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通过渗透压胁迫测定短DNA、RNA和2'-O-甲基寡核苷酸的水合作用。

Hydration of short DNA, RNA and 2'-OMe oligonucleotides determined by osmotic stressing.

作者信息

Rozners Eriks, Moulder Janelle

机构信息

Department of Chemistry and Chemical Biology, Northeastern University, Boston, MA 02115, USA.

出版信息

Nucleic Acids Res. 2004 Jan 9;32(1):248-54. doi: 10.1093/nar/gkh175. Print 2004.

DOI:10.1093/nar/gkh175
PMID:14715922
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC373285/
Abstract

Studies on hydration are important for better understanding of structure and function of nucleic acids. We compared the hydration of self-complementary DNA, RNA and 2'-O-methyl (2'-OMe) oligonucleotides GCGAAUUCGC, (UA)6 and (CG)3 using the osmotic stressing method. The number of water molecules released upon melting of oligonucleotide duplexes, Delta(n)W, was calculated from the dependence of melting temperature on water activity and the enthalpy, both measured with UV thermal melting experiments. The water activity was changed by addition of ethylene glycol, glycerol and acetamide as small organic co-solutes. The Delta(n)W was 3-4 for RNA duplexes and 2-3 for DNA and 2'-OMe duplexes. Thus, the RNA duplexes were hydrated more than the DNA and the 2'-OMe oligonucleotide duplexes by approximately one to two water molecules depending on the sequence. Consistent with previous studies, GC base pairs were hydrated more than AU pairs in RNA, whereas in DNA and 2'-OMe oligonucleotides the difference in hydration between these two base pairs was relatively small. Our data suggest that the better hydration of RNA contributes to the increased enthalpic stability of RNA duplexes compared with DNA duplexes.

摘要

关于水合作用的研究对于更好地理解核酸的结构和功能非常重要。我们使用渗透压胁迫法比较了自互补DNA、RNA和2'-O-甲基(2'-OMe)寡核苷酸GCGAAUUCGC、(UA)6和(CG)3的水合作用。通过紫外热变性实验测量的熔解温度对水活度和焓的依赖性,计算出寡核苷酸双链体熔解时释放的水分子数Δ(n)W。通过添加乙二醇、甘油和乙酰胺等小有机共溶质来改变水活度。RNA双链体的Δ(n)W为3 - 4,DNA和2'-OMe双链体的为2 - 3。因此,根据序列不同,RNA双链体比DNA和2'-OMe寡核苷酸双链体多水化大约一到两个水分子。与先前的研究一致,在RNA中,GC碱基对比AU碱基对水化程度更高,而在DNA和2'-OMe寡核苷酸中,这两种碱基对之间的水化差异相对较小。我们的数据表明,与DNA双链体相比,RNA更好的水合作用有助于提高RNA双链体的焓稳定性。

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