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4. Profiling of Urine Carbonyl Metabolic Fingerprints in Bladder Cancer Based on Ambient Ionization Mass Spectrometry

Author

Yuze Li, Lixia Jiang, Zhenpeng Wang, Yiran Wang, Xiaohua Cao, Lingwei Meng, Jinghan Fan, Caiqiao Xiong, and Zongxiu Nie

Subjects
Aldehydes, Urinary Bladder Neoplasms, Biomarkers, Tumor, Humans, Biomarkers, Mass Spectrometry, Analytical Chemistry
Abstract

The diagnosis of bladder cancer (BC) is currently based on cystoscopy, which is invasive and expensive. Here, we describe a noninvasive profiling method for carbonyl metabolic fingerprints in BC, which is based on a desorption, separation, and ionization mass spectrometry (DSI-MS) platform with

Published
2022

5. High Speed Mass Measurement of a Single Metal–Organic Framework Nanocrystal in a Paul Trap

Author

Caiqiao Xiong, Huihui Liu, Yuze Li, Lingwei Meng, Jiyun Wang, and Zongxiu Nie

Subjects
Ions, Nanoparticles, Polystyrenes, Enzymes, Immobilized, Metal-Organic Frameworks, Analytical Chemistry
Abstract

Mass spectrometry (MS) has emerged as an excellent tool for the characterization of metal-organic frameworks (MOFs) based on the characteristic metal ions and organic ligands. Mass measurement of intact MOF nanocrystals, however, remains a challenge for MS technology. Here, we reported the development of a probe particles based charge detection-quadrupole ion trap mass spectrometry (probe CD-QIT MS) method, where charge detection and mass measurement of a single MOF nanocrystal were achieved under the assistance of probe particles of micrometer size. As a validation of the method, the masses of a series of polystyrene (PS) size standards from 493 nm to 1.6 μm were measured with 3 μm PS particles as probes, and the measured masses were found to match well with their certified masses. Then, charge detections and mass analysis of single ZIF-8 and GOx@ZIF-8 with a size around 600 nm were achieved successfully. The method presented here demonstrates simplicity, high speed, and accuracy. Notably, it allows quantitative measurement of the amount of immobilized GOx enzyme by using the mass difference between ZIF-8 and GOx@ZIF-8. In addition, based on the determined mass, the size analysis of these MOF particles with irregular shape was carried out and demonstrated to be complementary to transmission electron microscopy (TEM).

Published
2022

6. Mass Spectrometry Imaging Reveals In Situ Behaviors of Multiple Components in Aerosol Particles

Author

Xiao Wang, Caiqiao Xiong, Y. Li, Zongxiu Nie, Huihui Liu, Yuming Jiang, and Jie Sun

Subjects
In situ, Deposition (aerosol physics), Inhalation, Chemistry, Parenchyma, Biophysics, General Medicine, General Chemistry, Irradiation, Carbonaceous aerosol, Catalysis, Mass spectrometry imaging, Aerosol
Abstract

The inhalation of atmospheric particles is toxicological to human health. However, as a complex mixture, tracing the behaviors of multiple components from real aerosol particles is crucial but unachievable by the existing methods. Here, taking advantage of the intrinsic fingerprints of elemental carbon (EC) and organic carbon (OC) in carbonaceous aerosol (CA) upon laser irradiation, we proposed a label-free mass spectrometry imaging method to visualize and quantify the deposition, translocation and component variation of CA in organs. With this method, the heterogeneous deposition, clearance and release behavior of CA in lung, that more OC was released in parenchyma and OC was cleared faster than EC, was observed. The translocation of CA to extrapulmonary organs including kidney, liver, spleen and even brain was also verified and quantified. By comparing the ratio of OC to EC, an organ-specific release behavior of OC from CA during circulation was revealed. In orthotopic lung and liver tumor, OC was found to penetrate more into tumor foci than EC. This technique provides deeper information for understanding the systemic health effects of aerosol particles.

Published
2021

8. Laser Desorption/Ionization Mass Spectrometry Imaging: A New Tool to See through Nanoscale Particles in Biological Systems

Author

Yuming Jiang, Jie Sun, Xiaohua Cao, Huihui Liu, Caiqiao Xiong, and Zongxiu Nie

Subjects
Spectrophotometry, Lasers, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Organic Chemistry, Humans, Nanoparticles, General Chemistry, Catalysis, Molecular Imaging
Abstract

Understanding the fate of nanoscale particles (NPs) in biological systems is significant with the increasing risk for human exposure. Recent research endeavors in laser desorption/ionization mass spectrometry imaging (LDI-MSI) have enriched the toolbox for evaluation of NPs' behavior in biological tissues, especially in aspects including sub-organ bio-distribution, clearance, quantification and surface chemistry variation analysis. In recognition of the potential for advancement in LDI MSI, this concept provides a brief overview of recent research works in LDI MSI for NPs, illustrates new applications that demonstrate the superiority of this technique, and highlights a series of perspectives and directions to move the field forward.

Published
2021

9. Pocket-Size 'MasSpec Pointer' for Ambient Ionization Mass Spectrometry

Author

Liuying He, Y. Li, Lingwei Meng, Junyu Chen, Huihui Liu, Caiqiao Xiong, and Zongxiu Nie

Subjects
Detection limit, Electric arc, chemistry.chemical_compound, chemistry, Miniature mass spectrometer, Analytical chemistry, Plasma, Derivatization, Mass spectrometry, Mass Spectrometry, Analytical Chemistry, Ambient ionization, Voltage
Abstract

Current ambient ionization sources for mass spectrometry (MS) are typically connected to gas cylinders, high-voltage supply, injection pump, and other accessory equipment, which hinder the popularization of MS in the field of on-site detection. Here, we developed a wireless pocket-size "MasSpec Pointer" (weights 65 g) based on arc discharge powered by a 3.7 V polymer Li battery for ambient ionization MS. A high voltage of 5600 V and 20 kHz was generated from the boost coil to penetrate air and form a plasma. The relative standard deviation (RSD) of the high-voltage pulses is 3.8%, leading to a stable discharge and a good quantification performance. A mini diaphragm pump was used to cool the plasma from ∼600 to ∼40 °C and to blow the plasma into a jet, which facilitates sampling. MasSpec Pointer can work well at both positive- and negative-ion modes without any modification and can quickly test gaseous, liquid, or solid samples. The limit of detection of this device for atrazine (an agrochemical) is lower than 0.1 ng/mL. MasSpec Pointer has shown its ability to pinpoint the double-bond location of fatty acid isomers without derivatization reagents or light illumination. Agrochemicals from the surface of an apple and daily chemicals from the surface of a finger were detected successfully using MasSpec Pointer coupled with a miniature mass spectrometer. We believe the "point-and-shoot" device coupled with mini-MS brings the hope for an age of detecting chemicals on-site by nonprofessionals.

Published
2021

10. Mass, Size, and Density Measurements of Microparticles in a Quadrupole Ion Trap

Author

Huihui Liu, Chaozi Liu, Caiqiao Xiong, Zongxiu Nie, Jinjuan Xue, and Lingpeng Zhan

Subjects
010401 analytical chemistry, Analytical chemistry, 010402 general chemistry, Polypyrrole, Mass spectrometry, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Characterization (materials science), chemistry.chemical_compound, chemistry, Particle mass, Particle, Polystyrene, Quadrupole ion trap
Abstract

The physical properties of microparticles, such as mass, size, and density, are critical for their functions. The comprehensive characterization of these physical parameters, however, remains a fundamental challenge. Here, we developed a particle mass spectrometry (PMS) methodology for determining the mass, size, and density of microparticles simultaneously. The collisional cross-section (CCS) and mass spectrometry (MS) measurements were performed in a single quadrupole ion trap (QIT), and the two modes can be switched easily by tuning the electric and gas hydrodynamic fields of the QIT. The feasibility of the method was demonstrated through a series of monodispersed polystyrene (PS) and silica (SiO2) particle standards. The SiO2/polypyrrole core-shell particles were also successfully characterized, and the measured results were verified by using conventional methods.

Published
2019

11. A Miniature Particle Mass Spectrometer

Author

Yiming Zhang, Caiqiao Xiong, Lingpeng Zhan, Xi Huang, Chaozi Liu, Zongxiu Nie, and Jiang Jinlong

Subjects
Morphology (linguistics), Chemical engineering, Spectrometer, Particle mass, Chemistry, 010401 analytical chemistry, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry
Abstract

Microparticles play important roles in our life. Besides chemical compositions and morphology, the size of microparticles will also decide their behavior in the environment or in organisms. Weighing the mass of microparticles by mass spectrometry is a useful method to characterize their size. In this technical note, a miniature particle mass spectrometer with an aerodynamic desorption/ionization ion source has been developed. We used a compact main control board to produce an ac voltage for trapping and ejecting the particles. The sampling process and data acquisition were also controlled by this board. We utilized this instrument to measure polystyrene spheres, silica particles, and mice red blood cells. Mass distributions of these particles were obtained rapidly with good accuracy.

Published
2019

12. Direct identification of forensic body fluids by MALDI-MS

Author

Zongxiu Nie, Xi Huang, Yuming Jiang, Caiqiao Xiong, Huixia Shi, and Jie Sun

Subjects
Adult, Male, Saliva, Adolescent, 02 engineering and technology, Urine, Mass spectrometry, 01 natural sciences, Biochemistry, Analytical Chemistry, Matrix (chemical analysis), Young Adult, chemistry.chemical_compound, Semen, Electrochemistry, Humans, Environmental Chemistry, Sweat, Spectroscopy, Body fluid, Principal Component Analysis, Chromatography, Forensic Sciences, 010401 analytical chemistry, Middle Aged, Ethylenediamines, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Lactic acid, chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Uric acid, Female, 0210 nano-technology, Citric acid, Biomarkers, Blood Chemical Analysis
Abstract

The rapid identification of human body fluids is meaningful for forensic casework. However, current methods suffer from several limitations such as poor sensitivity, time consumption and big sample consumption. Herein, we developed a mass spectrometry method to distinguish human body fluids (blood, semen, urine, sweat, and saliva) based on small molecular regions with no pretreatment, microliter sample consumption and high throughput. A highly sensitive and high salt-tolerance matrix N-(1-naphthyl)ethylenediamine dihydrochloride (NEDC) was used to efficiently detect metabolites in complex humoral environment. Some characteristic small metabolic molecules such as heme, hemin, creatinine, phosphate acid, uric acid, citric acid and lactic acid were identified and served as potential biomarkers to differentiate different body fluid types. Further principal component analysis (PCA) was performed to cluster the body fluid samples and three principal components allowed 75% clustering of all body fluid types. Blind testing revealed that nine out of ten unknown body fluid samples could be correctly classified into their corresponding group. This novel method can efficiently differentiate five body fluids with minimal interferences due to the storage time (less than 12 months) and carrier materials (cotton, fabric and tissue). The whole process from sampling to recording of mass spectra of body fluids can be finished in less than 10 minutes. We believe that this developed strategy has significant implications for rapid and effective human body fluid screening in forensic casework.

Published
2019

13. Laser cleavable probes for in situ multiplexed glycan detection by single cell mass spectrometry

Author

Jing Han, Xi Huang, Huihui Liu, Jiyun Wang, Caiqiao Xiong, and Zongxiu Nie

Subjects
In situ, Glycan, Glycosylation, biology, 010405 organic chemistry, Chemistry, Cell, General Chemistry, 010402 general chemistry, Mass spectrometry, 01 natural sciences, 0104 chemical sciences, carbohydrates (lipids), chemistry.chemical_compound, medicine.anatomical_structure, Downregulation and upregulation, Biochemistry, Cancer cell, medicine, biology.protein, Cell mass
Abstract

Glycans binding on the cell surface through glycosylation play a key role in controlling various cellular processes, and glycan analysis at a single-cell level is necessary to study cellular heterogeneity and diagnose diseases in the early stage. Herein, we synthesized a series of laser cleavable probes, which could sensitively detect glycans on single cells and tissues by laser desorption ionization mass spectrometry (LDI-MS). This multiplexed and quantitative glycan detection was applied to evaluate the alterations of four types of glycans on breast cancer cells and drug-resistant cancer cells at a single-cell level, indicating that drug resistance may be related to the upregulation of glycan with a β-d-galactoside (Galβ) group and Neu5Aca2-6Gal(NAc)-R. Moreover, the glycan spatial distribution in cancerous and paracancerous human tissues was also demonstrated by MS imaging, showing that glycans are overexpressed in cancerous tissues. Therefore, this single-cell MS approach exhibits promise for application in studying glycan functions which are essential for clinical biomarker discovery and diagnosis of related diseases.

Published
2019

15. Application of Graphdiyne in Surface-Assisted Laser Desorption Ionization Mass Spectrometry

Author

Zongxiu Nie, Yafeng Li, Huihui Liu, Jie Sun, Lixia Jiang, Caiqiao Xiong, Liping Wang, and Peiqi Luo

Subjects
Materials science, Surface-assisted laser desorption/ionization, Polyatomic ion, Fatty Acids, Liver Neoplasms, Analytical chemistry, Mass spectrometry, Small molecule, Ion, Matrix (chemical analysis), Pharmaceutical Preparations, Limit of Detection, Ionization, Desorption, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Biomarkers, Tumor, Humans, General Materials Science, Graphite, Amino Acids, Organic Chemicals
Abstract

Graphdiyne (GD) is a new kind of carbon nanomaterial which has carbon-carbon triple bonds to form a layered structure. Here, we report the application of GD as the matrix for small molecule analysis in laser desorption ionization mass spectrometry (LDI MS). The GD matrix displayed two advantages: little background in the low mass range and good molecular ion signal in negative ion mode for many small molecules, e.g., fatty acids, amino acids, peptides, and drugs can be obtained in negative ion mode. By comparing the signal intensity of tetraphenylborate and juglone with and without GD existing, it was found that GD can enhance both of the desorption efficiency and ionization efficiency in LDI. Through analysis of the serum samples from liver cancer patients and healthy people, the GD-assisted LDI MS results showed that fatty acids could be used as potential biomarkers for the early diagnosis of liver cancer.

Published
2020

16. Development of capillary-paper spray for small-molecule analysis in complex samples

Author

Y. Li, Caiqiao Xiong, Zongxiu Nie, and Chaozi Liu

Subjects
Paper, Serum, Analyte, Materials science, Berberine, Capillary action, 02 engineering and technology, Mass spectrometry, 01 natural sciences, Biochemistry, Mass Spectrometry, Analytical Chemistry, Animals, Hypoglycemic Agents, Glass tube, Chromatography, 010401 analytical chemistry, Equipment Design, 021001 nanoscience & nanotechnology, Ion source, Metformin, 0104 chemical sciences, Paper chromatography, Membrane, Cattle, 0210 nano-technology, Quantitative analysis (chemistry)
Abstract

We develop a capillary-paper spray (CPS) ion source which allows for sample separation in the capillary and enables rapid and sensitive paper spray (PS) mass spectrometry (MS) analysis of biofluids. The CPS employs a glass capillary to load liquid analytes, vertically standing at the rear of the PS. To further reduce the matrix effect, a nitrocellulose filter membrane is placed between the glass tube and chromatography paper to absorb proteins and other macromolecules, which is beneficial for the detection of the small molecules. Compared with the normal PS method, the CPS method markedly improves spray stability and prolongs analysis duration, and also generates significantly better signal intensities during the analysis of drugs, thus indicating its potential for clinical use. As a proof of concept, quantitative analysis of drugs (metformin hydrochloride and berberine hydrochloride) in serum is performed.

Published
2020

17. MALDI-TOF/TOF Tandem Mass Spectrometry Imaging Reveals Non-uniform Distribution of Disaccharide Isomers in Plant Tissues

Author

Zongxiu Nie, Huihui Liu, Caiqiao Xiong, Jiyun Wang, Jinjuan Xue, Lingpeng Zhan, and Xi Huang

Subjects
Sucrose, Disaccharide, Onion bulb, Disaccharides, Tandem mass spectrometry, 01 natural sciences, Plant Roots, Mass spectrometry imaging, Analytical Chemistry, chemistry.chemical_compound, 0404 agricultural biotechnology, Isomerism, Tandem Mass Spectrometry, Onions, chemistry.chemical_classification, Chromatography, Relative intensity, Tandem, Chemistry, Biomolecule, 010401 analytical chemistry, 04 agricultural and veterinary sciences, General Medicine, 040401 food science, 0104 chemical sciences, Imaging analysis, Matrix-assisted laser desorption/ionization, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Food Science
Abstract

Mass spectrometry imaging (MSI) has been increasingly utilized in investigating the locations of biomolecules within tissues. However, the isomeric compounds are rarely distinguished in the MS images, due to inability of MSI methods to differentiate isomers in the probing area. Coupling tandem mass spectrometry with MSI can facilitate differentiating isomeric compounds in ion images. Here we apply MALDI-TOF/TOF tandem mass spectrometry imaging approach to revealing the spatial distributions of isomeric disaccharides in plant tissues. First, the MS/MS imaging analysis of disaccharide-matrix droplet spots demonstrated the feasibility of distinguishing isomeric species in tissues, by measuring the relative intensity of specific fragments. Then, we conducted tandem MS imaging of disaccharides in onion bulb tissues, which indicated that sucrose and other unknown non-sucrose disaccharides exhibit heterogeneous locations throughout the tissues. This method enables us to image disaccharide isomers differentially in biological tissues, and to discover new saccharide species in plant. This work also emphasizes the necessity of considering isobaric compounds when interpreting MSI results.

Published
2020

18. Ultrafast Photocatalytic Reaction Screening by Mass Spectrometry

Author

Zongxiu Nie, Caiqiao Xiong, Xi Huang, Yuming Jiang, Jie Sun, and Huihui Liu

Subjects
Chemistry, 010401 analytical chemistry, Substrate (chemistry), 010402 general chemistry, Mass spectrometry, Photochemistry, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Catalysis, Nanomaterials, chemistry.chemical_compound, Desorption, Methyl red, Photocatalysis, Selectivity
Abstract

Here we report a semiconductor-assisted laser desorption/ionization mass spectrometry (SA-LDI MS) platform to monitor photocatalytic reactions online and apply it for ultrafast reaction screening. In this method, we use photocatalytic nanomaterials as the substrate for LDI and then initiate and monitor the reactions simultaneously. The features of our method include the following: (i) It has a reaction acceleration effect: only seconds are needed in our interfacial reactions vs hours in conventional bulk phase. (ii) The reaction trend in our system agrees with that in bulk phase. (iii) By adding a stable analogue of reactant as internal standard, a quantification of the reaction can be achieved. (iv) The sensitivity is high: for 500 amol of reactant, the photocatalytic reaction can still be initiated and detected. This platform has advantages in ultrafast reaction screening (e.g., screening of nine catalysts requires 24 h by the UPLC-MS system but only 10 min by SA-LDI MS). Furthermore, the high specificity of MS enables the screening of catalytic selectivity of A-TiO2 nanoparticles for a methyl red (MR) and acid yellow (AY) mixture, whose absorption wavelengths are overlapped and thus cannot be discriminated by conventional optical methods. Furthermore, by using SA-LDI MS, we also monitored reductive debrominations during the degradation process of polybrominated diphenyl ethers (PBDEs), which is a type of important pollutant that is difficult to degrade and detect in liquid phase, and the photocatalytic reduction of CO2. Overall, SA-LDI MS realizes ultrafast photocatalytic reaction screening for the first time and provides practical analytical value in the field of catalyst screening.

Published
2020

19. Heat-Induced Rearrangement of the Disulfide Bond of Lactoglobulin Characterized by Multiply Charged MALDI-TOF/TOF Mass Spectrometry

Author

Xiaobo Xie, Zongxiu Nie, Caiqiao Xiong, Lingpeng Zhan, and Yu Liu

Subjects
Hot Temperature, Chemistry, Disulfide Linkage, 010401 analytical chemistry, Lactoglobulins, 010402 general chemistry, Proteomics, Mass spectrometry, 01 natural sciences, Heterolysis, 0104 chemical sciences, Analytical Chemistry, Ion, Crystallography, Protein structure, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Ionization, Desorption, Disulfides
Abstract

Disulfide bonds are an important post-translational modification of proteins and play a significant role in stabilizing protein structure. While both mass spectrometry-based bottom-up and top-down proteomics are widely used in the identification of disulfide linkages, the top-down approach can avoid potential information loss of disulfide linkage occurring in the bottom-up analysis. In the present work, we applied matrix-assisted laser desorption/ionization tandem Time-of-Flight (MALDI-TOF/TOF) mass spectrometry to investigate the heat-induced disulfide rearrangement of β-lactoglobulin (β-LG). Since β-LG (18 kDa) is too large for common TOF/TOF analysis, we use 2-nitrophloroglucinol (2-NPG) as a matrix to generate multiply charged proteins by MALDI. Fragmentation of doubly charged protein ions yields characteristic triplet peaks of disulfide bonds. We found that the characteristic fragments derived from the heterolytic cleavage of disulfide bonds decreased sharply when the incubation temperature of β-LG solution reached the critical point of 75 °C. These results indicate that the disulfide linkage between C160 and C66 has been broken during the heating process and, probably, new disulfide formed. In conclusion, our work highlights the analytical value of the multiply charged MALDI-TOF/TOF method in the identification of larger proteins (>12 kDa) and disulfide-containing proteins.

Published
2018

20. Utilizing a Mini-Humidifier To Deposit Matrix for MALDI Imaging

Author

Huihui Liu, Caiqiao Xiong, Zongxiu Nie, Jinjuan Xue, Xi Huang, Lingpeng Zhan, and Jie Sun

Subjects
0301 basic medicine, MALDI imaging, Tandem, Chemistry, 010401 analytical chemistry, 01 natural sciences, Mass spectrometry imaging, 0104 chemical sciences, Analytical Chemistry, 03 medical and health sciences, 030104 developmental biology, Sublimation (phase transition), Image resolution, Biomedical engineering
Abstract

MALDI mass spectrometry imaging (MALDI-MSI) is a powerful tool to study endogenous metabolites. The process of matrix deposition is crucial for a high-quality imaging result. Commercial instruments for matrix deposition are expensive. Low-cost methods like airbrushing will generate matrix crystals that are too large for high-spatial-resolution imaging. Sublimation may cause some compounds to go undetected because of the lack of solvent. Herein, we utilized a mini-humidifier, costing less than 5 dollars, to deposit matrix for MALDI-MSI. Compared with Imageprep, a commercialized instrument, our device based on the humidifier provided higher sensitivity and much smaller matrix crystals with diameters of less than 10 μm. High-quality ion images with 10 μm spatial resolution were obtained using our method. The enhancement of sensitivity by the humidifier could provide a sufficient amount of ions to perform tandem mass imaging. We also performed MALDI-MS/MS imaging to separate two lipids in mouse brain.

Published
2018

21. Laser Cleavable Probes-Based Cell Surface Engineering for in Situ Sialoglycoconjugates Profiling by Laser Desorption/Ionization Mass Spectrometry

Author

Jinjuan Xue, Lingpeng Zhan, Jie Sun, Caiqiao Xiong, Xi Huang, Zongxiu Nie, and Huihui Liu

Subjects
In situ, Azides, Cell, Surface engineering, 010402 general chemistry, 01 natural sciences, Cell Line, Analytical Chemistry, law.invention, chemistry.chemical_compound, law, Neoplasms, Desorption, medicine, Humans, Sialoglycoproteins, 010405 organic chemistry, Lasers, Hep G2 Cells, Laser, 0104 chemical sciences, medicine.anatomical_structure, chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Sialic Acids, Click chemistry, Biophysics, Click Chemistry, Azide, Glycoconjugates, HeLa Cells
Abstract

Cell-surface sialoglycoconjugates (sialoglycoproteins and sialoglycolipids) play important roles in cell-cell interactions and related tumor metastasis process. Although there have been some analytical methods to evaluate the sialoglycoconjugates, an effective method providing both qualitative and quantitative information is still deficient. Here we establish an extraction-free, sensitive, and high-throughput platform to realize in situ detection of the cell-surface sialoglycoconjugates on various cell lines, e.g., cancer and normal cells by laser desorption/ionization mass spectrometry (LDI MS). In this proposal, azide groups were introduced into the ends of cell-surface sialoglycoconjugates by the biorthogonal method, and then the sialoglycoconjugates were armed with a laser-cleavable probe (Tphsene) through click chemistry. We can easily get the probes signal under laser irradiation, which reflected the presence of cell-surface sialoglycoconjugates. Different cell lines were discriminated simultaneously, and the LDI relative quantification agreed with fluorescent results. Besides, a linear quantitation relationship in the range of 100 fmol to 100 pmol was obtained with a designed and synthesized internal standard (phTsane) added. A detection limit of 5 fmol was obtained with good reproducibility. Based on the quantitative and high-throughput ability, we conducted pharmacodynamics study of drug (tunicamycin) on cancer cells. In addition, we found the tag was safe from sweet-spot effect of matrix adding. The simultaneous detection of sialoglycoconjugates and metabolites was therefore achieved. We believe that this laser cleavable probes-based cell-surface engineering for sialoglycoconjugates platform means great significance to diagnosis, prognosis, and therapeutic purposes. Besides, this strategy can be applied to other glycoconjugates which is hard to detect and the related disease processes when more corresponding chemically modified sugar substrates and exact biorthogonal reactions are developed.

Published
2018

22. Hot electron transfer promotes ion production in plasmonic metal nanostructure assisted laser desorption ionization mass spectrometry

Author

Xiaohua Cao, Jingjuan Xue, Lingpeng Zhan, Zongxiu Nie, Caiqiao Xiong, Jiyun Wang, and Yafeng Li

Subjects
Materials science, Physics::Optics, 02 engineering and technology, 010402 general chemistry, Mass spectrometry, 01 natural sciences, Catalysis, law.invention, Ion, law, Ionization, Physics::Atomic and Molecular Clusters, Materials Chemistry, Molecule, Physics::Atomic Physics, Surface plasmon resonance, Plasmon, Metals and Alloys, General Chemistry, 021001 nanoscience & nanotechnology, Laser, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Chemical physics, Ceramics and Composites, 0210 nano-technology, Hot electron
Abstract

Plasmonic metal nanostructures have been used as effective materials for enhancing the laser desorption ionization (LDI) efficiency in mass spectrometry analysis. But the ionization mechanism and the origin of initial charges have not been fully understood yet. Here we provided experimental evidence showing that the hot electron transfer in localized surface plasmon resonance (LSPR) plays a key role in ionizing molecules during the LDI process.

Published
2018

23. A novel mass spectrometry method based on competitive non-covalent interaction for the detection of biomarkers

Author

Zongxiu Nie, Jing Han, Yafeng Li, Jinjuan Xue, Caiqiao Xiong, Lingpeng Zhan, and Jie Sun

Subjects
Male, Guanine, Maldi ms, Non covalent, Aptamer, DNA, Single-Stranded, Metal Nanoparticles, Biosensing Techniques, 010402 general chemistry, Mass spectrometry, 01 natural sciences, Catalysis, Cytosine, Limit of Detection, Materials Chemistry, Humans, Metal nanoparticles, Detection limit, Chromatography, Chemistry, Adenine, 010401 analytical chemistry, Metals and Alloys, Reproducibility of Results, General Chemistry, Aptamers, Nucleotide, Prostate-Specific Antigen, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Ceramics and Composites, Gold, Biosensor, Biomarkers, Thymine
Abstract

We report a novel biosensor platform based on competitive non-covalent interaction between ssDNA and a mass tag towards AuNPs, which detects PSA biomarkers sensitively, observed using MALDI MS. A detection limit of 57 pg mL-1 has been achieved, showing an improvement of two orders of magnitude compared to the traditional spectroscopic method.

Published
2018

24. Hand-powered ionization methods for the mass spectrometric detection of small molecules

Author

Xiao Wang, Caiqiao Xiong, Lingwei Meng, Zongxiu Nie, Huihui Liu, Zhengzhou Li, Y. Li, and Yiran Wang

Subjects
business.industry, Chemistry, Electric potential energy, Miniature mass spectrometer, High voltage, Condensed Matter Physics, Mass spectrometry, Piezoelectricity, Ionization, Miniaturization, Optoelectronics, Physical and Theoretical Chemistry, business, Instrumentation, Spectroscopy, Ambient ionization
Abstract

Miniaturization of ambient ionization source is of great importance to the popularization of mass spectrometry. However, current ambient ionization sources are typically connected to several accessory equipment such as high voltage power supply, gas cylinders, and injection pumps. We report hand-powered ionization methods for mass spectrometric detection of small molecules based on a piezoelectric element that transforms hand mechanical energy into electrical energy. The piezoelectric element only weighs 39 g and lengths 9 cm, and no extra accessory equipment is needed. Paper spray, nanoelectrospray, and pin-to-funnel discharge powered by the piezoelectric elements were achieved, and several small molecule standards, including drugs, herbicides, etc., were detected and confirmed using these devices with a benchtop mass spectrometer. In addition, terbuthylazine (a herbicide) on the surface of a tomato was detected using the hand-powered pin-to-funnel discharge coupled with a miniature mass spectrometer, which indicates a potentially broader application of these methods in the on-site detection field. The methods described here are low-cost, user-friendly, miniatured, and versatile. Although efforts are still needed for the improvement of the performance, the piezoelectric element shows the alternative pathway of the miniaturization of ambient ionization.

Published
2021

25. N-Phenyl-2-naphthylamine as a Novel MALDI Matrix for Analysis and in Situ Imaging of Small Molecules

Author

Huihui Liu, Yueming Zhou, Jinjuan Xue, Jiyun Wang, Caiqiao Xiong, Lingpeng Zhan, and Zongxiu Nie

Subjects
Male, 0301 basic medicine, In situ, Salt (chemistry), Mass spectrometry, 01 natural sciences, Analytical Chemistry, Rats, Sprague-Dawley, Matrix (chemical analysis), Mice, 03 medical and health sciences, chemistry.chemical_compound, 2-Naphthylamine, Animals, Amino Acids, chemistry.chemical_classification, Biological Products, Chemistry, 010401 analytical chemistry, Brain, Infarction, Middle Cerebral Artery, Lipids, Sphingolipid, Small molecule, 0104 chemical sciences, Amino acid, 030104 developmental biology, Biochemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
Abstract

Due to its strong ultraviolet absorption, low background interference in the small molecular range, and salt tolerance capacity, N-phenyl-2-naphthylamine (PNA) was developed as a novel matrix in the present study for analysis and imaging of small molecules by matrix-assisted laser desorption/ionization mass spectrometry time-of-fight (MALDI-TOF MS). The newly developed matrix displayed good performance in analysis of a wide range of small-molecule metabolites including free fatty acids, amino acids, peptides, antioxidants, and phospholipids. In addition, PNA-assisted LDI MS imaging of small molecules in brain tissue of rats subjected to middle cerebral artery occlusion (MCAO) revealed unique distributions and changes of 89 small-molecule metabolites including amino acids, antioxidants, free fatty acids, phospholipids, and sphingolipids in brain tissue 24 h postsurgery. Fifty-nine of the altered metabolites were identified, and all the changed metabolites were subject to relative quantitation and statistical analysis. The newly developed matrix has great potential application in the field of biomedical research.

Published
2017

28. Characterization of organic aerosol in Beijing by laser desorption ionization coupled with Fourier Transform Ion Cyclotron Resonance Mass spectrometry

Author

Jinjuan Xue, Xiaobo Xie, Suming Chen, Jincai Zhao, Caiqiao Xiong, Huihui Liu, Chuncheng Chen, Yafeng Li, and Zongxiu Nie

Subjects
chemistry.chemical_classification, Atmospheric Science, Chemistry, 010401 analytical chemistry, Analytical chemistry, 010501 environmental sciences, Particulates, Mass spectrometry, 01 natural sciences, Fourier transform ion cyclotron resonance, 0104 chemical sciences, Aerosol, Ion, Matrix (chemical analysis), Mass spectrum, Alkyl, 0105 earth and related environmental sciences, General Environmental Science
Abstract

In order to resolve the organic compositions in the atmospheric aerosol which is significant for understanding the formation mechanism of particulate matter and their harm for human health, a direct laser desorption ionization (LDI) coupled with Fourier Transform Resonance Mass (FT-ICR MS) was utilized for characterizing the aerosol particles collected in Beijing during winter. A lot of organic compounds can be detected by direct laser desorption ionization of the aerosol particular with different size collected on aluminum foil without complicated sample pretreatment process. In addition, semi quantification of the organic compounds can be achieved with solvent extraction procedure. It was found that the ubiquitous polycyclic aromatic hydrocarbons (PAHs) contaminants in the aerosol could serve as matrix, which helps the detection of many kinds of compounds including highly saturated amphiphilic long alkyl chain compounds (carbon number>16), like aliphatic amines in positive ion mode and organosulfates in negative ion mode. Based on the accurate mass measurement results, elemental compositions of over 1500 peaks in the mass spectrum were derived, and we categorized them into five groups according to their elemental compositions in order to provide helpful information for tracing the pollution source. It is demonstrated that abundant information about the organic components in the atmospheric aerosol can be provided by direct LDI FT-ICR MS method, and these information will largely facilitate further studies on origin and formation process of the aerosol.

Published
2017

30. Development of Visible-Wavelength MALDI Cell Mass Spectrometry for High-Efficiency Single-Cell Analysis

Author

Jiyun Wang, Zongxiu Nie, Huan-Cheng Chang, Wen-Ping Peng, Xiaoyu Zhou, Xi Huang, Qing He, and Caiqiao Xiong

Subjects
0301 basic medicine, MALDI imaging, Laser ablation, Chromatography, Chemistry, 010401 analytical chemistry, Analytical chemistry, Mass spectrometry, 01 natural sciences, Cell Line, 0104 chemical sciences, Analytical Chemistry, Matrix (chemical analysis), 03 medical and health sciences, Matrix-assisted laser desorption/ionization, 030104 developmental biology, Single-cell analysis, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Ionization, Humans, Spectrophotometry, Ultraviolet, Sample preparation, Single-Cell Analysis
Abstract

Mass is a fundamental physical property of an individual cell, from which is revealed the cell growth, cycle, and activity. Taking advantage of cell mass spectrometry (CMS), accurate mass measurement of a charged single cell has been achieved. However, with the increasing demand for high-efficiency single-cell analysis in biology, the limited throughput and inefficient cell desorption/ionization of the CMS inevitably become important issues. To address the challenge, a state of the art visible-wavelength matrix assisted laser desorption/ionization (MALDI) CMS was developed. The employed transmission mode laser ablation and fast evaporation sample preparation enabled the visible-wavelength MALDI to be soft enough and to generate intact charged cells for mass measurement. By using resorufin as matrix, ten sorts of cells, viz., red blood cells (RBCs), Jurkat (JK), CCRF-CEM, SNU-5, BGC-803, MCF-7, L-O2, 293T, Hep G2, and A549 cells, have been successfully analyzed. It was found that the desorption/ionization efficiency of visible-wavelength MALDI was at least 3-fold higher than that of conventional laser-induced acoustic desorption (LIAD) and relevant to the suspension/adherent property of analyzed cells. Based on the measured mass, different cell types in either the individual or mixed state can be differentiated successfully.

Published
2016

31. Review of matrix-assisted laser desorption/ionization mass spectrometry in analysis and imaging of small molecules

Author

Suming Chen, Jinjuan Xue, Jie Sun, Caiqiao Xiong, Huihui Liu, Qing He, and Zongxiu Nie

Subjects
MALDI imaging, Matrix-assisted laser desorption electrospray ionization, General Chemical Engineering, Analytical chemistry, General Chemistry, Mass spectrometry, Biochemistry, Small molecule, Matrix (chemical analysis), chemistry.chemical_compound, Matrix-assisted laser desorption/ionization, chemistry, Desorption, Materials Chemistry, Derivatization
Abstract

With the development and wide application of matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS), it has been an important research to analyze the small molecules in the field of mass spectrometry. Due to the suppression effects and background interference of conventional organic matrix in the low mass range, it seems powerless for MALDI to analyze small molecules. To solve this problem, many efforts including new matrix, analytes derivatization have been tried. This review presents the development of MALDI-MS in analysis of small molecules as well as MALDI-MSI of small molecules.

Published
2016

32. Application of flowerlike MgO for highly sensitive determination of lead via matrix-assisted laser desorption/ionization mass spectrometry

Author

Weiguo Song, Jian Hou, Qing He, Changyan Cao, Zongxiu Nie, Huihui Liu, Ning Zhang, Suming Chen, and Caiqiao Xiong

Subjects
Chemistry, Metal ions in aqueous solution, 010401 analytical chemistry, Organic Chemistry, Analytical chemistry, 02 engineering and technology, 021001 nanoscience & nanotechnology, Mass spectrometry, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Nanomaterials, Matrix (chemical analysis), Matrix-assisted laser desorption/ionization, Adsorption, Ionization, Desorption, 0210 nano-technology, Spectroscopy
Abstract

Rationale Matrix-assisted laser desorption/ionization mass spectrometry (MALDI MS) is a high-throughput method to achieve fast and accurate identification of lead (Pb) exposure, but is seldom used because of low ionization efficiency and insufficient sensitivity. Nanomaterials applied in MS are a promising technique to overcome the obstacles of MALDI. Methods Flowerlike MgO nanostructures are applied for highly sensitive lead profiling in real samples. They can be used in two ways: (a) MgO is mixed with N-naphthylethylenediamine dihydrochloride (NEDC) as a novel matrix MgO/NEDC; (b) MgO is applied as an absorbent to enrich Pb ions in very dilute solution. Results The signal intensities of lead by MgO/NEDC were ten times higher than the NEDC matrix. It also shows superior anti-interference ability when analyzing 10 μmol/L Pb ions in the presence of organic substances or interfering metal ions. By applying MgO as adsorbent, the LOD of lead before enrichment is 1 nmol/L. Blood lead test can be achieved using this enrichment process. Besides, MgO can play the role of internal standard to achieve quantitative analysis. Conclusions Flowerlike MgO nanostructures were applied for highly sensitive lead profiling in real samples. The method is helpful to prevent Pb contamination in a wide range. Further, the combination of MgO with MALDI MS could inspire more nanomaterials being applied in highly sensitive profiling of pollutants. Copyright © 2016 John Wiley & Sons, Ltd.

Published
2016

33. Mass Measurement of Single Intact Nanoparticles in a Cylindrical Ion Trap

Author

Caiqiao Xiong, Ning Zhang, Jiang Yurong, Kai Zhu, Zongxiu Nie, and Huan-Cheng Chang

Subjects
010405 organic chemistry, Chemistry, 010401 analytical chemistry, Analytical chemistry, Nanoparticle, 01 natural sciences, Mass measurement, 0104 chemical sciences, Analytical Chemistry, Characterization (materials science), Colloidal gold, Microscopy, Particle, Ion trap, Electrical conductor
Abstract

Accurate nanoparticle mass characterization is a challenging task, especially at a single particle level. To solve this problem, a strategy for the mass measurement of single intact nanoparticle was proposed. A microscopy-based ion trap mass spectrometer was built up. To improve the detection sensitivity, a cylindrical ion trap with transparent conductive end-caps was used to increase the transmission of scattered light, and a vacuum ultraviolet lamp was used to increase the charge state of the isolated nanoparticle. By detecting the scattered light of the isolated nanoparticle, a series of secular frequencies were obtained, from which the corresponding mass-to-charge ratio of the nanoparticle was calculated. Finally, a Labview program was used to help deduce the charge state and absolute mass of the individual nanoparticle. Masses of gold nanoparticles with different sizes were accurately examined, which are (5.08 ± 0.44) × 10(7) Da for 20 nm, (3.55 ± 0.34) × 10(8) Da for 40 nm, and (1.22 ± 0.14) × 10(9) Da for 60 nm, respectively. The mass of MOFs with irregular shapes was also determined, which is (6.48 ± 1.08) × 10(9) Da. This method can provide the mass information on nanomaterials, thus opens up new possibility of characterizing nanoparticles at the single particle level.

Published
2016

34. Electrospray soft-landing for the construction of non-covalent molecular nanostructures using charged droplets under ambient conditions

Author

Li-Jun Wan, Qing-Na Zheng, Abraham K. Badu-Tawiah, Dong Wang, Caiqiao Xiong, Suming Chen, Zongxiu Nie, Jian Hou, and Cui-Zhong Guan

Subjects
Electrospray, Nanostructure, Soft landing, Chemistry, Non covalent, Metals and Alloys, Analytical chemistry, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Catalysis, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, X-ray photoelectron spectroscopy, Chemical engineering, Materials Chemistry, Ceramics and Composites, Amine gas treating, 0210 nano-technology
Abstract

An electrospray soft-landing (SL) technique was utilized to create 2D nano-networks on HOPG under ambient conditions. A 2,3,6,7,10,11-hexahydroxy-triphenylene close-packing structure was observed by STM instead of unorganized clusters, as well as amine and acid nanostructures. On C18H37NH2 networks, C18H37NH3+ was identified by XPS analysis revealing retaining of charges on the SL-modified surface.

Published
2016

35. Fluorographene nanosheets: a new carbon-based matrix for the detection of small molecules by MALDI-TOF MS

Author

Xiaobo Xie, Jie Sun, Jinjuan Xue, Huihui Liu, Suming Chen, Penglei Chen, Jiyun Wang, Caiqiao Xiong, and Zongxiu Nie

Subjects
chemistry.chemical_classification, Chromatography, General Chemical Engineering, Analytical chemistry, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Small molecule, Ion source, 0104 chemical sciences, Ion, Amino acid, Sialic acid, Matrix-assisted laser desorption/ionization, chemistry.chemical_compound, Matrix (mathematics), chemistry, 0210 nano-technology, Fluorographene
Abstract

Fluorographene nanosheets (FG) were synthesized via one-pot chloroform-mediated sonochemical exfoliation under ambient conditions. For the first time, this material served as a novel matrix for the detection of small molecules by negative ion MALDI-TOF MS. The structural characterization and ionization mechanism of FG were illustrated. The unique properties of FG endow it with properties such as low background, excellent chemical compatibility and homogeneity over conventional carbon based matrices. Most significantly, application of FG as matrix resolved the contamination problem of conventional carbon based matrices to ion source. With the association of FG, a variety of small molecules containing amino acids, peptides, small metabolites, drugs and organonitrogen compounds were analyzed. The developed method was found to have excellent feasibility with biosystems. Based on this, qualitative analysis of sialic acid in human saliva, melatonin in human urine and in situ analysis of MCF-7 cells were done, besides, quantification of anti-cancer drug in human serum and uric acid in human urine were displayed. This work extends the application fields of FG and provides a good candidate of matrix for MALDI-TOF MS detection of small molecules.

Published
2016

36. Correction: Laser cleavable probes for in situ multiplexed glycan detection by single cell mass spectrometry

Author

Caiqiao Xiong, Jiyun Wang, Huihui Liu, Jing Han, Zongxiu Nie, and Xi Huang

Subjects
In situ, Glycan, Chromatography, biology, 010405 organic chemistry, Chemistry, General Chemistry, 010402 general chemistry, Laser, Mass spectrometry, 01 natural sciences, 0104 chemical sciences, law.invention, law, biology.protein, Cell mass
Abstract

Correction for ‘Laser cleavable probes for in situ multiplexed glycan detection by single cell mass spectrometry’ by Jing Han et al., Chem. Sci., 2019, 10, 10958–10962.

Published
2020

37. Mass spectrometry imaging of the in situ drug release from nanocarriers

Author

Suming Chen, Jie Sun, Zongxiu Nie, Jinjuan Xue, Lingpeng Zhan, Caiqiao Xiong, and Huihui Liu

Subjects
In situ, Drug, media_common.quotation_subject, Breast Neoplasms, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Mass spectrometry imaging, Polyethylene Glycols, Mice, Drug Delivery Systems, In vivo, Tumor Cells, Cultured, medicine, Animals, Doxorubicin, Health and Medicine, Disulfides, neoplasms, Research Articles, media_common, Molybdenum, Drug Carriers, Mice, Inbred BALB C, Antibiotics, Antineoplastic, Multidisciplinary, Nanotubes, Carbon, Chemistry, Liver Neoplasms, SciAdv r-articles, Life Sciences, 021001 nanoscience & nanotechnology, Xenograft Model Antitumor Assays, digestive system diseases, 0104 chemical sciences, Drug Liberation, Drug delivery, Biophysics, Drug release, Female, Nanocarriers, 0210 nano-technology, Research Article, medicine.drug
Abstract

Novel label-free MSI strategy was developed for evaluation of the in situ drug release of nanocarriers in sub-organ level., It is crucial but of a great challenge to study in vivo and in situ drug release of nanocarriers when developing a nanomaterial-based drug delivery platform. We developed a new label-free laser desorption/ionization mass spectrometry (MS) imaging strategy that enabled visualization and quantification of the in situ drug release in tissues by monitoring intrinsic MS signal intensity ratio of loaded drug over the nanocarriers. The proof of concept was demonstrated by investigating the doxorubicin (DOX)/polyethylene glycol–MoS2 nanosheets drug delivery system in tumor mouse models. The results revealed a tissue-dependent release behavior of DOX during circulation with the highest dissociation in tumor and lowest dissociation in liver tissues. The drug-loaded MoS2 nanocarriers are predominantly distributed in lung, spleen, and liver tissues, whereas the accumulation in the tumor was unexpectedly lower than in normal tissues. This new strategy could also be extended to other drug-carrier systems, such as carbon nanotubes and black phosphorus nanosheets, and opened a new path to evaluate the drug release of nanocarriers in the suborgan level.

Published
2018

38. Differentiation and Relative Quantitation of Disaccharide Isomers by MALDI-TOF/TOF Mass Spectrometry

Author

Xiaobo Xie, Zongxiu Nie, Lingpeng Zhan, Caiqiao Xiong, Huihui Liu, and Yafeng Li

Subjects
Sucrose, Chromatography, Chemical substance, Anomer, Chemistry, 010401 analytical chemistry, Disaccharide, Maltose, 010402 general chemistry, Mass spectrometry, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Glycomics, Matrix (chemical analysis), chemistry.chemical_compound
Abstract

Saccharide isomer differentiation has been a challenge in glycomics, as the lack of technology to decipher fully the diverse structures of compositions, linkages, and anomeric configurations. Several mass spectrometry-based methods have been applied to the discrimination of disaccharide isomers, but limited quantitative analyses have been reported. In the present study, MALDI-LIFT-TOF/TOF has been investigated to differentiate and relatively quantify underivatized glucose-containing disaccharide isomers that differ in composition, connectivity or configuration. N-(1-naphthyl)ethylenediamine dihydrochloride (NEDC) was used as a highly sensitive matrix without matrix interferences in low mass range, thus yielding intense chloride-attached disaccharide ions [M + Cl]-, which could be fragmented to give diagnostic characteristic fragment patterns for distinguishing these isomers. Three different types of disaccharide isomers were successfully relatively quantified in a binary mixture using the specific product ion pairs. Finally, this method was utilized to identify and relatively quantify two disaccharide isomers in Medicago leaf (maltose and sucrose) without numerous preparation steps. In general, this method is a fast, effective, and robust method for rapid differentiation and quantitation of disaccharide isomers in complex medium.

Published
2018

39. Nonlinear Ion Harmonics in the Paul Trap with Added Octopole Field: Theoretical Characterization and New Insight into Nonlinear Resonance Effect

Author

Lingpeng Zhan, Zongxiu Nie, Yongtai Chen, Xiaoyu Zhou, Ning Zhang, and Caiqiao Xiong

Subjects
Quasi-phase-matching, Field (physics), Chemistry, 010401 analytical chemistry, Analytical chemistry, Signal Processing, Computer-Assisted, 010402 general chemistry, 01 natural sciences, Mass Spectrometry, 0104 chemical sciences, Harmonic balance, symbols.namesake, Nonlinear system, Mathieu function, Nonlinear Dynamics, Structural Biology, Nonlinear resonance, Harmonics, symbols, Atomic physics, Spectroscopy, Excitation
Abstract

The nonlinear harmonics within the ion motion are the fingerprint of the nonlinear fields. They are exclusively introduced by these nonlinear fields and are responsible to some specific nonlinear effects such as nonlinear resonance effect. In this article, the ion motion in the quadrupole field with a weak superimposed octopole component, described by the nonlinear Mathieu equation (NME), was studied by using the analytical harmonic balance (HB) method. Good accuracy of the HB method, which was comparable with that of the numerical fourth-order Runge-Kutta (4th RK), was achieved in the entire first stability region, except for the points at the stability boundary (i.e., beta = 1) and at the nonlinear resonance condition (i.e., beta = 0.5). Using the HB method, the nonlinear 3 beta harmonic series introduced by the octopole component and the resultant nonlinear resonance effect were characterized. At nonlinear resonance, obvious resonant peaks were observed in the nonlinear 3 beta series of ion motion, but were not found in the natural harmonics. In addition, both resonant excitation and absorption peaks could be observed, simultaneously. These are two unique features of the nonlinear resonance, distinguishing it from the normal resonance. Finally, an approximation equation was given to describe the corresponding working parameter, q (nr) , at nonlinear resonance. This equation can help avoid the sensitivity degradation due to the operation of ion traps at the nonlinear resonance condition.

Published
2015

40. A Theoretical Method for Characterizing Nonlinear Effects in Paul Traps with Added Octopole Field

Author

Ning Zhang, Suming Chen, Lingpeng Zhan, Zongxiu Nie, Xiaoyu Zhou, Yongtai Chen, and Caiqiao Xiong

Subjects
Field (physics), Chemistry, Numerical analysis, Analytical chemistry, Computational physics, Ion, Harmonic balance, symbols.namesake, Runge–Kutta methods, Nonlinear system, Amplitude, Mathieu function, Structural Biology, symbols, Spectroscopy
Abstract

In comparison with numerical methods, theoretical characterizations of ion motion in the nonlinear Paul traps always suffer from low accuracy and little applicability. To overcome the difficulties, the theoretical harmonic balance (HB) method was developed, and was validated by the numerical fourth-order Runge-Kutta (4th RK) method. Using the HB method, analytical ion trajectory and ion motion frequency in the superimposed octopole field, e, were obtained by solving the nonlinear Mathieu equation (NME). The obtained accuracy of the HB method was comparable with that of the 4th RK method at the Mathieu parameter, q = 0.6, and the applicable q values could be extended to the entire first stability region with satisfactory accuracy. Two sorts of nonlinear effects of ion motion were studied, including ion frequency shift, Δβ, and ion amplitude variation, Δ(C 2n /C 0) (n ≠ 0). New phenomena regarding Δβ were observed, although extensive studies have been performed based on the pseudo-potential well (PW) model. For instance, the |Δβ| at e = 0.1 and e = –0.1 were found to be different, but they were the same in the PW model. This is the first time the nonlinear effects regarding Δ(C 2n /C 0) (n ≠ 0) are studied, and the associated study has been a challenge for both theoretical and numerical methods. The nonlinear effects of Δ(C 2n /C 0) (n ≠ 0) and Δβ were found to share some similarities at q

Published
2015

41. In Situ Bioconjugation and Ambient Surface Modification Using Reactive Charged Droplets

Author

Yafeng Li, Huihui Liu, Qing He, Abraham K. Badu-Tawiah, Jianing Wang, Jian Hou, Suming Chen, Caiqiao Xiong, Zongxiu Nie, Xiaobo Xie, Lanqun Mao, Ning Zhang, and Yueming Zhou

Subjects
chemistry.chemical_classification, Bioconjugation, Aqueous solution, Surface Properties, Biomolecule, Electrospray ionization, Analytical chemistry, Cytochromes c, Photochemistry, Mass Spectrometry, Analytical Chemistry, chemistry.chemical_compound, Immobilized Proteins, chemistry, Covalent bond, Molecular film, Electrochemistry, Animals, Surface modification, Gold, Derivatization, Electrodes, Sulfur
Abstract

Molecular ions are generated in induced electrospray ionization, and they can be transported to grounded ambient surfaces in the form of charged microdroplets. Efficient amide bonds formation between amines and carboxylic acids were observed inside charged droplets during transfer to the surface. Biomolecules derivatized using this method were self-assembled on a bare gold surface via Au-S bonds under the charged microdroplet environment. Cyclic voltammetric analysis of the self-assembled molecular film showed accelerated protein derivatization with cysteine, which allowed the covalent immobilization of the protein to the gold surface. Cytochrome C-functionalized electrodes prepared using the induced dual nanoelectrospray process showed bioactivity toward aqueous solutions of hydrogen peroxide below 50 μM. In effect, we have developed a method that allows derivatization of biomolecules and their immobilization at ambient surfaces in a single experimental step.

Published
2015

42. MALDI-TOF MS Imaging of Metabolites with a N-(1-Naphthyl) Ethylenediamine Dihydrochloride Matrix and Its Application to Colorectal Cancer Liver Metastasis

Author

Jianing Wang, Caiqiao Xiong, Zongxiu Nie, Qing He, Ning Zhang, Shulan Qiu, Jiyun Wang, Huihui Liu, Suming Chen, and Jian Hou

Subjects
Diagnostic Imaging, In situ, Chromatography, Chemistry, Liver Neoplasms, Ethylenediamines, medicine.disease, Mass spectrometry, Analytical Chemistry, Metastasis, Mice, Inbred C57BL, Matrix (chemical analysis), Mice, chemistry.chemical_compound, Matrix-assisted laser desorption/ionization, Glucose, Metabolomics, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Image Processing, Computer-Assisted, medicine, Animals, Multiplex, Colorectal Neoplasms, N-(1-Naphthyl)ethylenediamine
Abstract

Matrix-assisted laser desorption/ionization mass spectrometry imaging (MALDI MSI) is a label-free technique for identifying multiplex metabolites and determining both their distribution and relative abundance in situ. Our previous study showed that N-(1-naphthyl) ethylenediamine dihydrochloride (NEDC) could act as a matrix for laser desorption/ionization time-of-flight mass spectrometry (LDI-TOF MS) detection of oligosaccharides in solution. In the present study, NEDC-assisted LDI-TOF MSI yielded many more endogenous compound peaks between m/z 60 and m/z 1600 than 9-aminoacridine (9-AA). Our results show that NEDC-assisted LDI-TOF MSI is especially well-suited for examining distributions of glycerophospholipids (GPs) in addition to low molecular weight metabolites below m/z 400. Particularly, NEDC matrix allowed the LDI-TOF MSI of glucose in animal tissue. Furthermore, NEDC-assisted LDI-TOF MSI was applied to a mouse model of colorectal cancer liver metastasis. We revealed the distinct spatio-molecular signatures of many detected compounds in tumor or tumor-bearing liver, and we found that taurine, glucose, and some GPs decreased in tumor-bearing liver as the tumor developed in liver. Importantly, we also found a glucose gradient in metastatic tumor foci for the first time, which further confirms the energy competition between tumors and liver remnant due to the Warburg effect. Our results suggest that NEDC-assisted LDI MSI provides an in situ label-free analysis of multiple glycerophospholipids and low molecular weight metabolites (including glucose) with abundant peaks and high spatial resolution. This will allow future application to in situ definition of biomarkers, signaling pathways, and disease mechanisms.

Published
2014

43. 1,5-Diaminonaphthalene Hydrochloride Assisted Laser Desorption/Ionization Mass Spectrometry Imaging of Small Molecules in Tissues Following Focal Cerebral Ischemia

Author

Lanqun Mao, Qing He, Jianing Wang, Rui Chen, Suming Chen, Jian Hou, Huihui Liu, Caiqiao Xiong, Zongxiu Nie, Jiyun Wang, and Ning Zhang

Subjects
Chromatography, Hydrochloride, Citric Acid Cycle, Ischemia, Matrix (biology), medicine.disease, Mass spectrometry, Small molecule, Mass spectrometry imaging, Brain Ischemia, Rats, Analytical Chemistry, Mice, chemistry.chemical_compound, Adenosine Triphosphate, chemistry, 2-Naphthylamine, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Ionization, Desorption, medicine, Biophysics, Animals
Abstract

A sensitive analytical technique for visualizing small endogenous molecules simultaneously is of great significance for clearly elucidating metabolic mechanisms during pathological progression. In the present study, 1,5-naphthalenediamine (1,5-DAN) hydrochloride was prepared for matrix-assisted laser desorption/ionization (MALDI) mass spectrometry imaging (MSI) of small molecules in liver, brain, and kidneys from mice. Furthermore, 1,5-DAN hydrochloride assisted LDI MSI of small molecules in brain tissue of rats subjected to middle cerebral artery occlusion (MCAO) was carried out to investigate the altered metabolic pathways and mechanisms underlying the development of ischemic brain damage. Our results suggested that the newly prepared matrix possessed brilliant features including low cost, strong ultraviolet absorption, high salt tolerance capacity, and fewer background signals especially in the low mass range (typically m/z500), which permitted us to visualize the spatial distribution of a broad range of small molecule metabolites including metal ions, amino acids, carboxylic acids, nucleotide derivatives, peptide, and lipids simultaneously. Nineteen endogenous metabolites involved in metabolic networks such as ATP metabolism, tricarboxylic acid (TCA) cycle, glutamate-glutamine cycle, and malate-aspartate shuttle, together with metal ions and phospholipids as well as antioxidants underwent relatively obvious changes after 24 h of MCAO. The results were highly consistent with the data obtained by MRM MS analysis. These findings highlighted the promising potential of the organic salt matrix for application in the field of biomedical research.

Published
2014

44. Plasma-based ambient sampling/ionization/transmission integrated source for mass spectrometry

Author

Ning Zhang, Suming Chen, Caiqiao Xiong, Yafeng Li, Yueming Zhou, Yongtai Chen, and Zongxiu Nie

Subjects
Detection limit, Analyte, Chromatography, Plasma Gases, Atmospheric pressure, Chemistry, Analytical chemistry, Plasma, Loratadine, Mass spectrometry, Biochemistry, Mass Spectrometry, Analytical Chemistry, Mice, Orders of magnitude (specific energy), Ionization, Electrochemistry, Animals, Environmental Chemistry, Direct electron ionization liquid chromatography–mass spectrometry interface, Spectroscopy
Abstract

Better sensitivity and interface of ambient sampling/ionization mass spectrometry remain a challenge. Herein, a novel, plasma-based, ambient sampling/ionization/transmission (PASIT) integrated source in a pin-to-funnel configuration was developed for the sensitive analysis of complex samples. With the funnel sleeve directly affected by direct-current discharge plasma, PASIT combines the ability to sample/ionize analyte molecules and then efficiently collect/transport charged mass species under atmospheric pressure and consequently shows an improved sensitivity. The integrated source enhances the signal intensity by more than 2 orders of magnitude compared with the previous pin-to-plate plasma source without significant background addition. A surface limit of detection (LOD) of 130 fmol mm-(2) (S/N = 3) has been achieved for clenbuterol on filter paper with an argon carrier gas. Demonstrated applications include the direct determination of active ingredients from drugs and symbolic compounds from natural plants and cholesterol from mouse brain tissue sections.

Published
2014

45. Quantitative Assessment of Protein Adsorption on Microparticles with Particle Mass Spectrometry

Author

Xiaoyu Zhou, Ning Zhang, Lingpeng Zhan, Wen-Ping Peng, Caiqiao Xiong, Jiyun Wang, Suming Chen, Zongxiu Nie, and Huan-Cheng Chang

Subjects
biology, Chemistry, Analytical chemistry, Proteins, Serum Albumin, Bovine, Hydrogen-Ion Concentration, Enzymes, Immobilized, Silicon Dioxide, Mass spectrometry, Mass Spectrometry, Analytical Chemistry, Adsorption, Desorption, Calibration, biology.protein, Nanoparticles, Particle, Muramidase, Trypsin, Particle size, Particle Size, Bovine serum albumin, Quadrupole ion trap, Protein adsorption
Abstract

In this paper, particle mass spectrometry (PMS), which consists of an aerodynamic desorption/ionization (AD) source, a quadrupole ion trap (QIT) mass analyzer, and a charge detector, was exploited to characterize the protein adsorption on microparticles based on the mass variations of microparticles before and after protein adsorption. This method is simple and has low sample cost. Importantly, its mass resolution is good enough to distinguish the microparticles with and without protein. For the adsorption of bovine serum albumin (BSA) on 3 μm porous poly styrene-divinylbenzene (poly S-DVB), the minimum mass increase that can be resolved by PMS corresponds to 128 fg (1.8 ng/cm(2)) or 1.17 × 10(6) BSA molecules on each poly S-DVB particle. With PMS, the adsorption process of BSA on poly S-DVB spheres was successfully characterized, and the obtained maximum adsorption capacity qm and dissociation constant Kd were consistent with that determined by the conventional depletion method. In addition, the influence of surface modification of silica particles on the enzyme immobilization was evaluated. Compared with C4 (propyldimethylsilane), C8 (octyldimethylsilane), and Ph (phenyldimethylchlorosilane), the CN (cyanoethyldimethylchlorosilane) functionalized silica particles were screened to be most beneficial for the immobilization of both lysozyme and trypsin.

Published
2014

46. Carbon Nanodots As a Matrix for the Analysis of Low-Molecular-Weight Molecules in Both Positive- and Negative-Ion Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometry and Quantification of Glucose and Uric Acid in Real Samples

Author

Xianglei Kong, Huihui Liu, Huzhi Zheng, Suming Chen, Caiqiao Xiong, Jian Hou, Zongxiu Nie, Jianing Wang, and Qing He

Subjects
Internal standard, Chemistry, Analytical chemistry, chemistry.chemical_element, Mass spectrometry, Carbon, Uric Acid, Analytical Chemistry, Surface-enhanced laser desorption/ionization, Matrix (chemical analysis), Matrix-assisted laser desorption/ionization, Glucose, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Desorption, Ionization, Humans, Nanoparticles
Abstract

Carbon nanodots were applied for the first time as a new matrix for the analysis of low-molecular-weight compounds by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) in both positive- and negative-ion modes. A wide range of small molecules including amino acids, peptides, fatty acids, as well as β-agonists and neutral oligosaccharides were analyzed by MALDI MS with carbon nanodots as the matrix, and the lowest 0.2 fmol limits-of-detection were obtained for octadecanoic acid. Clear sodium and potassium adducts and deprotonated signals were produced in positive- and negative-ion modes. Furthermore, the glucose and uric acid in real samples were quantitatively determined by the internal standard method with the linear range of 0.5–9 mM and 0.1–1.8 mM (R2 > 0.999), respectively. This work gives new insight into the application of carbon nanodots and provides a general approach for rapid analysis of low-molecular-weight compounds.

Published
2013

47. Application of flowerlike MgO for highly sensitive determination of lead via matrix-assisted laser desorption/ionization mass spectrometry

Author

Jian, Hou, Suming, Chen, Changyan, Cao, Huihui, Liu, Caiqiao, Xiong, Ning, Zhang, Qing, He, Weiguo, Song, and Zongxiu, Nie

Subjects
Lakes, Lead, Limit of Detection, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Humans, Magnesium Oxide, Sensitivity and Specificity, Nanostructures
Abstract

Matrix-assisted laser desorption/ionization mass spectrometry (MALDI MS) is a high-throughput method to achieve fast and accurate identification of lead (Pb) exposure, but is seldom used because of low ionization efficiency and insufficient sensitivity. Nanomaterials applied in MS are a promising technique to overcome the obstacles of MALDI.Flowerlike MgO nanostructures are applied for highly sensitive lead profiling in real samples. They can be used in two ways: (a) MgO is mixed with N-naphthylethylenediamine dihydrochloride (NEDC) as a novel matrix MgO/NEDC; (b) MgO is applied as an absorbent to enrich Pb ions in very dilute solution.The signal intensities of lead by MgO/NEDC were ten times higher than the NEDC matrix. It also shows superior anti-interference ability when analyzing 10 μmol/L Pb ions in the presence of organic substances or interfering metal ions. By applying MgO as adsorbent, the LOD of lead before enrichment is 1 nmol/L. Blood lead test can be achieved using this enrichment process. Besides, MgO can play the role of internal standard to achieve quantitative analysis.Flowerlike MgO nanostructures were applied for highly sensitive lead profiling in real samples. The method is helpful to prevent Pb contamination in a wide range. Further, the combination of MgO with MALDI MS could inspire more nanomaterials being applied in highly sensitive profiling of pollutants. Copyright © 2016 John WileySons, Ltd.

Published
2016

48. Mass Spectrometry Imaging of Kidney Tissue Sections of Rat Subjected to Unilateral Ureteral Obstruction

Author

Wan Li, Jiyun Wang, Caiqiao Xiong, Zongxiu Nie, Huihui Liu, Xiao-Ping Pu, Qing He, and Jinjuan Xue

Subjects
0301 basic medicine, Male, medicine.medical_specialty, Ischemia, Urology, urologic and male genital diseases, Kidney, Mass spectrometry imaging, Article, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, medicine, Renal fibrosis, Metabolome, Animals, Glycolysis, Renal Insufficiency, Chronic, Multidisciplinary, business.industry, Kidney metabolism, medicine.disease, Rats, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, business, Kidney disease, Ureteral Obstruction
Abstract

Chronic kidney disease (CKD) poses a serious threat to the quality of human life and health with an increasing incidence worldwide. Renal fibrosis is closely related to CKD and regarded as the final common pathophysiological pathway in most cases of end-stage renal diseases. Elucidating the mechanisms underlying renal fibrosis and developing novel therapeutic strategies are of great importance. Herein, matrix assisted laser desorption/ionization mass spectrometry imaging (MALDI MSI) based on 1, 5-diaminonaphthalene hydrochloride was applied to the rat model of unilateral ureteral obstruction (UUO) to investigate metabolic changes during renal fibrosis. Among identified endogenous compounds, twenty-one metabolites involved in metabolic networks such as glycolysis, tricarboxylic acid (TCA) cycle, ATP metabolism, fatty acids metabolism, antioxidants, and metal ions underwent relatively obvious changes after 1 and 3 weeks of UUO. Unique distribution of the metabolites was obtained, and metabolic changes of kidneys during renal fibrosis were investigated simultaneously for the first time. These findings once again highlighted the promising potential of the organic salt matrix for application in small molecule in situ MSI and in the field of biomedical research.

Published
2016

49. Rapidly Probing Antibacterial Activity of Graphene Oxide by Mass Spectrometry-based Metabolite Fingerprinting

Author

Ning Zhang, Yulong Jin, Huihui Liu, Qing He, Zongxiu Nie, Jianing Wang, Caiqiao Xiong, Rui Zhao, Suming Chen, and Jian Hou

Subjects
Metabolite, 02 engineering and technology, 010402 general chemistry, Mass spectrometry, 01 natural sciences, Article, Mass Spectrometry, Nanomaterials, chemistry.chemical_compound, Escherichia coli, Metabolome, Phosphatidylglycerol, Multidisciplinary, Oxides, 021001 nanoscience & nanotechnology, Anti-Bacterial Agents, 0104 chemical sciences, Metabolism disorder, chemistry, Biochemistry, Mass spectrum, Graphite, 0210 nano-technology, Antibacterial activity, Biomarkers
Abstract

Application of nanomaterials as anti-bacteria agents has aroused great attention. To investigate the antibacterial activity and antibacterial mechanism of nanomaterials from a molecular perspective is important for efficient developing of nanomaterial antibiotics. In the current work, a new mass spectrometry-based method was established to investigate the bacterial cytotoxicity of graphene oxide (GO) by the metabolite fingerprinting of microbes. The mass spectra of extracted metabolites from two strains DH5α and ATCC25922 were obtained before and after the incubation with nanomaterials respectively. Then principal component analysis (PCA) of these spectra was performed to reveal the relationship between the metabolism disorder of microbes and bactericidal activity of GO. A parameter “D” obtained from PCA scores was proposed that is capable to quantitatively evaluate the antibacterial activity of GO in concentration and time-dependent experiments. Further annotation of the fingerprinting spectra shows the variabilities of important metabolites such as phosphatidylethanolamine, phosphatidylglycerol and glutathione. This metabolic perturbation of E. coli indicates cell membrane destruction and oxidative stress mechanisms for anti-bacteria activity of graphene oxide. It is anticipated that this mass spectrometry-based metabolite fingerprinting method will be applicable to other antibacterial nanomaterials and provide more clues as to their antibacterial mechanism at molecular level.

Published
2016

50. The bridge between thin layer chromatography-mass spectrometry and high-performance liquid chromatography-mass spectrometry: The realization of liquid thin layer chromatography-mass spectrometry (LTLC-MS)

Author

Jiyun Wang, Huihui Liu, Jianing Wang, Yueming Zhou, Caiqiao Xiong, Zongxiu Nie, Lingpeng Zhan, Michael Wleklinski, and Yafeng Li

Subjects
Desorption ionization, Thin layer, Analytical chemistry, Pain relief, 010402 general chemistry, Mass spectrometry, 01 natural sciences, Biochemistry, High-performance liquid chromatography, Analytical Chemistry, Aminopyrine, Chromatography, High Pressure Liquid, Ambient ionization, Analgesics, Chromatography, Chemistry, 010401 analytical chemistry, Organic Chemistry, Phenacetin, General Medicine, Thin-layer chromatography, 0104 chemical sciences, Separation process, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Chromatography, Thin Layer, Tablets
Abstract

The combination of thin layer chromatography (TLC) and mass spectrometry (MS) has been studied for decades, but for most cases MS detection is done after TLC separation is finished. Here, an online simultaneous TLC-MS analysis system, liquid thin layer chromatography-mass spectrometry (LTLC-MS), is developed which successfully synchronize TLC separation process and MS detection process like GC-MS and HPLC-MS do. And there's no need to use specially designed TLC, just regular TLC plates are enough. LTLC-MS method is composed of a newly developed ambient ionization method, glow discharge-matrix assisted infrared desorption ionization (GD-MAIRDI), and forced-flow TLC (FFTLC) technique, which guarantees the MS detection process does not disturb the TLC separation process throughout the whole analysis. The whole LTLC-MS analysis only need two steps and less than 15min. Mixtures as well as the two main components of a pain relief pills have been successfully analyzed by LTLC-MS. This proof of concept study opens up new possibilities of combining TLC with MS, and will further broaden the application abilities of TLC.

Published
2016

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