstract

A series of zwitterionic poly(sulfobetaine methacrylate)s (PSBMAs) with various N-substituents, including n-alkyl, cyclohexyl, 2-hydroxyethyl, and phenyl, was synthesized in order to elucidate the ...

Published
2020

21. The Impact of Human Papillomavirus Infection on Skin Cancer: A Population-Based Cohort Study

Author

Shuo-Hsuan Wang, Ming-Li Chen, Renin Chang, Yao-Min Hung, Hei-Tung Yip, and James Cheng-Chung Wei

Subjects
0301 basic medicine, Cancer Research, medicine.medical_specialty, Skin Neoplasms, Taiwan, Cohort Studies, 03 medical and health sciences, 0302 clinical medicine, Risk Factors, Internal medicine, Humans, Medicine, Aged, business.industry, Papillomavirus Infections, Hazard ratio, HPV infection, medicine.disease, Confidence interval, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Propensity score matching, Cohort, Melanoma and Cutaneous Malignancies, Differential diagnosis, Skin cancer, business, Cohort study
Abstract

Background This study investigated the correlation between a history of human papillomavirus (HPV) infection and skin cancer risk. Materials and Methods The study cohort comprised 26,919 patients with newly diagnosed HPV infection between 2000 and 2012; with the use of computer-generated numbers, patients without previous HPV infection were randomly selected as the comparison cohort. The patients in the HPV infection cohort were matched to comparison individuals at a 1:4 ratio by demographic characteristics and comorbidities. All study individuals were followed up until they developed skin cancer, withdrew from the National Health Insurance program, were lost to follow-up, or until the end of 2013. The primary outcome was subsequent skin cancer development. Cox proportional hazards regression analysis was used to analyze the risk of skin cancer with hazard ratios (HRs) and 95% confidence intervals (CIs) between the HPV and control cohort. Results The adjusted HR of skin cancer for patients with HPV relative to controls was 2.45 after adjusting sex, age and comorbidities. (95% CI, 1.44–4.18, p < .01). The subgroup analysis indicated that a patient with HPV infection had a significantly greater risk of skin cancer if they were aged >40 years. Notably, a risk of skin cancer was found in the group diagnosed with HPV within the first 5 years after the index date (adjusted HR, 3.12; with 95% CI, 1.58–5.54). Sensitivity analysis by propensity score, matching with balanced sex, age, and comorbidities, showed consistent results. Conclusion A history of HPV infection is associated with the development of subsequent skin cancer in Taiwanese subjects, and the risk wanes 5 years later. Implications for Practice In this Taiwan nationwide cohort study, there was a 2.45-fold increased risk of developing new-onset skin cancers for patients with incident human papillomavirus (HPV) infection, compared with the matched controls. Furthermore, the risk was noticeably significant among patients aged >40 years. A prominent risk of skin cancers was found in the group diagnosed with HPV within the first 5 years after the index date in this study. The results of this analysis may raise consensus on the effect of HPV infection on the risk of skin cancers. Clinicians are encouraged to implement prudently on the differential diagnosis of skin cancers and HPV prevention and treatment, especially in older patients.

Published
2020

22. Reply to letter to the editor

Author

Ming-Li Chen, Yueh-Han Ku, Hei-Tung Yip, and James Cheng-Chung Wei

Subjects
Dermatology
Published
2022

23. Dual mode assay of glutathione with Tb-doped g-C

Author

Qi-Xuan, Sun, Shang-Qing, Zhang, Xing, Wei, Ting, Yang, Jian-Hua, Wang, and Ming-Li, Chen

Subjects
Manganese Compounds, Limit of Detection, Oxides, Nanoconjugates, Glutathione, Fluorescent Dyes
Abstract

Glutathione (GSH) plays important roles in various physiological processes, thus highly sensitive assay of GSH and timely warning of its variation at trace level in complex biological matrixes is of great significance. However, this is challenging due to the coexisting reductive biomolecules and dynamic change of GSH levels in responding to various stimuli which remain largely unexploited. Herein, we report a dual mode protocol for the assay of GSH based on nanoconjugate g-C

Published
2022

24. Poster Abstracts

Author

Md Moniruzzaman, Matthew Steward, Sigma Hossain, Marina Barguil Macêdo, Elspeth Hutton, Kevin Sheng-Kai Ma, Ming Li Chen, and Vineeta Shobha

Subjects
Rheumatology
Published
2020

25. Performing flow injection chromatography using a narrow open tubular column

Author

Apeng Chen, Shaorong Liu, Jian-Hua Wang, Ming-Li Chen, Yu Yang, Zhitao Zhao, and Piliang Xiang

Subjects
chemistry.chemical_classification, Chromatography, Resolution (mass spectrometry), Elution, Biomolecule, 010401 analytical chemistry, Flow (psychology), 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Biochemistry, Column (database), 0104 chemical sciences, Analytical Chemistry, Sequential injection, chemistry, Flow Injection Analysis, Environmental Chemistry, Gradient elution, Amino Acids, 0210 nano-technology, Laser-induced fluorescence, Spectroscopy, Chromatography, Liquid
Abstract

Flow injection chromatography (FIC) or sequential injection chromatography (SIC) is a low-pressure liquid chromatography technique that uses flow injection or sequential injection hardware. Due to the constraints of this hardware, the separation resolution is low; often no more than 3–5 components are resolved. We have recently demonstrated the excellent resolving power of narrow open tubular (OT) columns for various biomolecules, and only moderate elution pressures are needed to carry out these separations. In this paper, we incorporate a narrow OT column with FIC and construct an FIC system using a pressure chamber and two injection valves to implement gradient elution. The resultant system not only improves the resolution but also reduces the system cost. When we use the system to separate peptides from trypsin-digested cytochrome C, we can resolve dozens of peptides (with resolutions of 0.5 or greater) at a speed of 12 samples per hour. When we use this system to separate a mixture containing 3 amino acids, we can base-line resolve these compounds at a speed of 1800 sample per hour.

Published
2020

26. Inertial-Force-Assisted, High-Throughput, Droplet-Free, Single-Cell Sampling Coupled with ICP-MS for Real-Time Cell Analysis

Author

Zhang-Run Xu, Jian-Hua Wang, Ming-Li Chen, Ze Jiang, Xue Men, Xuan Zhang, Wen-Qi Ye, Xing Wei, and Ting Yang

Subjects
Time Factors, Surface Properties, Cell, 010402 general chemistry, 01 natural sciences, Mass Spectrometry, Analytical Chemistry, Sampling (signal processing), Tumor Cells, Cultured, medicine, Humans, Fluidics, Particle Size, Inductively coupled plasma mass spectrometry, Microchannel, Chemistry, 010401 analytical chemistry, High-Throughput Screening Assays, 0104 chemical sciences, medicine.anatomical_structure, Cell culture, Fictitious force, Biophysics, Single-Cell Analysis, Copper, Intracellular, Cadmium
Abstract

Single-cell analysis facilitates perception into the most essential processes in life's mysteries. While it is highly challenging to quantify them at the single-cell level, where precise single-cell sampling is the prerequisite. Herein, a real-time single-cell quantitative platform was established for high-throughput droplet-free single-cell sampling into time-resolved (TRA) ICP-MS and real-time quantification of intracellular target elements. The concentrated cells (2 × 106 cells mL-1) were spontaneously and orderly aligned in a spiral microchannel with 104 periodic dimensional confined micropillars. The quantification is conducted simultaneously by internal standard inducing from another branch channel in the chip. The flow-rate-independent feature of single-cell focusing into an aligned stream within a wide range of fluidic velocities (100-800 μL min-1) facilitates high-throughput, oil-free, single-cell introduction into TRA-ICP-MS. The system was used for real-time exploration of intracellular antagonism of Cu2+ against Cd2+. an obvious antagonistic effect was observed for the MCF-7 cell by culturing for 3, 6, 9, and 12 h with 100 μg L-1 Cd2+ and 100 μg L-1 Cu2+, and a rivalry rate of 12.8% was achieved at 12 h. At identical experimental conditions, however, limited antagonistic effect was encountered for a bEnd3 cell within the same incubation time period, with a rivalry rate of 4.81%. On the contrary, an antagonistic effect was not observed for the HepG2 cell by culturing for 6 h, while an obvious antagonistic effect was found by further culturing to 12 h, with a rivalry rate of 10.43%. For all three cell lines, significant heterogeneity was observed among individual cells.

Published
2020

27. Copper-Cysteamine Nanoparticles as a Heterogeneous Fenton-Like Catalyst for Highly Selective Cancer Treatment

Author

Yang Shu, Meiying Xing, Wei Chen, Zhenzhen Huang, Nil Kanatha Pandey, J. Ping Liu, Liangwu Lin, Omar Johnson, Lalit Chudal, Jonathan Phan, Ming-Li Chen, and Hongmei Yu

Subjects
Biochemistry (medical), Biomedical Engineering, Nanoparticle, chemistry.chemical_element, General Chemistry, Highly selective, Copper, Cancer treatment, Catalysis, Biomaterials, chemistry.chemical_compound, chemistry, Cysteamine, Hydroxyl radical, Hydrogen peroxide, Nuclear chemistry
Abstract

Herein, for the first time, we report copper-cysteamine (Cu-Cy) nanoparticles having Cu1+ instead of Cu2+ as an efficient heterogeneous Fenton-like catalyst for highly selective cancer treatment. I...

Published
2020

29. Amplification Strategy of Silver Nanoclusters with a Satellite-Nanostructure for Substrate-Free Assay of Alkaline Phosphatase by ICP-MS

Author

Ting Yang, Jian-Hua Wang, Na Wu, Zi-Han Cheng, Ming-Li Chen, Xun Liu, and Shang-Qing Zhang

Subjects
Detection limit, Silver, 010401 analytical chemistry, Metal Nanoparticles, Substrate (chemistry), DNA, Hep G2 Cells, Alkaline Phosphatase, 010402 general chemistry, Lanthanoid Series Elements, 01 natural sciences, Mass Spectrometry, 0104 chemical sciences, Analytical Chemistry, Nanoclusters, chemistry.chemical_compound, chemistry, Limit of Detection, Helix, Biophysics, Humans, Alkaline phosphatase, Inductively coupled plasma mass spectrometry, Conjugate
Abstract

Alkaline phosphatase (ALP) plays critical roles in signal transmission and cell growth/apoptosis. Its abnormal level in serum/cell is tightly related to diseases, thus, serum and cellular ALP detection is of great significance for disease diagnosis. Herein, a novel approach for ALP assay based on a satellite-nanostructure is developed by conjugating lanthanide upconversion nanoparticles (UCNPs) with silver nanoclusters (AgNCs) through DNA bridging. UCNPs serve as the cores to conjugate with DNA fragments, followed by assembly of AgNCs as the satellites on UCNPs surface through the AgNCs-cytosine affinity, to produce the satellite-nanostructure of UCNPs@DNA-AgNCs. The presence of ALP converts phosphate groups into hydroxyl groups at DNA helix, weakening the coordination of DNA with UCNPs. As a result, the satellite AgNC labeling on DNA fragments strips off the UCNP surface. Silver is quantified by measuring isotope 107Ag with ICP-MS, which further derives the content of ALP by correlation to the number of AgNCs. A linear calibration range is obtained in 0.005-120 U/L with a detection limit of 1.8 mU/L. The distinct advantage of this strategy, on one hand, is the substrate-free feature that eliminates the intermediate process of substrate reaction, where the substrate activity decrease and its instability may significantly deteriorate the sensitivity. On the other hand, ALP triggers the production of a large number of AgNCs resulting in substantial amplification on ICP-MS signal to give a favorable sensitivity. This is the first attempt for ALP detection by inductively coupled plasma mass spectrometry.

Published
2020

30. Mercury speciation based on mercury-stimulated peroxidase mimetic activity of gold nanoparticles

Author

Xiao-Yan Wang, Ming-Li Chen, Ting Yang, Xin-Di Jia, Jian-Hua Wang, and Jian-Yu Yang

Subjects
Inorganic chemistry, Metal Nanoparticles, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biochemistry, Analytical Chemistry, Electrochemistry, Humans, Environmental Chemistry, Spectroscopy, Mercury analysis, Detection limit, biology, Mercury, 021001 nanoscience & nanotechnology, Inorganic mercury, 0104 chemical sciences, Mercury (element), Peroxidases, chemistry, Colloidal gold, biology.protein, Colorimetry, Gold, 0210 nano-technology, Selectivity, Sensing system, Peroxidase
Abstract

Mercury speciation is of significant importance in environmental and biological analysis because its toxicity and metabolic behavior in the human body differ among species. Nanomaterial-assisted optical sensors are widely used for mercury ion detection but rarely applied in mercury speciation analysis. In this work, we develop a novel colorimetric sensing strategy for mercury speciation based on mercury-stimulated peroxidase mimetic activity of gold nanoparticles with the assistance of different reductants. In the presence of a weak reductant, only inorganic mercury can be reduced to Hg0, whereas both inorganic mercury and organic mercury can be reduced to Hg0 in the presence of a strong reductant. Due to the high affinity between Hg and Au, Hg0 deposits on the AuNP surface in the form of a Au-Hg amalgam, leading to a remarkable enhancement of peroxidase mimetic activity of gold nanoparticles. On the basis of this effect, inorganic mercury and total mercury can be detected by using 3,3',5,5'-tetramethylbenzidine (TMB) as the substrate. The limits of detection for inorganic mercury and total mercury are 1.9 and 0.9 nM within 5-100 nM, respectively. The selectivity of this sensing system is high due to the specificity of Au-Hg interaction. Its practical applications are further demonstrated by organic mercury analysis in a fish sample and mercury speciation in a human hair sample.

Published
2020

31. Dual functional AgNPs-M13 phage composite serves as antibacterial film and sensing probe for monitoring the corrosion of chromium-containing dental alloys

Author

Xiao-Yan Wang, Bo Hu, Ting Yang, Na Li, Jian Zhai, Jian-Hua Wang, and Ming-Li Chen

Subjects
Absorbance, Chromium, Materials science, chemistry, Dental alloys, viruses, Composite number, chemistry.chemical_element, General Chemistry, Silver nanoparticle, Corrosion, Nuclear chemistry
Abstract

The preparation of silver nanoparticles (AgNPs) with microbe or plant tissues as bio-template offers green approach, while it suffers from low harvest and purification is needed. Herein, we propose a facile protocol for one-pot preparation of AgNPs using M13 phage as bio-template by simply mixing AgNO3 solution with alkali M13 phage. In the obtained AgNPs-M13 phage composite, Cr(III) selectively coordinates with the amino residues on phage surface and leads to the aggregation of AgNPs through the bridging of M13 phages. This makes it feasible for colorimetric sensing of Cr(III) by measuring the absorbance ratio of AgNPs at 600 and 405 nm, which provides a LOD of 14 nmol/L. The composite also showed favorable bactericidal activity for both Gram-positive and Gram-negative bacteria, making it a promising candidate as antibacterial film in chromium-containing dental alloys and meanwhile serve as a sensing probe for monitoring the corrosion of the dental alloys.

Published
2020

32. Discrimination of antibiotic-resistant Gram-negative bacteria with a novel 3D nano sensing array

Author

Xiao-Yan Wang, Xin-Di Jia, Ting Yang, Meng-Xian Liu, Jian-Hua Wang, Ming-Li Chen, and Jian-Yu Yang

Subjects
Gram-negative bacteria, Metal Nanoparticles, Urine, Gram-Positive Bacteria, Catalysis, Nanocomposites, Antibiotic resistance, Sensor array, Vancomycin, Gram-Negative Bacteria, Nano, Materials Chemistry, Cluster Analysis, Humans, Scattering, Radiation, Volume concentration, biology, Chemistry, Metals and Alloys, Discriminant Analysis, General Chemistry, biology.organism_classification, Combinatorial chemistry, Bacterial Typing Techniques, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Spectrometry, Fluorescence, Ceramics and Composites, Gold, Bacteria
Abstract

A novel sensor array based on a (+)AuNP/AuNC nanocomposite was constructed for the selective discrimination of 10 types of Gram-negative bacteria (including 3 types of antibiotic-resistant strains) at a low concentration level of OD600 = 0.015. By recognizing the triple optical patterns of Gram-negative bacteria with the assistance of LDA, the sensor array is able to group the bacteria with respect to their species to each other.

Published
2020

33. The relationship between MHC−peptide interaction and resistance to virus in chickens

Author

Yuan‐chang Jin, Yu‐feng Li, Li‐xia Jiang, Wei Wang, Chuan‐dan Zheng, Ming‐li Chen, Yu‐jie Wu, Juan Dai, Jing‐fen Chen, Min‐min Yu, Gang Zeng, Mei‐lin Hao, and Bo‐ping Zeng

Subjects
Haplotypes, Immunology, Animals, Immunology and Allergy, Peptides, Chickens
Abstract

The MHC-peptide interaction has a subtle influence on host resistance to virus. This paper aims to study the relationship between MHC-peptide interaction and MHC-related virus-resistance.By 3D homology modeling, the structure of chicken BF2 molecule BF2*0201 (PDB code: 4d0d) was studied and compared with the known structures of BF2 molecule BF2*0401 (PDB code: 4e0r) to elucidate the characteristics of BF2*0201-binding antigenic peptides.The results show that due to the amino acid difference between the two binding groove of 4e0r and 4d0d, the size of the binding groove of the two are 1130 ų and1380 ų respectively, indicating the amino acid species that 4e0r binding peptide has lower selectivity than 4d0d; and because of large side chain conformation of Arg (especially Arg111) of 4e0r replaced by small side chain Tyr111 of 4d0d, the volume of central part of the binding groove of 4d0d is obviously larger than that of 4e0r, indicating that the restrictive of binding antigenic peptides for 4d0d is narrower than that of 4e0r; and on account of the chargeability of the binding groove of the two are different, namely the binding groove chargeability of 4e0r (strong positive polarity) and 4d0d (weak negative polarity).There are generally more peptides presented by the BF2 of B2 haplotype than by that of B4 haplotype, leading to more resistance of B2 than that of B4 to virus.

Published
2022

38. Novel Dielectric Barrier Discharge Trap for Arsenic Introduced by Electrothermal Vaporization: Possible Mechanism and Its Application

Author

Xing Na, Yunbin Shao, Jixin Liu, Mao Xuefei, Huang Xudong, Ming-Li Chen, Guoying Chen, and Siyu Gu

Subjects
inorganic chemicals, Detection limit, Spectrophotometry, Atomic, Analytical chemistry, chemistry.chemical_element, Dielectric barrier discharge, Standard solution, Analytical Chemistry, Arsenic, Certified reference materials, X-ray photoelectron spectroscopy, chemistry, Vaporization, Volatilization, Particle deposition
Abstract

In this work, a novel integrated dielectric barrier discharge (IDBD) reactor coupled to an electrothermal vaporizer (ETV) was established for arsenic determination. It is for the first time gas-phase enrichment (GPE) was fulfilled based on the hyphenation of ETV and DBD. The mechanisms of evolution of arsenic atomic and molecular species during vaporization, transportation, trapping, and release processes were investigated via X-ray photoelectron spectroscopy (XPS) and other approaches. Tentative mechanisms were deduced as follows: the newly designed DBD atomizer (DBDA) tube upstream to the air inlet fulfills the atomization of arsenic nanoparticles in vaporized aerosol, leading to free arsenic atoms that are indispensable for forming arsenic oxides; the DBD trap (DBDT) tube traps arsenic oxides under an O2-domininating atmosphere and then releases arsenic atoms under H2-dominating atmospheres. In essence, this process is a physical-chemical process rather than an electrostatic particle deposition. Such a trap and release sequence separates matrix interference and enhances analytical sensitivity. Under the optimized conditions, the method detection limit (LOD) was 0.04 mg/kg and the relative standard deviations (RSDs) were within 6% for As standard solution and real seafood samples, indicating adequate analytical sensitivity and precision. The mean spiked recoveries for laver, kelp, and Undaria pinnatifida samples were 95-110%, and the results of the certified reference materials (CRMs) were consistent with certified values. This ETV-DBD preconcentration scheme is easy and green and has low cost for As analysis in seafood samples. DBD was proved a novel ETV transportation enhancement and preconcentration technique for arsenic, revealing its potential in rapid arsenic analysis based on direct solid sampling ETV instrumentation.

Published
2021

39. Maximum-Profit Inventory Model with Generalized Deterioration Rate

Author

Yu-Lan Wang, Ming-Li Chen, and Peterson Julian

Subjects
stock-dependent selling rate, maximum profit, inventory model, General Mathematics, Computer Science (miscellaneous), Engineering (miscellaneous)
Abstract

We developed a maximum profit inventory model with a generalized deterioration rate where the selling rate is dependent on the inventory level that is an extension of two published papers. A complete solution structure is provided to decide the optimal solution with reasonable conditions supported by numerical examples, and then we prove that the optimal solution is independent of the demand pattern. Numerical examples are provided to illustrate our findings. In a previously published paper, three examples had symmetric conditions to decide the local maximum solution. Our approach provides a reasonable explanation for this symmetric phenomenon. Our findings will help researchers develop new inventory models in the future.

Published
2022

40. Tracking cellular transformation of As(III) in HepG2 cells by single-cell focusing/capillary electrophoresis coupled to ICP-MS

Author

Xue, Men, Cheng-Xin, Wu, Xuan, Zhang, Xing, Wei, Wen-Qi, Ye, Ming-Li, Chen, Ting, Yang, Zhang-Run, Xu, and Jian-Hua, Wang

Subjects
Spectrum Analysis, Electrophoresis, Capillary, Humans, Environmental Chemistry, Hep G2 Cells, Biochemistry, Mass Spectrometry, Spectroscopy, Arsenic, Analytical Chemistry
Abstract

The cellular metabolism of metals is highly critical to elucidate their potential cytotoxicity or cell protection mechanism. In this work, an asymmetric serpentine microfluidic device (ASMD) with high sampling efficiency and excellent focusing performance was developed for single-cell focusing. ASMD coupling with ICP-MS ensures single-cell assay to provide the information for trivalent arsenic (As(III)) uptake by HepG2 cells, which reveals the heterogeneity of cellular arsenic distribution, and elucidates the arsenic elimination behaviors in single HepG2 cells. Further, the metabolism and transformation of As(III) in HepG2 cells was tracked by hyphenating capillary electrophoresis (CE) separation with ICP-MS. The results for single-cell analysis and arsenic elimination kinetics illustrated that the half-life of arsenic elimination is 0.9 ± 0.04 h with the elimination constant of 0.77 ± 0.03, i.e., 77% of accumulated As in HepG2 cells may be eliminated per hour. Moreover, arsenobetaine (AsB) was identified to be the main metabolite and biotransformation species of As in HepG2 cells. ASMD-ICP-MS and CE-ICP-MS are powerful for tracking the fate of metals or metal drugs in single cells to comprehensively understand their metabolic pathway and transformation behaviors.

Published
2022

41. ICP-MS and Photothermal Dual-Readout Assay for Ultrasensitive and Point-of-Care Detection of Pancreatic Cancer Exosomes

Author

Jian-Hua Wang, Ming-Li Chen, Yun-Yun Wei, Xiaodong Tan, Xuan Zhang, Peng Liu, Yingzhi Zhang, and Zhang-Run Xu

Subjects
Chemistry, Point-of-Care Systems, Oxides, Photothermal therapy, medicine.disease, Ascorbic acid, Exosomes, Exosome, Microvesicles, Analytical Chemistry, Pancreatic Neoplasms, medicine.anatomical_structure, Manganese Compounds, Pancreatic cancer, medicine, Cancer research, Alkaline phosphatase, Humans, Liquid biopsy, Pancreas
Abstract

Pancreatic cancer is known to have a high mortality rate, and its early diagnosis remains challenging due to the occult location of the pancreas. Exosomes derived from pancreatic cancer cells specifically express glypican-1, which may provide a liquid biopsy opportunity for the early diagnosis of pancreatic cancer. Herein, an inductively coupled plasma mass spectrometry (ICP-MS) and photothermal dual-readout platform was proposed for the ultrasensitive and point-of-care analysis of pancreatic cancer exosomes. In our design, exosomes were specifically captured by the sandwich immunoassay, and simultaneously, alkaline phosphatase was introduced in a low-background manner. The alkaline phosphatase triggered the hydrolysis of l-ascorbic acid 2-phosphate to produce ascorbic acid, followed by the etching of Fe3O4@MnO2 nanoflowers. As a result, the Mn2+ generated by etching stripped off the Fe3O4 and was quantified using ICP-MS. Meanwhile, the reduced Fe3O4@MnO2 was applied for the photothermal assay by oxidizing dopamine with MnO2. The protocol exhibits a detection limit down to 19.1 particles mL-1, which is the most sensitive protocol reported so far. To our knowledge, this is the first endeavor for exosome quantification using ICP-MS and photothermal methods. The developed dual-readout platform not only is capable of distinguishing pancreatic cancer patients from healthy people, but also shows excellent discernibility of individual differences at low concentrations of exosomes. This dual-readout assay is a promising platform for the ultrasensitive and point-of-care detection of exosomes in liquid biopsy-based early cancer diagnosis.

Published
2021

42. Titanium dioxide-functionalized dendritic mesoporous silica nanoparticles for highly selective isolation of phosphoproteins

Author

Peng-Fei Guo, Xiao-Yan Sun, Chun-Yu Zhang, Jian-Hua Wang, Ming-Li Chen, and Min Qiao

Subjects
Gel electrophoresis, Titanium, Chemistry, Nanoparticle, chemistry.chemical_element, Filtration and Separation, Mesoporous silica, Phosphoproteins, Silicon Dioxide, Chromatography, Affinity, Analytical Chemistry, chemistry.chemical_compound, Adsorption, Milk, Chemical engineering, Selective adsorption, Titanium dioxide, Animals, Nanoparticles, Mesoporous material
Abstract

Selective isolation of phosphoproteins is of great significance in biological applications. Herein, titanium dioxide-functionalized dendritic mesoporous silica nanoparticles are prepared via a post-grafting method for selective capture of phosphoproteins. The fabricated nanoparticles possess a unique central-radial pore structure with a surface area of 666.66 m2 /g and a pore size of 22.2 nm. The high-binding affinity of TiO2 with the phosphate groups facilitates the selective adsorption of phosphoproteins. Moreover, the open central-radial pore structure endows the dendritic mesoporous nanoparticles with better adsorption performance toward phosphoproteins with respect to the commercial titanium dioxide nanoparticles and titanium dioxide-functionalized conventional mesoporous silica nanoparticles by providing more accessible affinity sites. At pH 2, an adsorption capacity of 157.2 mg/g is derived for β-casein. The feasibility of the as-prepared dendritic material in real biological sample assay is demonstrated by the selective isolation of phosphoproteins from defatted milk, as illustrated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis assay.

Published
2021

43. Investigation on selenium and mercury interactions and the distribution patterns in mice organs with LA-ICP-MS imaging

Author

Ming-Li Chen, Xing Wei, Jian-Hua Wang, Xuewen Li, Wei-Tao Li, Jinhui Liu, Chunran Liu, Jiasen Cui, and Yu Fan

Subjects
medicine.medical_specialty, chemistry.chemical_element, Spleen, Biochemistry, Analytical Chemistry, chemistry.chemical_compound, Mice, Selenium, La icp ms, Internal medicine, medicine, Environmental Chemistry, Distribution (pharmacology), Animals, Methylmercury, Spectroscopy, Kidney, Mercury, Methylmercury Compounds, Mercury (element), medicine.anatomical_structure, Endocrinology, chemistry, Liver, Bioaccumulation, Laser Therapy
Abstract

It is the first time to investigate local distribution patterns of mercury (Hg) in mice organs after Hg and Se exposure with detection of laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS). Two batch of adult mice were employed to be exposed to inorganic mercury (iHg) and methylmercury (MeHg) with or without Se at the dose of 55 μmol kg-1. Tissue sections of brain, kidney, liver, and spleen from one batch mice were prepared to get local imaging of Hg by LA-ICP-MS. Tissues from another batch mice were used to quantify Hg and Se in tissues with ICP-MS after acid digestion. The results indicated that, for mice exposed to iHg, Hg mainly distributed in kidney, a little in liver, and hardly in brain and spleen; for mice exposed to MeHg, lower amount of Hg was found in kidney, liver and spleen, and almost no Hg was found in brain. It was interesting that for Hg and Se co-administration groups, higher level of Hg was observed in kidney, liver, spleen and even in brain than single Hg administration groups. In addition, Se level in organ tissues increased obviously not only in Se exposure group but also in MeHg exposure group, while the phenomenon was not observed in iHg exposure group. HepG2 cells were employed to investigate Se and Hg interactions in single cell level, similar bioaccumulation behavior of Hg was found between cells and mice organs. Higher level of Hg was observed in cells cultured with Se and Hg medium than cells cultured with single Hg medium. The results are expected to provide new insight to investigate Hg and Se interactions in animal bodies and in-vitro cells.

Published
2021

44. Two-Dimensional Cytometry Platform for Single-Particle/Cell Analysis with Laser-Induced Fluorescence and ICP-MS

Author

Zhang-Run Xu, Xue Men, Yong-Liang Yu, Xing Wei, Ming-Li Chen, Chengxin Wu, Xuan Zhang, and Jian-Hua Wang

Subjects
Capillary action, Chemistry, Lasers, Spectrum Analysis, 010401 analytical chemistry, Detector, Analytical chemistry, 010402 general chemistry, 01 natural sciences, Fluorescence, Signal, Mass Spectrometry, Single Molecule Imaging, 0104 chemical sciences, Analytical Chemistry, Particle, Single-Cell Analysis, Laser-induced fluorescence, Inductively coupled plasma mass spectrometry, Cytometry
Abstract

A two-dimensional cytometry platform (CytoLM) with high sensitivity and high temporal resolution is developed for single-particle and single-cell sampling and analysis. First, a Dean flow-assisted vortex capillary cell sampling (VCCS) unit confines the sample stream in curved flow and drives to focus and align the particles or cells in a small probe volume. By coupling VCCS to a laser-induced fluorescence (LIF) detector with data acquisition and processing capability, a high-throughput single-particle/cell analysis system (VCCS-LIF) was established. The particle analysis throughput of 119.42/s and a detection recovery of 78.20 ± 1.75% were achieved at a density of 9.16 × 104/mL for fluorescent particles, and the cell analysis throughput is 48.20/s at a density of 1.5 × 105/mL. Second, the CytoLM platform is constructed by hyphenating VCCS-LIF with inductively coupled plasma mass spectrometry (ICP-MS). In the analysis of HepG2 cells by Ag+ incubation and AO staining, 10,760 fluorescence bursts and 3068 MS events were observed in 240 s. Invalid signals due to undispersed cells were controlled at 3.80% for LIF and 1.01% for MS, with a proportion of effective signal of >96.20%. After peak identification and integral processing of the original data, the statistical results including peak area, height, width, and spacing are obtained concurrently and the information on concentration and elemental quantification of single cells is evaluated. CytoLM facilitates high-throughput, multi-dimensional, and multi-parameter characterization of particles and cells, and it may provide vast potential in life science analysis.

Published
2021

45. A Spiral-Helix (3D) Tubing Array That Ensures Ultrahigh-Throughput Single-Cell Sampling

Author

Xing Wei, Rui Guo, Ting Yang, Jian-Hua Wang, Ming-Li Chen, Xuan Zhang, and Zhang-Run Xu

Subjects
Chemistry, 010401 analytical chemistry, Metal Nanoparticles, Sampling (statistics), Microfluidic Analytical Techniques, 010402 general chemistry, Mass spectrometry, 01 natural sciences, Mass Spectrometry, 0104 chemical sciences, Analytical Chemistry, Helix, Humans, Gold, Single-Cell Analysis, K562 Cells, Biological system, Throughput (business), Spiral, Fluorescent Dyes
Abstract

ICP-MS is powerful in evaluating elemental species at the single-cell level, where high throughput/efficiency/precision are the keys for achieving statistically significant information based on massive data. We report an ultrahigh-throughput single-cell sampling system, consisting of a 3D spiral-helix tubing array to facilitate single-cell focusing into an orderly flow by inertial lift force and

Published
2019

46. A Three-Dimensional Porous Organic Framework for Highly Selective Capture of Mercury and Copper Ions

Author

Jia-Yi Wang, Yong-Liang Yu, Ming-Li Chen, Jian-Hua Wang, Yu-Ting Zhuang, Wei-Tao Li, and Ting Yang

Subjects
Materials science, Polymers and Plastics, Process Chemistry and Technology, Organic Chemistry, Inorganic chemistry, chemistry.chemical_element, Copper, Mercury (element), Ion, Adsorption selectivity, Adsorption, chemistry, Porosity, Isomerization
Abstract

In this study, a crystal porous organic framework (POF) belonging to ctn topology (POFct-1) is synthesized to selectively scavenge Hg(II) and Cu(II) ions. The maximum adsorption capacities of 167.1...

Published
2019

47. DMSA-Functionalized Mesoporous Alumina with a High Capacity for Selective Isolation of Immunoglobulin G

Author

Peng-Fei Guo, Xi-Ming Wang, Zheng-Jie Hu, Jian-Hua Wang, and Ming-Li Chen

Subjects
Materials science, 02 engineering and technology, 01 natural sciences, Immunoglobulin G, Adsorption, Aluminum Oxide, medicine, Humans, Molecule, General Materials Science, chemistry.chemical_classification, integumentary system, biology, 010401 analytical chemistry, 021001 nanoscience & nanotechnology, Selective isolation, 0104 chemical sciences, Dicarboxylic acid, chemistry, Dimercaptosuccinic acid, biology.protein, Succimer, 0210 nano-technology, Mesoporous material, Hydrophobic and Hydrophilic Interactions, Nuclear chemistry, medicine.drug
Abstract

A novel dimercaptosuccinic acid-functionalized mesoporous alumina (DMSA–MA) is synthesized by the dicarboxylic acid groups of dimercaptosuccinic acid molecules coordinating to the Al3+ ions located...

Published
2019

48. M13 phage as network frame for the quantification of Pb2+ based on the Pb2+-induced in-situ growth of gold nanoparticles

Author

Kai-Dong Du, Ming-Li Chen, Si-Yi Wang, Jian-Hua Wang, Ting Yang, and Xiao-Yan Wang

Subjects
Detection limit, Spectrometer, Chemistry, viruses, Nanotechnology, One-Step, Biochemistry, Analytical Chemistry, Linear range, Colloidal gold, Environmental Chemistry, Surface modification, Surface plasmon resonance, Absorption (electromagnetic radiation), Spectroscopy
Abstract

Routine detection of Pb2+ is of great importance to environmental monitoring because of its deleterious effects on human health and environment. In this work, an easy-to-operate method for the one-step detection of Pb2+ was developed based on the phage-Pb2+ interactions and their influence on the surface plasmon resonance (SPR) absorption band of AuNPs. AuNPs grow in-situ on the surface of M13 phages and the resulting phage-AuNP networks were directly used for lead sensing. The addition of Pb2+ facilitates further growth of the parent AuNPs and results in a blue shift of the SPR absorption peak. By integrating AuNPs preparation and sensing procedure into one step, a simplified Pb2+ detection approach was developed with improved sensitivity and shortened analysis time. By quantifying A528 with UV–vis spectrometer, a linear range of 0.5–5.0 μmol L−1 together with a limit of detection of 45 nmol L−1 was obtained. The one-step approach avoided complicated AuNPs preparation and functionalization process, and got rid of the unstable problems of AuNPs for long-term preservation, offering simple and cost-effective Pb2+ detection method for resource-poor settings.

Published
2019

49. Placeholder Strategy with Upconversion Nanoparticles−Eriochrome Black T Conjugate for a Colorimetric Assay of an Anthrax Biomarker

Author

Zi-Han Cheng, Ming-Li Chen, Shang-Qing Zhang, Jian-Hua Wang, Ting Yang, and Xun Liu

Subjects
fungi, 010401 analytical chemistry, 010402 general chemistry, 01 natural sciences, Disease control, humanities, 0104 chemical sciences, Analytical Chemistry, Anthrax, Eriochrome Black T, chemistry.chemical_compound, Upconversion nanoparticles, Biomarker, chemistry, Biochemistry, Polyphosphates, Humans, Nanoparticles, Colorimetry, Picolinic Acids, Azo Compounds, Biomarkers, Conjugate
Abstract

The timely warning of the germination of bacterial spores and their prevention are highly important to minimize their potential detrimental effects and for disease control. Thus, a sensitive and selective assay of biomarkers is most desirable. In this work, a nanoprobe is constructed by conjugating lanthanide upconversion nanoparticles (UCNPs) with sodium tripolyphosphate (TPP) and eriochrome black T (EBT). The nanoprobe, UCNPs-TPP/EBT, serves as a platform for the detection of the anthrax biomarker, dipicolinic acid (DPA). In principle, DPA displaces EBT from the UCNPs-TPP/EBT nanoconjugate, resulting in a color change from magenta to blue because of the release of free EBT into the aqueous solution. The binding sites on UCNPs are partly preblocked with TPP as the placeholder molecule, leaving a desired number of binding sites for EBT conjugation. On the basis of this dye displacement reaction, a novel colorimetric assay protocol for DPA is developed, deriving a linear calibration range from 2 to 200 μM with a detection limit of 0.9 μM, which is well below the infectious dose of the spores (60 μM). The assay platform exhibits excellent anti-interference capability when treating a real biological sample matrix. The present method is validated by the analysis of DPA in human serum, and its practical application is further demonstrated by monitoring the DPA release upon spore germination.

Published
2019

50. Single cell analysis for elucidating cellular uptake and transport of cobalt curcumin complex with detection by time-resolved ICPMS

Author

Shang-Qing Zhang, Ting Yang, Qi-Xuan Sun, Ming-Li Chen, Jian-Hua Wang, and Xing Wei

Subjects
Curcumin, Time Factors, chemistry.chemical_element, 02 engineering and technology, 01 natural sciences, Biochemistry, Mass Spectrometry, Analytical Chemistry, Excretion, chemistry.chemical_compound, Single-cell analysis, Coordination Complexes, Humans, Environmental Chemistry, Distribution (pharmacology), Inductively coupled plasma mass spectrometry, Spectroscopy, Chemistry, 010401 analytical chemistry, Biological Transport, Cobalt, Hep G2 Cells, Metabolism, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Cell culture, MCF-7 Cells, Biophysics, Single-Cell Analysis, 0210 nano-technology
Abstract

It is of great importance to elucidate the fate of drugs, e.g., their cellular uptake, transport and metabolism/excretion at single cell level. In the present work, cellular uptake and excretion of curcumin in HepG2 and MCF-7 cells were investigated by measuring 59Co in a curcumin cobalt complex ([Co(tpa)(cur)](ClO4)2) with inductively coupled plasma mass spectrometry (ICPMS). The uptake and distribution pattern of the metal drug complex in single cells were thoroughly studied, demonstrating extremely large discrepancy of uptake behavior among individual cells. The complex concentration-dependent uptake and excretion behavior is observed for both HepG2 and MCF-7 cells. The uptake of ([Co(tpa)(cur)](ClO4)2) by HepG2 cells is firstly increased with the concentration of the complex followed by level-off at certain level. On the other hand, however, the uptake by MCF-7 cells increases exponentially with the complex concentration within a same concentration range. The present study provides important information on the transport process of the metal drug complex at single cell level, it may be promising for further applications in the elucidation of metal drug effectiveness in vivo.

Published
2019

Catalog

Books, media, physical & digital resources
See catalog results