Transcriptome profiling of cells exposed to particular and intense electromagnetic radiation emitted by the "SG-III" prototype laser facility

Abstract The experiment of inertial confinement fusion by the “ShengGuang (SG)-III” prototype laser facility is a transient and extreme reaction process within several nanoseconds, which could form a very complicated and intense electromagnetic field around the target chamber of the facility and may...

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Autores principales: Jiangbin Wei, Qiwu Shi, Lidan Xiong, Guang Xin, Tao Yi, Yunqing Xiao, Wanxia Huang
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Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/0bc85cea594547c5862144fee2e6cd97
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spelling oai:doaj.org-article:0bc85cea594547c5862144fee2e6cd972021-12-02T13:48:41ZTranscriptome profiling of cells exposed to particular and intense electromagnetic radiation emitted by the "SG-III" prototype laser facility10.1038/s41598-021-81642-52045-2322https://doaj.org/article/0bc85cea594547c5862144fee2e6cd972021-01-01T00:00:00Zhttps://doi.org/10.1038/s41598-021-81642-5https://doaj.org/toc/2045-2322Abstract The experiment of inertial confinement fusion by the “ShengGuang (SG)-III” prototype laser facility is a transient and extreme reaction process within several nanoseconds, which could form a very complicated and intense electromagnetic field around the target chamber of the facility and may lead to harmful effect on people around. In particular, the biological effects arising from such specific environment field could hardly be ignored and have never been investigated yet, and thus, we reported on the investigation of the biological effects of radiation on HaCat cells and PC12 cells to preliminarily assess the biological safety of the target range of the "SG-III" prototype laser facility. The viability revealed that the damage of cells was dose-dependent. Then we compared the transcriptomes of exposed and unexposed PC12 cells by RNA-Seq analysis based on Illumina Novaseq 6000 platform and found that most significantly differentially expressed genes with corresponding Gene Ontology terms and pathways were strongly involved in proliferation, transformation, necrosis, inflammation response, apoptosis and DNA damage. Furthermore, we find increase in the levels of several proteins responsible for cell-cycle regulation and tumor suppression, suggesting that pathways or mechanisms regarding DNA damage repair was are quickly activated. It was found that "SG-III" prototype radiation could induce DNA damage and promote apoptotic necrosis.Jiangbin WeiQiwu ShiLidan XiongGuang XinTao YiYunqing XiaoWanxia HuangNature PortfolioarticleMedicineRScienceQENScientific Reports, Vol 11, Iss 1, Pp 1-14 (2021)
institution DOAJ
collection DOAJ
language EN
topic Medicine
R
Science
Q
spellingShingle Medicine
R
Science
Q
Jiangbin Wei
Qiwu Shi
Lidan Xiong
Guang Xin
Tao Yi
Yunqing Xiao
Wanxia Huang
Transcriptome profiling of cells exposed to particular and intense electromagnetic radiation emitted by the "SG-III" prototype laser facility
description Abstract The experiment of inertial confinement fusion by the “ShengGuang (SG)-III” prototype laser facility is a transient and extreme reaction process within several nanoseconds, which could form a very complicated and intense electromagnetic field around the target chamber of the facility and may lead to harmful effect on people around. In particular, the biological effects arising from such specific environment field could hardly be ignored and have never been investigated yet, and thus, we reported on the investigation of the biological effects of radiation on HaCat cells and PC12 cells to preliminarily assess the biological safety of the target range of the "SG-III" prototype laser facility. The viability revealed that the damage of cells was dose-dependent. Then we compared the transcriptomes of exposed and unexposed PC12 cells by RNA-Seq analysis based on Illumina Novaseq 6000 platform and found that most significantly differentially expressed genes with corresponding Gene Ontology terms and pathways were strongly involved in proliferation, transformation, necrosis, inflammation response, apoptosis and DNA damage. Furthermore, we find increase in the levels of several proteins responsible for cell-cycle regulation and tumor suppression, suggesting that pathways or mechanisms regarding DNA damage repair was are quickly activated. It was found that "SG-III" prototype radiation could induce DNA damage and promote apoptotic necrosis.
format article
author Jiangbin Wei
Qiwu Shi
Lidan Xiong
Guang Xin
Tao Yi
Yunqing Xiao
Wanxia Huang
author_facet Jiangbin Wei
Qiwu Shi
Lidan Xiong
Guang Xin
Tao Yi
Yunqing Xiao
Wanxia Huang
author_sort Jiangbin Wei
title Transcriptome profiling of cells exposed to particular and intense electromagnetic radiation emitted by the "SG-III" prototype laser facility
title_short Transcriptome profiling of cells exposed to particular and intense electromagnetic radiation emitted by the "SG-III" prototype laser facility
title_full Transcriptome profiling of cells exposed to particular and intense electromagnetic radiation emitted by the "SG-III" prototype laser facility
title_fullStr Transcriptome profiling of cells exposed to particular and intense electromagnetic radiation emitted by the "SG-III" prototype laser facility
title_full_unstemmed Transcriptome profiling of cells exposed to particular and intense electromagnetic radiation emitted by the "SG-III" prototype laser facility
title_sort transcriptome profiling of cells exposed to particular and intense electromagnetic radiation emitted by the "sg-iii" prototype laser facility
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/0bc85cea594547c5862144fee2e6cd97
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