Novel Dual Two‐Dimensional Liquid Chromatography Online Coupled to Ultraviolet Detector, Fluorescence Detector, Ion‐Trap Mass Spectrometer for Short Peptide Amino Acid Sequence Determination with Bottom‐Up Strategy

Novel Dual Two‐Dimensional Liquid Chromatography Online Coupled to Ultraviolet Detector, Fluorescence Detector, Ion‐Trap Mass Spectrometer for Short Peptide Amino Acid Sequence Determination with Bottom‐Up Strategy

A novel dual two‐dimensional (2D) high‐performance liquid chromatography (LC) setup coupled online to an ultraviolet (UV) detector, fluorescence (FL) detector, and ion‐trap mass spectrometer (MS) has been developed for determining the amino acid sequence of short peptides using a novel bottom‐up str...

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Veröffentlicht in:Journal of the Chinese Chemical Society (Taipei) 2018-06, Vol.65 (6), p.714-725
Hauptverfasser: Cheng, Cheanyeh, Liao, Chien‐Fu
Format: Artikel
Sprache:eng
Schlagworte:
Amino acid sequence
Amino acids
Aspartame
Chromatography
Coupling (molecular)
Enantiomers
Fluorescence
Glutathione
Ion‐trap mass spectrometer
Isomers
Molecular chains
Molecular weight
Multidimensional high‐performance liquid chromatography
Peptides
Permutations
Sensors
Short peptides
Ultraviolet detectors
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Liao, Chien‐Fu
description A novel dual two‐dimensional (2D) high‐performance liquid chromatography (LC) setup coupled online to an ultraviolet (UV) detector, fluorescence (FL) detector, and ion‐trap mass spectrometer (MS) has been developed for determining the amino acid sequence of short peptides using a novel bottom‐up strategy. Short peptides were electrothermally hydrolyzed to shorter peptides and amino acid enantiomers. The first 2D LC‐UV and FL system was used to separate and identify the produced parent and daughter short peptides and amino acid isomers and enantiomers in the hydrolysate; the second 2D LC‐MS was used to identify the presence of cysteine and obtain the molecular mass signals and N‐terminal peptide fragment ion signals for parent and daughter short peptides. The identified amino acid enantiomers are used to form any possible short peptides by permutation and combination in an order from dipeptide to a tripeptide, to a tetrapeptide, and to even higher short peptides. The correct short peptides are confirmed by comparing the molecular weights of the constituent amino acid enantiomers and the molecular weights of identified short peptides together, with the characteristic N‐terminal peptide fragment ion signals. The amino acid sequence of the dipeptide ester aspartame and the tripeptide glutathione was successfully determined by this method. A novel dual two‐dimensional HPLC online simultaneously couples to UV, FL, and ion‐trap MS has been developed for the amino acid sequence determination of two short peptides, Aspartame and Glutathione, using a bottom‐up strategy. The method can identify the amino acid isomers and enantiomers and does not need the use of database search.
doi_str_mv 10.1002/jccs.201700380
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Short peptides were electrothermally hydrolyzed to shorter peptides and amino acid enantiomers. The first 2D LC‐UV and FL system was used to separate and identify the produced parent and daughter short peptides and amino acid isomers and enantiomers in the hydrolysate; the second 2D LC‐MS was used to identify the presence of cysteine and obtain the molecular mass signals and N‐terminal peptide fragment ion signals for parent and daughter short peptides. The identified amino acid enantiomers are used to form any possible short peptides by permutation and combination in an order from dipeptide to a tripeptide, to a tetrapeptide, and to even higher short peptides. The correct short peptides are confirmed by comparing the molecular weights of the constituent amino acid enantiomers and the molecular weights of identified short peptides together, with the characteristic N‐terminal peptide fragment ion signals. The amino acid sequence of the dipeptide ester aspartame and the tripeptide glutathione was successfully determined by this method. A novel dual two‐dimensional HPLC online simultaneously couples to UV, FL, and ion‐trap MS has been developed for the amino acid sequence determination of two short peptides, Aspartame and Glutathione, using a bottom‐up strategy. The method can identify the amino acid isomers and enantiomers and does not need the use of database search.</abstract><cop>Weinheim</cop><pub>Wiley‐VCH Verlag GmbH &amp; Co. KGaA</pub><doi>10.1002/jccs.201700380</doi><tpages>13</tpages><orcidid>https://orcid.org/0000-0002-2226-1653</orcidid></addata></record>
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subjects Amino acid sequence
Amino acids
Aspartame
Chromatography
Coupling (molecular)
Enantiomers
Fluorescence
Glutathione
Ion‐trap mass spectrometer
Isomers
Molecular chains
Molecular weight
Multidimensional high‐performance liquid chromatography
Peptides
Permutations
Sensors
Short peptides
Ultraviolet detectors
title Novel Dual Two‐Dimensional Liquid Chromatography Online Coupled to Ultraviolet Detector, Fluorescence Detector, Ion‐Trap Mass Spectrometer for Short Peptide Amino Acid Sequence Determination with Bottom‐Up Strategy
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