磷酸盐甲基化寡核苷酸的过去、现在和未来

生物物理化学(英文) Pub Date : 2020-08-06 DOI:10.4236/jbpc.2020.113003

Hm Henk Buck

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引用次数: 2

摘要

目前，我们看到应用反义寡核苷酸(ASOs)来调节某些疾病相关基因的表达的巨大兴趣。这些核苷酸在沃森-克里克碱基对的保护下，通过对天然DNA和RNA的化学处理，获得了许多令人着迷的特性。大约35年前，我们在这一领域的研究中选择了合成(简称)磷酸甲基化DNA和RNA。与天然DNA和RNA的杂交亲和性存在排他性选择。这些(生物)化学和物理化学性质被广泛发表。aso已经在公共卫生领域找到了自己的出路，这在治疗(进行性)神经系统疾病中得到了清楚的证明。我们特别关注磷酸盐甲基化寡核苷酸的过去，现在和未来，并以化学和生物物理学的不同研究来说明。通过设计磷酸甲基化DNA作为探针，对纳米线场效应晶体管基因芯片的灵敏度和特异性进行交互改进，是修饰DNA的一个新的应用领域。

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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Phosphate-Methylated Oligonucleotides Past, Present and Future

At the moment, we see a great interest for application of Anti Sense Oligonucleotides (ASOs) in order to regulate the expression of genes related to certain diseases. These nucleotides obtained a number of fascinating properties by means of chemical manipulation of natural DNA and RNA under conservation of Watson-Crick base-pairing. About 35 years ago for our research in this field, we selected synthetically (short) phosphate-methylated DNA and RNA. It was concluded that there is an exclusive selection in hybridization affinity with natural DNA and RNA. These (bio)chemical and physical-chemical properties are extensively published. ASOs have found their way in public health as is clearly shown in the treatment of (progressive) neurological diseases. We focus specifically on the past, present and future of the phosphate-methylated oligonucleotides, illustrated with different research studies in chemistry and biophysics. A new field of application of modified DNAs is based on interactive improvements of sensitivity and specificity of nanowire field effect transistor gene chip by designing phosphate-methylated DNA as probe.

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生物物理化学(英文)

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