One-hit kill: On the inactivation of RNA viruses by ultraviolet (UV)-C-induced genomic damage

IF 3.9 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of photochemistry and photobiology. B, Biology Pub Date : 2024-06-02 DOI:10.1016/j.jphotobiol.2024.112949

Hyun Park , Go Woon Shin , Sang Min Lee , Gyu Won Jeong , Hui Young Kim , Hajin Kim , Hyun Woo Choi , Whaseon Lee-Kwon , Hyug Moo Kwon

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Abstract

Large scale outbreaks of infectious respiratory disease have repeatedly plagued the globe over the last 100 years. The scope and strength of the outbreaks are getting worse as pathogenic RNA viruses are rapidly evolving and highly evasive to vaccines and anti-viral drugs. Germicidal UV-C is considered as a robust agent to disinfect RNA viruses regardless of their evolution. While genomic damage by UV-C has been known to be associated with viral inactivation, the precise relationship between the damage and inactivation remains unsettled as genomic damage has been analyzed in small areas, typically under 0.5 kb. In this study, we assessed genomic damage by the reduced efficiency of reverse transcription of regions of up to 7.2 kb. Our data seem to indicate that genomic damage was directly proportional to the size of the genome, and a single hit of damage was sufficient for inactivation of RNA viruses. The high efficacy of UV-C is already effectively adopted to inactivate airborne RNA viruses.

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一击必杀：紫外线（UV）-C 诱导的基因组损伤对 RNA 病毒的灭活作用

在过去的 100 年里，大规模爆发的呼吸道传染病屡次困扰全球。由于致病性 RNA 病毒进化迅速，对疫苗和抗病毒药物具有很强的躲避性，因此疫情的范围和强度越来越大。无论 RNA 病毒如何进化，紫外线杀菌都被认为是一种强有力的消毒剂。虽然已知紫外线-C 对基因组的破坏与病毒灭活有关，但破坏与灭活之间的确切关系仍未确定，因为对基因组破坏的分析范围较小，通常在 0.5 kb 以下。在这项研究中，我们通过对长达 7.2 kb 的区域反转录效率的降低来评估基因组损伤。我们的数据似乎表明，基因组损伤与基因组的大小成正比，一次损伤就足以使 RNA 病毒失活。紫外线-C 的高效率已被有效地用于灭活空气中的 RNA 病毒。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of photochemistry and photobiology. B, Biology 生物-生化与分子生物学

CiteScore

12.10

自引率

1.90%

发文量

161

审稿时长

37 days

期刊介绍： The Journal of Photochemistry and Photobiology B: Biology provides a forum for the publication of papers relating to the various aspects of photobiology, as well as a means for communication in this multidisciplinary field. The scope includes: - Bioluminescence - Chronobiology - DNA repair - Environmental photobiology - Nanotechnology in photobiology - Photocarcinogenesis - Photochemistry of biomolecules - Photodynamic therapy - Photomedicine - Photomorphogenesis - Photomovement - Photoreception - Photosensitization - Photosynthesis - Phototechnology - Spectroscopy of biological systems - UV and visible radiation effects and vision.