序列依赖性的完整寡核苷酸库的紫外线损伤。

Sequence dependent UV damage of complete pools of oligonucleotides.

机构信息

Harvard-Smithsonian Center for Astrophysics, Department of Astronomy, Harvard University, 60 Garden Street, Cambridge, MA, 02138, USA.

Laboratory for Functional Genome Analysis, Gene Center, Ludwig Maximilians University Munich, Feodor-Lynen-Straße 25, 81377, Munich, Germany.

出版信息

Sci Rep. 2023 Feb 14;13(1):2638. doi: 10.1038/s41598-023-29833-0.

DOI:10.1038/s41598-023-29833-0

PMID:36788271

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9929323/

Abstract

Understanding the sequence-dependent DNA damage formation requires probing a complete pool of sequences over a wide dose range of the damage-causing exposure. We used high throughput sequencing to simultaneously obtain the dose dependence and quantum yields for oligonucleotide damages for all possible 4096 DNA sequences with hexamer length. We exposed the DNA to ultraviolet radiation at 266 nm and doses of up to 500 absorbed photons per base. At the dimer level, our results confirm existing literature values of photodamage, whereas we now quantified the susceptibility of sequence motifs to UV irradiation up to previously inaccessible polymer lengths. This revealed the protective effect of the sequence context in preventing the formation of UV-lesions. For example, the rate to form dipyrimidine lesions is strongly reduced by nearby guanine bases. Our results provide a complete picture of the sensitivity of oligonucleotides to UV irradiation and allow us to predict their abundance in high-UV environments.

摘要

理解序列依赖性 DNA 损伤的形成需要在广泛的损伤暴露剂量范围内探测完整的序列库。我们使用高通量测序技术，同时获得了所有可能的 4096 个六聚体长度的 DNA 序列的碱基对剂量依赖性和量子产率。我们用 266nm 的紫外线辐射暴露 DNA，剂量高达 500 个每碱基吸收的光子。在二聚体水平上，我们的结果证实了现有文献中关于光损伤的数值，而我们现在定量了序列基序对紫外线辐射的敏感性，达到了以前无法达到的聚合物长度。这揭示了序列上下文在防止紫外线损伤形成中的保护作用。例如，嘧啶二聚体损伤的形成速率被附近的鸟嘌呤碱基强烈降低。我们的结果提供了寡核苷酸对紫外线辐射敏感性的完整图像，并允许我们预测它们在高紫外线环境中的丰度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c4e4/9929323/1c64bb1d486e/41598_2023_29833_Fig1_HTML.jpg

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序列依赖性的完整寡核苷酸库的紫外线损伤。

Sequence dependent UV damage of complete pools of oligonucleotides.

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