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次黄嘌呤取代对靶向KRAS2致癌mRNA分子的肽核酸的影响:理论与实验

Effects of hypoxanthine substitution in peptide nucleic acids targeting KRAS2 oncogenic mRNA molecules: theory and experiment.

作者信息

Sanders Jeffrey M, Wampole Matthew E, Chen Chang-Po, Sethi Dalip, Singh Amrita, Dupradeau François-Yves, Wang Fan, Gray Brian D, Thakur Mathew L, Wickstrom Eric

机构信息

Departments of Biochemistry & Molecular Biology and ∥Radiology, and ⊥Kimmel Cancer Center, Thomas Jefferson University , Philadelphia, Pennsylvania 19107, United States.

出版信息

J Phys Chem B. 2013 Oct 3;117(39):11584-95. doi: 10.1021/jp4064966. Epub 2013 Sep 18.

DOI:10.1021/jp4064966
PMID:23972113
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3946533/
Abstract

Genetic disorders can arise from single base substitutions in a single gene. A single base substitution for wild type guanine in the twelfth codon of KRAS2 mRNA occurs frequently to initiate lung, pancreatic, and colon cancer. We have observed single base mismatch specificity in radioimaging of mutant KRAS2 mRNA in tumors in mice by in vivo hybridization with radiolabeled peptide nucleic acid (PNA) dodecamers. We hypothesized that multimutant specificity could be achieved with a PNA dodecamer incorporating hypoxanthine, which can form Watson-Crick base pairs with adenine, cytosine, thymine, and uracil. Using molecular dynamics simulations and free energy calculations, we show that hypoxanthine substitutions in PNAs are tolerated in KRAS2 RNA:PNA duplexes where wild type guanine is replaced by mutant uracil or adenine in RNA. To validate our predictions, we synthesized PNA dodecamers with hypoxanthine, and then measured the thermal stability of RNA:PNA duplexes. Circular dichroism thermal melting results showed that hypoxanthine-containing PNAs are more stable in duplexes where hypoxanthine-adenine and hypoxanthine-uracil base pairs are formed than single mismatch duplexes or duplexes containing hypoxanthine-guanine opposition.

摘要

遗传疾病可能源于单个基因中的单碱基替换。KRAS2 mRNA的第十二个密码子中野生型鸟嘌呤的单碱基替换频繁发生,从而引发肺癌、胰腺癌和结肠癌。通过与放射性标记的肽核酸(PNA)十二聚体进行体内杂交,我们在小鼠肿瘤中突变KRAS2 mRNA的放射成像中观察到了单碱基错配特异性。我们假设,通过掺入次黄嘌呤的PNA十二聚体可以实现多突变特异性,次黄嘌呤可以与腺嘌呤、胞嘧啶、胸腺嘧啶和尿嘧啶形成沃森-克里克碱基对。使用分子动力学模拟和自由能计算,我们表明,在KRAS2 RNA:PNA双链体中,当RNA中的野生型鸟嘌呤被突变的尿嘧啶或腺嘌呤取代时,PNA中的次黄嘌呤替换是可以耐受的。为了验证我们的预测,我们合成了含次黄嘌呤的PNA十二聚体,然后测量了RNA:PNA双链体的热稳定性。圆二色性热熔解结果表明,在形成次黄嘌呤-腺嘌呤和次黄嘌呤-尿嘧啶碱基对的双链体中,含次黄嘌呤的PNA比单错配双链体或含次黄嘌呤-鸟嘌呤配对的双链体更稳定。

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