Hydration of Nucleobase as Probed by Electron Emission of Uridine-5’-Mono-Phosphate (UMP) in Aqueous Solution Induced by Nitrogen K-Shell Ionization

Hydration of Nucleobase as Probed by Electron Emission of Uridine-5’-Mono-Phosphate (UMP) in Aqueous Solution Induced by Nitrogen K-Shell Ionization

To identify the precise early radiation processes of DNA lesions, we measure electron kinetic energy spectra emitted from uridine-5’ monophosphate (UMP) in aqueous solution for the photoionization of the N 1s orbital electron and for the following Auger effect using a monochromatic soft X-...

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Main Authors: Yasuaki Takeda, Hiroyuki Shimada, Ryosuke Miura, Masatoshi Ukai, Kentaro Fujii, Yoshihiro Fukuda, Yuji Saitoh
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Quantum Beam Science
Subjects:
dna damage
ump
synchrotron radiation
liquid microjet
electron spectroscopy
Online Access:https://www.mdpi.com/2412-382X/4/1/10
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spelling doaj-7e92b06e11d241788cae4220df476b1a2020-11-25T01:14:52ZengMDPI AGQuantum Beam Science2412-382X2020-02-01411010.3390/qubs4010010qubs4010010Hydration of Nucleobase as Probed by Electron Emission of Uridine-5’-Mono-Phosphate (UMP) in Aqueous Solution Induced by Nitrogen K-Shell IonizationYasuaki Takeda0Hiroyuki Shimada1Ryosuke Miura2Masatoshi Ukai3Kentaro Fujii4Yoshihiro Fukuda5Yuji Saitoh6Department of Applied Physics, Tokyo University of Agriculture and Technology, Koganei-shi, Tokyo 184-8588, JapanDepartment of Applied Physics, Tokyo University of Agriculture and Technology, Koganei-shi, Tokyo 184-8588, JapanDepartment of Applied Physics, Tokyo University of Agriculture and Technology, Koganei-shi, Tokyo 184-8588, JapanDepartment of Applied Physics, Tokyo University of Agriculture and Technology, Koganei-shi, Tokyo 184-8588, JapanCenter of Quantum Beam Science, National Institute for Quantum and Radiological Science (QST), Naka-gun, Ibaraki 319-1195, JapanSynchrotron Radiation Research Center, Japan Atomic Energy Agency (JAEA), Sayo-gun, Hyougo 679-5148, JapanSynchrotron Radiation Research Center, Japan Atomic Energy Agency (JAEA), Sayo-gun, Hyougo 679-5148, JapanTo identify the precise early radiation processes of DNA lesions, we measure electron kinetic energy spectra emitted from uridine-5’ monophosphate (UMP) in aqueous solution for the photoionization of the N 1s orbital electron and for the following Auger effect using a monochromatic soft X-ray synchrotron radiation at energies above the nitrogen K-shell ionization threshold. The change of photoelectron spectra for UMP in aqueous solutions at different proton concentrations (pH = 7.5 and 11.3) is ascribed to the chemical shift of the N3 nitrogen atom in uracil moiety of canonical and deprotonated forms. The lowest double ionization potentials for aqueous UMP at different pH obtained from the Auger electron spectra following the N 1s photoionization values show the electrostatic aqueous interaction of uracil moiety of canonical (neutral) and deprotonated (negatively charged) forms with hydrated water molecules.https://www.mdpi.com/2412-382X/4/1/10dna damageumpsynchrotron radiationliquid microjetelectron spectroscopy
collection DOAJ
language English
format Article
sources DOAJ
author Yasuaki Takeda
Hiroyuki Shimada
Ryosuke Miura
Masatoshi Ukai
Kentaro Fujii
Yoshihiro Fukuda
Yuji Saitoh
spellingShingle Yasuaki Takeda
Hiroyuki Shimada
Ryosuke Miura
Masatoshi Ukai
Kentaro Fujii
Yoshihiro Fukuda
Yuji Saitoh
Hydration of Nucleobase as Probed by Electron Emission of Uridine-5’-Mono-Phosphate (UMP) in Aqueous Solution Induced by Nitrogen K-Shell Ionization
Quantum Beam Science
dna damage
ump
synchrotron radiation
liquid microjet
electron spectroscopy
author_facet Yasuaki Takeda
Hiroyuki Shimada
Ryosuke Miura
Masatoshi Ukai
Kentaro Fujii
Yoshihiro Fukuda
Yuji Saitoh
author_sort Yasuaki Takeda
title Hydration of Nucleobase as Probed by Electron Emission of Uridine-5’-Mono-Phosphate (UMP) in Aqueous Solution Induced by Nitrogen K-Shell Ionization
title_short Hydration of Nucleobase as Probed by Electron Emission of Uridine-5’-Mono-Phosphate (UMP) in Aqueous Solution Induced by Nitrogen K-Shell Ionization
title_full Hydration of Nucleobase as Probed by Electron Emission of Uridine-5’-Mono-Phosphate (UMP) in Aqueous Solution Induced by Nitrogen K-Shell Ionization
title_fullStr Hydration of Nucleobase as Probed by Electron Emission of Uridine-5’-Mono-Phosphate (UMP) in Aqueous Solution Induced by Nitrogen K-Shell Ionization
title_full_unstemmed Hydration of Nucleobase as Probed by Electron Emission of Uridine-5’-Mono-Phosphate (UMP) in Aqueous Solution Induced by Nitrogen K-Shell Ionization
title_sort hydration of nucleobase as probed by electron emission of uridine-5’-mono-phosphate (ump) in aqueous solution induced by nitrogen k-shell ionization
publisher MDPI AG
series Quantum Beam Science
issn 2412-382X
publishDate 2020-02-01
description To identify the precise early radiation processes of DNA lesions, we measure electron kinetic energy spectra emitted from uridine-5’ monophosphate (UMP) in aqueous solution for the photoionization of the N 1s orbital electron and for the following Auger effect using a monochromatic soft X-ray synchrotron radiation at energies above the nitrogen K-shell ionization threshold. The change of photoelectron spectra for UMP in aqueous solutions at different proton concentrations (pH = 7.5 and 11.3) is ascribed to the chemical shift of the N3 nitrogen atom in uracil moiety of canonical and deprotonated forms. The lowest double ionization potentials for aqueous UMP at different pH obtained from the Auger electron spectra following the N 1s photoionization values show the electrostatic aqueous interaction of uracil moiety of canonical (neutral) and deprotonated (negatively charged) forms with hydrated water molecules.
topic dna damage
ump
synchrotron radiation
liquid microjet
electron spectroscopy
url https://www.mdpi.com/2412-382X/4/1/10
work_keys_str_mv AT yasuakitakeda hydrationofnucleobaseasprobedbyelectronemissionofuridine5monophosphateumpinaqueoussolutioninducedbynitrogenkshellionization
AT hiroyukishimada hydrationofnucleobaseasprobedbyelectronemissionofuridine5monophosphateumpinaqueoussolutioninducedbynitrogenkshellionization
AT ryosukemiura hydrationofnucleobaseasprobedbyelectronemissionofuridine5monophosphateumpinaqueoussolutioninducedbynitrogenkshellionization
AT masatoshiukai hydrationofnucleobaseasprobedbyelectronemissionofuridine5monophosphateumpinaqueoussolutioninducedbynitrogenkshellionization
AT kentarofujii hydrationofnucleobaseasprobedbyelectronemissionofuridine5monophosphateumpinaqueoussolutioninducedbynitrogenkshellionization
AT yoshihirofukuda hydrationofnucleobaseasprobedbyelectronemissionofuridine5monophosphateumpinaqueoussolutioninducedbynitrogenkshellionization
AT yujisaitoh hydrationofnucleobaseasprobedbyelectronemissionofuridine5monophosphateumpinaqueoussolutioninducedbynitrogenkshellionization
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