Song Hwangbo scite author profile

Song Hwangbo

5Publications

36Citation Statements Received

53Citation Statements Given

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147

Affiliations

Sogang University, Ministry of National Defense

Publications

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TEMPO-Assisted Free Radical-Initiated Peptide Sequencing Mass Spectrometry (FRIPS MS) in Q-TOF and Orbitrap Mass Spectrometers: Single-Step Peptide Backbone Dissociations in Positive Ion Mode

Jang

Lee

Hwangbo

et al. 2016

J. Am. Soc. Mass Spectrom.

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The present study demonstrates that one-step peptide backbone fragmentations can be achieved using the TEMPO [2-(2,2,6,6-tetramethyl piperidine-1-oxyl)]-assisted free radical-initiated peptide sequencing (FRIPS) mass spectrometry in a hybrid quadrupole time-of-flight (Q-TOF) mass spectrometer and a Q-Exactive Orbitrap instrument in positive ion mode, in contrast to two-step peptide fragmentation in an ion-trap mass spectrometer (reference Anal. Chem. 85, 7044-7051 (30)). In the hybrid Q-TOF and Q-Exactive instruments, higher collisional energies can be applied to the target peptides, compared with the low collisional energies applied by the ion-trap instrument. The higher energy deposition and the additional multiple collisions in the collision cell in both instruments appear to result in one-step peptide backbone dissociations in positive ion mode. This new finding clearly demonstrates that the TEMPO-assisted FRIPS approach is a very useful tool in peptide mass spectrometry research. Graphical Abstract ᅟ.

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Guanidination of lysine residue improves the sensitivity and facilitates the interpretation of free radical initiated peptide sequencing (FRIPS) mass spectrometry results

Jeon

Hwangbo

Ryu

et al. 2015

International Journal of Mass Spectrometry

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Collisional Activation Dissociation Mass Spectrometry Studies of Oligosaccharides Conjugated with Na⁺-Encapsulated Dibenzo-18-Crown-6 Ether

Bae¹,

Hwangbo²,

Moon³

et al. 2016

Mass Spectrometry Letters

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: To determine the influence of the cationization agent on the collision activated dissociation (CAD) fragmentation behavior of oligosaccharides, the CAD spectra of the singly protonated, sodiated oligosaccharides and singly sodiated and dibenzo-18-crown-6 ether conjugated oligosaccharides were carefully compared. Each of these three different species showed quite different fragmentation spectra. The comparison of singly protonated and sodiated oligosaccharide CAD spectra revealed that different cationization agents affected the cationization agent adduction sites as well as the fragmentation sites within the oligosaccharides. When the mobility of Na + was limited by the dibenzo-18-crown-6 ether encapsulation agent, the examined linear oligosaccharides showed fragmentation patterns quite different from the unmodified ones. For the dibenzo-18-crown-6 ether conjugated oligosaccharides, the charge-remote fragmentation pathways were more likely to be activated than the chargedirected pathways. This work demonstrates that dibenzo-18-crown-6 ether conjugation can potentially provide a route to selectively activate the charge-remote fragmentation pathways, albeit to a limited extent, in tandem mass spectrometry studies.

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Side Chain Cleavage in TEMPO‐assisted Free Radical Initiated Peptide Sequencing (FRIPS): Amino Acid Composition Information^#

Lee

Jang

Hwangbo

et al. 2015

Bulletin Korean Chem Soc

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In tandem mass spectrometry, side‐chain losses are known to provide information on the presence of certain amino acid residues, which can improve peptide identification. In this study, we examine whether side‐chain losses also occur in free‐radical‐initiated peptide sequencing mass spectrometry (FRIPS MS). All four peptides examined here, i.e., ALPMHIR, YRPPGFSPFR, RPPGFSPYR, and YGGFLRRIRPKLK, showed extensive small group losses in the so‐called (M• – X) region. Furthermore, peaks due to small group loss accompanying backbone fragmentations were also extensively observed. The observed small group losses, either radical or neutral side‐chain losses, confirmed the presence of certain amino acids, even exhibiting signature peaks for isoleucine and leucine. In addition, mechanisms for small group losses in FRIPS MS are proposed.

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OphA Y63F-sinefungin complex

Hwangbo¹,

Naismith²

2018

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Song Hwangbo

TEMPO-Assisted Free Radical-Initiated Peptide Sequencing Mass Spectrometry (FRIPS MS) in Q-TOF and Orbitrap Mass Spectrometers: Single-Step Peptide Backbone Dissociations in Positive Ion Mode

Guanidination of lysine residue improves the sensitivity and facilitates the interpretation of free radical initiated peptide sequencing (FRIPS) mass spectrometry results

Collisional Activation Dissociation Mass Spectrometry Studies of Oligosaccharides Conjugated with Na⁺-Encapsulated Dibenzo-18-Crown-6 Ether

Side Chain Cleavage in TEMPO‐assisted Free Radical Initiated Peptide Sequencing (FRIPS): Amino Acid Composition Information^#

OphA Y63F-sinefungin complex

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Song Hwangbo

TEMPO-Assisted Free Radical-Initiated Peptide Sequencing Mass Spectrometry (FRIPS MS) in Q-TOF and Orbitrap Mass Spectrometers: Single-Step Peptide Backbone Dissociations in Positive Ion Mode

Guanidination of lysine residue improves the sensitivity and facilitates the interpretation of free radical initiated peptide sequencing (FRIPS) mass spectrometry results

Collisional Activation Dissociation Mass Spectrometry Studies of Oligosaccharides Conjugated with Na+-Encapsulated Dibenzo-18-Crown-6 Ether

Side Chain Cleavage in TEMPO‐assisted Free Radical Initiated Peptide Sequencing (FRIPS): Amino Acid Composition Information#

OphA Y63F-sinefungin complex

Contact Info

Product

Resources

About

Collisional Activation Dissociation Mass Spectrometry Studies of Oligosaccharides Conjugated with Na⁺-Encapsulated Dibenzo-18-Crown-6 Ether

Side Chain Cleavage in TEMPO‐assisted Free Radical Initiated Peptide Sequencing (FRIPS): Amino Acid Composition Information^#