Seeing the Invisibles: Detection of Peptide Enantiomers, Diastereomers, and Isobaric Ring Formation in Lanthipeptides Using Nanopores

Mass spectrometry (MS) is widely used in proteomic analysis but cannot differentiate between molecules with the same mass-to-charge ratio. Nanopore technology might provide an alternative method for the rapid and cost-effective analysis and sequencing of proteins. In this study, we demonstrate that...

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Veröffentlicht in:	Journal of the American Chemical Society 2023-08, Vol.145 (33), p.18355-18365
Hauptverfasser:	Abraham Versloot, Roderick Corstiaan, Arias-Orozco, Patricia, Tadema, Matthijs Jonathan, Rudolfus Lucas, Florian Leonardus, Zhao, Xinghong, Marrink, Siewert J, Kuipers, Oscar Paul, Maglia, Giovanni
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Sprache:	eng
Schlagworte:	Amino Acids - chemistry Mass Spectrometry Nanopores Peptides - chemistry Proteomics
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creator	Abraham Versloot, Roderick Corstiaan Arias-Orozco, Patricia Tadema, Matthijs Jonathan Rudolfus Lucas, Florian Leonardus Zhao, Xinghong Marrink, Siewert J Kuipers, Oscar Paul Maglia, Giovanni
description	Mass spectrometry (MS) is widely used in proteomic analysis but cannot differentiate between molecules with the same mass-to-charge ratio. Nanopore technology might provide an alternative method for the rapid and cost-effective analysis and sequencing of proteins. In this study, we demonstrate that nanopore currents can distinguish between diastereomeric and enantiomeric differences in l- and d-peptides, not observed by conventional MS analysis, down to individual d-amino acids in small opioid peptides. Molecular dynamics simulations suggest that similar to chiral chromatography the resolution likely arises from multiple chiral interactions during peptide transport across the nanopore. Additionally, we used nanopore recordings to rapidly assess 4- and 11-amino acid ring formation in lanthipeptides, a process used in the synthesis of pharmaceutical peptides. The cyclization step requires distinguishing between constitutional isomers, which have identical MS signals and typically involve numerous tedious experiments to confirm. Hence, nanopore technology offers new possibilities for the rapid and cost-effective analysis of peptides, including those that cannot be easily differentiated by mass spectrometry.
doi_str_mv	10.1021/jacs.3c04076
format	Article
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Nanopore technology might provide an alternative method for the rapid and cost-effective analysis and sequencing of proteins. In this study, we demonstrate that nanopore currents can distinguish between diastereomeric and enantiomeric differences in l- and d-peptides, not observed by conventional MS analysis, down to individual d-amino acids in small opioid peptides. Molecular dynamics simulations suggest that similar to chiral chromatography the resolution likely arises from multiple chiral interactions during peptide transport across the nanopore. Additionally, we used nanopore recordings to rapidly assess 4- and 11-amino acid ring formation in lanthipeptides, a process used in the synthesis of pharmaceutical peptides. The cyclization step requires distinguishing between constitutional isomers, which have identical MS signals and typically involve numerous tedious experiments to confirm. 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subjects	Amino Acids - chemistry Mass Spectrometry Nanopores Peptides - chemistry Proteomics
title	Seeing the Invisibles: Detection of Peptide Enantiomers, Diastereomers, and Isobaric Ring Formation in Lanthipeptides Using Nanopores
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