Analysis of the Site-Specific Myoglobin Modifications in the Melibiose-Derived Novel Advanced Glycation End-Product

Gostomska-Pampuch, Kinga; Wiśniewski, Jacek R.; Sowiński, Karol; Gruszecki, Wiesław I.; Gamian, Andrzej; Staniszewska, Magdalena

doi:10.3390/ijms232113036

Cited by 4 publications

(2 citation statements)

References 67 publications

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“…To date, many AGEs have been described (Figure S2), such as Nε-carboxymethyl-lysine (CML), Nε-(1-carboxyethyl)-lysine (CEL), Nε-(5-hydro-4imidazolon-2-yl)-ornithine (GH), methylglyoxal-lysine dimer (MOLD), etc. [46,47]. A comprehensive understanding of these AGEs plays an important role in understanding the processes of disease development, but currently, methods to test this at the intact level are lacking.…”

Section: Resultsmentioning

confidence: 99%

Identification of Heavily Glycated Proteoforms by Hydrophilic-Interaction Liquid Chromatography and Native Size-Exclusion Chromatography – High-Resolution Mass Spectrometry

Zhai,

Schoenmakers,

Gargano

2023

Preprint

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The non-enzymatic glycation of proteins and their advanced glycation end products (AGEs) are associated with protein transformations such as in the development of diseases and biopharmaceutical storage. The high heterogeneity that glycated proteins carry makes their detection and identification challenging. In this study, we investigated two novel LC-HRMS methods to study glycated reference proteins at the intact protein level: low-flow hydrophilic-interaction liquid chromatography (HILIC) and native size-exclusion chromatography (SEC). Three model proteins (RNase-A, hemoglobin, and NISTmab) were exposed to conditions that favored extensive glycation and the formation of AGEs. After glycation, complicated MS spectra were observed, along with a sharply reduced signal response, possibly due to protein denaturation and the formation of aggregates. When using HILIC-MS, the glycated forms of the proteins could be resolved based on the number of reducing monosaccharides. Moreover, some positional glycated isomers were separated. The SEC-MS method under non-denaturing conditions provided insights into glycated aggregates but offered only a limited separation of glycated species based on molar mass. Overall, more than 25 different types of species were observed in both methods, differing in molar mass by 14 to 162 Da. 19 of these species have not been previously reported. By tracing the progress of glycation, the dynamic changes of the specific AGEs could be monitored over time.

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Section: Resultsmentioning

confidence: 99%

Identification of Heavily Glycated Proteoforms by Hydrophilic-Interaction Liquid Chromatography and Native Size-Exclusion Chromatography – High-Resolution Mass Spectrometry

Zhai,

Schoenmakers,

Gargano

2023

Preprint

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“…linked to specific sites on glycoproteins. By employing mass spectrometry (MS) in glycoproteomics, researchers have been able to profile glycoprotein populations and uncover valuable insights into glycan biomarkers, glycosylation changes associated with health and disease, and the functional roles of glycoproteins in various biological processes [21,24,55,[57][58][59][60][61][62][63][64].…”

Section: Structure-specific Separation Of Glycans and Glycopeptidesmentioning

confidence: 99%

Analysis of N‐ and O‐linked site‐specific glycosylation by ion mobility mass spectrometry: State of the art and future directions

Girgis,

Petruncio,

Russo

et al. 2024

Proteomics

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Glycosylation, the major post‐translational modification of proteins, significantly increases the diversity of proteoforms. Glycans are involved in a variety of pivotal structural and functional roles of proteins, and changes in glycosylation are profoundly connected to the progression of numerous diseases. Mass spectrometry (MS) has emerged as the gold standard for glycan and glycopeptide analysis because of its high sensitivity and the wealth of fragmentation information that can be obtained. Various separation techniques have been employed to resolve glycan and glycopeptide isomers at the front end of the MS. However, differentiating structures of isobaric and isomeric glycopeptides constitutes a challenge in MS‐based characterization. Many reports described the use of various ion mobility–mass spectrometry (IM–MS) techniques for glycomic analyses. Nevertheless, very few studies have focused on N‐ and O‐linked site‐specific glycopeptidomic analysis. Unlike glycomics, glycoproteomics presents a multitude of inherent challenges in microheterogeneity, which are further exacerbated by the lack of dedicated bioinformatics tools. In this review, we cover recent advances made towards the growing field of site‐specific glycosylation analysis using IM–MS with a specific emphasis on the MS techniques and capabilities in resolving isomeric peptidoglycan structures. Furthermore, we discuss commonly used software that supports IM–MS data analysis of glycopeptides.

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Identification of heavily glycated proteoforms by hydrophilic-interaction liquid chromatography and native size-exclusion chromatography – High-resolution mass spectrometry

Zhai,

Schoenmakers,

Gargano

2024

Analytica Chimica Acta

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Analysis of the Site-Specific Myoglobin Modifications in the Melibiose-Derived Novel Advanced Glycation End-Product

Cited by 4 publications

References 67 publications

Identification of Heavily Glycated Proteoforms by Hydrophilic-Interaction Liquid Chromatography and Native Size-Exclusion Chromatography – High-Resolution Mass Spectrometry

Identification of Heavily Glycated Proteoforms by Hydrophilic-Interaction Liquid Chromatography and Native Size-Exclusion Chromatography – High-Resolution Mass Spectrometry

Analysis of N‐ and O‐linked site‐specific glycosylation by ion mobility mass spectrometry: State of the art and future directions

Identification of heavily glycated proteoforms by hydrophilic-interaction liquid chromatography and native size-exclusion chromatography – High-resolution mass spectrometry

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