Synthetic Lesions with a Fluorescein Carbamoyl Group As Analogs of Bulky Lesions Removable by Nucleotide Excision Repair: A Comparative Study on Properties.

IF 2 4区 生物学 Q4 CELL BIOLOGY
A A Popov, V M Golyshev, L S Koroleva, K D Nazarov, R O Anarbaev, I O Petruseva
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引用次数: 0

Abstract

Mammalian nucleotide excision repair (NER), known for its broad substrate specificity, is responsible for removal of bulky lesions from DNA. Over 30 proteins are involved in NER, which includes two distinct pathways: global genome NER and transcription-coupled repair. The complexity of these processes, the use of extended DNA substrates, and the presence of bulky DNA lesions induced by chemotherapy have driven researchers to seek more effective methods by which to assess NER activity, as well as to develop model DNAs that serve as efficient substrates for studying lesion removal. In this work, we conducted a comparative analysis of model DNAs containing bulky lesions. One of these lesions, N-[6-{5(6)-fluoresceinylcarbamoyl}hexanoyl]-3-amino-1,2-propanediol (nFluL), is known to be efficiently recognized and excised by NER. The second lesion, N-[6-{5(6)-fluoresceinylcarbamoyl}]-3-amino-1,2-propanediol (nFluS), has not previously been tested as a substrate for NER. To evaluate the efficiency of lesion excision, a 3'-terminal labeling method was employed to analyze the excision products. The results showed that nFluS is removed approximately twice as efficiently as nFluL. Comparative analyses of the effects of nFluL and nFluS on the geometry and thermal stability of DNA duplexes - combined with spectrophotometric and spectrofluorimetric titrations of these DNAs with complementary strands - were performed next. They revealed that the absence of an extended flexible linker in nFluS alters the interaction of the bulky fluorescein moiety with neighboring nitrogenous bases in double-stranded DNA. This absence is associated with the enhanced efficiency of excision of nFluS, making it a more effective synthetic analog for studying bulky-lesion removal in model DNA substrates.

用荧光素氨基甲酰基合成可通过核苷酸切除修复去除的大块病变的类似物:性质比较研究。
哺乳动物核苷酸切割修复(NER)以其广泛的底物特异性而闻名,负责清除 DNA 中的大块病变。有 30 多种蛋白质参与 NER,其中包括两种不同的途径:全基因组 NER 和转录耦合修复。这些过程的复杂性、扩展 DNA 底物的使用以及化疗诱导的大块 DNA 病变的存在,促使研究人员寻求更有效的方法来评估 NER 活性,并开发可作为研究病变去除的有效底物的 DNA 模型。在这项工作中,我们对含有大块病变的模型 DNA 进行了比较分析。其中一个病变是 N-[6-{5(6)-荧光素氨基甲酰基}己酰基]-3-氨基-1,2-丙二醇(nFluL),已知它能被 NER 有效识别和切除。第二个病变是 N-[6-{5(6)-荧光素基氨基甲酰基}]-3-氨基-1,2-丙二醇(nFluS),以前没有作为 NER 的底物进行过测试。为了评估病变切除的效率,我们采用了一种 3'- 末端标记方法来分析切除产物。结果显示,nFluS 的切除效率大约是 nFluL 的两倍。接下来,研究人员对 nFluL 和 nFluS 对 DNA 双链的几何形状和热稳定性的影响进行了比较分析,并对这些 DNA 与互补链进行了分光光度法和分光荧光法滴定。研究结果表明,nFluS 中没有延伸的柔性连接体,这改变了笨重的荧光素分子与双链 DNA 中相邻含氮碱基的相互作用。这种缺失与 nFluS 的切除效率提高有关,使其成为研究模型 DNA 底物中大体积离子切除的更有效合成类似物。
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来源期刊
Acta Naturae
Acta Naturae 农林科学-林学
CiteScore
3.50
自引率
5.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: Acta Naturae is an international journal on life sciences based in Moscow, Russia. Our goal is to present scientific work and discovery in molecular biology, biochemistry, biomedical disciplines and biotechnology. These fields represent the most important priorities for the research and engineering development both in Russia and worldwide. Acta Naturae is also a periodical for those who are curious in various aspects of biotechnological business, innovations in pharmaceutical areas, intellectual property protection and social consequences of scientific progress. The journal publishes analytical industrial surveys focused on the development of different spheres of modern life science and technology. Being a radically new and totally unique journal in Russia, Acta Naturae is useful to both representatives of fundamental research and experts in applied sciences.
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