Your search keyword '"Jos Oomens"' showing total 574 results

1. Taming Conformational Heterogeneity on Ion Racetrack to Unveil Principles that Drive Membrane Permeation of Cyclosporines

Author

Miranda N. Limbach, Edward T. Lindberg, Hernando J. Olivos, Lara van Tetering, Carlos A. Steren, Jonathan Martens, Van A. Ngo, Jos Oomens, and Thanh D. Do

Subjects

Chemistry, QD1-999

Published

2024

2. Characterization of elusive rhamnosyl dioxanium ions and their application in complex oligosaccharide synthesis

Author

Peter H. Moons, Floor ter Braak, Frank F. J. de Kleijne, Bart Bijleveld, Sybren J. R. Corver, Kas J. Houthuijs, Hero R. Almizori, Giel Berden, Jonathan Martens, Jos Oomens, Paul B. White, and Thomas J. Boltje

Subjects

Science

Abstract

Abstract Attaining complete anomeric control is still one of the biggest challenges in carbohydrate chemistry. Glycosyl cations such as oxocarbenium and dioxanium ions are key intermediates of glycosylation reactions. Characterizing these highly-reactive intermediates and understanding their glycosylation mechanisms are essential to the stereoselective synthesis of complex carbohydrates. Although C-2 acyl neighbouring-group participation has been well-studied, the reactive intermediates in more remote participation remain elusive and are challenging to study. Herein, we report a workflow that is utilized to characterize rhamnosyl 1,3-bridged dioxanium ions derived from C-3 p-anisoyl esterified donors. First, we use a combination of quantum-chemical calculations and infrared ion spectroscopy to determine the structure of the cationic glycosylation intermediate in the gas-phase. In addition, we establish the structure and exchange kinetics of highly-reactive, low-abundance species in the solution-phase using chemical exchange saturation transfer, exchange spectroscopy, correlation spectroscopy, heteronuclear single-quantum correlation, and heteronuclear multiple-bond correlation nuclear magnetic resonance spectroscopy. Finally, we apply C-3 acyl neighbouring-group participation to the synthesis of complex bacterial oligosaccharides. This combined approach of finding answers to fundamental physical-chemical questions and their application in organic synthesis provides a robust basis for elucidating highly-reactive intermediates in glycosylation reactions.

Published

2024

3. A spectroscopic test suggests that fragment ion structure annotations in MS/MS libraries are frequently incorrect

Author

Lara van Tetering, Sylvia Spies, Quirine D. K. Wildeman, Kas J. Houthuijs, Rianne E. van Outersterp, Jonathan Martens, Ron A. Wevers, David S. Wishart, Giel Berden, and Jos Oomens

Subjects

Chemistry, QD1-999

Abstract

Abstract Modern untargeted mass spectrometry (MS) analyses quickly detect and resolve thousands of molecular compounds. Although features are readily annotated with a molecular formula in high-resolution small-molecule MS applications, the large majority of them remains unidentified in terms of their full molecular structure. Collision-induced dissociation tandem mass spectrometry (CID-MS2) provides a diagnostic molecular fingerprint to resolve the molecular structure through a library search. However, for de novo identifications, one must often rely on in silico generated MS2 spectra as reference. The ability of different in silico algorithms to correctly predict MS2 spectra and thus to retrieve correct molecular structures is a topic of lively debate, for instance in the CASMI contest. Underlying the predicted MS2 spectra are the in silico generated product ion structures, which are normally not used in de novo identification, but which can serve to critically assess the fragmentation algorithms. Here we evaluate in silico generated MSn product ion structures by comparison with structures established experimentally by infrared ion spectroscopy (IRIS). For a set of three dozen product ion structures from five precursor molecules, we find that virtually all fragment ion structure annotations in three major in silico MS2 libraries (HMDB, METLIN, mzCloud) are incorrect and caution the reader against their use for structure annotation of MS/MS ions.

Published

2024

4. Structure and fragmentation chemistry of the peptide radical cations of glycylphenylalanylglycine (GFG).

Author

Yinan Li, Justin Kai-Chi Lau, Teun van Wieringen, Jonathan Martens, Giel Berden, Jos Oomens, Alan C Hopkinson, K W Michael Siu, and Ivan K Chu

Subjects

Medicine, Science

Abstract

Herein, we explore the generation and characterization of the radical cations of glycylphenylalanylglycine, or [GFG]•+, formed via dissociative electron-transfer reaction from the tripeptide to copper(II) within a ternary complex. A comprehensive investigation employing isotopic labeling, infrared multiple-photon dissociation (IRMPD) spectroscopy, and density functional theory (DFT) calculations elucidated the details and energetics in formation of the peptide radical cations as well as their dissociation products. Unlike conventional aromatic-containing peptide radical cations that primarily form canonical π-radicals, our findings reveal that 75% of the population of the experimentally produced [GFG]•+ precursors are [GFα•G]+, where the radical resides on the middle α-carbon of the phenylalanyl residue. This unexpected isomeric ion has an enthalpy of 6.8 kcal/mol above the global minimum, which has an N-terminal captodative structure, [Gα•FG]+, comprising 25% of the population. The [b₂-H]•+ product ions are also present in a ratio of 75/25 from [GFα•G]+/ [Gα•FG]+, the results of which are obtained from matches between the IRMPD action spectrum and predicted IR absorption spectra of the [b₂-H]•+ candidate structures, as well as from IRMPD isomer population analyses.

Published

2024

5. Reconstructing the infrared spectrum of a peptide from representative conformers of the full canonical ensemble

Author

Amir Kotobi, Lucas Schwob, Gregor B. Vonbun-Feldbauer, Mariana Rossi, Piero Gasparotto, Christian Feiler, Giel Berden, Jos Oomens, Bart Oostenrijk, Debora Scuderi, Sadia Bari, and Robert H. Meißner

Subjects

Chemistry, QD1-999

Abstract

Infrared spectroscopy is widely used for detailed insights into the three-dimensional molecular structure of biomolecules, however, the accurate description of experimental data by theoretical approaches remains challenging due to the dynamic processes that occur in biomolecules. Here, the authors report the accurate interpretation and reproduction of experimental infrared spectra of a model peptide in the gas phase using a combination of replica-exchange molecular dynamics simulations, machine learning and ab initio calculations based on representative structural conformers.

Published

2023

6. Identification of Δ-1-pyrroline-5-carboxylate derived biomarkers for hyperprolinemia type II

Author

Jona Merx, Rianne E. van Outersterp, Udo F. H. Engelke, Veronique Hendriks, Ron A. Wevers, Marleen C. D. G. Huigen, Huub W. A. H. Waterval, Irene M. L. W. Körver-Keularts, Jasmin Mecinović, Floris P. J. T. Rutjes, Jos Oomens, Karlien L. M. Coene, Jonathan Martens, and Thomas J. Boltje

Subjects

Biology (General), QH301-705.5

Abstract

Combined metabolomics, NMR, and, IRIS identify biomarkers of hyperprolinemia type II (HPII) distinct from HPI and similar metabolic signatures as in patients with pyridoxine-dependent epilepsy.

Published

2022

7. Molecular Hydrogen Formation via Vibrational Excitation of Partially Superhydrogenated Pyrenes

Author

Frederik Doktor S. Simonsen, Rijutha Jaganathan, Julianna Palotás, Zeyuan Tang, Bjørk Hammer, Jos Oomens, and Liv Hornekær

Subjects

Polycyclic aromatic hydrocarbons, Astrochemistry, Reaction catalysts, Diffuse interstellar clouds, Molecular physics, Dense interstellar clouds, Astrophysics, QB460-466

Abstract

While polycyclic aromatic hydrocarbons (PAHs) are now accepted to be abundant in interstellar space, the abundance and influence of superhydrogenated PAHs (HPAHs) in the interstellar medium (ISM) are still under investigation. HPAHs may act as catalysts for or reactants in small-molecule formation via hydrogen abstraction reactions, H _2 evaporation, and carbon skeleton fragmentation. Here, we present a gas-phase infrared (IR) action spectroscopy study of the HPAH 4, 5, 9, 10-tetrahydropyrene (THP; C _16 H _14 ), performed at the Free Electron Lasers for Infrared eXperiments facility. IR action spectroscopy was performed on the THP cation, protonated THP, and their fragments produced by collision-induced dissociation in the range from 600 to 1800 cm ^−1 . Calculated IR spectra, at the density functional theory level, agree with experimental IR spectra to a high degree and were utilized to determine molecular structures of the HPAH fragments. Molecular dynamics simulations compared with experimental mass spectra reveal favorable HPAH fragmentation pathways. Molecular hydrogen (H _2 ) is observed to be a primary fragment of [THP+H] ^+ with superhydrogenated duo groups. This contrasts the notion that HPAHs typically undergo carbon skeleton fragmentation leading to C _x H _y formation. These observations show that lowered symmetry and duo or trio aliphatic groups on HPAHs uniquely change their IR spectra, stability, and fragmentation patterns. As a result, these species may contribute to H _2 formation in the ISM.

Published

2024

8. Experimental Determination of the Unusual CH Stretch Frequency of Protonated Fullerenes

Author

Laura Finazzi, Vincent J. Esposito, Julianna Palotás, Jonathan Martens, Els Peeters, Jan Cami, Giel Berden, and Jos Oomens

Subjects

Fullerenes, Infrared spectroscopy, Laboratory astrophysics, Polycyclic aromatic hydrocarbons, Astrochemistry, Astrophysics, QB460-466

Abstract

We report experimental values for the CH stretch frequencies of the protonated fullerenes C _60 H ^+ and C _70 H ^+ . Anharmonic frequency calculations at the B3LYP/6-31G level of theory, which are independent of empirical scaling factors, reproduce the experimental values to within approximately 5 cm ^−1 . Scaling theoretical harmonic frequencies by applying factors derived for polycyclic aromatic hydrocarbons deviate significantly from the experimentally measured frequency. We attribute this deviation to the unusual hydrocarbon structure that affects the degree of anharmonicity of the CH stretch. This result allows us to propose an original, specific scaling factor of 0.9524 to correct harmonic frequencies of CH stretches of protonated fullerenes calculated at the B3LYP/6-311 + G(d,p) level of theory. The special spectral position of the protonated fullerene CH stretch bands makes it a diagnostic marker that may aid in their detection in the interstellar medium.

Published

2024

9. Amadori rearrangement products as potential biomarkers for inborn errors of amino-acid metabolism

Author

Rianne E. van Outersterp, Sam J. Moons, Udo F. H. Engelke, Herman Bentlage, Tessa M. A. Peters, Arno van Rooij, Marleen C. D. G. Huigen, Siebolt de Boer, Ed van der Heeft, Leo A. J. Kluijtmans, Clara D. M. van Karnebeek, Ron A. Wevers, Giel Berden, Jos Oomens, Thomas J. Boltje, Karlien L. M. Coene, and Jonathan Martens

Subjects

Biology (General), QH301-705.5

Abstract

Rianne van Outersterp et al. combine mass spectrometry, NMR, and infrared ion spectroscopy to identify amino acid-hexose conjugates in the blood plasma from patients with metabolic disorders such as phenylketonuria (PKU). These conjugates, or Amadori rearrangement products, are generally not detectable in blood samples from unaffected individuals, and may therefore represent disease biomarkers.

Published

2021

10. 2-Methyl-pentanoyl-carnitine (2-MPC): a urine biomarker for patent Ascaris lumbricoides infection

Author

Ole Lagatie, Ann Verheyen, Stijn Van Asten, Maurice R. Odiere, Yenny Djuardi, Bruno Levecke, Johnny Vlaminck, Zeleke Mekonnen, Daniel Dana, Ruben T’Kindt, Koen Sandra, Rianne van Outersterp, Jos Oomens, Ronghui Lin, Lieve Dillen, Rob Vreeken, Filip Cuyckens, and Lieven J. Stuyver

Subjects

Medicine, Science

Abstract

Abstract Infections with intestinal worms, such as Ascaris lumbricoides, affect hundreds of millions of people in all tropical and subtropical regions of the world. Through large-scale deworming programs, World Health Organization aims to reduce moderate-to-heavy intensity infections below 1%. Current diagnosis and monitoring of these control programs are solely based on the detection of worm eggs in stool. Here we describe how metabolome analysis was used to identify the A. lumbricoides-specific urine biomarker 2-methyl pentanoyl carnitine (2-MPC). This biomarker was found to be 85.7% accurate in determining infection and 90.5% accurate in determining a moderate-to-heavy infection. Our results also demonstrate that there is a correlation between 2-MPC levels in urine and A. lumbricoides DNA detected in stool. Furthermore, the levels of 2-MPC in urine were shown to rapidly and strongly decrease upon administration of a standard treatment (single oral dose of 400 mg albendazole). In an Ascaris suum infection model in pigs, it was found that, although 2-MPC levels were much lower compared to humans, there was a significant association between urinary 2-MPC levels and both worm counts (p = 0.023) and the number of eggs per gram (epg) counts (p

Published

2020

11. Characterization of glycosyl dioxolenium ions and their role in glycosylation reactions

Author

Thomas Hansen, Hidde Elferink, Jacob M. A. van Hengst, Kas J. Houthuijs, Wouter A. Remmerswaal, Alexandra Kromm, Giel Berden, Stefan van der Vorm, Anouk M. Rijs, Hermen S. Overkleeft, Dmitri V. Filippov, Floris P. J. T. Rutjes, Gijsbert A. van der Marel, Jonathan Martens, Jos Oomens, Jeroen D. C. Codée, and Thomas J. Boltje

Subjects

Science

Abstract

Dioxolenium ion intermediates formed from remote positions are hypothesized to direct stereoselective glycosylations. Herein we combine infrared ion spectroscopy, DFT calculations and synthetic work to characterize and study these dioxolenium ions and their role in stereoselective glycosylation reactions.

Published

2020

12. Molecular identification in metabolomics using infrared ion spectroscopy

Author

Jonathan Martens, Giel Berden, Rianne E. van Outersterp, Leo A. J. Kluijtmans, Udo F. Engelke, Clara D. M. van Karnebeek, Ron A. Wevers, and Jos Oomens

Subjects

Medicine, Science

Abstract

Abstract Small molecule identification is a continually expanding field of research and represents the core challenge in various areas of (bio)analytical science, including metabolomics. Here, we unequivocally differentiate enantiomeric N-acetylhexosamines in body fluids using infrared ion spectroscopy, providing orthogonal identification of molecular structure unavailable by standard liquid chromatography/high-resolution tandem mass spectrometry. These results illustrate the potential of infrared ion spectroscopy for the identification of small molecules from complex mixtures.

Published

2017

13. A Cl− Hinge for Cyclen Macrocycles: Ionic Interactions and Tweezer–Like Complexes

Author

Juan Ramón Avilés–Moreno, Giel Berden, Jos Oomens, and Bruno Martínez–Haya

Subjects

molecular recognition, macrocycles, cyclen, chloride, infrared spectroscopy, Chemistry, QD1-999

Abstract

The supramolecular networks derived from the complexation of polyazamacrocycles with halide anions constitute fundamental building blocks of a broad range of modern materials. This study provides insights into the conformational framework that supports the binding of protonated cyclen macrocyles (1,4,7,10-Tetraazacyclododecane) by chloride anions through NHδ+···Cl− interactions. The isolated complex comprised of two cyclen hosts linked by one Cl− anion is characterized by means of infrared action spectroscopy and ion mobility mass spectrometry, in combination with quantum chemical computations. The Cl− anion is found to act as a hinge that bridges the protonated NH2+ moieties of the two macrocycles leading to a molecular tweezer configuration. Different types of conformations emerge, depending on whether the trimer adopts an open arrangement, with significant freedom for internal rotation of the cyclen moieties, or it locks in a folded conformation with intermolecular H-bonds between the two cyclen backbones. The ion mobility collision cross section supports that folded configurations of the complex are dominant under isolated conditions in the gas phase. The IRMPD spectroscopy experiments suggest that two qualitatively different families of folded conformations coexist at room temperature, featuring either peripheral or inner positions of the anion with respect to the macrocycle cavities, These findings should have implications in the growth of extended networks in the nanoscale and in sensing applications.

Published

2019

14. Electron-flux infrared response to varying π-bond topology in charged aromatic monomers

Author

Héctor Álvaro Galué, Jos Oomens, Wybren Jan Buma, and Britta Redlich

Subjects

Science

Abstract

It is essential to understand the effect of molecular vibration on charge transport for better design of molecular electronics. Here, the authors test two benchmark aromatic motifs and show how the coupling between π electrons and molecular vibration is affected by molecular edge topology.

Published

2016

15. Structural identification of electron transfer dissociation products in mass spectrometry using infrared ion spectroscopy

Author

Jonathan Martens, Josipa Grzetic, Giel Berden, and Jos Oomens

Subjects

Science

Abstract

Mass spectrometry is a leading method used for sequencing peptides and proteins by fragmentation followed by analysis of the sequence fragments. Here, the authors use infrared spectroscopy to characterize the structures of peptide fragments formed during electron transfer dissociation.

Published

2016

16. Spectroscopic Investigation of the Metal Coordination of the Aromatic Amino Acids with Zinc and Cadmium

Author

Brandon C. Stevenson, Giel Berden, Jonathan Martens, Jos Oomens, and P. B. Armentrout

Subjects

FELIX Molecular Structure and Dynamics, Physical and Theoretical Chemistry

Abstract

Contains fulltext : 292700.pdf (Publisher’s version ) (Closed access)

Published

2023

17. Hydrogen Bonding Shuts Down Tunneling in Hydroxycarbenes: A Gas-Phase Study by Tandem-Mass Spectrometry, Infrared Ion Spectroscopy, and Theory

Author

Mathias Paul, Thomas Thomulka, Wacharee Harnying, Jörg-Martin Neudörfl, Charlie R. Adams, Jonathan Martens, Giel Berden, Jos Oomens, Anthony J. H. M. Meijer, Albrecht Berkessel, and Mathias Schäfer

Subjects

FELIX Molecular Structure and Dynamics, Colloid and Surface Chemistry, General Chemistry, Biochemistry, Catalysis

Abstract

Contains fulltext : 293912.pdf (Publisher’s version ) (Closed access) 12 p.

Published

2023

18. The anharmonic quartic force field infrared spectra of hydrogenated and methylated PAHs

Author

Cameron J. Mackie, Alessandra Candian, Xinchuan Huang, Elena Maltseva, Annemieke Petrignani, Jos Oomens, Wybren Jan Buma, Timothy J. Lee, and Alexander G. G. M. Tielens

Published

2018

19. An in silico infrared spectral library of molecular ions for metabolite identification

Author

Kas J. Houthuijs, Giel Berden, Udo F. H. Engelke, Vasuk Gautam, David S. Wishart, Ron A. Wevers, Jonathan Martens, and Jos Oomens

Abstract

Infrared ion spectroscopy (IRIS) continues to see increasing use as an analytical tool for small-molecule identification in conjunction with mass spectrometry (MS). The IR spectrum of an m/z selected population of ions constitutes a unique fingerprint that is specific to the molecular structure. However, direct translation of an IR spectrum to a molecular structure remains challenging, as reference libraries of IR spectra of molecular ions largely do not exist. Quantum-chemically computed spectra can reliably be used as reference, but the challenge of selecting the candidate structures remains. Here we introduce an in silico library of vibrational spectra of common MS adducts of over 4500 compounds found in the human metabolome database (HMDB). In total, the library currently contains more than 75 000 spectra computed at the DFT level that can be queried with an experimental IR spectrum. Moreover, we introduce a database of 189 experimental IRIS spectra, which is employed to validate the automated spectral matching routines. This demonstrates that 75% of metabolites in the experimental dataset is correctly identified, based solely on their exact m/z and IRIS spectrum. Additionally, we demonstrate an approach for specifically identifying substructures by performing a search without m/z constraints to find structural analogues. Such an unsupervised search paves the way towards the de novo identification of unknowns that are absent in spectral libraries. We apply the in silico spectral library to identify an unknown in a plasma sample as 3-hydroyxhexanoic acid, highlighting the potential of the method.

Published

2023

20. Characterization of Elusive Reaction Intermediates Using Infrared Ion Spectroscopy: Application to the Experimental Characterization of Glycosyl Cations

Author

Floor ter Braak, Hidde Elferink, Kas J. Houthuijs, Jos Oomens, Jonathan Martens, and Thomas J. Boltje

Subjects

FELIX Molecular Structure and Dynamics, Glycosylation, Spectrophotometry, Infrared, Cations, Solvents, Oligosaccharides, Synthetic Organic Chemistry, General Medicine, General Chemistry

Abstract

A detailed understanding of the reaction mechanism(s) leading to stereoselective product formation is crucial to understanding and predicting product formation and driving the development of new synthetic methodology. One way to improve our understanding of reaction mechanisms is to characterize the reaction intermediates involved in product formation. Because these intermediates are reactive, they are often unstable and therefore difficult to characterize using experimental techniques. For example, glycosylation reactions are critical steps in the chemical synthesis of oligosaccharides and need to be stereoselective to provide the desired α- or β-diastereomer. It remains challenging to predict and control the stereochemical outcome of glycosylation reactions, and their reaction mechanisms remain a hotly debated topic. In most cases, glycosylation reactions take place via reaction mechanisms in the continuum between S

Published

2022

21. Identification of Delta-1-pyrroline-5-carboxylate derived biomarkers for hyperprolinemia type II

Author

Jona Merx, Rianne E. van Outersterp, Udo F. H. Engelke, Veronique Hendriks, Ron A. Wevers, Marleen C. D. G. Huigen, Huub W. A. H. Waterval, Irene M. L. W. Körver-Keularts, Jasmin Mecinović, Floris P. J. T. Rutjes, Jos Oomens, Karlien L. M. Coene, Jonathan Martens, Thomas J. Boltje, MUMC+: DA KG Lab Centraal Lab (9), MUMC+: Academisch Ziekenhuis Maastricht (0), MUMC+: DA KG Lab Specialisten (9), RS: Carim - H02 Cardiomyopathy, and MUMC+: DA CDL Algemeen (9)

Subjects

FELIX Molecular Structure and Dynamics, Pyridoxal, Proline, Inborn Errors, Medicine (miscellaneous), Other Research Radboud Institute for Molecular Life Sciences [Radboudumc 0], Metabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6], Synthetic Organic Chemistry, Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], General Biochemistry, Genetics and Molecular Biology, Phosphates, Amino Acid Metabolism, 1-Pyrroline-5-Carboxylate Dehydrogenase, Proline/metabolism, All institutes and research themes of the Radboud University Medical Center, Proline Oxidase, Pyrroles, 1-Pyrroline-5-Carboxylate Dehydrogenase/deficiency, General Agricultural and Biological Sciences, Proline Oxidase/genetics, Amino Acid Metabolism, Inborn Errors, Biomarkers

Abstract

Hyperprolinemia type II (HPII) is an inborn error of metabolism due to genetic variants in ALDH4A1, leading to a deficiency in Δ-1-pyrroline-5-carboxylate (P5C) dehydrogenase. This leads to an accumulation of toxic levels of P5C, an intermediate in proline catabolism. The accumulating P5C spontaneously reacts with, and inactivates, pyridoxal 5’-phosphate, a crucial cofactor for many enzymatic processes, which is thought to be the pathophysiological mechanism for HPII. Here, we describe the use of a combination of LC-QTOF untargeted metabolomics, NMR spectroscopy and infrared ion spectroscopy (IRIS) to identify and characterize biomarkers for HPII that result of the spontaneous reaction of P5C with malonic acid and acetoacetic acid. We show that these biomarkers can differentiate between HPI, caused by a deficiency of proline oxidase activity, and HPII. The elucidation of their molecular structures yields insights into the disease pathophysiology of HPII.

Published

2022

22. Characterization of Cyclic N-Acyliminium Ions by Infrared Ion Spectroscopy

Author

Jona Merx, Kas J. Houthuijs, Hidde Elferink, Eva Witlox, Jasmin Mecinović, Jos Oomens, Jonathan Martens, Thomas J. Boltje, and Floris P. J. T. Rutjes

Subjects

Ions, FELIX Molecular Structure and Dynamics, heterocycles, Spectrophotometry, Infrared, N-acyliminium ion, Nitrogen, 010405 organic chemistry, Organic Chemistry, Spectrophotometry, Infrared/methods, Molecular Conformation, Synthetic Organic Chemistry, General Chemistry, DFT calculations, stereoselectivity, 010402 general chemistry, 01 natural sciences, Catalysis, 3. Good health, 0104 chemical sciences, ion spectroscopy, Tandem Mass Spectrometry, Ions/chemistry

Abstract

N- Acyliminium ions are highly reactive intermediates that are important for creating CC-bonds adjacent to nitrogen atoms. Here we report the characterization of cyclic N -acyliminium ions in the gas phase, generated by collision induced dissociation tandem mass spectrometry followed by infrared ion spectroscopy using the FELIX infrared free electron laser. Comparison of the DFT calculated spectra with the experimentally observed IR spectra provided valuable insights in the conformations of the N -acyliminium ions.

Published

2022

23. Insights into the binding of arginine to adenosine phosphate from mimetic complexes

Author

Juan Ramón Avilés-Moreno, Giel Berden, Jos Oomens, and Bruno Martínez-Haya

Subjects

FELIX Molecular Structure and Dynamics, Ions, Adenine Nucleotides, Adenine, Sodium, General Physics and Astronomy, Physical and Theoretical Chemistry, Arginine, Guanidine, Adenosine Monophosphate, Phosphates

Abstract

The amino acid arginine plays a key role in the interaction of proteins with adenosine phosphates, as its protonated guanidinium side group is capable of building multipodal H-bonding interactions with the oxygen atoms of the phosphate, phosphoester and ribose moieties and with the nitrogen atoms of adenine. Protein interactions often take place in competition with other ionic species, typically metal cations, which are prone to build concerted coordination arrangements with the same centers of negative charge as guanidinium. We report on a vibrational spectroscopy and computational investigation of a positively charged ternary complex formed by adenosine monophosphate (AMP) with methyl guanidinium and Na

Published

2022

24. Identification of Drug Metabolites with Infrared Ion Spectroscopy – Application to Midazolam in vitro Metabolism**

Author

Rianne E. van Outersterp, Jonathan Martens, Giel Berden, Arnaud Lubin, Filip Cuyckens, and Jos Oomens

Subjects

General Medicine

Published

2023

25. Novel cerebrospinal fluid biomarkers of glucose transporter type 1 deficiency syndrome: Implications beyond the brain's energy deficit

Author

Tessa M. A. Peters, Jona Merx, Pieter C. Kooijman, Marek Noga, Siebolt de Boer, Loes A. van Gemert, Guido Salden, Udo F. H. Engelke, Dirk J. Lefeber, Rianne E. van Outersterp, Giel Berden, Thomas J. Boltje, Rafael Artuch, Leticia Pías‐Peleteiro, Ángeles García‐Cazorla, Ivo Barić, Beat Thöny, Jos Oomens, Jonathan Martens, Ron A. Wevers, Marcel M. Verbeek, Karlien L. M. Coene, and Michèl A. A. P. Willemsen

Subjects

FELIX Molecular Structure and Dynamics, Genetics, Metabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6], Synthetic Organic Chemistry, Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], Genetics (clinical), O-glucosylation, SLC2A1, next-generation metabolic screening, oligosaccharides, untargeted metabolomics

Abstract

We used next-generation metabolic screening to identify new biomarkers for improved diagnosis and pathophysiological understanding of glucose transporter type 1 deficiency syndrome (GLUT1DS), comparing metabolic cerebrospinal fluid (CSF) profiles from 12 patients to those of 116 controls. This confirmed decreased CSF glucose and lactate levels in patients with GLUT1DS and increased glutamine at group level. We identified three novel biomarkers significantly decreased in patients, namely gluconic + galactonic acid, xylose-α1-3- glucose, and xylose-α1-3-xylose-α1-3- glucose, of which the latter two have not previously been identified in body fluids. CSF concentrations of gluconic + galactonic acid may be reduced as these metabolites could serve as alternative substrates for the pentose phosphate pathway. Xylose-α1-3-glucose and xylose-α1-3- xylose-α1-3-glucose may originate from glycosylated proteins ; their decreased levels are hypothetically the consequence of insufficient glucose, one of two substrates for O- glucosylation. Since many proteins are O- glucosylated, this deficiency may affect cellular processes and thus contribute to GLUT1DS pathophysiology. The novel CSF biomarkers have the potential to improve the biochemical diagnosis of GLUT1DS. Our findings imply that brain glucose deficiency in GLUT1DS may cause disruptions at the cellular level that go beyond energy metabolism, underlining the importance of developing treatment strategies that directly target cerebral glucose uptake.

Published

2023

26. Targeted Small-Molecule Identification Using Heartcutting Liquid Chromatography-Infrared Ion Spectroscopy

Author

Rianne E. van Outersterp, Jitse Oosterhout, Christoph R. Gebhardt, Giel Berden, Udo F. H. Engelke, Ron A. Wevers, Filip Cuyckens, Jos Oomens, and Jonathan Martens

Subjects

FELIX Molecular Structure and Dynamics, All institutes and research themes of the Radboud University Medical Center, Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], Analytical Chemistry

Abstract

Contains fulltext : 290351.pdf (Publisher’s version ) (Open Access)

Published

2023

27. A Dynamic Proton Bond: MH+·H2O ⇌ M·H3O+ Interconversion in Loosely Coordinated Environments

Author

Bruno Martínez-Haya, Juan Ramón Avilés-Moreno, Francisco Gámez, Jonathan Martens, Jos Oomens, Giel Berden, and UAM. Departamento de Química Física Aplicada

Subjects

FELIX Molecular Structure and Dynamics, Proton Transport, Supramolecular complexes, Mass spectrometry, Chinese Continental Scientific Drilling Project, Infrared ion spectroscopy, General Materials Science, Química, Crown ethers, Physical and Theoretical Chemistry, Molecular Dynamics, Proton bonding

Abstract

The interaction of organic molecules with oxonium cations within their solvation shell may lead to the emergence of dynamic supramolecular structures with recurrently changing host–guest chemical identity. We illustrate this phenomenon in benchmark proton-bonded complexes of water with polyether macrocyles. Despite the smaller proton affinity of water versus the ether group, water in fact retains the proton in the form of H3O+, with increasing stability as the coordination number increases. Hindrance in many-fold coordination induces dynamic reversible (ether)·H3O+ ⇌ (etherH+)·H2O interconversion. We perform infrared action ion spectroscopy over a broad spectral range to expose the vibrational signatures of the loose proton bonding in these systems. Remarkably, characteristic bands for the two limiting proton bonding configurations are observed in the experimental vibrational spectra, superimposed onto diffuse bands associated with proton delocalization. These features cannot be described by static equilibrium structures but are accurately modeled within the framework of ab initio molecular dynamics., Area of Physical Chemistry

Published

2023

28. Oxidation of Designed Model Peptides Containing Methionine, Proline and Glutamic Acid Investigated by Tandem Mass Spectrometry and IRMPD Spectroscopy

Author

Yining Jiang, Jean-Xavier Bardaud, Nouha Ayadi, Marc Lecouvey, Chantal Houée-Levin, Giel Berden, Jos Oomens, Debora Scuderi, Institut de Chimie Physique (ICP), Institut de Chimie du CNRS (INC)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Laboratoire Interactions, Dynamiques et Lasers (ex SPAM) (LIDyl), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Chimie, Structures et Propriétés de Biomatériaux et d'Agents Thérapeutiques (CSPBAT), Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Université Sorbonne Paris Nord, Radboud University [Nijmegen], van ‘t Hoff Institute for Molecular Sciences, Universiteit van Amsterdam (UvA), and European Project: 871124

Subjects

FELIX Molecular Structure and Dynamics, [CHIM]Chemical Sciences, Physical and Theoretical Chemistry, Condensed Matter Physics, Instrumentation, Spectroscopy

Abstract

Contains fulltext : 292798.pdf (Publisher’s version ) (Closed access) Contains fulltext : 292798.pdf (Author’s version preprint ) (Open Access)

Published

2023

29. Probing radical versus proton migration in the aniline cation with IRMPD spectroscopy

Author

Laura Finazzi, Jonathan Martens, Giel Berden, and Jos Oomens

Subjects

FELIX Molecular Structure and Dynamics, Biophysics, Physical and Theoretical Chemistry, Condensed Matter Physics, Molecular Biology

Abstract

Contains fulltext : 292786.pdf (Publisher’s version ) (Open Access)

Published

2023

30. Protonated Forms of Naringenin and Naringenin Chalcone: Proteiform Bioactive Species Elucidated by IRMPD Spectroscopy, IMS, CID-MS, and Computational Approaches

Author

Davide Corinti, Lucretia Rotari, Maria Elisa Crestoni, Simonetta Fornarini, Jos Oomens, Giel Berden, Aura Tintaru, and Barbara Chiavarino

Subjects

FELIX Molecular Structure and Dynamics, General Chemistry, General Agricultural and Biological Sciences

Abstract

Contains fulltext : 290998.pdf (Publisher’s version ) (Open Access)

Published

2023

31. Evaluation of table-top lasers for routine infrared ion spectroscopy in the analytical laboratory

Author

Giel Berden, Rianne E. van Outersterp, Laurent Lamard, Jonathan Martens, Filip Cuyckens, André Peremans, Jos Oomens, and Molecular Spectroscopy (HIMS, FNWI)

Subjects

OPOS, FELIX Molecular Structure and Dynamics, Materials science, Infrared, business.industry, Free-electron laser, Mass spectrometry, Laser, Biochemistry, Analytical Chemistry, Ion, law.invention, Chemistry, law, Electrochemistry, Environmental Chemistry, Optoelectronics, Quadrupole ion trap, Spectroscopy, business

Abstract

Infrared ion spectroscopy is increasingly recognized as a method to identify mass spectrometry-detected analytes in many (bio)chemical areas and its integration in analytical laboratories is now on the horizon. Commercially available quadrupole ion trap mass spectrometers are attractive ion spectroscopy platforms but operate at relatively high pressures. This promotes collisional deactivation which directly interferes with the multiple-photon excitation process required for ion spectroscopy. To overcome this, infrared lasers having a high instantaneous power are required and therefore a majority of analytical studies have been performed at infrared free electron laser facilities. Proliferation of the technique to routine use in analytical laboratories requires table-top infrared lasers and optical parametric oscillators (OPOs) are the most suitable candidates, offering both relatively high intensities and reasonable spectral tuning ranges. Here, we explore the potential of a range of commercially available high-power OPOs for ion spectroscopy, comparing systems with repetition rates of 10 Hz, 20 kHz, 80 MHz and a continuous-wave (cw) system. We compare the performance for various molecular ions and show that the kHz and MHz repetition-rate systems outperform cw and 10 Hz systems in photodissociation efficiency and offer several advantages in terms of cost-effectiveness and practical implementation in an analytical laboratory not specialized in laser spectroscopy., Evaluation of four table-top IR lasers for ion spectroscopy in ion trap mass spectrometers shows high rep-rate lasers offer better photodissociation efficiency and are more cost-effective and practical compared to low rep-rate or cw alternatives.

Published

2021

32. Final Products of One-Electron Oxidation of Cyclic Dipeptides Containing Methionine Investigated by IRMPD Spectroscopy: Does the Free Radical Choose the Final Compound?

Author

Yining Jiang, Suvasthika Indrajith, Ariel Francis Perez Mellor, Thomas Bürgi, Marc Lecouvey, Carine Clavaguéra, Enrico Bodo, Chantal Houée-Levin, Estelle Loire, Giel Berden, Jos Oomens, Debora Scuderi, Institut de Chimie Physique (ICP), Institut de Chimie du CNRS (INC)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Centre de recherche sur les Ions, les MAtériaux et la Photonique (CIMAP - UMR 6252), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche sur les Matériaux Avancés (IRMA), Normandie Université (NU)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Rouen Normandie (UNIROUEN), Normandie Université (NU)-Institut national des sciences appliquées Rouen Normandie (INSA Rouen Normandie), Institut National des Sciences Appliquées (INSA)-Normandie Université (NU)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Rouen Normandie (UNIROUEN), Institut National des Sciences Appliquées (INSA)-Normandie Université (NU)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS), Stockholm University, Université de Genève = University of Geneva (UNIGE), Chimie, Structures et Propriétés de Biomatériaux et d'Agents Thérapeutiques (CSPBAT), Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Université Sorbonne Paris Nord, Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome] (UNIROMA), Radboud University [Nijmegen], van ‘t Hoff Institute for Molecular Sciences, Universiteit van Amsterdam (UvA), and Molecular Spectroscopy (HIMS, FNWI)

Subjects

FELIX Molecular Structure and Dynamics, IRMPD spectroscopy, Spectrum Analysis, -radiolysis, One-electron oxidation, cyclic peptides, Electrons, Dipeptides, Hydrogen Peroxide, Sulfenic Acids, Surfaces, Coatings and Films, [CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry, Methionine, One-electron oxidation -radiolysis IRMPD spectroscopy tandem mass spectrometry cyclic peptides, tandem mass spectrometry, Materials Chemistry, [PHYS.PHYS.PHYS-CHEM-PH]Physics [physics]/Physics [physics]/Chemical Physics [physics.chem-ph], Physical and Theoretical Chemistry, Sulfur

Abstract

Reactive oxygen species (ROS) such as hydrogen peroxide (H2O2) and the hydroxyl radical (•OH) have specific functions in biological processes, while their uncontrolled production and reactivity are known to be determining factors in pathophysiology. Methionine (Met) residues act as endogenous antioxidants, when they are oxidized into methionine sulfoxide (MetSO), thus depleting ROS and protecting the protein. We employed tandem mass spectrometry combined with IR multiple photon dissociation spectroscopy to study the oxidation induced by OH radicals produced by γradiolysis on model cyclic dipeptides c(LMetLMet), c(LMetDMet), and c(GlyMet). Our aim was to characterize the geometries of the oxidized peptides in the gas phase and to understand the relationship between the structure of the 2-center 3-electron (2c-3e) free radical formed in the first step of the oxidation process and the final compound. Density functional theory calculations were performed to characterize the lowest energy structures of the final product of oxidation and to interpret the IR spectra. Collision-induced dissociation tandem mass spectrometry (CID-MS2) experiments of oxidized c(LMetLMet)H+ and c(LMetDMet)H+ led to the loss of one or two oxidized sulfenic acid molecules, indicating that the addition of one or two oxygen atoms occurs on the sulfur atom of both methionine side chains and no sulfone formation was observed. The CID-MS2 fragmentation mass spectrum of oxidized c(GlyMet)H+ showed only the loss of one oxidized sulfenic acid molecule. Thus, the final products of oxidation are the same regardless of the structure of the precursor sulfur-centered free radical.

Published

2022

33. Competing C-4 and C-5-Acyl Stabilization of Uronic Acid Glycosyl Cations

Author

Hidde Elferink, Wouter A. Remmerswaal, Kas J. Houthuijs, Oscar Jansen, Thomas Hansen, Anouk M. Rijs, Giel Berden, Jonathan Martens, Jos Oomens, Jeroen D. C. Codée, Thomas J. Boltje, Organic Chemistry, AIMMS, Chemistry and Pharmaceutical Sciences, and BioAnalytical Chemistry

Subjects

FELIX Molecular Structure and Dynamics, Spectrophotometry, Infrared, Organic Chemistry, Carboxylic Acids, carbohydrates, Synthetic Organic Chemistry, General Chemistry, computational chemistry, Catalysis, reaction mechanisms, Uronic Acids, Isomerism, IR spectroscopy, Cations

Abstract

Uronic acids are carbohydrates carrying a terminal carboxylic acid and have a unique reactivity in stereoselective glycosylation reactions. Herein, the competing intramolecular stabilization of uronic acid cations by the C-5 carboxylic acid or the C-4 acetyl group was studied with infrared ion spectroscopy (IRIS). IRIS reveals that a mixture of bridged ions is formed, in which the mixture is driven towards the C-1,C-5 dioxolanium ion when the C-5,C-2-relationship is cis, and towards the formation of the C-1,C-4 dioxepanium ion when this relation is trans. Isomer-population analysis and interconversion barrier computations show that the two bridged structures are not in dynamic equilibrium and that their ratio parallels the density functional theory computed stability of the structures. These studies reveal how the intrinsic interplay of the different functional groups influences the formation of the different regioisomeric products.

Published

2022

34. Facial

Author

Musleh Uddin, Munshi, Giel, Berden, and Jos, Oomens

Subjects

Spectrophotometry, Infrared, Gases, Protons, Ligands, Mass Spectrometry

Abstract

We report fingerprint infrared multiple-photon dissociation (IRMPD) spectra of the isolated gaseous hexa-coordinated complex of the macrocycle hexa-aza-18-crown-6 (hexacyclen, 1,4,7,10,13,16-hexaazacyclooctadecane, 18-azacrown-6) with Ni

Published

2022

35. Identification of drug metabolites with infrared ion spectroscopy – application to midazolam in vitro metabolism

Author

Rianne van Outersterp, Jonathan Martens, Giel berden, Arnaud Lubin, Filip Cuyckens, and Jos Oomens

Abstract

The identification of biotransformation products of drug compounds is a crucial step in drug development. Over the last decades, liquid chromatography-mass spectrometry (LC-MS) has become the method of choice for metabolite profiling because of its high sensitivity and selectivity. However, determining the full molecular structure of the detected metabolites, including the exact biotransformation site, remains challenging on the basis of MS alone. Here we explore infrared ion spectroscopy (IRIS) as a novel MS-based method for the elucidation of metabolic pathways in drug metabolism research. Using the drug midazolam as an example, we identify several biotransformation products directly from an in vitro drug incubation sample. We show that IR spectra of the aglycone MS/MS fragment ions of glucuronide metabolites establish a direct link between detected phase I and phase II metabolites. Moreover, using quantum-chemically computed IR spectra of candidate structures, we are able to assign the exact sites of biotransformation in absence of reference standards. Additionally, we demonstrate the utility of IRIS for structural elucidation by identifying several ring-opened midazolam derivatives formed in an acidic environment.

Published

2022

36. Infrared Multiple-Photon Dissociation Spectra of Sodiated Complexes of the Aliphatic Amino Acids

Author

Maryam Ghiassee, Giel Berden, Georgia C. Boles, Jos Oomens, P. B. Armentrout, and Molecular Spectroscopy (HIMS, FNWI)

Subjects

chemistry.chemical_classification, FELIX Molecular Structure and Dynamics, Spectrophotometry, Infrared, Infrared, Sodium, Molecular Conformation, chemistry.chemical_element, Nitrogen, Dissociation (chemistry), Spectral line, Amino acid, Crystallography, chemistry.chemical_compound, chemistry, Models, Chemical, Thermodynamics, Carboxylate, Physical and Theoretical Chemistry, Amino Acids, Spectroscopy, Basis set

Abstract

Sodiated complexes of the aliphatic amino acids, Gly, Ala, Val, Leu, and Ile, were examined with infrared multiple-photon dissociation action spectroscopy utilizing light from a free-electron laser. To identify structures, the experimental spectra were compared to linear spectra calculated at the B3LYP/6-311+G(d,p) level of theory. Relative energetics of all complexes were calculated at B3LYP, B3P86, MP2(full), B3LYP-GD3BJ, and M06-2X levels using a 6-311+G(2d,2p) basis set. Spectral comparison for all complexes indicates that the dominant conformation, [N, CO], binds to the amino nitrogen and carbonyl oxygen. For all complexes except Gly, contributions are observed from [CO2-] structures, where the sodium cation binds to both oxygens of the carboxylate group in the zwitterionic form of the amino acid. The semiquantitative distribution between these two structures appears to be best-predicted by the B3LYP and MP2(full) levels of theory, with predictions from the other three levels inconsistent with the experiment.

Published

2021

37. Stabilization of Glucosyl Dioxolenium Ions by 'Dual Participation' of the 2,2-Dimethyl-2-(

Author

Wouter A, Remmerswaal, Kas J, Houthuijs, Roel, van de Ven, Hidde, Elferink, Thomas, Hansen, Giel, Berden, Herman S, Overkleeft, Gijsbert A, van der Marel, Floris P J T, Rutjes, Dmitri V, Filippov, Thomas J, Boltje, Jonathan, Martens, Jos, Oomens, and Jeroen D C, Codée

Subjects

Ions, Glycosylation, Spectrophotometry, Infrared, Stereoisomerism, Glycosides

Abstract

The stereoselective introduction of glycosidic bonds is of paramount importance to oligosaccharide synthesis. Among the various chemical strategies to steer stereoselectivity, participation by either neighboring or distal acyl groups is used particularly often. Recently, the use of the 2,2-dimethyl-2-(

Published

2022

38. Breslow Intermediates (Amino Enols) and Their Keto Tautomers: First Gas-Phase Characterization by IR Ion Spectroscopy

Author

Thomas Thomulka, Katrin Peckelsen, Mathias Paul, Albrecht Berkessel, Anthony J. H. M. Meijer, Giel Berden, Jos Oomens, Mathias Schäfer, Jonathan Martens, Jörg-M. Neudörfl, Martin Breugst, and Molecular Spectroscopy (HIMS, FNWI)

Subjects

010402 general chemistry, 01 natural sciences, Medicinal chemistry, Aldehyde, Catalysis, Umpolung, chemistry.chemical_compound, Nucleophile, Breslow intermediate, Reactivity (chemistry), mass spectrometry, FELIX Molecular Structure and Dynamics, chemistry.chemical_classification, Full Paper, 010405 organic chemistry, Organic Chemistry, General Chemistry, Full Papers, umpolung, Tautomer, Enol, 0104 chemical sciences, Breslow Intermediates | Very Important Paper, chemistry, IR spectroscopy, density functional calculations, Electrophile, Carbene

Abstract

Breslow intermediates (BIs) are the crucial nucleophilic amino enol intermediates formed from electrophilic aldehydes in the course of N‐heterocyclic carbene (NHC)‐catalyzed umpolung reactions. Both in organocatalytic and enzymatic umpolung, the question whether the Breslow intermediate exists as the nucleophilic enol or in the form of its electrophilic keto tautomer is of utmost importance for its reactivity and function. Herein, the preparation of charge‐tagged Breslow intermediates/keto tautomers derived from three different types of NHCs (imidazolidin‐2‐ylidenes, 1,2,4‐triazolin‐5‐ylidenes, thiazolin‐2‐ylidenes) and aldehydes is reported. An ammonium charge tag is introduced through the aldehyde unit or the NHC. ESI‐MS IR ion spectroscopy allowed the unambiguous conclusion that in the gas phase, the imidazolidin‐2‐ylidene‐derived BI indeed exists as a diamino enol, while both 1,2,4‐triazolin‐5‐ylidenes and thiazolin‐2‐ylidenes give the keto tautomer. This result coincides with the tautomeric states observed for the BIs in solution (NMR) and in the crystalline state (XRD), and is in line with our earlier calculations on the energetics of BI keto–enol equilibria., Breslow intermediates in the gas phase: In N‐heterocyclic carbene (NHC)‐catalyzed Umpolung, the reaction of the substrate aldehyde with the NHC gives the Breslow intermediate (BI) as pivotal species. The combination of IR ion spectroscopy with quantum chemical computations can determine whether the BI exists as a nucleophilic amino enol or as its keto tautomer in the gas phase, which is decisive for its reactivity both in enzymatic catalysis and in organocatalysis.

Published

2021

39. Isomer-Specific Two-Color Double-Resonance IR2MS3 Ion Spectroscopy Using a Single Laser

Author

Ruben F. Kranenburg, Giel Berden, Jonathan Martens, Fred A. M. G. van Geenen, Jos Oomens, Arian C. van Asten, HIMS Other Research (FNWI), Supramolecular Separations (HIMS, FNWI), and Molecular Spectroscopy (HIMS, FNWI)

Subjects

education.field_of_study, Chemistry, 010401 analytical chemistry, Population, Analytical chemistry, Resonance, Infrared spectroscopy, Context (language use), 010402 general chemistry, Laser, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, law.invention, Ion, law, Ion trap, Spectroscopy, education

Abstract

The capability of an ion trap mass spectrometer to store ions for an arbitrary amount of time allows the use of a single infrared (IR) laser to perform two-color double resonance IR–IR spectroscopic experiments on mass-to-charge (m/z) selected ions. In this single-laser IR2MS3 scheme, one IR laser frequency is used to remove a selected set of isomers from the total trapped ion population and the second IR laser frequency, from the same laser, is used to record the IR spectrum of the remaining precursor ions. This yields isomer-specific vibrational spectra of the m/z-selected ions, which can reveal the structure and identity of the initially co-isolated isomeric species. The use of a single laser greatly reduces the experimental complexity of two-color IR2MS3 and enhances its application in fields employing analytical MS. In this work, we demonstrate the methodology by acquiring single-laser IR2MS3 spectra in a forensic context, identifying two previously unidentified isomeric novel psychoactive substances (NPS) from a sample that was confiscated by the Amsterdam Police.

Published

2021

40. Influence of a Hydroxyl Group on the Deamidation and Dehydration Reactions of Protonated Asparagine-Serine Investigated by Combined Spectroscopic, Guided Ion Beam, and Theoretical Approaches

Author

Jonathan Martens, Lisanne J. M. Kempkes, P. B. Armentrout, Giel Berden, Jos Oomens, Georgia C. Boles, and Molecular Spectroscopy (HIMS, FNWI)

Subjects

Models, Molecular, Ion beam, Stereochemistry, Protonation, 010402 general chemistry, 01 natural sciences, Serine, Structural Biology, Group (periodic table), medicine, Dehydration, Asparagine, Deamidation, Spectroscopy, FELIX Molecular Structure and Dynamics, Chemistry, 010401 analytical chemistry, Water, Dipeptides, medicine.disease, Amides, 0104 chemical sciences, Thermodynamics, Protons

Abstract

Deamidation of asparaginyl (Asn) peptides is a spontaneous post-translational modification that plays a significant role in degenerative diseases and other biological processes under physiological conditions. In the gas phase, deamidation of protonated peptides is a major fragmentation channel upon activation by collision-induced dissociation. Here, we present a full description of the deamidation process from protonated asparagine-serine, [AsnSer+H]+, -via infrared (IR) action spectroscopy and threshold collision-induced dissociation (TCID) experiments in combination with theoretical calculations. The IR results demonstrate that deamidation proceeds via bifurcating reaction pathways leading to furanone- and succinimide-type product ion structures, with a population analysis indicating the latter product dominates. Theory demonstrates that nucleophilic attack of the peptidyl amide oxygen onto the Asn side chain leads to furanone formation, whereas nudeophilic attack by the peptidyl amide nitrogen onto the Asn side-chain carbonyl carbon leads to the formation of the succinimide product structure. TCID experiments find that furanone formation has a threshold energy of 145 +/- 12 kJ/mol and succinimide formation occurs with a threshold energy of 131 +/- 12 kJ/mol, consistent with theoretical energies and with the spectroscopic results indicating that succinimide dominates. The results provide information regarding the inductive and steric effects of the Ser side chain on the deamidation process. The other major channel observed in the TCID experiments of [AsnSer+H]+ is dehydration, where a threshold energy of 104 +/- 10 kJ/mol is determined. A complete IR and theoretical analysis of this pathway is also provided. As for deamidation, a bifurcating pathway is found with both dominant oxazoline and minor diketopiperazine products identified. Here, the Ser side chain is directly involved in both pathways.

Published

2021

41. UV/Vis and IRMPD Spectroscopic Analysis of the Absorption Properties of Methylglyoxal Brown Carbon

Author

Emily Legaard, Lemai Vo, Corey Thrasher, Jonathan Martens, Giel Berden, Aron Jaffe, Rachel E. O’Brien, and Jos Oomens

Subjects

FELIX Molecular Structure and Dynamics, Atmospheric Science, Photodissociation, Methylglyoxal, Radiation, Photochemistry, Aerosol, chemistry.chemical_compound, Ultraviolet visible spectroscopy, chemistry, Space and Planetary Science, Geochemistry and Petrology, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Infrared multiphoton dissociation, Photodegradation, Absorption (electromagnetic radiation), Physics::Atmospheric and Oceanic Physics

Abstract

Brown carbon (BrC) organic molecules absorb solar radiation in the visible range and thus can influence the optical properties of atmospheric aerosol particles and cloud droplets. The absorption pr...

Published

2021

42. Metabolite Identification Using Infrared Ion Spectroscopy-Novel Biomarkers for Pyridoxine-Dependent Epilepsy

Author

Clara D.M. van Karnebeek, Marleen C. D. G. Huigen, Albrecht Berkessel, Jonathan Martens, Karlien L.M. Coene, Udo F. H. Engelke, Jasmin Mecinović, Jos Oomens, Thomas J. Boltje, Leo A. J. Kluijtmans, Mathias Paul, Ron A. Wevers, Thomas Thomulka, Jona Merx, Floris P. J. T. Rutjes, Giel Berden, Rianne E. van Outersterp, ANS - Cellular & Molecular Mechanisms, AGEM - Amsterdam Gastroenterology Endocrinology Metabolism, and Molecular Spectroscopy (HIMS, FNWI)

Subjects

Metabolite, Other Research Radboud Institute for Molecular Life Sciences [Radboudumc 0], Synthetic Organic Chemistry, Computational biology, 01 natural sciences, Article, Analytical Chemistry, 03 medical and health sciences, chemistry.chemical_compound, All institutes and research themes of the Radboud University Medical Center, Metabolomics, medicine, Humans, Dried blood, Pyridoxine-dependent epilepsy, 030304 developmental biology, Pipecolic acid, FELIX Molecular Structure and Dynamics, 0303 health sciences, Newborn screening, Epilepsy, 010401 analytical chemistry, Infant, Newborn, Metabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6], Aldehyde Dehydrogenase, Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], medicine.disease, 0104 chemical sciences, 3. Good health, chemistry, Identification (biology), IRIS (biosensor), Epilepsy/diagnosis, Biomarkers, Chromatography, Liquid

Abstract

Untargeted liquid chromatography-mass spectrometry (LC-MS)-based metabolomics strategies are being increasingly applied in metabolite screening for a wide variety of medical conditions. The long-standing "grand challenge" in the utilization of this approach is metabolite identification-confidently determining the chemical structures of m/z-detected unknowns. Here, we use a novel workflow based on the detection of molecular features of interest by high-throughput untargeted LC-MS analysis of patient body fluids combined with targeted molecular identification of those features using infrared ion spectroscopy (IRIS), effectively providing diagnostic IR fingerprints for mass-isolated targets. A significant advantage of this approach is that in silico-predicted IR spectra of candidate chemical structures can be used to suggest the molecular structure of unknown features, thus mitigating the need for the synthesis of a broad range of physical reference standards. Pyridoxine-dependent epilepsy (PDE-ALDH7A1) is an inborn error of lysine metabolism, resulting from a mutation in the ALDH7A1 gene that leads to an accumulation of toxic levels of alpha-aminoadipic semialdehyde (alpha-AASA), piperideine-6-carboxylate (P6C), and pipecolic acid in body fluids. While alpha-AASA and P6C are known biomarkers for PDE in urine, their instability makes them poor candidates for diagnostic analysis from blood, which would be required for application in newborn screening protocols. Here, we use combined untargeted metabolomics-IRIS to identify several new biomarkers for PDE-ALDH7A1 that can be used for diagnostic analysis in urine, plasma, and cerebrospinal fluids and that are compatible with analysis in dried blood spots for newborn screening. The identification of these novel metabolites has directly provided novel insights into the pathophysiology of PDE-ALDH7A1.

Published

2021

43. Laboratory IR Spectra of the Ionic Oxidized Fullerenes C

Author

Julianna, Palotás, Jonathan, Martens, Giel, Berden, and Jos, Oomens

Abstract

We present the first experimental vibrational spectra of gaseous oxidized derivatives of C

Published

2022

44. Novel CSF biomarkers of GLUT1 deficiency syndrome: implications beyond the brain’s energy deficit

Author

Tessa M.A. Peters, Jona Merx, Pieter C. Kooijman, Marek Noga, Siebolt de Boer, Loes A. van Gemert, Guido Salden, Udo F.H. Engelke, Dirk J. Lefeber, Rianne E. van Outersterp, Giel Berden, Thomas J. Boltje, Rafael Artuch, Leticia Pías, Ángeles García-Cazorla, Ivo Barić, Beat Thöny, Jos Oomens, Jonathan Martens, Ron A. Wevers, Marcel M. Verbeek, Karlien L.M. Coene, and Michèl A.A.P. Willemsen

Abstract

We used next-generation metabolic screening to identify new biomarkers for improved diagnosis and pathophysiological understanding of glucose transporter type 1 deficiency syndrome (GLUT1DS), comparing metabolic CSF profiles from 11 patients to those of 116 controls. This confirmed decreased CSF glucose and lactate levels in patients with GLUT1DS and increased glutamine at group level. We identified three novel biomarkers significantly decreased in patients, namely gluconic + galactonic acid, xylose-α1-3-glucose and xylose-α1-3-xylose-α1-3-glucose, of which the latter two have not previously been identified in body fluids. CSF concentrations of gluconic + galactonic acid may be reduced as these metabolites could serve as alternative substrates for the pentose phosphate pathway. Xylose-α1-3-glucose and xylose-α1-3-xylose-α1-3-glucose may originate from O-glycosylated proteins; their decreased levels are hypothetically the consequence of insufficient glucose, one of two substrates for O-glucosylation. Since many proteins are O-glucosylated, this deficiency may affect cellular processes and thus contribute to GLUT1DS pathophysiology. The novel CSF biomarkers have the potential to improve the biochemical diagnosis of GLUT1DS. Our findings imply that brain glucose deficiency in GLUT1DS may cause disruptions at the cellular level that go beyond energy metabolism, underlining the importance of developing treatment strategies that directly target cerebral glucose uptake.

Published

2022

45. Mechanistic Study of Pd/NHC‐Catalyzed Sonogashira Reaction: Discovery of NHC‐Ethynyl Coupling Process

Author

Dmitry B. Eremin, Alexander Yu. Kostyukovich, Jana Roithová, Valentine P. Ananikov, Mariarosa Anania, Ekaterina A. Denisova, Daniil A. Boiko, Jos Oomens, Julia V. Burykina, Giel Berden, and Jonathan Martens

Subjects

FELIX Molecular Structure and Dynamics, chemistry.chemical_classification, Collision-induced dissociation, 010405 organic chemistry, Chemistry, Organic Chemistry, Sonogashira coupling, Alkyne, General Chemistry, 010402 general chemistry, 01 natural sciences, Bond-dissociation energy, Catalysis, Dissociation (chemistry), 0104 chemical sciences, Molecular dynamics, Computational chemistry, Spectroscopy and Catalysis, Infrared multiphoton dissociation

Abstract

The product of a revealed transformation-NHC-ethynyl coupling-was observed as a catalyst transformation pathway in the Sonogashira cross-coupling, catalyzed by Pd/NHC complexes. The 2-ethynylated azolium salt was isolated in individual form and fully characterized, including X-ray analysis. A number of possible intermediates of this transformation with common formulae (NHC)n Pd(C2 Ph) (n=1,2) were observed and subjected to collision-induced dissociation (CID) and infrared multiphoton dissociation (IRMPD) experiments to elucidate their structure. Measured bond dissociation energies (BDEs) and IRMPD spectra were in an excellent agreement with quantum calculations for coupling product π-complexes with Pd0 . Molecular dynamics simulations confirmed the observed multiple CID fragmentation pathways. An unconventional methodology to study catalyst evolution suggests the reported transformation to be considered in the development of new catalytic systems for alkyne functionalization reactions.

Published

2020

46. Vibrational Spectra of the Ruthenium–Tris-Bipyridine Dication and Its Reduced Form in Vacuo

Author

Jonathan Martens, Musleh Uddin Munshi, Giel Berden, Jos Oomens, and Molecular Spectroscopy (HIMS, FNWI)

Subjects

FELIX Molecular Structure and Dynamics, 010304 chemical physics, Chemistry, Infrared spectroscopy, 010402 general chemistry, 01 natural sciences, Article, 0104 chemical sciences, Dication, Ion, Delocalized electron, Bipyridine, chemistry.chemical_compound, Radical ion, 0103 physical sciences, Physical chemistry, Density functional theory, Physical and Theoretical Chemistry, Quadrupole ion trap

Abstract

Experimental IR spectra in the 500-1850 cm-1 fingerprint frequency range are presented for the isolated, gaseous redox pair ions [Ru(bpy)3]2+, and [Ru(bpy)3]+, where bpy = 2,2'-bipyridine. Spectra are obtained using the FELIX free-electron laser and a quadrupole ion trap mass spectrometer. The 2+ complex is generated by electrospray ionization and the charge-reduced radical cation is produced by gas-phase one-electron reduction in an ion-ion reaction with the fluoranthene radical anion. Experimental spectra are compared against computed spectra predicted by density functional theory (DFT) using different levels of theory. For the closed-shell [Ru(bpy)3]2+ ion, the match between experimental and computed IR spectra is very good; however, this is not the case for the charge-reduced [Ru(bpy)3]+ ion, which demands additional theoretical investigation. When using the hybrid B3LYP functional, we observe that better agreement with experiment is obtained upon reduction of the Hartree-Fock exact-exchange contribution from 204 calculations using the M06 functional appear to be promising in terms of the prediction of IR spectra; however, it is unclear if the correct electronic structure is obtained. The M06 and B3LYP functionals indicate that the added electron in [Ru(bpy)3)]+ is delocalized over the three bpy ligands, while the long-range corrected LC-BLYP and the CAM-B3LYP functionals show it to be more localized on a single bpy ligand. Although these latter levels of theory fail to reproduce the experimentally observed IR frequencies, one may argue that the unusually large bandwidths observed in the spectrum are due to the fluxional character of a complex with the added electron not symmetrically distributed over the ligands. The experimental IR spectra presented here can serve as benchmark for further theoretical investigations.

Published

2020

47. Mass spectrometry-based identification of ortho-, meta- and para-isomers using infrared ion spectroscopy

Author

Rianne E. van Outersterp, Jos Oomens, Filip Cuyckens, Giel Berden, Valerie Koppen, and Jonathan Martens

Subjects

FELIX Molecular Structure and Dynamics, Chemistry, Infrared, 010401 analytical chemistry, Infrared spectroscopy, 010402 general chemistry, Ring (chemistry), Mass spectrometry, 01 natural sciences, Biochemistry, 0104 chemical sciences, Analytical Chemistry, Ion, Computational chemistry, Electrochemistry, Structural isomer, Environmental Chemistry, IRIS (biosensor), Spectroscopy

Abstract

Distinguishing positional isomers, such as compounds having different substitution patterns on an aromatic ring, presents a significant challenge for mass spectrometric analyses and is a frequently encountered difficulty in, for example, drug metabolism research. Here, we demonstrate infrared ion spectroscopy (IRIS) as a promising new mass spectrometry-based technique that easily differentiates between positional isomers of disubstituted phenyl-containing compounds. By analyzing different substitution patterns over several sets of isomeric compounds, we show that IRIS produces a highly consistent and distinct pattern of IR bands, especially in the range between 650 and 900 cm-1, that are mostly independent of the specific chemical functionality contained in the substituent group. These patterns are accurately predicted by quantum-chemically computed IR spectra and correspond well with tabulated IR group-frequencies known from conventional absorption spectroscopy. Therefore, we foresee that this method will be generally applicable to disubstituted phenyl-containing compounds and that direct interpretation of experimental IRIS spectra in terms of ortho-, meta- or para-substitution is possible, even without comparison to experimental or computationally predicted reference spectra. Strategies for the analysis of larger compounds having more congested IR spectra as well as of compounds having low (electrospray) ionization efficiencies are presented in order to demonstrate the broad applicability of this methodology.

Published

2020

48. Characterization of holmium(<scp>iii</scp>)-acetylacetonate complexes derived from therapeutic microspheres by infrared ion spectroscopy

Author

Kas J. Houthuijs, Jonathan Martens, Giel Berden, Alexandra Arranja, J. Frank W. Nijsen, Jos Oomens, and Molecular Spectroscopy (HIMS, FNWI)

Subjects

FELIX Molecular Structure and Dynamics, chemistry.chemical_classification, 010405 organic chemistry, Ligand, General Physics and Astronomy, Infrared spectroscopy, Ionic bonding, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Coordination complex, Tumours of the digestive tract Radboud Institute for Health Sciences [Radboudumc 14], chemistry, Physical chemistry, Chelation, Density functional theory, Physical and Theoretical Chemistry, Spectroscopy, Coordination geometry

Abstract

Microspheres containing radioactive 166holmium-acetylacetonate are employed in emerging radionuclide therapies for the treatment of malignancies. At the molecular level, details on the coordination geometries of the Ho complexes are however elusive. Infrared ion spectroscopy (IRIS) was used to characterize several 165Ho-acetylacetonate complexes derived from non-radioactive microspheres. The coordination geometry of four distinct ionic complexes were fully assigned by comparison of their measured IR spectra with spectra calculated at the density functional theory (DFT) level. The coordination of each acetylacetonate ligand is dependent on the presence of other ligands, revealing an asymmetric chelation motif in some of the complexes. A fifth, previously unknown constituent of the microspheres was identified as a coordination complex containing an acetic acid ligand. These results pave the way for IRIS-based identification of microsphere constituents upon neutron activation of the metal center.

Published

2020

49. Infrared multiple-photon dissociation spectroscopy of cationized glycine: effects of alkali metal cation size on gas-phase conformation

Author

P. B. Armentrout, Brandon C. Stevenson, Maryam Ghiassee, Georgia C. Boles, Giel Berden, Jos Oomens, and Molecular Spectroscopy (HIMS, FNWI)

Subjects

Oxygen, FELIX Molecular Structure and Dynamics, Metals, Alkali, Cations, Glycine, Molecular Conformation, General Physics and Astronomy, Physical and Theoretical Chemistry

Abstract

The gas-phase structures of cationized glycine (Gly), including complexes with Li+, Na+, K+, Rb+, and Cs+, are examined using infrared multiple-photon dissociation (IRMPD) spectroscopy utilizing light generated by a free electron laser, in conjunction with ab initio calculations. To identify the structures present in the experimental studies, measured IRMPD spectra are compared to spectra calculated at B3LYP/6-311+G(d,p) for the Li+, Na+, and K+ complexes and at B3LYP/def2TZVP for the Rb+ and Cs+ complexes. Single-point energy calculations were carried out at the B3LYP, B3P86, and MP2(full) levels using the 6-311+G(2d,2p) basis set for Li+, Na+, K+ and the def2TZVPP basis set for Rb+ and Cs+. The Li+ and Na+ complexes are identified as metal cation coordination to the amino nitrogen and carbonyl oxygen, [N,CO]-tt, although Na+(Gly) may have contributions from additional structures. The heavier metal cations coordinate to either the carbonyl oxygen, [CO]-cc, or the carbonyl oxygen and hydroxy oxygen, [CO,OH]-cc, with the former apparently preferred for Rb+ and Cs+ and the latter for K+. These two structures reside in a double-well potential and different levels of theory predict very different relative stabilities. Some experimental evidence is provided that MP2(full) theory provides the most accurate relative energies.

Published

2022

50. Unidirectional Double- and Triple-Hydrogen Rearrangement Reactions Probed by Infrared Ion Spectroscopy

Author

Dennis Zeh, Marcel Bast, Jonathan Martens, Giel Berden, Jos Oomens, Sandra Brünken, Stephan Schlemmer, Mathias Schäfer, and Dietmar Kuck

Subjects

FELIX Molecular Structure and Dynamics, Structural Biology, FELIX Infrared and Terahertz Spectroscopy, Spectroscopy

Abstract

Unidirectional double-hydrogen (2H) and triple-hydrogen (3H) rearrangement reactions occur upon electron-ionization-induced fragmentation of trans-2-(4-N,N-dimethylaminobenzyl)-1-indanol (1), trans-2-(4-methoxybenzyl)-1-indanol (2), 4-(4-N,N-dimethylaminophenyl)-2-butanol (3), and related compounds, as reported some 35 years ago (Kuck, D.; Filges, U. Org. Mass Spectrom. 1988, 23, 643-653). These unusual intramolecular redox processes were found to dominate the mass spectra of long-lived, metastable ions. The present report provides independent evidence for the structures of the product ions formed by the 2H and 3H rearrangement in an ion trap instrument. The radical cations 1+ and 3+ as well as ionized 1-(4-N,N-dimethylaminophenyl)-5-(4-methoxyphenyl)-3-pentanol, 5+, were generated by electrospray ionization from anhydrous acetonitrile solutions. The 2H and 3H fragment ions were obtained by collision-induced dissociation and characterized by IR ion spectroscopy and density functional theory calculations. Comparison of the experimental and calculated infrared ion spectra enabled the identification of the 2H rearrangement product ion, C9H14N+ (m/z 136), as an N,N-dimethyl-para-toluidinium ion bearing the extra proton ortho to the amino group, a tautomer which was calculated to be 31 kJ/mol less stable than the corresponding N-protonated form. The 3H rearrangement product ion, C8H13N+ (m/z 123), formerly assumed to be a distonic ammonium ion bearing a cyclohexadienyl radical, was now identified as a conventional radical cation, ionized N,N-dimethyl-2,3-dihydro-para-toluidine. Thus, the 3H rearrangement represents an intramolecular transfer hydrogenation between a secondary alcohol and an ionized aromatic ring. Based on these structural assignments, more detailed mechanisms for the unidirectional 2H and 3H rearrangement reactions are proposed.

Published

2022