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2. New algorithms demonstrate untargeted detection of chemically meaningful changing units and formula assignment for HRMS data of polymeric mixtures in the open-source constellation web application

Author

Dane R. Letourneau, Dennis D. August, and Dietrich A. Volmer

Subjects
Mass spectrometry, High resolution, Untargeted analysis, Software tool, Mass defect, Polymers, Information technology, T58.5-58.64, Chemistry, QD1-999
Abstract

Abstract The field of high-resolution mass spectrometry (HRMS) and ancillary hyphenated techniques comprise a rapidly expanding and evolving area. As popularity of HRMS instruments grows, there is a concurrent need for tools and solutions to simplify and automate the processing of the large and complex datasets that result from these analyses. Constellation is one such of these tools, developed by our group over the last two years to perform unsupervised trend detection for repeating, polymeric units in HRMS data of complex mixtures such as natural organic matter, oil, or lignin. In this work, we develop two new unsupervised algorithms for finding chemically-meaningful changing units in HRMS data, and incorporate a molecular-formula-finding algorithm from the open-source CoreMS software package, both demonstrated here in the Constellation software environment. These algorithms are evaluated on a collection of open-source HRMS datasets containing polymeric analytes (PEG 400 and NIST standard reference material 1950, both metabolites in human plasma, as well as a swab extract containing polymers), and are able to successfully identify all known changing units in the data, including assigning the correct formulas. Through these new developments, we are excited to add to a growing body of open-source software specialized in extracting useful information from complex datasets without the high costs, technical knowledge, and processor-demand typically associated with such tools.

Published
2023
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3. 2-fluoro-1-methylpyridinium p-toluene sulfonate: a new LC-MS/MS derivatization reagent for vitamin D metabolites

Author

Anastasia Alexandridou and Dietrich A. Volmer

Subjects
vitamin D3 metabolites, 25-hydroxyvitamin D3, chemical derivatization, FMP-TS, LC-MS/MS, Biochemistry, QD415-436
Abstract

Vitamin D analysis by MS faces several analytical challenges, including inefficient ionization, nonspecific fragmentation, interferences from epimers, isomers, and isobars, as well as very low concentration levels. In this study, we used 2-fluoro-1-methylpyridinium (FMP) p-toluene sulfonate for derivatization of vitamin D3 metabolites to increase detection sensitivity and allow for full chromatographic separation of vitamin D isomers and epimers. UHPLC-MS/MS was used for measurement of five vitamin D3 metabolites in human serum. Compared with Amplifex and 4-phenyl-1,2,4-triazolin-3,5-dion, the FMP p-toluene sulfonate reaction required less time to be performed. The method was optimized and validated to ensure accuracy, precision, and reliability. In-house and commercial quality control samples were used to assure the quality of the results for 25-hydroxyvitamin D3. The method showed very good linearity and intraday and interday accuracy and precision; coefficients of determination (r2) ranged between 0.9977 and 0.9992, relative recovery from 95 to 111%, and coefficient of variation from 0.9 to 11.3. Stability tests showed that the extracted derivatized serum samples were stable for 24 h after storage at −20°C; 24,25-dihydroxyvitamin D3 and 1,25-dihydroxyvitamin D3-FMP derivatives were stable for 1 week at −80°C. The method was applied to samples of healthy individuals for quantitative determination of vitamin D3, the two epimers of 25-hydroxyvitamin D3 and 24,25-dihydroxyvitamin D3.

Published
2023
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4. Identification of Trace Components in Sauce-Flavor Baijiu by High-Resolution Mass Spectrometry

Author

Jinfeng Ge, Yulin Qi, Wenrui Yao, Daohe Yuan, Qiaozhuan Hu, Chao Ma, Dietrich A. Volmer, and Cong-Qiang Liu

Subjects
sauce-flavor Baijiu, trace components, ESI FT-ICR MS, molecular features, Organic chemistry, QD241-441
Abstract

Sauce-flavor Baijiu is one of the most complex and typical types of traditional Chinese liquor, whose trace components have an important impact on its taste and quality. Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS) is one of the most favorable analytical tools to reveal trace molecular components in complex samples. This study analyzed the chemical diversity of several representative sauce-flavor Baijiu using the combination of electrospray ionization (ESI) and FT-ICR MS. The results showed that ESI+ and ESI− exhibited different chemical features characteristic of trace components. Overall, sauce-flavor Baijiu was dominated by CHO class compounds, and the main specific compound types were aliphatic, highly unsaturated with low oxygen, and peptide-like compounds. The mass spectral parameters resolved by FT-ICR MS of several well-known brands were relatively similar, whereas the greatest variability was observed from an internally supplied brand. This study provides a new perspective on the mass spectrometry characteristics of trace components of sauce-flavor Baijiu and offers a theoretical foundation for further optimization of the gradients in Baijiu.

Published
2023
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6. Sustainable Electrochemical Depolymerization of Lignin in Reusable Ionic Liquids

Author

Tobias K. F. Dier, Daniel Rauber, Dan Durneata, Rolf Hempelmann, and Dietrich A. Volmer

Subjects
Medicine, Science
Abstract

Abstract Lignin’s aromatic building blocks provide a chemical resource that is, in theory, ideal for substitution of aromatic petrochemicals. Moreover, degradation and valorization of lignin has the potential to generate many high-value chemicals for technical applications. In this study, electrochemical degradation of alkali and Organosolv lignin was performed using the ionic liquids 1-ethyl-3-methylimidazolium trifluoromethanesulfonate and triethylammonium methanesulfonate. The extensive degradation of the investigated lignins with simultaneous almost full recovery of the electrolyte materials provided a sustainable alternative to more common lignin degradation processes. We demonstrate here that both the presence (and the absence) of water during electrolysis and proton transport reactions had significant impact on the degradation efficiency. Hydrogen peroxide radical formation promoted certain electrochemical mechanisms in electrolyte systems “contaminated” with water and increased yields of low molecular weight products significantly. The proposed mechanisms were tentatively confirmed by determining product distributions using a combination of liquid chromatography-mass spectrometry and gas-chromatography-mass spectrometry, allowing measurement of both polar versus non-polar as well as volatile versus non-volatile components in the mixtures.

Published
2017
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7. Application of phase correction to improve the characterization of photooxidation products of lignin using 7 Tesla Fourier-transform ion cyclotron resonance mass spectrometry

Author

Yulin Qi, Ruoji Luo, Wolfgang Schrader, and Dietrich A. Volmer

Subjects
lignin, oxidation, solar light, FTICR-MS, phase correction, absorption mode, Education, Science
Abstract

Lignin is the second most abundant natural biopolymer and potentially a valuable alternative energy source for conventional fossil fuels. In this study, Fourier-transform ion cyclotron resonance-mass spectrometry (FTICR-MS) in conjunction with phase correction was applied to study photooxidation products of lignin using a 7 Tesla (T) mass spectrometer. The application of 7 T FTICR-MS has often been inadequate for the analysis of complex natural organic matter because of insufficient resolving power as compared with high-field FTICR, which led to incorrect assignments of elemental formulae and discontinuous plots in graphical and statistical analyses. Here, the application of phase correction to the FTICR mass spectra of lignin oxidation products greatly improved the spectral quality, and thus, readily permitted characterization of photooxidation processes of lignin compounds under simulated solar radiation conditions.

Published
2017
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8. Comparing derivatization reagents for quantitative LC–MS/MS analysis of a variety of vitamin D metabolites

Author

Anastasia Alexandridou, Pascal Schorr, and Dietrich A. Volmer

Subjects
Biochemistry, Analytical Chemistry
Abstract

The present study systematically compares the sensitivity and selectivity of the analysis of multiple vitamin D metabolites after chemical derivatization using different reagents for liquid chromatography-tandem mass spectrometry (LC–MS/MS). Generally, chemical derivatization is applied to vitamin D metabolites to increase the ionization efficiency, which is particularly important for very low abundant metabolites. Derivatization can also improve the selectivity of the LC separation. A wide variety of derivatization reagents has been reported in recent years, but information on their relative performance and applicability to different vitamin D metabolites is, unfortunately, not available in the literature. To fill this gap, we investigated vitamin D3, 3β-25-hydroxyvitamin D3 (3β-25(OH)D3), 3α-25-hydroxyvitamin D3 (3α-25(OH)D3), 1,25-dihydroxyvitamin D3 (1,25(OH)2D3), and 24,25-dihydroxyvitamin D3 (24,25(OH)2D3) and compared response factors and selectivity after derivatizing with several important reagents, including four dienophile reagents (4-phenyl-1,2,4-triazoline-3,5-dione (PTAD), 4-[2-(6,7-dimethoxy-4-methyl-3-oxo-3,4-dihydroquinoxalinyl)ethyl]-1,2,4-triazoline-3,5-dione (DMEQ-TAD), Amplifex, 2-nitrosopyridine (PyrNO)) as well as two reagents targeting hydroxyl groups: isonicotinoyl chloride (INC) and 2-fluoro-1-methylpyridinium-p-toluenesulfonate (FMP-TS). In addition, a combination of dienophiles and hydroxyl group reagents was examined. For LC separations, reversed-phase C-18 and mixed-mode pentafluorophenyl HPLC columns using different compositions of the mobile phase were compared. With respect to detection sensitivity, the optimum derivatization reagent for the profiling of multiple metabolites was Amplifex. Nevertheless, FMP-TS, INC, PTAD, or PTAD combined with an acetylation reaction showed very good performance for selected metabolites. These reagent combinations provided signal enhancements on the order of 3- to 295-fold depending on the compound. Chromatographic separation of the dihydroxylated vitamin D3 species was readily achieved using any of the derivatization reactions, while for 25(OH)D3 epimers, only PyrNO, FMP, INC, and PTAD combined with acetylation enabled complete separation. In conclusion, we believe this study can serve as a useful reference for vitamin D laboratories, to help analytical and clinical scientists decide which derivatization reagent to choose for their application.

Published
2023
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10. Sample preparation techniques for extraction of vitamin D metabolites from non-conventional biological sample matrices prior to LC–MS/MS analysis

Author

Anastasia Alexandridou and Dietrich A. Volmer

Subjects
Biochemistry, Analytical Chemistry
Abstract

The determination of vitamin D metabolites as status marker or for diagnostic purposes is almost entirely conducted from blood serum or plasma. Other biological matrices, however, have also interested researchers, for two main reasons: (1) alternative matrices may allow non-invasive sampling, permit easier sample transfer and require less demanding storage conditions; and (2) the levels of vitamin D metabolites in other body compartments may further aid the understanding of vitamin D metabolism and function. Thus, the development of reliable and efficient sample preparation protocols for sample matrices other than serum/plasma, which will remove potential interferences and selectively extract the targeted metabolites, is of great importance. This review summarizes sample preparation methods for measurement of vitamin D metabolites using liquid chromatography-(tandem)mass spectrometry in more than ten different human tissues, including hair, saliva, adipose tissue, brain and others. Graphical abstract

Published
2022
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11. On the physicochemical and surface properties of 1-alkyl 3-methylimidazolium bis(nonafluorobutylsulfonyl)imide ionic liquids

Author

Daniel Rauber, Tobias Dier, Michael Schmitt, Dietrich A. Volmer, Rolf Hempelmann, and Florian Heib

Subjects
Inorganic chemistry, Wetting, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Perfluoroalkyl-substituents, Ion, Viscosity, chemistry.chemical_compound, Colloid and Surface Chemistry, Ionic liquids contact angle, Side chain, Imide, Alkyl, chemistry.chemical_classification, High-precision drop shape analysis, Chemistry, Receding angle, Advancing angle, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Ionic liquid, Physical chemistry, Elongation, 0210 nano-technology
Abstract

In this study, a series of 1-alkyl-3-methylimidazolium ionic liquids with bis(nonafluorobutylsulfonyl)imide anion ([NNf2]-anion) was synthesized. Their physicochemical properties and surface behaviours were analysed and compared to the widely used 1-alkyl-3-methylimidazolium bis(trifluoromethanesulfonyl)imides ([NTf2]-anion) ionic liquids. For the [NNf2]-ionic liquids, a dominating influence of the anion on physical properties such as thermal transitions, viscosity and polarity than the [NTf2]-IL was observed. With the high-precision drop shape analysis (HPDSA) approach static and dynamic wetting behaviours on both hydrophilic and hydrophobic substrates were characterised and compared to water and imidazolium ionic liquids with perfluoroalkyl-bearing cations. The [NNf2]-ionic liquids exhibited only minor differences of their static wetting properties, but showed noticeable differences of their dynamic wetting properties. It is shown that the wetting properties strongly depend on the degree and position of the fluorous side chain (for both in the cation and anion), but only slightly depend on the elongation of the alkyl side chain.

Published
2023
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12. Characterization of Lignin Compounds at the Molecular Level: Mass Spectrometry Analysis and Raw Data Processing

Author

Ruochun Zhang, Yulin Qi, Chao Ma, Jinfeng Ge, Qiaozhuan Hu, Fu-Jun Yue, Si-Liang Li, and Dietrich A. Volmer

Subjects
lignin, mass spectrometry, ionization, data processing, structural information, Organic chemistry, QD241-441
Abstract

Lignin is the second most abundant natural biopolymer, which is a potential alternative to conventional fossil fuels. It is also a promising material for the recovery of valuable chemicals such as aromatic compounds as well as an important biomarker for terrestrial organic matter. Lignin is currently produced in large quantities as a by-product of chemical pulping and cellulosic ethanol processes. Consequently, analytical methods are required to assess the content of valuable chemicals contained in these complex lignin wastes. This review is devoted to the application of mass spectrometry, including data analysis strategies, for the elemental and structural elucidation of lignin products. We describe and critically evaluate how these methods have contributed to progress and trends in the utilization of lignin in chemical synthesis, materials, energy, and geochemistry.

Published
2021
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13. Constellation: An Open-Source Web Application for Unsupervised Systematic Trend Detection in High-Resolution Mass Spectrometry Data

Author

Dane R. Letourneau and Dietrich A. Volmer

Subjects
Structural Biology, Spectroscopy
Abstract

The increasing popularity of high-resolution mass spectrometry has led to many custom software solutions to process, interpret, and reveal information from high-resolution mass spectra. Although there are numerous software packages for peak-picking, calibration, and formula-finding, there are additional layers of information available when it comes to detecting repeated motifs from polymers or molecules with repeating structures or products of chemical or biochemical transformations that exhibit systematic, serial chemical changes of mass. Constellation is an open-source, Python-based web application that allows the user first to expand their high-resolution mass data into the mass defect space, after which a trend finding algorithm is used for supervised or unsupervised detection of repeating motifs. Many adjustable parameters allow the user to tailor their trend-search to target particular chemical moieties or repeating units, or search for all potential motifs within certain limits. The algorithm has a built-in optimization routine to provide a good starting point for the main trend finding parameters before user customization. Visualization tools allow interrogation of the data and any trends/patterns to a highly specific degree and save publication-quality images directly from the interface. As Constellation is deployed as a web application, it is easily used by anyone with a web browser; no software download or high-powered computer is required, as computations are performed on a remote high-powered data server run by our group.

Published
2022
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14. Analytical considerations for accurately capturing the relevant species contributing to vitamin D status in liquid chromatography‐tandem mass spectrometry assays

Author

Dietrich A. Volmer and Caroline S. Stokes

Subjects
540 Chemie und zugeordnete Wissenschaften, interferences, status marker, ddc:540, General Earth and Planetary Sciences, vitamin D, LC-MS/MS, 25-hydroxyvitamin D, mass spectrometry, General Environmental Science
Abstract

This tutorial review focuses on analytical challenges encountered with the liquid chromatography-tandem mass spectrometry determination of 25-hydroxyvitamin D, which is currently still considered the metabolite that is most representative of vitamin D status. It describes how multiple binding states of circulating 25-hydroxyvitamin D (phase II metabolites, epimers, free/bioavailable/protein-bound species) can influence the accuracy of the analytical determination. It also summarizes important chemical species that can inadvertently contribute to vitamin D status and thus cause systematic errors. These interfering endogenous and exogenous compounds might be isomers of vitamin D, constitutional isomers or isobars and the article outlines techniques to eliminate or minimize these interferences, including chromatographic separations, ion mobility spectrometry, and high-resolution mass spectrometry.

Published
2021
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15. Laser Ablation Secondary Electrospray Ionization for In Situ Mass Spectrometric Interrogation of Acoustically-Levitated Droplets

Author

Sebastian van Wasen, Yi You, Sebastian Beck, Jens Riedel, and Dietrich A. Volmer

Subjects
Spectrometry, Mass, Electrospray Ionization, Lasers, Laser Therapy, Peptides, Mass Spectrometry, Analytical Chemistry
Abstract

The composition of acoustically levitated droplets was probed by a novel combination of mid-IR laser evaporation and subsequent postionization via secondary electrospray ionization. The combination of microliter samples and subnanoliter sampling provided time-resolved interrogation of droplets and allowed for a kinetic investigation of the laser-induced release of the analyte, which was found to strongly depend on the analytes. The observed substance-specific delayed release of the analytes permitted baseline-separated discrimination of the analytes, ideal for the study of complex samples. The additionally applied postionization scheme was found to enable efficient detection of small volatile compounds as well as peptides. The detection of small molecules and peptides occurred under very different sampling geometries, pointing to two distinct underlying ionization mechanisms. Overall, our results suggest that the experimental setup presented in this study can serve as a widely applicable platform to study chemical reactions in acoustically levitated droplets as model reactors.

Published
2022

16. Stability of sample extracts of vitamin D

Author

Anastasia, Alexandridou and Dietrich A, Volmer

Abstract

Liquid chromatography/tandem mass spectrometry (LC-MS/MS) is widely used to determine vitamin D

Published
2022

18. An advanced LC-MS/MS protocol for simultaneous detection of pharmaceuticals and personal care products in the environment

Author

Wenrui Yao, Jinfeng Ge, Qiaozhuan Hu, Jingying Ma, Daohe Yuan, Xiaoli Fu, Yulin Qi, and Dietrich A. Volmer

Subjects
Pharmaceutical Preparations, Tandem Mass Spectrometry, Organic Chemistry, Solid Phase Extraction, Cosmetics, Spectroscopy, Water Pollutants, Chemical, Analytical Chemistry, Chromatography, Liquid, Environmental Monitoring
Abstract

The development of appropriate analytical screening techniques for pharmaceuticals and personal care products (PPCPs) is the basis for studying the distribution and environmental impact of emerging contaminants (ECs). Mass spectrometry-based screening methods vary with the complexity of the target compounds. It is challenging to balance both positive and negative ion quantification with a low detection limit. To establish a set of experimental methods including extraction, chromatography-separation and mass spectrometry screening is one of the most important topics in PPCP research. This paper describes a universal and efficient qualification and quantification protocol for the simultaneous detection of 34 PPCPs in different environmental samples in a single analytical data acquisition run.Thirty-four representative PPCPs, which are widely distributed in the environment with high ecological toxicity and complex chemical structures, were selected as representative target ECs. The extraction of the target PPCPs was achieved using only one solid-phase extraction cartridge without the need to adjust the pH of samples. The enriched samples were detected by LC-MS/MS in both positive and negative ion modes simultaneously. The protocol was evaluated based on the accuracy, precision, detection limits and matrix effects.This method achieved simultaneous detection of PPCPs in both positive and negative ion modes, with a single analytical cycle of 12 min. The observed SPE recoveries were between 40% and 115%. The instrumental detection limits (IDL) varied from 0.01 to 1 pg, and the method detection limits (MDL) were between 0.002 and 3.323 ng/l in different matrices. Most of the PPCPs were subjected to matrix suppression below 30%. The method was successfully applied for quantitative analysis of the PPCPs in different environmental samples, including river samples, wastewater treatment plant (WWTP) samples and soil samples.This protocol developed a rapid and efficient detection method to simultaneous qualitative and quantitative 34 representative PPCPs in the environment. The IDL ranged from 0.01 to 1 pg and the MDL ranged from 0.002 to 3.323 ng/l in different matrices. The detection limit was one order of magnitude lower compared to previous studies. The protocol also provided a wide application range for different environmental matrices, which permitted the migration and transformation of PPCPs to be explored.

Published
2022

19. Online Liquid Chromatography and FT-ICR MS Enable Advanced Separation and Profiling of Organosulfates in Dissolved Organic Matter

Author

Pingqing Fu, Si-Liang Li, Chao Ma, Jinfeng Ge, Dietrich A. Volmer, Yulin Qi, Qiaozhuan Hu, and Shuang Chen

Subjects
Profiling (computer programming), Chromatography, Chemistry (miscellaneous), Chemistry, Ft icr ms, Dissolved organic carbon, Environmental Chemistry, Chemical Engineering (miscellaneous), Water Science and Technology
Published
2021
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20. Mass spectrometry‐based methods for the advanced characterization and structural analysis of lignin: A review

Author

Dietrich A. Volmer and Dane R. Letourneau

Subjects
Resolution (mass spectrometry), lignin, HRMS, Mass spectrometry, Lignin, General Biochemistry, Genetics and Molecular Biology, Analytical Chemistry, chemistry.chemical_compound, analytical chemistry, Humans, Sample preparation, Process engineering, Spectroscopy, mass spectrometry, business.industry, Chemistry, technology, industry, and agriculture, Ms analysis, Condensed Matter Physics, biofuels, Characterization (materials science), Matrix-assisted laser desorption/ionization, 540 Chemie und zugeordnete Wissenschaften, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, ddc:540, Gas chromatography, business
Abstract

Lignin is currently one of the most promising biologically derived resources, due to its abundance and application in biofuels, materials and conversion to value aromatic chemicals. The need to better characterize and understand this complex biopolymer has led to the development of many different analytical approaches, several of which involve mass spectrometry and subsequent data analysis. This review surveys the most important analytical methods for lignin involving mass spectrometry, first looking at methods involving gas chromatography, liquid chromatography and then continuing with more contemporary methods such as matrix assisted laser desorption ionization and time-of-flight-secondary ion mass spectrometry. Following that will be techniques that directly ionize lignin mixtures—without chromatographic separation—using softer atmospheric ionization techniques that leave the lignin oligomers intact. Finally, ultra-high resolution mass analyzers such as FT-ICR have enabled lignin analysis without major sample preparation and chromatography steps. Concurrent with an increase in the resolution of mass spectrometers, there have been a wealth of complementary data analyses and visualization methods that have allowed researchers to probe deeper into the “lignome” than ever before. These approaches extract trends such as compound series and even important analytical information about lignin substructures without performing lignin degradation either chemically or during MS analysis. These innovative methods are paving the way for a more comprehensive understanding of this important biopolymer, as we seek more sustainable solutions for our human species’ energy and materials needs.

Published
2021
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21. Quantitative Analysis of Pharmaceutical Drugs Using a Combination of Acoustic Levitation and High Resolution Mass Spectrometry

Author

Jens Riedel, Dietrich A. Volmer, Sebastian van Wasen, Sebastian Beck, and Yi You

Subjects
Atmospheric pressure, Chemistry, 010401 analytical chemistry, Far-infrared laser, Analytical chemistry, Water, Atmospheric-pressure chemical ionization, Acoustics, 010402 general chemistry, Mass spectrometry, Acoustic levitation, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Physics::Fluid Dynamics, Matrix (chemical analysis), Matrix-assisted laser desorption/ionization, Atmospheric Pressure, Pharmaceutical Preparations, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Ionization
Abstract

A combination of acoustic levitation, laser vaporization, and atmospheric pressure chemical ionization mass spectrometry (APCI-MS) is presented in this study that enabled sensitive analysis of pharmaceutical drugs from an aqueous sample matrix. An unfocused pulsed infrared laser provided contactless sample desorption from the droplets trapped inside an acoustic levitator by activation of the OH stretching band of aqueous and alcoholic solvents. Subsequent atmospheric pressure chemical ionization was used between the levitated droplet and the mass spectrometer for postionization. In this setup, the unfocused laser gently desorbed the analytes by applying very mild repulsive forces. Detailed plume formation studies by temporally resolved schlieren experiments were used to characterize the liquid gas transition in this process. In addition, the role of different additives and solvent composition was examined during the ionization process. The analytical application of the technique and the proof-of-concept for quantitative analysis were demonstrated by the determination of selected pharmaceutical drugs in aqueous matrix with limits of quantification at the lower nanomolar level and a linear dynamic range of 3-4 orders of magnitude.

Published
2021
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22. Fractionation and characterization of dissolved organic matter using solid-phase extraction followed by Fourier transform ion cyclotron resonance mass spectrometry with electrospray, atmospheric pressure photoionization, and laser desorption ionization

Author

Qiaozhuan Hu, Jinfeng Ge, Yuanbi Yi, Chao Ma, Yulin Qi, and Dietrich A. Volmer

Subjects
Methylene Chloride, Spectrometry, Mass, Electrospray Ionization, Fourier Analysis, Lasers, Methanol, Organic Chemistry, Solid Phase Extraction, Water, Cyclotrons, Dissolved Organic Matter, Mass Spectrometry, Analytical Chemistry, Oxygen, Atmospheric Pressure, Spectroscopy, Ecosystem
Abstract

Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS) combined with different ionization techniques provides a powerful means to characterize dissolved organic matter (DOM) at the molecular level. Solid-phase extraction (SPE) is currently the most widely utilized method for extracting the DOM, but one-step elution using methanol does not provide a comprehensive picture of DOM. The development of efficient extraction and enrichment methods as well as characterization techniques from water samples remains a priority for DOM research, which is investigated in this study.The DOM was extracted from lake water by SPE using one-step elution (methanol or dichloromethane) and multistep elution (water, methanol, acetone, and dichloromethane). A combination of electrospray ionization (ESI), atmospheric pressure photoionization (APPI), and matrix-free laser desorption ionization (LDI) was utilized for FT-ICR MS analysis in both positive (+) and negative (-) ion modes.The total recovery of the multistep elution was 23.5% higher as compared to the investigated one-step elution procedure (85% vs. 61.6%); however, a comparison of the observed molecular species and the range of diversity under different ionization techniques along with the statistical analyses showed that proper selection of solvent and ionization method was required to explore specific compounds from the sample.For DOM species containing different heteroatoms, a combination of ESI, APPI, and LDI can offer a comprehensive profile of DOM in aquatic ecosystems. The specific molecular formulae of each ionization technique are characterized as follows: ESI- mode exhibited strong selectivity for lignin-like and tannins-like species with high oxygen content, as well as organosulfates. ESI+ favored lipid species and peptide/protein compounds. Unsaturated and condensed aromatic hydrocarbons with low oxygen were preferably ionized by both APPI and LDI.

Published
2022

24. Deciphering dissolved organic matter by Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS): from bulk to fractions and individuals

Author

Yulin Qi, Qiaorong Xie, Jun-Jian Wang, Ding He, Hongyan Bao, Qing-Long Fu, Sihui Su, Ming Sheng, Si-Liang Li, Dietrich A. Volmer, Fengchang Wu, Guibin Jiang, Cong-Qiang Liu, and Pingqing Fu

Abstract

Exploring the source, transformation pathways, and the fate of natural organic matter (NOM) is critical to understanding the regional/global carbon cycle and carbon budget. The dissolved fraction of NOM, i.e., dissolved organic matter (DOM), is a complex mixture resulting from the transformation of plant, animal and microbial matter and plays a crucial role in many biogeochemical processes at the land-ocean-atmosphere interfaces. The advance of Fourier transform ion cyclotron resonance mass spectrometer (FT-ICR MS) makes the detailed characterization of DOM at the molecular level possible. On the other hand, elucidation of complex DOM sample also presents significant analytical challenges, and these challenges also act as a driving force for the instrumentation and methodology development on FT-ICR MS. This review article has been written to aid those working in biogeochemistry, environmental and atmospheric chemistry, and related areas which investigate elemental cycles and DOM transformations. First, the fundamental theory, historical perspective, and recent advances in the field have been introduced. The detailed molecular characterization of environmental and geological samples continues to present significant analytical challenges, and it also has become a driving force for the development of the instrumentation and experimental methods. These achievements in DOM analysis have had an impact upon the fields of environmental science, geochemistry, and analytical chemistry. Next, varieties of applications of FT-ICR MS have also been described, followed by our view of the future of this technique in earth science research. We believe that this review covers the essential pairing of FT-ICR MS and collectively offers environmental and geochemical scientists a substantial resource for their research. Graphical abstract

Published
2022
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25. Quadrupole detection FT‐ICR mass spectrometry offers deep profiling of residue oil: A systematic comparison of 2ω 7 Tesla versus 15 Tesla instruments

Author

Fu-Jun Yue, Dejun Shi, Jinfeng Ge, Wei Wang, Miao Hu, Xiaowei Wang, Yuanbi Yi, Si-Liang Li, Yulin Qi, Qiaozhuan Hu, Chao Ma, and Dietrich A. Volmer

Subjects
Profiling (computer programming), Residue (complex analysis), Chromatography, Materials science, Ft icr ms, Quadrupole, General Earth and Planetary Sciences, Mass spectrometry, General Environmental Science
Published
2020
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27. Regulation of the brain isoprenoids farnesyl- and geranylgeranylpyrophosphate is altered in male Alzheimer patients

Author

Gunter P. Eckert, Gero P. Hooff, Dana M. Strandjord, Urule Igbavboa, Dietrich A. Volmer, Walter E. Müller, and W. Gibson Wood

Subjects
Alzheimer disease, HMG-CoA reductase, Isoprenoids, Farnesylpyrophosphate, Geranylgeranylpyrophosphate, Prenylation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Post-translational modification of small GTPases by farnesyl- (FPP) and geranylgeranylpyrophosphate (GGPP) has generated much attention due to their potential contribution to cancer, cardiovascular and neurodegenerative diseases. Prenylated proteins have been identified in numerous cell functions and elevated levels of FPP and GGPP have been previously proposed to occur in Alzheimer disease (AD) but have never been quantified. In the present study, we determined if the mevalonate derived compounds FPP and GGPP are increased in brain grey and white matter of male AD patients as compared with control samples. This study demonstrates for the first time that FPP and GGPP levels are significantly elevated in human AD grey and white matter but not cholesterol, indicating a potentially disease-specific targeting of isoprenoid regulation independent of HMG-CoA-reductase. Further suggesting a selective disruption of FPP and GGPP homeostasis in AD, we show that inhibition of HMG-CoA reductase in vivo significantly reduced FPP, GGPP and cholesterol abundance in mice with the largest effect on the isoprenoids. A tentative conclusion is that if indeed regulation of FPP and GGPP is altered in AD brain such changes may stimulate protein prenylation and contribute to AD neuropathophysiology.

Published
2009
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28. Analysis of vitamin D metabolic markers by mass spectrometry: Recent progress regarding the 'gold standard' method and integration into clinical practice

Author

Anastasia Alexandridou, Pascal Schorr, Caroline S. Stokes, and Dietrich A. Volmer

Subjects
Condensed Matter Physics, Spectroscopy, General Biochemistry, Genetics and Molecular Biology, Analytical Chemistry
Abstract

Liquid chromatography/tandem mass spectrometry is firmly established today as the gold standard technique for analysis of vitamin D, both for vitamin D status assessments as well as for measuring complex and intricate vitamin D metabolic fingerprints. While the actual mass spectrometry technology has seen only incremental performance increases in recent years, there have been major, very impactful changes in the front- and back-end of MS-based vitamin D assays; for example, the extension to new types of biological sample matrices analyzed for an increasing number of different vitamin D metabolites, novel sample preparation techniques, new powerful chemical derivatization reagents, as well the continued integration of high resolution mass spectrometers into clinical laboratories, replacing established triple-quadrupole instruments. At the same time, the sustainability of mass spectrometry operation in the vitamin D field is now firmly established through proven analytical harmonization and standardization programs. The present review summarizes the most important of these recent developments.

Published
2021
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29. A simple MALDI target plate with channel design to improve detection sensitivity and reproducibility for quantitative analysis of biomolecules

Author

Lars Kästner, Zhen Liu, Dietrich A. Volmer, and Peng Zhang

Subjects
Isotope dilution method, Surface Properties, Capillary action, MALDI‐MS, Mass spectrometry, 01 natural sciences, law.invention, Matrix (chemical analysis), Limit of Detection, law, ddc:570, Humans, ddc:530, channel plates, plasma, Spectroscopy, Reproducibility, Chromatography, acetyl L carnitine, 010405 organic chemistry, Chemistry, 010401 analytical chemistry, Reproducibility of Results, 530 Physik, Stainless Steel, Laser, quantification, 0104 chemical sciences, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Standard addition, Acetylcarnitine, Crystallization, Quantitative analysis (chemistry), 570 Biowissenschaften, Biologie
Abstract

Overcoming the detrimental effects of sweet spots during crystallization is an important step to improve the quantitative abilities of matrix‐assisted laser desorption/ionization (MALDI) mass spectrometry. In this study, we introduce MALDI targets, which exhibit a channel design to reduce sweet spot phenomena and improve reproducibility. The size of the channels was 3.0 mm in length, 0.35 mm in depth, and 0.40 mm in width, adjusted to the width of the implemented laser beam. For sample deposition, the matrix/sample mixture was homogenously deposited into the channels using capillary action. To demonstrate the proof‐of‐principle, the novel plates were used for the quantification of acetyl‐L‐carnitine in human blood plasma using a combined standard addition and isotope dilution method. The results showed that the reproducibility of acetyl‐L‐carnitine detection was highly improved over a conventional MALDI‐MS assay, with RSD values of less than 5.9% in comparison with 15.6% using the regular MALDI method. The limits of quantification using the new plates were lowered approximately two‐fold in comparison with a standard rastering approach on a smooth stainless‐steel plate. Matrix effects were also assessed and shown to be negligible. The new assay was subsequently applied to the quantification of acetyl‐L‐carnitine in human plasma samples.

Published
2019
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30. Fluorescence and molecular signatures of dissolved organic matter to monitor and assess its multiple sources from a polluted river in the farming-pastoral ecotone of northern China

Author

Jinfeng Ge, Yulin Qi, Cai Li, Jifu Ma, Yuanbi Yi, Qiaozhuan Hu, Khan M.G. Mostofa, Dietrich A. Volmer, and Si-Liang Li

Subjects
China, Spectrometry, Fluorescence, Environmental Engineering, Rivers, Nitrogen, Environmental Chemistry, Agriculture, Dissolved Organic Matter, Lignin, Pollution, Waste Management and Disposal, Ecosystem, Fluorescence
Abstract

The sources and composition of dissolved organic matter (DOM) in rivers are critical to water quality and aquatic ecosystems. Studies on detailed composition of organic matter in rivers in the farming-pastoral ecotone are relatively limited in the research community. To better understand the characteristics and dynamics of DOM, Yang River in North China was selected as the study area because of its profound influences on the farming-pastoral ecotone nearby. A combination of fluorescence spectroscopy and Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS) techniques revealed that the DOM composition of Yang River is driven by land use. DOM in Yang River is predominantly imported from allochthonous inputs, together with agricultural runoff, pastureland, and urban sewage, causing a comprehensive impact on DOM. In detail, DOM associated with cropland inputs was dominated by lignin-like species, with higher nitrogen content. In comparison, DOM related to grassland is more diverse and susceptible to degradation. An increase in urban areas led to an increase in sulfur-containing compounds, while their oxygen, nitrogen, and aromaticity contents were significantly lower than those in cropland. Interestingly, urban-influenced lignin-like compounds may be associated with the effluents from the pulp and paper mill. Additionally, synthetic surfactants from the lower section of the river were also structurally identified by tandem mass spectrometry. Overall, this study could provide valuable insights into the DOM sources and their transformation dynamics at a molecular level, which could be an indicator for riverine water quality management and be applied to other farming-pastoral ecotones straightforward.

Published
2022
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32. First insights into chlorhexidine retention in the oral cavity after application of different regimens

Author

Simone Trautmann, Dietrich A. Volmer, Matthias Hannig, Klaus Hollemeyer, and Bashar Reda

Subjects
Saliva, business.product_category, Mouth rinse, Mouthwashes, Dental pellicle, Dentistry, Oral cavity, Spray, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, Substantivity, medicine, Humans, MALDI-TOF MS, ddc:610, 030212 general & internal medicine, Oral mucosa, General Dentistry, Mouth, Toothpaste, Enamel paint, business.industry, Chemistry, Chlorhexidine, 030206 dentistry, stomatognathic diseases, medicine.anatomical_structure, visual_art, Anti-Infective Agents, Local, visual_art.visual_art_medium, Original Article, Sample collection, business, 610 Medizin und Gesundheit, Toothpastes, medicine.drug
Abstract

Objectives This in situ study aimed to determine and compare the chlorhexidine (CHX) retention in the oral cavity after the application of different CHX pharmaceutical regimens. Methods Five volunteers used different CHX treatment regimens including mouth rinses, dental spray and toothpaste gel. After the application of the different CHX regimens, 2-μl samples were taken from saliva and buccal mucosa pellicle as well as the dental pellicle samples formed on standardized enamel surfaces. Sample collection was conducted at six time points within 12 h. Retention of CHX was measured using matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry. Results CHX retention values in the oral mucosa pellicle were significantly higher than those in saliva. CHX remained in the mucosal pellicle at microgrammes per millilitre levels for 12 h after mouth rinsing, 10 h after spray application and 2 h after using the toothpaste. CHX was detected in the dental pellicle for at least 12 h after application of mouth rinsing and spray. Retention of CHX after mouth rinsing or spray application was significantly higher than the retention after using toothpaste. Conclusions Oral mucosa was the favourable site for CHX retention. Higher mouth rinse concentration and longer rinsing time produced a slight increase in CHX retention. CHX spray provided considerable retention values, whereas toothpaste gel delivered the lowest retention after application. MALDI-TOF was a sensitive method with excellent limits of quantification for CHX detection.

Published
2021
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33. Overestimation of 3α- over 3β

Author

Pascal, Schorr, Borislav, Kovačević, and Dietrich A, Volmer

Subjects
Molecular Structure, Tandem Mass Spectrometry, Solvents, Stereoisomerism, Gases, Protons, Density Functional Theory, Calcifediol, Chromatography, Liquid
Abstract

The metabolism of vitamin D

Published
2021

34. Characterization of Lignin Compounds at the Molecular Level: Mass Spectrometry Analysis and Raw Data Processing

Author

Dietrich A. Volmer, Fu-Jun Yue, Chao Ma, Ruochun Zhang, Jinfeng Ge, Yulin Qi, Qiaozhuan Hu, and Si-Liang Li

Subjects
Pharmaceutical Science, lignin, Review, macromolecular substances, Mass spectrometry, 01 natural sciences, complex mixtures, Analytical Chemistry, lcsh:QD241-441, chemistry.chemical_compound, Molecular level, lcsh:Organic chemistry, Ionization, Drug Discovery, ionization, Lignin, Physical and Theoretical Chemistry, mass spectrometry, Chromatography, 010405 organic chemistry, 010401 analytical chemistry, Organic Chemistry, technology, industry, and agriculture, food and beverages, 0104 chemical sciences, Characterization (materials science), chemistry, Chemistry (miscellaneous), structural information, Molecular Medicine, data processing
Abstract

Lignin is the second most abundant natural biopolymer, which is a potential alternative to conventional fossil fuels. It is also a promising material for the recovery of valuable chemicals such as aromatic compounds as well as an important biomarker for terrestrial organic matter. Lignin is currently produced in large quantities as a by-product of chemical pulping and cellulosic ethanol processes. Consequently, analytical methods are required to assess the content of valuable chemicals contained in these complex lignin wastes. This review is devoted to the application of mass spectrometry, including data analysis strategies, for the elemental and structural elucidation of lignin products. We describe and critically evaluate how these methods have contributed to progress and trends in the utilization of lignin in chemical synthesis, materials, energy, and geochemistry.

Published
2021

35. Overestimation of 3α- over 3β-25-Hydroxyvitamin D3 Levels in Serum: A Mechanistic Rationale for the Different Mass Spectral Properties of the Vitamin D Epimers

Author

Pascal Schorr, Borislav Kovačević, and Dietrich A. Volmer

Subjects
Chemistry, Electrospray ionization, 010401 analytical chemistry, Protonation, Atmospheric-pressure chemical ionization, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Structural Biology, Computational chemistry, Intramolecular force, Ionization, Molecule, Epimer, Density functional theory, Spectroscopy, vitamin D3, epimers, LC−MS/MS, response factor, electrospray ionization, computational calculations
Abstract

The metabolism of vitamin D3 includes a parallel C-3 epimerization pathway-in addition to the standard metabolic processes for vitamin D3-reversing the stereochemical configuration of the -OH group at carbon-3 (s→α). While the biological function of the 3α epimer has not been elucidated yet, the additional species cannot be neglected in the analytical determination of vitamin D3, as it has the potential to introduce analytical errors if not properly accounted for. Recently, some inconsistent mass spectral behavior was seen for the 25-hydroxyvitamin D3 (25(OH)D3) epimers during quantification using electrospray LC-MS/MS. The present work extends that of Flynn et al. ( Ann. Clin. Biochem. 2014, 51, 352-559) and van den Ouweland et al. ( J. Chromatogr. B 2014, 967, 195-202), who reported larger electrospray ionization response factors for the 3α epimer of 25(OH)D3 in human serum samples as compared to the regular 3s variant. The present work was concerned with the mechanistic reasons for these differences. We used a combination of electrospray ionization, atmospheric pressure chemical ionization, and density functional theory calculations to uncover structural dissimilarities between the epimers. A plausible mechanism is described based on intramolecular hydrogen bonding in the gas phase, which creates a small difference of proton affinities between the epimers. More importantly, this mechanism allows the explanation of the different ionization efficiencies of the epimers based on kinetic control of the ionization process, where ionization initially takes place at the hydroxyl group with subsequent proton transfer to a basic carbon atom. The barrier for this transfer differs between the epimers and is in direct competition with H2O elimination from the protonated hydroxyl group. The hidden" site of high gas phase basicity was revealed through computational calculations and appears to be inaccessible via direct protonation."

Published
2021

36. Ultrathin Homogenous AuNP Monolayers as Tunable Functional Substrates for Surface-Assisted Laser Desorption/Ionization of Small Biomolecules

Author

Peng Zhang, Thomas Kister, Tobias Kraus, Dietrich A. Volmer, and Zhen Liu

Subjects
Nanoparticle, Metal Nanoparticles, 010402 general chemistry, 01 natural sciences, Sensitivity and Specificity, law.invention, Structural Biology, law, Desorption, Monolayer, Ionization mass spectrometry, Amino Acids, Spectroscopy, chemistry.chemical_classification, Surface-assisted laser desorption/ionization, Chemistry, Biomolecule, 010401 analytical chemistry, Fatty Acids, Laser, 0104 chemical sciences, Chemical engineering, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Potassium, Gold, Peptides
Abstract

A series of ultrathin, homogenous gold nanoparticle (AuNP) substrates for surface-assisted laser desorption/ionization mass spectrometry (SALDI-MS) were prepared using a simple air/water interface approach. These SALDI substrates enabled soft ionization and provided significant improvements in terms of signal intensities and reduced background levels in comparison to other AuNP morphologies for different analytes such as fatty acids, peptides, amino acids, saccharides, and drugs. Through different microscopic and spectroscopic methods, we determined that the packing homogeneity of the [AuNP]

Published
2020

37. Rapid Quantification of 25-Hydroxyvitamin D3 in Human Serum by Matrix-Assisted Laser Desorption/Ionization Mass Spectrometry

Author

Caroline S. Stokes, Miriam J. Müller, Yulin Qi, and Dietrich A. Volmer

Subjects
0301 basic medicine, Chromatography, Chemistry, 010401 analytical chemistry, Significant difference, Mass spectrometry, Proteomics, 01 natural sciences, 0104 chemical sciences, 03 medical and health sciences, Matrix-assisted laser desorption/ionization, Chromatographic separation, chemistry.chemical_compound, 030104 developmental biology, Structural Biology, Ionization, Desorption, Derivatization, Spectroscopy
Abstract

LC-MS/MS is widely utilized today for quantification of vitamin D in biological fluids. Mass spectrometric assays for vitamin D require very careful method optimization for precise and interference-free, accurate analyses however. Here, we explore chemical derivatization and matrix-assisted laser desorption/ionization (MALDI) as a rapid alternative for quantitative measurement of 25-hydroxyvitamin D3 in human serum, and compare it to results from LC-MS/MS. The method implemented an automated imaging step of each MALDI spot, to locate areas of high intensity, avoid sweet spot phenomena, and thus improve precision. There was no statistically significant difference in vitamin D quantification between the MALDI-MS/MS and LC-MS/MS: mean ± standard deviation for MALDI-MS—29.4 ± 10.3 ng/mL—versus LC-MS/MS—30.3 ± 11.2 ng/mL (P = 0.128)—for the sum of the 25-hydroxyvitamin D epimers. The MALDI-based assay avoided time-consuming chromatographic separation steps and was thus much faster than the LC-MS/MS assay. It also consumed less sample, required no organic solvents, and was readily automated. In this proof-of-concept study, MALDI-MS readily demonstrated its potential for mass spectrometric quantification of vitamin D compounds in biological fluids.

Published
2018
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38. MALDI Mass Spectral Imaging of Bile Acids Observed as Deprotonated Molecules and Proton-Bound Dimers from Mouse Liver Sections

Author

Nadine Hainz, Dietrich A. Volmer, Ignacy Rzagalinski, Carola Meier, and Thomas Tschernig

Subjects
0301 basic medicine, Stereochemistry, Taurine, Electrospray ionization, Adducts, 01 natural sciences, Fourier transform ion cyclotron resonance, Mass spectrometry imaging, Adduct, Bile Acids and Salts, 03 medical and health sciences, chemistry.chemical_compound, Mice, Proton-bound dimers, Structural Biology, Image Processing, Computer-Assisted, Molecule, Animals, MALDI, Spectroscopy, 010401 analytical chemistry, Histological Techniques, Taurocholic acid, FTICR, Bile acids, 0104 chemical sciences, Mice, Inbred C57BL, 030104 developmental biology, chemistry, Liver, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Female, Protons, Lipid digestion, Ion cyclotron resonance, Research Article
Abstract

Bile acids (BAs) play two vital roles in living organisms, as they are involved in (1) the secretion of cholesterol from liver, and (2) the lipid digestion/absorption in the intestine. Abnormal bile acid synthesis or secretion can lead to severe liver disorders. Even though there is extensive literature on the mass spectrometric determination of BAs in biofluids and tissue homogenates, there are no reports on the spatial distribution in the biliary network of the liver. Here, we demonstrate the application of high mass resolution/mass accuracy matrix-assisted laser desorption/ionization (MALDI)-Fourier-transform ion cyclotron resonance (FTICR) to MS imaging (MSI) of BAs at high spatial resolutions (pixel size, 25 μm). The results show chemical heterogeneity of the mouse liver sections with a number of branching biliary and blood ducts. In addition to ion signals from deprotonation of the BA molecules, MALDI-MSI generated several further intense signals at larger m/z for the BAs. These signals were spatially co-localized with the deprotonated molecules and easily misinterpreted as additional products of BA biotransformations. In-depth analysis of accurate mass shifts and additional electrospray ionization and MALDI-FTICR experiments, however, confirmed them as proton-bound dimers. Interestingly, dimers of bile acids, but also unusual mixed dimers of different taurine-conjugated bile acids and free taurine, were identified. Since formation of these complexes will negatively influence signal intensities of the desired [M – H]- ions and significantly complicate mass spectral interpretations, two simple broadband techniques were proposed for non-selective dissociation of dimers that lead to increased signals for the deprotonated BAs. Graphical Abstractᅟ Electronic supplementary material The online version of this article (10.1007/s13361-017-1886-6) contains supplementary material, which is available to authorized users.

Published
2018

39. Determination of Urinary Metabolites of the Emerging UV Filter Octocrylene by Online-SPE-LC-MS/MS

Author

Heiko Hayen, Thomas Brüning, Daniel Bury, Vladimir N. Belov, Dietrich A. Volmer, Yulin Qi, and Holger M. Koch

Subjects
Analyte, Population, UV filter, Pilot Projects, Urine, 010501 environmental sciences, Mass spectrometry, 01 natural sciences, Analytical Chemistry, chemistry.chemical_compound, Glucuronides, Tandem Mass Spectrometry, Nitriles, Biomonitoring, Humans, education, Glucuronidase, 0105 earth and related environmental sciences, education.field_of_study, Chromatography, Escherichia coli K12, Chemistry, 010401 analytical chemistry, 0104 chemical sciences, Octocrylene, Acrylates, Sample collection, Sunscreening Agents, Biomarkers, Chromatography, Liquid
Abstract

Octocrylene (OC) is an emerging UV filter, which is used in the majority of sunscreens as well as other personal care products (PCP) and consumer products. Its presence in various environmental matrices has been reported. However, information on the internal OC exposure in humans is not available, due to the lack of appropriate biomarkers of exposure and analytical methods. Here, we describe a rugged, precise, and accurate analytical method for the determination of three OC metabolites (ester hydrolysis and alkyl chain oxidation products) in human urine by stable isotope dilution analysis. Urine samples are incubated with β-glucuronidase (E. coli K12) and then analyzed by liquid chromatography-electrospray ionization-triple quadrupole-tandem mass spectrometry with online turbulent flow chromatography for sample cleanup and analyte enrichment (online-SPE-LC-MS/MS). Syntheses of analytical standards, including deuterium-labeled internal standards, are also described. In a pilot study, we investigated the applicability of the metabolites as biomarkers of exposure in urine samples from the general population (n = 35). OC metabolites were detected in 91% of the samples, with the highest concentrations for three individuals having used sunscreen within 5 days prior to sample collection. We will apply the method in future human biomonitoring studies for OC exposure and risk assessment.

Published
2017
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40. Rapid fingerprinting of lignin by ambient ionization high resolution mass spectrometry and simplified data mining

Author

Bernhard Spengler, Dietrich A. Volmer, Elizabeth A. Crawford, and Stefanie Gerbig

Subjects
Spectrometry, Mass, Electrospray Ionization, Electrospray ionization, Analytical chemistry, 010402 general chemistry, computer.software_genre, Lignin, 01 natural sciences, Biochemistry, Analytical Chemistry, chemistry.chemical_compound, Ionization, Data Mining, Environmental Chemistry, Spectroscopy, Ambient ionization, computer.programming_language, Dart, Desorption electrospray ionization, Kendrick mass, Chemistry, 010401 analytical chemistry, technology, industry, and agriculture, DART ion source, 0104 chemical sciences, Data mining, computer
Abstract

Ambient ionization techniques are typically used to analyze samples in their native states with minimal or no sample pretreatment prior to mass spectrometric (MS) analysis. Desorption electrospray ionization (DESI) and direct analysis in real time (DART) were systematically investigated in this work for direct solid analysis of depolymerized lignin samples, with the goal of rapidly fingerprinting these samples, to efficiently characterize the subunits of this renewable energy source. High resolution MS was required for enhanced selectivity in this study due to the inherent structural complexity of lignin. DESI provided results across a broader mass range (up to m/z 700) than DART and also ionized saturated compounds of low oxygen-to-carbon (O/C) ratios and low double bond equivalents (DBE). While DART detected the same core lignin monomeric and dimeric compounds as seen with DESI and electrospray ionization (ESI), results were restricted to a narrower mass range to m/z 500, due to thermal degradation and losses of methoxy groups. In contrast to DESI and ESI, the DART spectra were nearly void of saturated components. On a structural level, the core lignin compounds were visually fingerprinted and ionization method performances critically assessed by employing simplified Kendrick-based data mining approaches. A novel simplified data visualization approach was developed in this work based on modified Kendrick mass defect (KMD) filtering for lignin subunits and plotting the mass defect values against the degree of unsaturation. Direct visualization of monomeric, dimeric and trimeric lignin species was simplified by the KMD separation plots, easily allowing the core lignin compounds to be visually identified and compared. Modified KMD bases, namely methoxy and phenol bases, which represent monomer-specific lignin constituents, were successfully used to classify and group the complex mixture of lignin species. Further separation of methoxy-related lignin species was successfully achieved by employing the more specific phenolic KMD base.

Published
2017
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41. Electrochemical Lignin Degradation in Ionic Liquids on Ternary Mixed Metal Electrodes

Author

Daniel Rauber, Dietrich A. Volmer, Tobias Dier, and Rolf Hempelmann

Subjects
Mixed metal, 010405 organic chemistry, Inorganic chemistry, lignin, 010402 general chemistry, Electrochemistry, 01 natural sciences, 0104 chemical sciences, ionic liquids, chemistry.chemical_compound, Lignin degradation, electrochemistry, chemistry, Ionic liquid, Electrode, Lignin, sustainable, Physical and Theoretical Chemistry, Ternary operation
Abstract

Lignin is the second most abundant natural polymer and a promissing feedstock for the generation of renewable aromatic chemicals. We present an fundamental approach for the electrocatalytic cleavage of lignin dissolved in a recoverable, inexpensive ionic liquid using mixed metal oxide electrodes of different compositions. The distribution of depolymerization products generated by electrochemical oxidation were analyzed by means of mass spectrometry. The distribution and yield of the cracked species was found to depended strongly on the implemented metal catalyst and therefore offers the potential to tailor the amount and composition of the low molecular weight cleavage products. This approach could help to provide a more sustainable valorization of lignin for the potential production of high value aromatic compounds due to synergistic effects.

Published
2017
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42. Activation of Reactive MALDI Adduct Ions Enables Differentiation of Dihydroxylated Vitamin D Isomers

Author

Dietrich A. Volmer, Miriam J. Müller, and Yulin Qi

Subjects
0301 basic medicine, Analyte, 24,25-Dihydroxyvitamin D 3, Collision-induced dissociation, Stereochemistry, Mass spectrometry, 01 natural sciences, Adduct, Matrix (chemical analysis), Secosteroid, 03 medical and health sciences, chemistry.chemical_compound, Secosteroids, Calcitriol, Isomerism, Structural Biology, 2-Naphthylamine, Humans, Organic chemistry, Derivatization, Spectroscopy, Ions, 010401 analytical chemistry, Vitamins, 0104 chemical sciences, 030104 developmental biology, chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
Abstract

Vitamin D compounds are secosteroids, which are best known for their role in bone health. More recent studies have shown that vitamin D metabolites and catabolites such as dihydroxylated species (e.g., 1,25- and 24,25-dihydroxyvitamin D3) play key roles in the pathologies of various diseases. Identification of these isomers by mass spectrometry is challenging and currently relies on liquid chromatography, as the isomers exhibit virtually identical product ion spectra under collision induced dissociation conditions. Here, we developed a simple MALDI-CID method that utilizes ion activation of reactive analyte/matrix adducts to distinguish isomeric dihydroxyvitamin D3 species, without the need for chromatography separation or chemical derivatization techniques. Specifically, reactive 1,5-diaminonaphthalene adducts of dihydroxyvitamin D3 compounds formed during MADI were activated and specific cleavages in the secosteroid’s backbone structure were achieved that produced isomer-diagnostic fragment ions.

Published
2017
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43. Determination of Titratable Acidity in Wine Using Potentiometric, Conductometric, and Photometric Methods

Author

Jennifer Garcia, Dietrich A. Volmer, Timothy A. Parker, Luana Curbani, Endler Marcel Borges, and Linda D. Schultz

Subjects
Wine, Titration curve, Chemistry, 010401 analytical chemistry, 05 social sciences, Potentiometric titration, Analytical chemistry, 050301 education, Titratable acid, General Chemistry, Equivalence point, 01 natural sciences, 0104 chemical sciences, Education, Photometry (optics), RGB color model, Titration, 0503 education
Abstract

This experiment describes a simple protocol for teaching acid–base titrations using potentiometry, conductivity, and/or photometry to determine end points without an added indicator. The chosen example examines the titratable acidity of a red wine with NaOH. Wines contain anthocyanins, the colors of which change with pH. Importantly, at the equivalence point, anthocyanins maintain their color, and this effect can be captured optically using a desktop scanner. RGB-based color values are obtained from the digitized images using a dedicated application and employed to generate plots of |v| versus titrant volume. The end point is the point at which the slope (d|v|/Δ/dV) of the titration curve is at a maximum; (d|v| is a vector expression of the color change). The photometric titrations were carried out using a plastic 96-well immunology plate and a flat-bed scanner, and RGB values were extracted simultaneously from all 96 wells in less than 5 min from the images using the ImageJ plugin “ReadPlate”. The wine w...

Published
2017
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44. Quantification of low molecular weight compounds by MALDI imaging mass spectrometry – A tutorial review

Author

Dietrich A. Volmer and Ignacy Rzagalinski

Subjects
0301 basic medicine, MALDI imaging, Absolute quantification, Biophysics, Analytical chemistry, Ion suppression in liquid chromatography–mass spectrometry, Mass spectrometry, 01 natural sciences, Biochemistry, Analytical Chemistry, 03 medical and health sciences, Calibration, Animals, Humans, Molecular Biology, Chemistry, 010401 analytical chemistry, Biological tissue, Reference Standards, Biological materials, 0104 chemical sciences, Molecular Weight, 030104 developmental biology, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, In situ analysis, Biological system
Abstract

Matrix-assisted laser desorption/ionization (MALDI)-mass spectrometry imaging (MSI) permits label-free in situ analysis of chemical compounds directly from the surface of two-dimensional biological tissue slices. It links qualitative molecular information of compounds to their spatial coordinates and distribution within the investigated tissue. MALDI-MSI can also provide the quantitative amounts of target compounds in the tissue, if proper calibration techniques are performed. Obviously, as the target molecules are embedded within the biological tissue environment and analysis must be performed at their precise locations, there is no possibility for extensive sample clean-up routines or chromatographic separations as usually performed with homogenized biological materials; ion suppression phenomena therefore become a critical side effect of MALDI-MSI. Absolute quantification by MALDI-MSI should provide an accurate value of the concentration/amount of the compound of interest in relatively small, well-defined region of interest of the examined tissue, ideally in a single pixel. This goal is extremely challenging and will not only depend on the technical possibilities and limitations of the MSI instrument hardware, but equally on the chosen calibration/standardization strategy. These strategies are the main focus of this article and are discussed and contrasted in detail in this tutorial review. This article is part of a Special Issue entitled: MALDI Imaging, edited by Dr. Corinna Henkel and Prof. Peter Hoffmann.

Published
2017
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45. Structural characterization of pyoverdines produced by Pseudomonas putida KT2440 and Pseudomonas taiwanensis VLB120

Author

Matthias Baune, Karen Scholz, Yulin Qi, Heiko Hayen, and Dietrich A. Volmer

Subjects
0301 basic medicine, Iron, 030106 microbiology, Siderophores, High-performance liquid chromatography, General Biochemistry, Genetics and Molecular Biology, Biomaterials, 03 medical and health sciences, chemistry.chemical_compound, Coordination Complexes, Pseudomonas, Sample preparation, Solid phase extraction, Chromatography, Molecular Structure, biology, Pseudomonas putida, Chemistry, Hydrophilic interaction chromatography, Solid Phase Extraction, Metals and Alloys, biology.organism_classification, 030104 developmental biology, Succinic acid, Malic acid, General Agricultural and Biological Sciences, Oligopeptides, Aluminum, Chromatography, Liquid
Abstract

The previously unknown sequences of several pyoverdines (PVD) produced by a biotechnologically-relevant bacterium, namely, Pseudomonas taiwanensis VLB120, were characterized by high performance liquid chromatography (HPLC)-high resolution mass spectrometry (HRMS). The same structural characterization scheme was checked before by analysis of Pseudomonas sp. putida KT2440 samples with known PVDs. A new sample preparation strategy based on solid-phase extraction was developed, requiring significantly reduced sample material as compared to existing methods. Chromatographic separation was performed using hydrophilic interaction liquid chromatography with gradient elution. Interestingly, no signals for apoPVDs were detected in these analyses, only the corresponding aluminum(III) and iron(III) complexes were seen. The chromatographic separation readily enabled separation of PVD complexes according to their individual structures. HPLC-HRMS and complementary fragmentation data from collision-induced dissociation and electron capture dissociation enabled the structural characterization of the investigated pyoverdines. In Pseudomonas sp. putida KT2240 samples, the known pyoverdines G4R and G4R A were readily confirmed. No PVDs have been previously described for Pseudomonas sp. taiwanensis VLB120. In our study, we identified three new PVDs, which only differed in their acyl side chains (succinic acid, succinic amide and malic acid). Peptide sequencing by MS/MS provided the sequence Orn-Asp-OHAsn-Thr-AcOHOrn-Ser-cOHOrn. Of particular interest is the presence of OHAsn, which has not been reported as PVD constituent before.

Published
2017
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46. Quantification of the 3α and 3β epimers of 25-hydroxyvitamin D3 in dried blood spots by LC-MS/MS using artificial whole blood calibration and chemical derivatization

Author

Dietrich A. Volmer, Miriam J. Müller, and Caroline S. Stokes

Subjects
0301 basic medicine, Chromatography, Electrospray ionization, 010401 analytical chemistry, Analytical chemistry, Mass spectrometry, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Triple quadrupole mass spectrometer, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Standard addition, Vitamin D and neurology, Epimer, Derivatization, Whole blood
Abstract

While the biological function of the 3α epimer of 25-hydroxyvitamin D 3 (25(OH)D 3 ) remains unknown, its presence needs to be accurately captured and separated from the main 3β epimer, to avoid positive bias in vitamin D status analyses. Several recent LC-MS/MS assays for 25(OH)D 3 successfully separate the 3α and 3β epimers by chromatography. Unfortunately, none of the existing LC-MS/MS assays, which utilize dried blood spots (DBS) as sampling/storage vessels, is able to quantify the individual epimers. DBS are often used for analysis of infant blood, however, and these samples are particularly likely to contain significant levels of interfering 3α epimer. Furthermore, proper calibration of DBS samples is much more difficult to achieve than for liquid serum or plasma samples. We addressed this important issue by creating an artificial vitamin D -free whole blood for calibration and then quantified 3α- and 3β-25(OH)D 3 levels from DBS. After chemical derivatization, the vitamin D epimers were separated on a PFP column and concentrations determined by electrospray ionization LC-MS/MS on a triple quadrupole mass spectrometer. Calibration with artificial whole blood showed improved precision over standard addition (7.6 versus 31.5% RSD for 3β-25(OH)D 3 ). The limits of quantification for 3β-25(OH)D 3 and for 3α-25(OH)D 3 were 1.0 and 0.1 ng/mL, respectively. Excellent intra/interday precisions between 2.1 and 2.2% CV (intra) and 4.4–5.3% CV (inter) were established for 3β-25(OH)D 3 and 3α-25(OH)D 3 . For 3β-25(OH)D 3 , only small concentration-independent bias and deviation of 3 showed deviations of

Published
2017
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48. Assessment of molecular diversity of lignin products by various ionization techniques and high-resolution mass spectrometry

Author

Si-Liang Li, Chao Ma, Yulin Qi, Dietrich A. Volmer, Pingqing Fu, and Cong-Qiang Liu

Subjects
Ions, Chemical ionization, Environmental Engineering, 010504 meteorology & atmospheric sciences, Fourier Analysis, Electrospray ionization, Analytical chemistry, Atmospheric-pressure chemical ionization, Photoionization, 010501 environmental sciences, Mass spectrometry, 01 natural sciences, Pollution, Lignin, Mass Spectrometry, Ion, chemistry.chemical_compound, Atmospheric Pressure, chemistry, Ionization, Environmental Chemistry, Waste Management and Disposal, 0105 earth and related environmental sciences
Abstract

Lignin is a highly complex, plant-derived natural biomass component, the analysis of which requires significant demands on the analytical platform. Fourier transform ion cyclotron mass spectrometry (FT-ICR MS) has been shown to be able to readily assess the complexity of lignin and lignin degradation products by assigning tens of thousands of compounds with elemental formulae. Nevertheless, many experimental and instrumental parameters introduce discrimination towards certain components, which limits the comprehensive MS analysis. As a result, a complete characterization of the lignome remains a challenge. The present study investigated a degraded lignin sample using FT-ICR MS and compared several atmospheric pressure ionization methods, e.g., electrospray ionization, atmospheric-pressure chemical ionization, and atmospheric-pressure photoionization. The results clearly show that the number of heteroatoms (e.g., N, S, P) in the sample greatly increases the chemical diversity of lignin, while at the same time also providing potentially useful biomarkers. We demonstrate here that FT-ICR MS was able to directly isolate isotopically pure single components from the ultra-complex mixture for subsequent structural analysis, without the time-consuming chromatographic separation. CAPSULE: Various ionization techniques coupled to FT-ICR MS provide a powerful tool to assess the lignome coverage.

Published
2019

49. Analysis of natural organic matter via fourier transform ion cyclotron resonance mass spectrometry: an overview of recent non-petroleum applications

Author

Dietrich A. Volmer, Yulin Qi, and Pingqing Fu

Subjects
0301 basic medicine, data analysis, Nanotechnology, Tandem mass spectrometry, Mass spectrometry, electron‐based ion dissociation (ExD), 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Fourier transform ion cyclotron resonance, Natural organic matter, Analytical Chemistry, 03 medical and health sciences, Tandem Mass Spectrometry, fragmentation, ddc:550, Mass analysis, Spectroscopy, chemistry.chemical_classification, natural organic matter (NOM), Ions, Fourier Analysis, Chemistry, Biomolecule, 010401 analytical chemistry, Proteins, Cyclotrons, Condensed Matter Physics, 550 Geowissenschaften, 0104 chemical sciences, 030104 developmental biology, Petroleum, Fourier transform ion cyclotron resonance (FTICR)
Abstract

Among the different techniques for mass analysis, ultra‐high‐resolution Fourier transform ion cyclotron resonance (FTICR) is the method of choice for highly complex samples, as it offers unrivaled mass accuracy and resolving power, combined with a high degree of flexibility in hybrid instruments as well as for ion activation techniques. FTICR instruments are readily embraced by the biological and biomedical research communities and applied over a wide range of applications for the analysis of biomolecules such as carbohydrates, lipids, nucleic acids, and proteins. In the field of natural organic matter (NOM) analysis, petroleum‐related studies currently dominate FTICR‐MS applications. Recently, however, there is a growing interest in developing high‐performance MS methods for the characterization of NOM samples from natural aquatic and terrestrial environments. Here, we present an overview of FTICR‐MS techniques for complex, non‐petroleum NOM samples, including data analysis and novel tandem mass spectrometry (MS/MS) methods for structural classifications. © 2020 The Authors. Mass Spectrometry Reviews published by John Wiley & Sons Ltd.

Published
2019

50. Determination of chlorhexidine retention in different oral sites using matrix-assisted laser desorption/ionization-time of flight mass spectrometry

Author

Bashar Reda, Klaus Hollemeyer, Simone Trautmann, Dietrich A. Volmer, and Matthias Hannig

Subjects
0301 basic medicine, Saliva, Dental pellicle, Mouthwashes, Matrix assisted laser desorption ionization time of flight, Mass spectrometry, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, medicine, Humans, Oral mucosa, General Dentistry, Mouth, Chromatography, Chemistry, Chlorhexidine, Mouth Mucosa, 030206 dentistry, Cell Biology, General Medicine, Buccal administration, stomatognathic diseases, 030104 developmental biology, medicine.anatomical_structure, Otorhinolaryngology, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Time-of-flight mass spectrometry, medicine.drug, Disinfectants
Abstract

Objective The aim of this study was to determine chlorhexidine retention in different oral sites after a one-time 30 s mouth rinsing. Design Five volunteers were asked to rinse their mouth with 10 ml of 0.2 % chlorhexidine digluconate for 30 s. After rinsing, samples were collected from the interdental area, buccal dental pellicle, anterior labial and posterior buccal mucosa, and saliva with a microbrush at five-time points within 24 h. Retention of chlorhexidine was measured using matrix-assisted laser desorption/ionization-time of flight mass spectrometry with a quantification limit of 15 ng/ml. Results Chlorhexidine remained in the oral cavity at micrograms per milliliter levels for 11 h after mouth rinsing and was even detected 24 h after application. The results showed a distinct decline of intraoral chlorhexidine levels during the first 6 h after rinsing and it was then retained at low concentrations for at least 24 h. Conclusions The dental pellicle and oral mucosa were favorable sites for chlorhexidine retention. The novel method used for chlorhexidine determination offered excellent quantification limits and readily permitted quantification of chlorhexidine.

Published
2019

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