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The Journal of Mass Spectrometry publishes papers on a broad range of topics of interest to scientists working in both fundamental and applied areas involving the study of gaseous ions. The aim of JMS is to serve the scientific community with information provided and arranged to help senior investigators to better stay abreast of new discoveries and studies in their own field to make them aware of events and developments in associated fields and to provide students and newcomers the basic tools with which to learn fundamental and applied aspects of mass spectrometry. The scope of the journal is wide encompassing all aspects of mass spectrometry. Suitable topics include but are not restricted to instrument design and development ionization processes mechanisms and energetics of gaseous ion reactions spectroscopy of gaseous ions theoretical aspects ion structure analysis of compounds of biological interest methodology development applications to elemental analysis and inorganic chemistry computer-related applications and developments and environmental chemistry and other fields that utilize innovative aspects of mass spectrometry as a critical component of the work. General Information JMS will publish original research articles accelerated communications and letters to the editor. In addition special features include "Perspective" articles "Tutorial" articles and "Current Literature" listings. Book reviews conference reports and forthcoming events will also be published. Manuscripts submitted for possible publication in JMS should follow the general format described below and must be original works by the authors with the exception of referenced materials or passages used with the written consent of the copyright holder. Also the manuscript must not have been nor will be submitted for publication elsewhere at any time during its consideration by JMS. In multi-authored papers while a designated author will be the person the Journal will correspond with it is understood that this author will bear the burden of communicating with all authors and represent their joint decisions. The copyright of published articles belongs to John Wiley and Sons. Authors are encouraged to sign and send in the Copyright Transfer Agreement which may be printed from this Web site together with the manuscript at the time of submission to prevent possible publication delay. Manuscripts will not be published without this properly executed form. In the event the manuscript is declined for publication in JMS this form is void and will be destroyed. Manuscripts must be written in English and typed double-spaced throughout. Four copies (original plus 3 clean photocopies) must be submitted along with one set of original or clear clean set of figures (see details below). IN ADDITION authors ar
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Amino Acid Composition Determination From the Fractional Mass of Peptides.
被引量:- 发表:2024
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Improved Discrimination of Mass Spectral Isomers Using the High-Dimensional Consensus Mass Spectral Similarity Algorithm.
This study employs a high-dimensional consensus mass spectral (HDCMS) similarity scoring technique to discriminate isomers collected using an electron ionization mass spectrometer. The HDCMS method was previously introduced and applied to the discrimination of mass spectra of constitutional isomers, methamphetamine and phentermine, collected with direct analysis real-time mass spectrometry (DART-MS). The method formulates the problem of discriminating mass spectra in a mathematical Hilbert space and is hence called "high dimensional." It requires replicate mass spectra to build a Gaussian model and evaluate the inner products between these functions. The resulting measurement variability is used as a signature by which to discriminate spectra. In this work, HDCMS is tested on electron impact ionization (EI) mass spectra of 7 terpene and terpene-related (C10H16 and C10H14) isomers with experimental retention indices that differ by less than 30 and with traditional cosine similarity scores greater than 0.9, on a scale of 0 to 1, when compared with at least one other compound in the test set. Using identical instrument parameters, 15 replicate gas chromatography-electron ionization-mass spectrometry (GC-EI-MS) spectra of each isomer were collected and separated into distinct library and query sets. The HDCMS algorithm discriminated each isomer, indicating the method's potential. Because the method requires replicate measurements, observations from a simple heuristic study of the number of replicates required to discriminate these isomers is presented. The paper concludes with a discussion of compound discrimination using HDCMS and the benefits and drawbacks of applying the method to EI-MS data.
被引量:- 发表:2024
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Molecular fingerprint by omics-based approaches in saliva from patients affected by SARS-CoV-2 infection.
Clinical expression of coronavirus disease 2019 (COVID-19) infectionis widely variable including fatal cases and patients with mild symptoms and a rapid resolution. We studied saliva from 63 hospitalized COVID-19 patients and from 30 healthy controls by integrating large-scale proteomics, peptidomics and targeted metabolomics to assess the biochemical alterations following the infection and to obtain a set of putative biomarkers useful for noninvasive diagnosis. We used an untargeted approach by using liquid chromatography-tandem mass spectrometry (LC-MS/MS) for proteomics and peptidomics analysis and targeted LC-multiple reaction monitoring/MS for the analysis of amino acids. The levels of 77 proteins were significantly different in COVID-19 patients. Among these, seven proteins were found only in saliva from patients with COVID-19, four were up-regulated and three were down-regulated at least five-folds in saliva from COVID-19 patients in comparison to controls. The analysis of proteins revealed a complex balance between pro-inflammatory and anti-inflammatory proteins and a reduced amount of several proteins with immune activity that possibly favours the spreading of the virus. Such reduction could be related to the enhanced activity of endopeptidases induced by the infection that in turn caused an altered balance of free peptides. In fact, on a total of 28 peptides, 22 (80%) were differently expressed in severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and control subjects. The multivariate analysis of such peptides permits to obtain a diagnostic algorithm that discriminate the two populations with a high diagnostic efficiency. Among amino acids, only threonine resulted significantly different between COVID-19 patients and controls, while alanine levels were significantly different between COVID-19 patients with different severity. In conclusion, the present study defined a set of molecules to be detected with a quick and easy method based on mass spectrometry tandem useful to reveal biochemical alterations involved in the pathogenesis of such a complex disease. Data are available via ProteomeXchange with identifier PXD045612.
被引量:- 发表:2024
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Comparison of Zybio Kit and saponin in-house method in rapid identification of bacteria from positive blood cultures by EXS2600 matrix-assisted laser desorption ionization time-of-flight mass spectrometry system.
We evaluated the performance of Zybio EXS2600 matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF MS) (Zybio Inc., Chongqing, China) for the identification of bacteria from positive blood culture (BC) bottles using Blood Culture Positive Sample Pretreatment Kit (Zybio Inc., Chongqing, China) in comparison to an in-house saponin method. Following a positive signal by the BACTEC™ FX system, confirmation of identification was achieved using subcultured growing biomass used for MALDI-TOF MS analysis. A total of 94 positive BC bottles with 97 bacterial isolates were analyzed. The overall identification rates at the genus and species levels for the saponin method were 89.7% (87/97) and 74.2% (72/97), respectively. With the Zybio Kit, 88.7% (86/97) and 80.4% (78/97) of microorganisms were correctly identified to the genus and species levels, respectively. The saponin method identified 65.3% (32/49) of Gram-positive bacteria at the species level, whereas the Zybio Kit achieved a higher species-level identification rate of 79.6% (39/49) (p = 0.1153). The saponin method with additional on-plate formic acid extraction showed a significantly higher overall identification rate in comparison to the saponin method without that step for both genus (87.6% [85/97] vs. 70.1% [68/97], p = 0.0029) and species level (70.1% [68/97] vs. 46.4% [45/97], p = 0.0008). Identification rates of Gram-negative bacteria showed a higher identification rate, however, not statistically significant with additional Zybio Kit protocol step on both genus (85.4% [41/48] vs. 81.3% [39/48], p = 0.5858) and species level (77.1% [37/48] vs. 75% [36/48], p = 0.8120). Zybio Kit could offer an advantage in species-level identification, particularly for Gram-positive bacteria. The inclusion of on-plate formic acid extraction in the saponin method notably enhanced identification at both genus and species levels for Gram-positive bacteria. The extended protocol provided by the Zybio Kit could potentially offer an advantage in the identification of Gram-negative bacteria at both genus and species levels. Enhancements to the Zybio EXS2600 MALDI-TOF instrument software database are necessary.
被引量:- 发表:2024
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A deep learning-guided automated workflow in LipidOz for detailed characterization of fungal fatty acid unsaturation by ozonolysis.
Understanding fungal lipid biology and metabolism is critical for antifungal target discovery as lipids play central roles in cellular processes. Nuances in lipid structural differences can significantly impact their functions, making it necessary to characterize lipids in detail to understand their roles in these complex systems. In particular, lipid double bond (DB) locations are an important component of lipid structure that can only be determined using a few specialized analytical techniques. Ozone-induced dissociation mass spectrometry (OzID-MS) is one such technique that uses ozone to break lipid DBs, producing pairs of characteristic fragments that allow the determination of DB positions. In this work, we apply OzID-MS and LipidOz software to analyze the complex lipids of Saccharomyces cerevisiae yeast strains transformed with different fatty acid desaturases from Histoplasma capsulatum to determine the specific unsaturated lipids produced. The automated data analysis in LipidOz made the determination of DB positions from this large dataset more practical, but manual verification for all targets was still time-consuming. The DL model reduces manual involvement in data analysis, but since it was trained using mammalian lipid extracts, the prediction accuracy on yeast-derived data was reduced. We addressed both shortcomings by retraining the DL model to act as a pre-filter to prioritize targets for automated analysis, providing confident manually verified results but requiring less computational time and manual effort. Our workflow resulted in the determination of detailed DB positions and enzymatic specificity.
被引量:- 发表:2024
