Damaging Intermolecular Relaxation Processes Initiated by Heavy-Ion Irradiation of Hydrated Biomolecules

Yue Gao; Anna D. Skitnevskaya; Enliang Wang; Hang Yuan; Xueguang Ren; Hong Lin; Zhenyu Yan; Shaofeng Zhang; Shaofei Gu; Bo Yang; Feng Fang; Shuncheng Yan; Dalong Guo; Xiaolong Zhu; Dongmei Zhao; Caojie Shao; Zhongkui Huang; Xiaorui Xue; Xintai Hao; Jiaqi Zhou; Tongmin Zhang; Jinyu Li; Xinliang Yan; Meng Wang; Lijun Mao; Dayu Yin; Meitang Tang; Youjin Yuan; Jiancheng Yang; Alexander B. Trofimov; Lorenz S. Cederbaum; Alexander I. Kuleff; Xinwen Ma; Shenyue Xu

doi:10.1103/PhysRevX.15.011053

Damaging Intermolecular Relaxation Processes Initiated by Heavy-Ion Irradiation of Hydrated Biomolecules

Yue Gao
, Anna D. Skitnevskaya
, Enliang Wang
, Hang Yuan
, Xueguang Ren
, Hong Lin
, Zhenyu Yan
, Shaofeng Zhang
, Shaofei Gu
, Bo Yang
, Feng Fang
, Shuncheng Yan
, Dalong Guo
, Xiaolong Zhu
, Dongmei Zhao
, Caojie Shao
, Zhongkui Huang
, Xiaorui Xue
, Xintai Hao
, Jiaqi Zhou

Tongmin Zhang, Jinyu Li, Xinliang Yan, Meng Wang, Lijun Mao, Dayu Yin, Meitang Tang, Youjin Yuan, Jiancheng Yang, Alexander B. Trofimov, Lorenz S. Cederbaum, Alexander I. Kuleff, Xinwen Ma, Shenyue Xu

物理学院

CAS - Institute of Modern Physics
University of Chinese Academy of Sciences
Irkutsk State University
SB RAS
University of Science and Technology of China
Lanzhou University
Xi'an Jiaotong University
Heidelberg University

科研成果: 期刊稿件 › 文章 › 同行评审

3 引用（Scopus）

摘要

Intermolecular Coulombic decay (ICD) is considered a general phenomenon that plays a key role in many fundamental and applied fields related to biological environments. In many cases, however, the mechanisms and efficiency of ICD have yet to be uncovered. A prominent example is heavy-ion cancer therapy. Here, we report the first detection of a damaging intermolecular relaxation cascade initiated by heavy-ion bombardment of hydrated pyrimidine clusters. The process can significantly contribute to the high biological effectiveness of heavy-ion irradiation and thus might play an essential role in many radiotherapy techniques. Inner-valence ionization of the cluster initiates ICD and triggers proton transfer between water molecules, producing destructive low-energy electrons, HO• radicals, and hydrated protons. Notably, the efficiency of ICD was found to increase dramatically with the number of water molecules, making ICD the dominant decay mechanism after inner-valence ionization. These findings indicate that the biological damage, caused by ICD in aqueous environments, is much more severe than was previously recognized.

源语言	英语
文章编号	011053
期刊	Physical Review X
卷	15
期	1
DOI	https://doi.org/10.1103/PhysRevX.15.011053
出版状态	已出版 - 1月 2025

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10.1103/PhysRevX.15.011053

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Gao, Y., Skitnevskaya, A. D., Wang, E., Yuan, H., Ren, X., Lin, H., Yan, Z., Zhang, S., Gu, S., Yang, B., Fang, F., Yan, S., Guo, D., Zhu, X., Zhao, D., Shao, C., Huang, Z., Xue, X., Hao, X., ... Xu, S. (2025). Damaging Intermolecular Relaxation Processes Initiated by Heavy-Ion Irradiation of Hydrated Biomolecules. Physical Review X, 15(1), 文章 011053. https://doi.org/10.1103/PhysRevX.15.011053

@article{b0c53446d8f64318adfda5fef5bbc217,

title = "Damaging Intermolecular Relaxation Processes Initiated by Heavy-Ion Irradiation of Hydrated Biomolecules",

abstract = "Intermolecular Coulombic decay (ICD) is considered a general phenomenon that plays a key role in many fundamental and applied fields related to biological environments. In many cases, however, the mechanisms and efficiency of ICD have yet to be uncovered. A prominent example is heavy-ion cancer therapy. Here, we report the first detection of a damaging intermolecular relaxation cascade initiated by heavy-ion bombardment of hydrated pyrimidine clusters. The process can significantly contribute to the high biological effectiveness of heavy-ion irradiation and thus might play an essential role in many radiotherapy techniques. Inner-valence ionization of the cluster initiates ICD and triggers proton transfer between water molecules, producing destructive low-energy electrons, HO• radicals, and hydrated protons. Notably, the efficiency of ICD was found to increase dramatically with the number of water molecules, making ICD the dominant decay mechanism after inner-valence ionization. These findings indicate that the biological damage, caused by ICD in aqueous environments, is much more severe than was previously recognized.",

author = "Yue Gao and Skitnevskaya, \{Anna D.\} and Enliang Wang and Hang Yuan and Xueguang Ren and Hong Lin and Zhenyu Yan and Shaofeng Zhang and Shaofei Gu and Bo Yang and Feng Fang and Shuncheng Yan and Dalong Guo and Xiaolong Zhu and Dongmei Zhao and Caojie Shao and Zhongkui Huang and Xiaorui Xue and Xintai Hao and Jiaqi Zhou and Tongmin Zhang and Jinyu Li and Xinliang Yan and Meng Wang and Lijun Mao and Dayu Yin and Meitang Tang and Youjin Yuan and Jiancheng Yang and Trofimov, \{Alexander B.\} and Cederbaum, \{Lorenz S.\} and Kuleff, \{Alexander I.\} and Xinwen Ma and Shenyue Xu",

note = "Publisher Copyright: {\textcopyright} 2025 authors.",

year = "2025",

month = jan,

doi = "10.1103/PhysRevX.15.011053",

language = "英语",

volume = "15",

journal = "Physical Review X",

issn = "2160-3308",

publisher = "American Physical Society",

number = "1",

}

Gao, Y, Skitnevskaya, AD, Wang, E, Yuan, H, Ren, X, Lin, H, Yan, Z, Zhang, S, Gu, S, Yang, B, Fang, F, Yan, S, Guo, D, Zhu, X, Zhao, D, Shao, C, Huang, Z, Xue, X, Hao, X, Zhou, J, Zhang, T, Li, J, Yan, X, Wang, M, Mao, L, Yin, D, Tang, M, Yuan, Y, Yang, J, Trofimov, AB, Cederbaum, LS, Kuleff, AI, Ma, X & Xu, S 2025, 'Damaging Intermolecular Relaxation Processes Initiated by Heavy-Ion Irradiation of Hydrated Biomolecules', Physical Review X, 卷 15, 号码 1, 011053. https://doi.org/10.1103/PhysRevX.15.011053

TY - JOUR

T1 - Damaging Intermolecular Relaxation Processes Initiated by Heavy-Ion Irradiation of Hydrated Biomolecules

AU - Gao, Yue

AU - Skitnevskaya, Anna D.

AU - Wang, Enliang

AU - Yuan, Hang

AU - Ren, Xueguang

AU - Lin, Hong

AU - Yan, Zhenyu

AU - Zhang, Shaofeng

AU - Gu, Shaofei

AU - Yang, Bo

AU - Fang, Feng

AU - Yan, Shuncheng

AU - Guo, Dalong

AU - Zhu, Xiaolong

AU - Zhao, Dongmei

AU - Shao, Caojie

AU - Huang, Zhongkui

AU - Xue, Xiaorui

AU - Hao, Xintai

AU - Zhou, Jiaqi

AU - Zhang, Tongmin

AU - Li, Jinyu

AU - Yan, Xinliang

AU - Wang, Meng

AU - Mao, Lijun

AU - Yin, Dayu

AU - Tang, Meitang

AU - Yuan, Youjin

AU - Yang, Jiancheng

AU - Trofimov, Alexander B.

AU - Cederbaum, Lorenz S.

AU - Kuleff, Alexander I.

AU - Ma, Xinwen

AU - Xu, Shenyue

PY - 2025/1

Y1 - 2025/1

N2 - Intermolecular Coulombic decay (ICD) is considered a general phenomenon that plays a key role in many fundamental and applied fields related to biological environments. In many cases, however, the mechanisms and efficiency of ICD have yet to be uncovered. A prominent example is heavy-ion cancer therapy. Here, we report the first detection of a damaging intermolecular relaxation cascade initiated by heavy-ion bombardment of hydrated pyrimidine clusters. The process can significantly contribute to the high biological effectiveness of heavy-ion irradiation and thus might play an essential role in many radiotherapy techniques. Inner-valence ionization of the cluster initiates ICD and triggers proton transfer between water molecules, producing destructive low-energy electrons, HO• radicals, and hydrated protons. Notably, the efficiency of ICD was found to increase dramatically with the number of water molecules, making ICD the dominant decay mechanism after inner-valence ionization. These findings indicate that the biological damage, caused by ICD in aqueous environments, is much more severe than was previously recognized.

AB - Intermolecular Coulombic decay (ICD) is considered a general phenomenon that plays a key role in many fundamental and applied fields related to biological environments. In many cases, however, the mechanisms and efficiency of ICD have yet to be uncovered. A prominent example is heavy-ion cancer therapy. Here, we report the first detection of a damaging intermolecular relaxation cascade initiated by heavy-ion bombardment of hydrated pyrimidine clusters. The process can significantly contribute to the high biological effectiveness of heavy-ion irradiation and thus might play an essential role in many radiotherapy techniques. Inner-valence ionization of the cluster initiates ICD and triggers proton transfer between water molecules, producing destructive low-energy electrons, HO• radicals, and hydrated protons. Notably, the efficiency of ICD was found to increase dramatically with the number of water molecules, making ICD the dominant decay mechanism after inner-valence ionization. These findings indicate that the biological damage, caused by ICD in aqueous environments, is much more severe than was previously recognized.

UR - https://www.scopus.com/pages/publications/105000314126

U2 - 10.1103/PhysRevX.15.011053

DO - 10.1103/PhysRevX.15.011053

M3 - 文章

AN - SCOPUS:105000314126

SN - 2160-3308

VL - 15

JO - Physical Review X

JF - Physical Review X

IS - 1

M1 - 011053

ER -

Damaging Intermolecular Relaxation Processes Initiated by Heavy-Ion Irradiation of Hydrated Biomolecules

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